---
_id: '9828'
abstract:
- lang: eng
  text: Amplitude demodulation is a classical operation used in signal processing.
    For a long time, its effective applications in practice have been limited to narrowband
    signals. In this work, we generalize amplitude demodulation to wideband signals.
    We pose demodulation as a recovery problem of an oversampled corrupted signal
    and introduce special iterative schemes belonging to the family of alternating
    projection algorithms to solve it. Sensibly chosen structural assumptions on the
    demodulation outputs allow us to reveal the high inferential accuracy of the method
    over a rich set of relevant signals. This new approach surpasses current state-of-the-art
    demodulation techniques apt to wideband signals in computational efficiency by
    up to many orders of magnitude with no sacrifice in quality. Such performance
    opens the door for applications of the amplitude demodulation procedure in new
    contexts. In particular, the new method makes online and large-scale offline data
    processing feasible, including the calculation of modulator-carrier pairs in higher
    dimensions and poor sampling conditions, independent of the signal bandwidth.
    We illustrate the utility and specifics of applications of the new method in practice
    by using natural speech and synthetic signals.
acknowledgement: The author thanks his colleagues K. Huszár and G. Tkačik for valuable
  discussions and comments on the manuscript.
article_processing_charge: No
article_type: original
arxiv: 1
author:
- first_name: Mantas
  full_name: Gabrielaitis, Mantas
  id: 4D5B0CBC-F248-11E8-B48F-1D18A9856A87
  last_name: Gabrielaitis
  orcid: 0000-0002-7758-2016
citation:
  ama: Gabrielaitis M. Fast and accurate amplitude demodulation of wideband signals.
    <i>IEEE Transactions on Signal Processing</i>. 2021;69:4039-4054. doi:<a href="https://doi.org/10.1109/TSP.2021.3087899">10.1109/TSP.2021.3087899</a>
  apa: Gabrielaitis, M. (2021). Fast and accurate amplitude demodulation of wideband
    signals. <i>IEEE Transactions on Signal Processing</i>. Institute of Electrical
    and Electronics Engineers. <a href="https://doi.org/10.1109/TSP.2021.3087899">https://doi.org/10.1109/TSP.2021.3087899</a>
  chicago: Gabrielaitis, Mantas. “Fast and Accurate Amplitude Demodulation of Wideband
    Signals.” <i>IEEE Transactions on Signal Processing</i>. Institute of Electrical
    and Electronics Engineers, 2021. <a href="https://doi.org/10.1109/TSP.2021.3087899">https://doi.org/10.1109/TSP.2021.3087899</a>.
  ieee: M. Gabrielaitis, “Fast and accurate amplitude demodulation of wideband signals,”
    <i>IEEE Transactions on Signal Processing</i>, vol. 69. Institute of Electrical
    and Electronics Engineers, pp. 4039–4054, 2021.
  ista: Gabrielaitis M. 2021. Fast and accurate amplitude demodulation of wideband
    signals. IEEE Transactions on Signal Processing. 69, 4039–4054.
  mla: Gabrielaitis, Mantas. “Fast and Accurate Amplitude Demodulation of Wideband
    Signals.” <i>IEEE Transactions on Signal Processing</i>, vol. 69, Institute of
    Electrical and Electronics Engineers, 2021, pp. 4039–54, doi:<a href="https://doi.org/10.1109/TSP.2021.3087899">10.1109/TSP.2021.3087899</a>.
  short: M. Gabrielaitis, IEEE Transactions on Signal Processing 69 (2021) 4039–4054.
date_created: 2021-08-08T22:01:31Z
date_published: 2021-06-09T00:00:00Z
date_updated: 2023-08-10T14:19:33Z
day: '09'
department:
- _id: GaTk
doi: 10.1109/TSP.2021.3087899
external_id:
  arxiv:
  - '2102.04832'
  isi:
  - '000682123900002'
intvolume: '        69'
isi: 1
language:
- iso: eng
main_file_link:
- open_access: '1'
  url: https://arxiv.org/abs/2102.04832
month: '06'
oa: 1
oa_version: Preprint
page: 4039 - 4054
publication: IEEE Transactions on Signal Processing
publication_identifier:
  eissn:
  - 1941-0476
  issn:
  - 1053-587X
publication_status: published
publisher: Institute of Electrical and Electronics Engineers
quality_controlled: '1'
scopus_import: '1'
status: public
title: Fast and accurate amplitude demodulation of wideband signals
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 69
year: '2021'
...
---
_id: '9829'
abstract:
- lang: eng
  text: In 2020, many in-person scientific events were canceled due to the COVID-19
    pandemic, creating a vacuum in networking and knowledge exchange between scientists.
    To fill this void in scientific communication, a group of early career nanocrystal
    enthusiasts launched the virtual seminar series, News in Nanocrystals, in the
    summer of 2020. By the end of the year, the series had attracted over 850 participants
    from 46 countries. In this Nano Focus, we describe the process of organizing the
    News in Nanocrystals seminar series; discuss its growth, emphasizing what the
    organizers have learned in terms of diversity and accessibility; and provide an
    outlook for the next steps and future opportunities. This summary and analysis
    of experiences and learned lessons are intended to inform the broader scientific
    community, especially those who are looking for avenues to continue fostering
    discussion and scientific engagement virtually, both during the pandemic and after.
acknowledgement: K. E. Shulenberger, M. D. Klein, T. Šverko, and H. R. Keller would
  like to thank Professors Moungi Bawendi (MIT) and Gordana Dukovic (CU Boulder) for
  their feedback and support of the News in Nanocrystals initiative. The authors thank
  Madison Jilek (CU Boulder) and Dhananjeya Kumaar (ETH Zurich) for their help in
  the organization of the seminar, and Professors Brandi Cossairt (University of Washington)
  and Gordana Dukovic for their feedback on an earlier version of this manuscript.
  The authors thank all the seminar speakers and attendees for their interest and
  continuing participation in the seminar series.
article_processing_charge: No
article_type: original
author:
- first_name: Dmitry
  full_name: Baranov, Dmitry
  last_name: Baranov
- first_name: Tara
  full_name: Šverko, Tara
  last_name: Šverko
- first_name: Taylor
  full_name: Moot, Taylor
  last_name: Moot
- first_name: Helena R.
  full_name: Keller, Helena R.
  last_name: Keller
- first_name: Megan D.
  full_name: Klein, Megan D.
  last_name: Klein
- first_name: E. K.
  full_name: Vishnu, E. K.
  last_name: Vishnu
- first_name: Daniel
  full_name: Balazs, Daniel
  id: 302BADF6-85FC-11EA-9E3B-B9493DDC885E
  last_name: Balazs
  orcid: 0000-0001-7597-043X
- first_name: Katherine E.
  full_name: Shulenberger, Katherine E.
  last_name: Shulenberger
citation:
  ama: 'Baranov D, Šverko T, Moot T, et al. News in Nanocrystals seminar: Self-assembly
    of early career researchers toward globally accessible nanoscience. <i>ACS Nano</i>.
    2021;15(7):10743–10747. doi:<a href="https://doi.org/10.1021/acsnano.1c03276">10.1021/acsnano.1c03276</a>'
  apa: 'Baranov, D., Šverko, T., Moot, T., Keller, H. R., Klein, M. D., Vishnu, E.
    K., … Shulenberger, K. E. (2021). News in Nanocrystals seminar: Self-assembly
    of early career researchers toward globally accessible nanoscience. <i>ACS Nano</i>.
    American Chemical Society. <a href="https://doi.org/10.1021/acsnano.1c03276">https://doi.org/10.1021/acsnano.1c03276</a>'
  chicago: 'Baranov, Dmitry, Tara Šverko, Taylor Moot, Helena R. Keller, Megan D.
    Klein, E. K. Vishnu, Daniel Balazs, and Katherine E. Shulenberger. “News in Nanocrystals
    Seminar: Self-Assembly of Early Career Researchers toward Globally Accessible
    Nanoscience.” <i>ACS Nano</i>. American Chemical Society, 2021. <a href="https://doi.org/10.1021/acsnano.1c03276">https://doi.org/10.1021/acsnano.1c03276</a>.'
  ieee: 'D. Baranov <i>et al.</i>, “News in Nanocrystals seminar: Self-assembly of
    early career researchers toward globally accessible nanoscience,” <i>ACS Nano</i>,
    vol. 15, no. 7. American Chemical Society, pp. 10743–10747, 2021.'
  ista: 'Baranov D, Šverko T, Moot T, Keller HR, Klein MD, Vishnu EK, Balazs D, Shulenberger
    KE. 2021. News in Nanocrystals seminar: Self-assembly of early career researchers
    toward globally accessible nanoscience. ACS Nano. 15(7), 10743–10747.'
  mla: 'Baranov, Dmitry, et al. “News in Nanocrystals Seminar: Self-Assembly of Early
    Career Researchers toward Globally Accessible Nanoscience.” <i>ACS Nano</i>, vol.
    15, no. 7, American Chemical Society, 2021, pp. 10743–10747, doi:<a href="https://doi.org/10.1021/acsnano.1c03276">10.1021/acsnano.1c03276</a>.'
  short: D. Baranov, T. Šverko, T. Moot, H.R. Keller, M.D. Klein, E.K. Vishnu, D.
    Balazs, K.E. Shulenberger, ACS Nano 15 (2021) 10743–10747.
date_created: 2021-08-08T22:01:31Z
date_published: 2021-07-06T00:00:00Z
date_updated: 2023-08-11T10:55:08Z
day: '06'
department:
- _id: MaIb
doi: 10.1021/acsnano.1c03276
external_id:
  isi:
  - '000679406500002'
  pmid:
  - '34228432'
intvolume: '        15'
isi: 1
issue: '7'
language:
- iso: eng
main_file_link:
- open_access: '1'
  url: https://doi.org/10.1021/acsnano.1c03276
month: '07'
oa: 1
oa_version: Published Version
page: 10743–10747
pmid: 1
publication: ACS Nano
publication_identifier:
  eissn:
  - 1936086X
  issn:
  - '19360851'
publication_status: published
publisher: American Chemical Society
quality_controlled: '1'
scopus_import: '1'
status: public
title: 'News in Nanocrystals seminar: Self-assembly of early career researchers toward
  globally accessible nanoscience'
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 15
year: '2021'
...
---
_id: '9874'
abstract:
- lang: eng
  text: Myocardial regeneration is restricted to early postnatal life, when mammalian
    cardiomyocytes still retain the ability to proliferate. The molecular cues that
    induce cell cycle arrest of neonatal cardiomyocytes towards terminally differentiated
    adult heart muscle cells remain obscure. Here we report that the miR-106b~25 cluster
    is higher expressed in the early postnatal myocardium and decreases in expression
    towards adulthood, especially under conditions of overload, and orchestrates the
    transition of cardiomyocyte hyperplasia towards cell cycle arrest and hypertrophy
    by virtue of its targetome. In line, gene delivery of miR-106b~25 to the mouse
    heart provokes cardiomyocyte proliferation by targeting a network of negative
    cell cycle regulators including E2f5, Cdkn1c, Ccne1 and Wee1. Conversely, gene-targeted
    miR-106b~25 null mice display spontaneous hypertrophic remodeling and exaggerated
    remodeling to overload by derepression of the prohypertrophic transcription factors
    Hand2 and Mef2d. Taking advantage of the regulatory function of miR-106b~25 on
    cardiomyocyte hyperplasia and hypertrophy, viral gene delivery of miR-106b~25
    provokes nearly complete regeneration of the adult myocardium after ischemic injury.
    Our data demonstrate that exploitation of conserved molecular programs can enhance
    the regenerative capacity of the injured heart.
acknowledgement: E.D. is supported by a VENI award 916-150-16 from the Netherlands
  Organization for Health Research and Development (ZonMW), an EMBO Long-term Fellowship
  (EMBO ALTF 848-2013) and a FP7 Marie Curie Intra-European Fellowship (Project number
  627539). V.S.P. was funded by a fellowship from the FCT/ Ministério da Ciência,
  Tecnologia e Inovação SFRH/BD/111799/2015. P.D.C.M. is an Established Investigator
  of the Dutch Heart Foundation. L.D.W. acknowledges support from the Dutch CardioVascular
  Alliance (ARENA-PRIME). L.D.W. was further supported by grant 311549 from the European
  Research Council (ERC), a VICI award 918-156-47 from the Dutch Research Council
  and Marie Sklodowska-Curie grant agreement no. 813716 (TRAIN-HEART).
article_number: '4808'
article_processing_charge: Yes
article_type: original
author:
- first_name: Andrea
  full_name: Raso, Andrea
  last_name: Raso
- first_name: Ellen
  full_name: Dirkx, Ellen
  last_name: Dirkx
- first_name: Vasco
  full_name: Sampaio-Pinto, Vasco
  last_name: Sampaio-Pinto
- first_name: Hamid
  full_name: el Azzouzi, Hamid
  last_name: el Azzouzi
- first_name: Ryan J
  full_name: Cubero, Ryan J
  id: 850B2E12-9CD4-11E9-837F-E719E6697425
  last_name: Cubero
  orcid: 0000-0003-0002-1867
- first_name: Daniel W.
  full_name: Sorensen, Daniel W.
  last_name: Sorensen
- first_name: Lara
  full_name: Ottaviani, Lara
  last_name: Ottaviani
- first_name: Servé
  full_name: Olieslagers, Servé
  last_name: Olieslagers
- first_name: Manon M.
  full_name: Huibers, Manon M.
  last_name: Huibers
- first_name: Roel
  full_name: de Weger, Roel
  last_name: de Weger
- first_name: Sailay
  full_name: Siddiqi, Sailay
  last_name: Siddiqi
- first_name: Silvia
  full_name: Moimas, Silvia
  last_name: Moimas
- first_name: Consuelo
  full_name: Torrini, Consuelo
  last_name: Torrini
- first_name: Lorena
  full_name: Zentillin, Lorena
  last_name: Zentillin
- first_name: Luca
  full_name: Braga, Luca
  last_name: Braga
- first_name: Diana S.
  full_name: Nascimento, Diana S.
  last_name: Nascimento
- first_name: Paula A.
  full_name: da Costa Martins, Paula A.
  last_name: da Costa Martins
- first_name: Jop H.
  full_name: van Berlo, Jop H.
  last_name: van Berlo
- first_name: Serena
  full_name: Zacchigna, Serena
  last_name: Zacchigna
- first_name: Mauro
  full_name: Giacca, Mauro
  last_name: Giacca
- first_name: Leon J.
  full_name: De Windt, Leon J.
  last_name: De Windt
citation:
  ama: Raso A, Dirkx E, Sampaio-Pinto V, et al. A microRNA program regulates the balance
    between cardiomyocyte hyperplasia and hypertrophy and stimulates cardiac regeneration.
    <i>Nature Communications</i>. 2021;12. doi:<a href="https://doi.org/10.1038/s41467-021-25211-4">10.1038/s41467-021-25211-4</a>
  apa: Raso, A., Dirkx, E., Sampaio-Pinto, V., el Azzouzi, H., Cubero, R. J., Sorensen,
    D. W., … De Windt, L. J. (2021). A microRNA program regulates the balance between
    cardiomyocyte hyperplasia and hypertrophy and stimulates cardiac regeneration.
    <i>Nature Communications</i>. Springer Nature. <a href="https://doi.org/10.1038/s41467-021-25211-4">https://doi.org/10.1038/s41467-021-25211-4</a>
  chicago: Raso, Andrea, Ellen Dirkx, Vasco Sampaio-Pinto, Hamid el Azzouzi, Ryan
    J Cubero, Daniel W. Sorensen, Lara Ottaviani, et al. “A MicroRNA Program Regulates
    the Balance between Cardiomyocyte Hyperplasia and Hypertrophy and Stimulates Cardiac
    Regeneration.” <i>Nature Communications</i>. Springer Nature, 2021. <a href="https://doi.org/10.1038/s41467-021-25211-4">https://doi.org/10.1038/s41467-021-25211-4</a>.
  ieee: A. Raso <i>et al.</i>, “A microRNA program regulates the balance between cardiomyocyte
    hyperplasia and hypertrophy and stimulates cardiac regeneration,” <i>Nature Communications</i>,
    vol. 12. Springer Nature, 2021.
  ista: Raso A, Dirkx E, Sampaio-Pinto V, el Azzouzi H, Cubero RJ, Sorensen DW, Ottaviani
    L, Olieslagers S, Huibers MM, de Weger R, Siddiqi S, Moimas S, Torrini C, Zentillin
    L, Braga L, Nascimento DS, da Costa Martins PA, van Berlo JH, Zacchigna S, Giacca
    M, De Windt LJ. 2021. A microRNA program regulates the balance between cardiomyocyte
    hyperplasia and hypertrophy and stimulates cardiac regeneration. Nature Communications.
    12, 4808.
  mla: Raso, Andrea, et al. “A MicroRNA Program Regulates the Balance between Cardiomyocyte
    Hyperplasia and Hypertrophy and Stimulates Cardiac Regeneration.” <i>Nature Communications</i>,
    vol. 12, 4808, Springer Nature, 2021, doi:<a href="https://doi.org/10.1038/s41467-021-25211-4">10.1038/s41467-021-25211-4</a>.
  short: A. Raso, E. Dirkx, V. Sampaio-Pinto, H. el Azzouzi, R.J. Cubero, D.W. Sorensen,
    L. Ottaviani, S. Olieslagers, M.M. Huibers, R. de Weger, S. Siddiqi, S. Moimas,
    C. Torrini, L. Zentillin, L. Braga, D.S. Nascimento, P.A. da Costa Martins, J.H.
    van Berlo, S. Zacchigna, M. Giacca, L.J. De Windt, Nature Communications 12 (2021).
date_created: 2021-08-10T11:49:20Z
date_published: 2021-08-10T00:00:00Z
date_updated: 2023-08-11T10:27:03Z
day: '10'
ddc:
- '610'
- '570'
department:
- _id: SaSi
doi: 10.1038/s41467-021-25211-4
external_id:
  isi:
  - '000683910200042'
  pmid:
  - '34376683'
file:
- access_level: open_access
  checksum: 48d8562e8229e4282f3f354b329722c5
  content_type: application/pdf
  creator: asandaue
  date_created: 2021-08-10T12:29:59Z
  date_updated: 2021-08-10T12:29:59Z
  file_id: '9876'
  file_name: 2021_NatureCommunications_Raso.pdf
  file_size: 4364333
  relation: main_file
  success: 1
file_date_updated: 2021-08-10T12:29:59Z
genbank:
- GSE178867
has_accepted_license: '1'
intvolume: '        12'
isi: 1
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
pmid: 1
publication: Nature Communications
publication_identifier:
  eissn:
  - 2041-1723
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
related_material:
  link:
  - relation: erratum
    url: https://doi.org/10.1038/s41467-022-32785-0
scopus_import: '1'
status: public
title: A microRNA program regulates the balance between cardiomyocyte hyperplasia
  and hypertrophy and stimulates cardiac regeneration
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 12
year: '2021'
...
---
_id: '9877'
abstract:
- lang: eng
  text: 'Parent-of-origin–dependent gene expression in mammals and flowering plants
    results from differing chromatin imprints (genomic imprinting) between maternally
    and paternally inherited alleles. Imprinted gene expression in the endosperm of
    seeds is associated with localized hypomethylation of maternally but not paternally
    inherited DNA, with certain small RNAs also displaying parent-of-origin–specific
    expression. To understand the evolution of imprinting mechanisms in Oryza sativa
    (rice), we analyzed imprinting divergence among four cultivars that span both
    japonica and indica subspecies: Nipponbare, Kitaake, 93-11, and IR64. Most imprinted
    genes are imprinted across cultivars and enriched for functions in chromatin and
    transcriptional regulation, development, and signaling. However, 4 to 11% of imprinted
    genes display divergent imprinting. Analyses of DNA methylation and small RNAs
    revealed that endosperm-specific 24-nt small RNA–producing loci show weak RNA-directed
    DNA methylation, frequently overlap genes, and are imprinted four times more often
    than genes. However, imprinting divergence most often correlated with local DNA
    methylation epimutations (9 of 17 assessable loci), which were largely stable
    within subspecies. Small insertion/deletion events and transposable element insertions
    accompanied 4 of the 9 locally epimutated loci and associated with imprinting
    divergence at another 4 of the remaining 8 loci. Correlating epigenetic and genetic
    variation occurred at key regulatory regions—the promoter and transcription start
    site of maternally biased genes, and the promoter and gene body of paternally
    biased genes. Our results reinforce models for the role of maternal-specific DNA
    hypomethylation in imprinting of both maternally and paternally biased genes,
    and highlight the role of transposition and epimutation in rice imprinting evolution.'
acknowledgement: We thank W. Schackwitz, M. Joel, and the Joint Genome Institute sequencing
  team for generating the IR64 genome sequence and initial analysis; L. Bartley and
  E. Marvinney for genomic DNA preparation for IR64 resequencing; and the University
  of California (UC), Berkeley Sanger sequencing team for technical advice and service.
  This work was partially funded by NSF Grant IOS-1025890 (to R.L.F. and D.Z.), NIH
  Grant GM69415 (to R.L.F. and D.Z.), NIH Grant GM122968 (to P.C.R.), a Young Investigator
  Grant from the Arnold and Mabel Beckman Foundation (to D.Z.), an International Fulbright
  Science and Technology Award (to J.A.R.), and a Taiwan Ministry of Education Studying
  Abroad Scholarship (to P.-H.H.). This work used the Vincent J. Coates Genomics Sequencing
  Laboratory at UC Berkeley, supported by NIH Instrumentation Grant S10 OD018174.
article_number: e2104445118
article_processing_charge: Yes (in subscription journal)
article_type: original
author:
- first_name: Jessica A.
  full_name: Rodrigues, Jessica A.
  last_name: Rodrigues
- first_name: Ping-Hung
  full_name: Hsieh, Ping-Hung
  last_name: Hsieh
- first_name: Deling
  full_name: Ruan, Deling
  last_name: Ruan
- first_name: Toshiro
  full_name: Nishimura, Toshiro
  last_name: Nishimura
- first_name: Manoj K.
  full_name: Sharma, Manoj K.
  last_name: Sharma
- first_name: Rita
  full_name: Sharma, Rita
  last_name: Sharma
- first_name: XinYi
  full_name: Ye, XinYi
  last_name: Ye
- first_name: Nicholas D.
  full_name: Nguyen, Nicholas D.
  last_name: Nguyen
- first_name: Sukhranjan
  full_name: Nijjar, Sukhranjan
  last_name: Nijjar
- first_name: Pamela C.
  full_name: Ronald, Pamela C.
  last_name: Ronald
- first_name: Robert L.
  full_name: Fischer, Robert L.
  last_name: Fischer
- first_name: Daniel
  full_name: Zilberman, Daniel
  id: 6973db13-dd5f-11ea-814e-b3e5455e9ed1
  last_name: Zilberman
  orcid: 0000-0002-0123-8649
citation:
  ama: Rodrigues JA, Hsieh P-H, Ruan D, et al. Divergence among rice cultivars reveals
    roles for transposition and epimutation in ongoing evolution of genomic imprinting.
    <i>Proceedings of the National Academy of Sciences</i>. 2021;118(29). doi:<a href="https://doi.org/10.1073/pnas.2104445118">10.1073/pnas.2104445118</a>
  apa: Rodrigues, J. A., Hsieh, P.-H., Ruan, D., Nishimura, T., Sharma, M. K., Sharma,
    R., … Zilberman, D. (2021). Divergence among rice cultivars reveals roles for
    transposition and epimutation in ongoing evolution of genomic imprinting. <i>Proceedings
    of the National Academy of Sciences</i>. National Academy of Sciences. <a href="https://doi.org/10.1073/pnas.2104445118">https://doi.org/10.1073/pnas.2104445118</a>
  chicago: Rodrigues, Jessica A., Ping-Hung Hsieh, Deling Ruan, Toshiro Nishimura,
    Manoj K. Sharma, Rita Sharma, XinYi Ye, et al. “Divergence among Rice Cultivars
    Reveals Roles for Transposition and Epimutation in Ongoing Evolution of Genomic
    Imprinting.” <i>Proceedings of the National Academy of Sciences</i>. National
    Academy of Sciences, 2021. <a href="https://doi.org/10.1073/pnas.2104445118">https://doi.org/10.1073/pnas.2104445118</a>.
  ieee: J. A. Rodrigues <i>et al.</i>, “Divergence among rice cultivars reveals roles
    for transposition and epimutation in ongoing evolution of genomic imprinting,”
    <i>Proceedings of the National Academy of Sciences</i>, vol. 118, no. 29. National
    Academy of Sciences, 2021.
  ista: Rodrigues JA, Hsieh P-H, Ruan D, Nishimura T, Sharma MK, Sharma R, Ye X, Nguyen
    ND, Nijjar S, Ronald PC, Fischer RL, Zilberman D. 2021. Divergence among rice
    cultivars reveals roles for transposition and epimutation in ongoing evolution
    of genomic imprinting. Proceedings of the National Academy of Sciences. 118(29),
    e2104445118.
  mla: Rodrigues, Jessica A., et al. “Divergence among Rice Cultivars Reveals Roles
    for Transposition and Epimutation in Ongoing Evolution of Genomic Imprinting.”
    <i>Proceedings of the National Academy of Sciences</i>, vol. 118, no. 29, e2104445118,
    National Academy of Sciences, 2021, doi:<a href="https://doi.org/10.1073/pnas.2104445118">10.1073/pnas.2104445118</a>.
  short: J.A. Rodrigues, P.-H. Hsieh, D. Ruan, T. Nishimura, M.K. Sharma, R. Sharma,
    X. Ye, N.D. Nguyen, S. Nijjar, P.C. Ronald, R.L. Fischer, D. Zilberman, Proceedings
    of the National Academy of Sciences 118 (2021).
date_created: 2021-08-10T19:30:41Z
date_published: 2021-07-16T00:00:00Z
date_updated: 2023-08-11T10:28:10Z
day: '16'
ddc:
- '580'
- '570'
department:
- _id: DaZi
doi: 10.1073/pnas.2104445118
external_id:
  isi:
  - '000685037700012'
  pmid:
  - '34272287'
file:
- access_level: open_access
  checksum: 19e84ad8c03c60222744ee8e16cd6998
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  date_created: 2021-08-11T09:31:41Z
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  file_id: '9879'
  file_name: 2021_ProceedingsOfTheNationalAcademyOfSciences_Rodrigues.pdf
  file_size: 1898360
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file_date_updated: 2021-08-11T09:31:41Z
has_accepted_license: '1'
intvolume: '       118'
isi: 1
issue: '29'
language:
- iso: eng
license: https://creativecommons.org/licenses/by-nc-nd/4.0/
month: '07'
oa: 1
oa_version: Published Version
pmid: 1
publication: Proceedings of the National Academy of Sciences
publication_identifier:
  eissn:
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  issn:
  - 0027-8424
publication_status: published
publisher: National Academy of Sciences
quality_controlled: '1'
scopus_import: '1'
status: public
title: Divergence among rice cultivars reveals roles for transposition and epimutation
  in ongoing evolution of genomic imprinting
tmp:
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    (CC BY-NC-ND 4.0)
  short: CC BY-NC-ND (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 118
year: '2021'
...
---
_id: '9887'
abstract:
- lang: eng
  text: Clathrin-mediated endocytosis is the major route of entry of cargos into cells
    and thus underpins many physiological processes. During endocytosis, an area of
    flat membrane is remodeled by proteins to create a spherical vesicle against intracellular
    forces. The protein machinery which mediates this membrane bending in plants is
    unknown. However, it is known that plant endocytosis is actin independent, thus
    indicating that plants utilize a unique mechanism to mediate membrane bending
    against high-turgor pressure compared to other model systems. Here, we investigate
    the TPLATE complex, a plant-specific endocytosis protein complex. It has been
    thought to function as a classical adaptor functioning underneath the clathrin
    coat. However, by using biochemical and advanced live microscopy approaches, we
    found that TPLATE is peripherally associated with clathrin-coated vesicles and
    localizes at the rim of endocytosis events. As this localization is more fitting
    to the protein machinery involved in membrane bending during endocytosis, we examined
    cells in which the TPLATE complex was disrupted and found that the clathrin structures
    present as flat patches. This suggests a requirement of the TPLATE complex for
    membrane bending during plant clathrin–mediated endocytosis. Next, we used in
    vitro biophysical assays to confirm that the TPLATE complex possesses protein
    domains with intrinsic membrane remodeling activity. These results redefine the
    role of the TPLATE complex and implicate it as a key component of the evolutionarily
    distinct plant endocytosis mechanism, which mediates endocytic membrane bending
    against the high-turgor pressure in plant cells.
acknowledged_ssus:
- _id: EM-Fac
- _id: LifeSc
- _id: Bio
acknowledgement: 'We gratefully thank Julie Neveu and Dr. Amanda Barranco of the Grégory
  Vert laboratory for help preparing plants in France, Dr. Zuzana Gelova for help
  and advice with protoplast generation, Dr. Stéphane Vassilopoulos and Dr. Florian
  Schur for advice regarding EM tomography, Alejandro Marquiegui Alvaro for help with
  material generation, and Dr. Lukasz Kowalski for generously gifting us the mWasabi
  protein. This research was supported by the Scientific Service Units of Institute
  of Science and Technology Austria (IST Austria) through resources provided by the
  Electron Microscopy Facility, Lab Support Facility (particularly Dorota Jaworska),
  and the Bioimaging Facility. We acknowledge the Advanced Microscopy Facility of
  the Vienna BioCenter Core Facilities for use of the 3D SIM. For the mass spectrometry
  analysis of proteins, we acknowledge the University of Natural Resources and Life
  Sciences (BOKU) Core Facility Mass Spectrometry. This work was supported by the
  following funds: A.J. is supported by funding from the Austrian Science Fund I3630B25
  to J.F. P.M. and E.B. are supported by Agence Nationale de la Recherche ANR-11-EQPX-0029
  Morphoscope2 and ANR-10-INBS-04 France BioImaging. S.Y.B. is supported by the NSF
  No. 1121998 and 1614915. J.W. and D.V.D. are supported by the European Research
  Council Grant 682436 (to D.V.D.), a China Scholarship Council Grant 201508440249
  (to J.W.), and by a Ghent University Special Research Co-funding Grant ST01511051
  (to J.W.).'
article_number: e2113046118
article_processing_charge: No
article_type: original
author:
- first_name: Alexander J
  full_name: Johnson, Alexander J
  id: 46A62C3A-F248-11E8-B48F-1D18A9856A87
  last_name: Johnson
  orcid: 0000-0002-2739-8843
- first_name: Dana A
  full_name: Dahhan, Dana A
  last_name: Dahhan
- first_name: Nataliia
  full_name: Gnyliukh, Nataliia
  id: 390C1120-F248-11E8-B48F-1D18A9856A87
  last_name: Gnyliukh
  orcid: 0000-0002-2198-0509
- first_name: Walter
  full_name: Kaufmann, Walter
  id: 3F99E422-F248-11E8-B48F-1D18A9856A87
  last_name: Kaufmann
  orcid: 0000-0001-9735-5315
- first_name: Vanessa
  full_name: Zheden, Vanessa
  id: 39C5A68A-F248-11E8-B48F-1D18A9856A87
  last_name: Zheden
  orcid: 0000-0002-9438-4783
- first_name: Tommaso
  full_name: Costanzo, Tommaso
  id: D93824F4-D9BA-11E9-BB12-F207E6697425
  last_name: Costanzo
  orcid: 0000-0001-9732-3815
- first_name: Pierre
  full_name: Mahou, Pierre
  last_name: Mahou
- first_name: Mónika
  full_name: Hrtyan, Mónika
  id: 45A71A74-F248-11E8-B48F-1D18A9856A87
  last_name: Hrtyan
- first_name: Jie
  full_name: Wang, Jie
  last_name: Wang
- first_name: Juan L
  full_name: Aguilera Servin, Juan L
  id: 2A67C376-F248-11E8-B48F-1D18A9856A87
  last_name: Aguilera Servin
  orcid: 0000-0002-2862-8372
- first_name: Daniël
  full_name: van Damme, Daniël
  last_name: van Damme
- first_name: Emmanuel
  full_name: Beaurepaire, Emmanuel
  last_name: Beaurepaire
- first_name: Martin
  full_name: Loose, Martin
  id: 462D4284-F248-11E8-B48F-1D18A9856A87
  last_name: Loose
  orcid: 0000-0001-7309-9724
- first_name: Sebastian Y
  full_name: Bednarek, Sebastian Y
  last_name: Bednarek
- first_name: Jiří
  full_name: Friml, Jiří
  id: 4159519E-F248-11E8-B48F-1D18A9856A87
  last_name: Friml
  orcid: 0000-0002-8302-7596
citation:
  ama: Johnson AJ, Dahhan DA, Gnyliukh N, et al. The TPLATE complex mediates membrane
    bending during plant clathrin-mediated endocytosis. <i>Proceedings of the National
    Academy of Sciences</i>. 2021;118(51). doi:<a href="https://doi.org/10.1073/pnas.2113046118">10.1073/pnas.2113046118</a>
  apa: Johnson, A. J., Dahhan, D. A., Gnyliukh, N., Kaufmann, W., Zheden, V., Costanzo,
    T., … Friml, J. (2021). The TPLATE complex mediates membrane bending during plant
    clathrin-mediated endocytosis. <i>Proceedings of the National Academy of Sciences</i>.
    National Academy of Sciences. <a href="https://doi.org/10.1073/pnas.2113046118">https://doi.org/10.1073/pnas.2113046118</a>
  chicago: Johnson, Alexander J, Dana A Dahhan, Nataliia Gnyliukh, Walter Kaufmann,
    Vanessa Zheden, Tommaso Costanzo, Pierre Mahou, et al. “The TPLATE Complex Mediates
    Membrane Bending during Plant Clathrin-Mediated Endocytosis.” <i>Proceedings of
    the National Academy of Sciences</i>. National Academy of Sciences, 2021. <a href="https://doi.org/10.1073/pnas.2113046118">https://doi.org/10.1073/pnas.2113046118</a>.
  ieee: A. J. Johnson <i>et al.</i>, “The TPLATE complex mediates membrane bending
    during plant clathrin-mediated endocytosis,” <i>Proceedings of the National Academy
    of Sciences</i>, vol. 118, no. 51. National Academy of Sciences, 2021.
  ista: Johnson AJ, Dahhan DA, Gnyliukh N, Kaufmann W, Zheden V, Costanzo T, Mahou
    P, Hrtyan M, Wang J, Aguilera Servin JL, van Damme D, Beaurepaire E, Loose M,
    Bednarek SY, Friml J. 2021. The TPLATE complex mediates membrane bending during
    plant clathrin-mediated endocytosis. Proceedings of the National Academy of Sciences.
    118(51), e2113046118.
  mla: Johnson, Alexander J., et al. “The TPLATE Complex Mediates Membrane Bending
    during Plant Clathrin-Mediated Endocytosis.” <i>Proceedings of the National Academy
    of Sciences</i>, vol. 118, no. 51, e2113046118, National Academy of Sciences,
    2021, doi:<a href="https://doi.org/10.1073/pnas.2113046118">10.1073/pnas.2113046118</a>.
  short: A.J. Johnson, D.A. Dahhan, N. Gnyliukh, W. Kaufmann, V. Zheden, T. Costanzo,
    P. Mahou, M. Hrtyan, J. Wang, J.L. Aguilera Servin, D. van Damme, E. Beaurepaire,
    M. Loose, S.Y. Bednarek, J. Friml, Proceedings of the National Academy of Sciences
    118 (2021).
date_created: 2021-08-11T14:11:43Z
date_published: 2021-12-14T00:00:00Z
date_updated: 2024-02-19T11:06:09Z
day: '14'
ddc:
- '580'
department:
- _id: JiFr
- _id: MaLo
- _id: EvBe
- _id: EM-Fac
- _id: NanoFab
doi: 10.1073/pnas.2113046118
external_id:
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  pmid:
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file:
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  date_created: 2021-12-15T08:59:40Z
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  file_id: '10546'
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  success: 1
file_date_updated: 2021-12-15T08:59:40Z
has_accepted_license: '1'
intvolume: '       118'
isi: 1
issue: '51'
language:
- iso: eng
month: '12'
oa: 1
oa_version: Published Version
pmid: 1
project:
- _id: 26538374-B435-11E9-9278-68D0E5697425
  call_identifier: FWF
  grant_number: I03630
  name: Molecular mechanisms of endocytic cargo recognition in plants
publication: Proceedings of the National Academy of Sciences
publication_identifier:
  eissn:
  - 1091-6490
publication_status: published
publisher: National Academy of Sciences
quality_controlled: '1'
related_material:
  link:
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    url: https://doi.org/10.1101/2021.04.26.441441
  record:
  - id: '14510'
    relation: dissertation_contains
    status: public
  - id: '14988'
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    status: public
status: public
title: The TPLATE complex mediates membrane bending during plant clathrin-mediated
  endocytosis
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 118
year: '2021'
...
---
_id: '9891'
abstract:
- lang: eng
  text: 'Extending on ideas of Lewin, Lieb, and Seiringer [Phys. Rev. B 100, 035127
    (2019)], we present a modified “floating crystal” trial state for jellium (also
    known as the classical homogeneous electron gas) with density equal to a characteristic
    function. This allows us to show that three definitions of the jellium energy
    coincide in dimensions d ≥ 2, thus extending the result of Cotar and Petrache
    [“Equality of the Jellium and uniform electron gas next-order asymptotic terms
    for Coulomb and Riesz potentials,” arXiv: 1707.07664 (2019)] and Lewin, Lieb,
    and Seiringer [Phys. Rev. B 100, 035127 (2019)] that the three definitions coincide
    in dimension d ≥ 3. We show that the jellium energy is also equivalent to a “renormalized
    energy” studied in a series of papers by Serfaty and others, and thus, by the
    work of Bétermin and Sandier [Constr. Approximation 47, 39–74 (2018)], we relate
    the jellium energy to the order n term in the logarithmic energy of n points on
    the unit 2-sphere. We improve upon known lower bounds for this renormalized energy.
    Additionally, we derive formulas for the jellium energy of periodic configurations.'
acknowledgement: The author would like to thank Robert Seiringer for guidance and
  many helpful comments on this project. The author would also like to thank Mathieu
  Lewin for his comments on the manuscript and Lorenzo Portinale for providing his
  lecture notes for the course “Mathematics of quantum many-body systems” in spring
  2020, taught by Robert Seiringer. The Proof of Theorem III.1 is inspired by these
  lecture notes.
article_number: '083305'
article_processing_charge: No
article_type: original
arxiv: 1
author:
- first_name: Asbjørn Bækgaard
  full_name: Lauritsen, Asbjørn Bækgaard
  id: e1a2682f-dc8d-11ea-abe3-81da9ac728f1
  last_name: Lauritsen
  orcid: 0000-0003-4476-2288
citation:
  ama: Lauritsen AB. Floating Wigner crystal and periodic jellium configurations.
    <i>Journal of Mathematical Physics</i>. 2021;62(8). doi:<a href="https://doi.org/10.1063/5.0053494">10.1063/5.0053494</a>
  apa: Lauritsen, A. B. (2021). Floating Wigner crystal and periodic jellium configurations.
    <i>Journal of Mathematical Physics</i>. AIP Publishing. <a href="https://doi.org/10.1063/5.0053494">https://doi.org/10.1063/5.0053494</a>
  chicago: Lauritsen, Asbjørn Bækgaard. “Floating Wigner Crystal and Periodic Jellium
    Configurations.” <i>Journal of Mathematical Physics</i>. AIP Publishing, 2021.
    <a href="https://doi.org/10.1063/5.0053494">https://doi.org/10.1063/5.0053494</a>.
  ieee: A. B. Lauritsen, “Floating Wigner crystal and periodic jellium configurations,”
    <i>Journal of Mathematical Physics</i>, vol. 62, no. 8. AIP Publishing, 2021.
  ista: Lauritsen AB. 2021. Floating Wigner crystal and periodic jellium configurations.
    Journal of Mathematical Physics. 62(8), 083305.
  mla: Lauritsen, Asbjørn Bækgaard. “Floating Wigner Crystal and Periodic Jellium
    Configurations.” <i>Journal of Mathematical Physics</i>, vol. 62, no. 8, 083305,
    AIP Publishing, 2021, doi:<a href="https://doi.org/10.1063/5.0053494">10.1063/5.0053494</a>.
  short: A.B. Lauritsen, Journal of Mathematical Physics 62 (2021).
date_created: 2021-08-12T07:08:36Z
date_published: 2021-08-01T00:00:00Z
date_updated: 2023-08-11T10:29:48Z
day: '01'
ddc:
- '530'
department:
- _id: GradSch
- _id: RoSe
doi: 10.1063/5.0053494
external_id:
  arxiv:
  - '2103.07975'
  isi:
  - '000683960800003'
file:
- access_level: open_access
  checksum: d035be2b894c4d50d90ac5ce252e27cd
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  creator: cziletti
  date_created: 2021-10-27T12:57:06Z
  date_updated: 2021-10-27T12:57:06Z
  file_id: '10188'
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file_date_updated: 2021-10-27T12:57:06Z
has_accepted_license: '1'
intvolume: '        62'
isi: 1
issue: '8'
keyword:
- Mathematical Physics
- Statistical and Nonlinear Physics
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
publication: Journal of Mathematical Physics
publication_identifier:
  eissn:
  - 1089-7658
  issn:
  - 0022-2488
publication_status: published
publisher: AIP Publishing
quality_controlled: '1'
scopus_import: '1'
status: public
title: Floating Wigner crystal and periodic jellium configurations
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 62
year: '2021'
...
---
_id: '9903'
abstract:
- lang: eng
  text: Eigenstate thermalization in quantum many-body systems implies that eigenstates
    at high energy are similar to random vectors. Identifying systems where at least
    some eigenstates are nonthermal is an outstanding question. In this Letter we
    show that interacting quantum models that have a nullspace—a degenerate subspace
    of eigenstates at zero energy (zero modes), which corresponds to infinite temperature,
    provide a route to nonthermal eigenstates. We analytically show the existence
    of a zero mode which can be represented as a matrix product state for a certain
    class of local Hamiltonians. In the more general case we use a subspace disentangling
    algorithm to generate an orthogonal basis of zero modes characterized by increasing
    entanglement entropy. We show evidence for an area-law entanglement scaling of
    the least-entangled zero mode in the broad parameter regime, leading to a conjecture
    that all local Hamiltonians with the nullspace feature zero modes with area-law
    entanglement scaling and, as such, break the strong thermalization hypothesis.
    Finally, we find zero modes in constrained models and propose a setup for observing
    their experimental signatures.
acknowledgement: "We acknowledge useful discussions with V. Gritsev and A. Garkun
  and suggestions on implementation of the\r\nPPXPP model by D. Bluvstein. A. M. and
  M. S. were supported by the European Research Council (ERC) under\r\nthe European
  Union’s Horizon 2020 research and innovation program (Grant Agreement No. 850899)"
article_number: '060602'
article_processing_charge: Yes (in subscription journal)
article_type: letter_note
arxiv: 1
author:
- first_name: Volker
  full_name: Karle, Volker
  id: D7C012AE-D7ED-11E9-95E8-1EC5E5697425
  last_name: Karle
  orcid: 0000-0002-6963-0129
- first_name: Maksym
  full_name: Serbyn, Maksym
  id: 47809E7E-F248-11E8-B48F-1D18A9856A87
  last_name: Serbyn
  orcid: 0000-0002-2399-5827
- first_name: Alexios
  full_name: Michailidis, Alexios
  id: 36EBAD38-F248-11E8-B48F-1D18A9856A87
  last_name: Michailidis
  orcid: 0000-0002-8443-1064
citation:
  ama: Karle V, Serbyn M, Michailidis A. Area-law entangled eigenstates from nullspaces
    of local Hamiltonians. <i>Physical Review Letters</i>. 2021;127(6). doi:<a href="https://doi.org/10.1103/physrevlett.127.060602">10.1103/physrevlett.127.060602</a>
  apa: Karle, V., Serbyn, M., &#38; Michailidis, A. (2021). Area-law entangled eigenstates
    from nullspaces of local Hamiltonians. <i>Physical Review Letters</i>. American
    Physical Society. <a href="https://doi.org/10.1103/physrevlett.127.060602">https://doi.org/10.1103/physrevlett.127.060602</a>
  chicago: Karle, Volker, Maksym Serbyn, and Alexios Michailidis. “Area-Law Entangled
    Eigenstates from Nullspaces of Local Hamiltonians.” <i>Physical Review Letters</i>.
    American Physical Society, 2021. <a href="https://doi.org/10.1103/physrevlett.127.060602">https://doi.org/10.1103/physrevlett.127.060602</a>.
  ieee: V. Karle, M. Serbyn, and A. Michailidis, “Area-law entangled eigenstates from
    nullspaces of local Hamiltonians,” <i>Physical Review Letters</i>, vol. 127, no.
    6. American Physical Society, 2021.
  ista: Karle V, Serbyn M, Michailidis A. 2021. Area-law entangled eigenstates from
    nullspaces of local Hamiltonians. Physical Review Letters. 127(6), 060602.
  mla: Karle, Volker, et al. “Area-Law Entangled Eigenstates from Nullspaces of Local
    Hamiltonians.” <i>Physical Review Letters</i>, vol. 127, no. 6, 060602, American
    Physical Society, 2021, doi:<a href="https://doi.org/10.1103/physrevlett.127.060602">10.1103/physrevlett.127.060602</a>.
  short: V. Karle, M. Serbyn, A. Michailidis, Physical Review Letters 127 (2021).
date_created: 2021-08-13T09:27:39Z
date_published: 2021-08-06T00:00:00Z
date_updated: 2023-08-11T10:43:27Z
day: '06'
ddc:
- '539'
department:
- _id: MaSe
- _id: GradSch
- _id: MiLe
doi: 10.1103/physrevlett.127.060602
ec_funded: 1
external_id:
  arxiv:
  - '2102.13633'
  isi:
  - '000684276000002'
file:
- access_level: open_access
  checksum: 51218f302dcef99d90d1209809fcc874
  content_type: application/pdf
  creator: mserbyn
  date_created: 2021-08-13T09:28:08Z
  date_updated: 2021-08-13T09:28:08Z
  file_id: '9904'
  file_name: PhysRevLett.127.060602_SOM.pdf
  file_size: 5064231
  relation: main_file
  success: 1
file_date_updated: 2021-08-13T09:28:08Z
has_accepted_license: '1'
intvolume: '       127'
isi: 1
issue: '6'
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
project:
- _id: 23841C26-32DE-11EA-91FC-C7463DDC885E
  call_identifier: H2020
  grant_number: '850899'
  name: 'Non-Ergodic Quantum Matter: Universality, Dynamics and Control'
publication: Physical Review Letters
publication_identifier:
  eissn:
  - 1079-7114
  issn:
  - 0031-9007
publication_status: published
publisher: American Physical Society
quality_controlled: '1'
status: public
title: Area-law entangled eigenstates from nullspaces of local Hamiltonians
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 127
year: '2021'
...
---
_id: '9905'
abstract:
- lang: eng
  text: Vaccines are thought to be the best available solution for controlling the
    ongoing SARS-CoV-2 pandemic. However, the emergence of vaccine-resistant strains
    may come too rapidly for current vaccine developments to alleviate the health,
    economic and social consequences of the pandemic. To quantify and characterize
    the risk of such a scenario, we created a SIR-derived model with initial stochastic
    dynamics of the vaccine-resistant strain to study the probability of its emergence
    and establishment. Using parameters realistically resembling SARS-CoV-2 transmission,
    we model a wave-like pattern of the pandemic and consider the impact of the rate
    of vaccination and the strength of non-pharmaceutical intervention measures on
    the probability of emergence of a resistant strain. As expected, we found that
    a fast rate of vaccination decreases the probability of emergence of a resistant
    strain. Counterintuitively, when a relaxation of non-pharmaceutical interventions
    happened at a time when most individuals of the population have already been vaccinated
    the probability of emergence of a resistant strain was greatly increased. Consequently,
    we show that a period of transmission reduction close to the end of the vaccination
    campaign can substantially reduce the probability of resistant strain establishment.
    Our results suggest that policymakers and individuals should consider maintaining
    non-pharmaceutical interventions and transmission-reducing behaviours throughout
    the entire vaccination period.
acknowledgement: We thank Alexey Kondrashov, Nick Machnik, Raimundo Julian Saona Urmeneta,
  Gasper Tkacik and Nick Barton for fruitful discussions. We also thank participants
  of EvoLunch seminar at IST Austria and the internal seminar at the Banco de España
  for useful comments. The opinions expressed in this document are exclusively of
  the authors and, therefore, do not necessarily coincide with those of the Banco
  de España or the Eurosystem. ETD is supported by the Swiss National Science and
  Louis Jeantet Foundation. The work of FAK was in part supported by the ERC Consolidator
  Grant (771209-CharFL).
article_number: '15729'
article_processing_charge: Yes
article_type: original
author:
- first_name: Simon
  full_name: Rella, Simon
  id: B4765ACA-AA38-11E9-AC9A-0930E6697425
  last_name: Rella
- first_name: Yuliya A.
  full_name: Kulikova, Yuliya A.
  last_name: Kulikova
- first_name: Emmanouil T.
  full_name: Dermitzakis, Emmanouil T.
  last_name: Dermitzakis
- first_name: Fyodor
  full_name: Kondrashov, Fyodor
  id: 44FDEF62-F248-11E8-B48F-1D18A9856A87
  last_name: Kondrashov
  orcid: 0000-0001-8243-4694
citation:
  ama: Rella S, Kulikova YA, Dermitzakis ET, Kondrashov F. Rates of SARS-CoV-2 transmission
    and vaccination impact the fate of vaccine-resistant strains. <i>Scientific Reports</i>.
    2021;11(1). doi:<a href="https://doi.org/10.1038/s41598-021-95025-3">10.1038/s41598-021-95025-3</a>
  apa: Rella, S., Kulikova, Y. A., Dermitzakis, E. T., &#38; Kondrashov, F. (2021).
    Rates of SARS-CoV-2 transmission and vaccination impact the fate of vaccine-resistant
    strains. <i>Scientific Reports</i>. Springer Nature. <a href="https://doi.org/10.1038/s41598-021-95025-3">https://doi.org/10.1038/s41598-021-95025-3</a>
  chicago: Rella, Simon, Yuliya A. Kulikova, Emmanouil T. Dermitzakis, and Fyodor
    Kondrashov. “Rates of SARS-CoV-2 Transmission and Vaccination Impact the Fate
    of Vaccine-Resistant Strains.” <i>Scientific Reports</i>. Springer Nature, 2021.
    <a href="https://doi.org/10.1038/s41598-021-95025-3">https://doi.org/10.1038/s41598-021-95025-3</a>.
  ieee: S. Rella, Y. A. Kulikova, E. T. Dermitzakis, and F. Kondrashov, “Rates of
    SARS-CoV-2 transmission and vaccination impact the fate of vaccine-resistant strains,”
    <i>Scientific Reports</i>, vol. 11, no. 1. Springer Nature, 2021.
  ista: Rella S, Kulikova YA, Dermitzakis ET, Kondrashov F. 2021. Rates of SARS-CoV-2
    transmission and vaccination impact the fate of vaccine-resistant strains. Scientific
    Reports. 11(1), 15729.
  mla: Rella, Simon, et al. “Rates of SARS-CoV-2 Transmission and Vaccination Impact
    the Fate of Vaccine-Resistant Strains.” <i>Scientific Reports</i>, vol. 11, no.
    1, 15729, Springer Nature, 2021, doi:<a href="https://doi.org/10.1038/s41598-021-95025-3">10.1038/s41598-021-95025-3</a>.
  short: S. Rella, Y.A. Kulikova, E.T. Dermitzakis, F. Kondrashov, Scientific Reports
    11 (2021).
date_created: 2021-08-15T22:01:26Z
date_published: 2021-07-30T00:00:00Z
date_updated: 2023-08-11T10:42:58Z
day: '30'
ddc:
- '570'
- '610'
department:
- _id: FyKo
doi: 10.1038/s41598-021-95025-3
ec_funded: 1
external_id:
  isi:
  - '000683329100001'
  pmid:
  - '34330988'
file:
- access_level: open_access
  checksum: ac86892ed17e6724c7251844da5cef5c
  content_type: application/pdf
  creator: asandaue
  date_created: 2021-08-16T11:36:49Z
  date_updated: 2021-08-16T11:36:49Z
  file_id: '9927'
  file_name: 2021_ScientificReports_Rella.pdf
  file_size: 3432001
  relation: main_file
  success: 1
file_date_updated: 2021-08-16T11:36:49Z
has_accepted_license: '1'
intvolume: '        11'
isi: 1
issue: '1'
language:
- iso: eng
month: '07'
oa: 1
oa_version: Published Version
pmid: 1
project:
- _id: 26580278-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '771209'
  name: Characterizing the fitness landscape on population and global scales
publication: Scientific Reports
publication_identifier:
  eissn:
  - '20452322'
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
related_material:
  link:
  - description: News on IST Website
    relation: press_release
    url: https://ist.ac.at/en/news/counterintuitive-dynamics-threaten-the-end-of-the-pandemic/
scopus_import: '1'
status: public
title: Rates of SARS-CoV-2 transmission and vaccination impact the fate of vaccine-resistant
  strains
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 11
year: '2021'
...
---
_id: '9906'
abstract:
- lang: eng
  text: Endometriosis is a common gynecological disorder characterized by ectopic
    growth of endometrium outside the uterus and is associated with chronic pain and
    infertility. We investigated the role of the long intergenic noncoding RNA 01133
    (LINC01133) in endometriosis, an lncRNA that has been implicated in several types
    of cancer. We found that LINC01133 is upregulated in ectopic endometriotic lesions.
    As expression appeared higher in the epithelial endometrial layer, we performed
    a siRNA knockdown of LINC01133 in an endometriosis epithelial cell line. Phenotypic
    assays indicated that LINC01133 may promote proliferation and suppress cellular
    migration, and affect the cytoskeleton and morphology of the cells. Gene ontology
    analysis of differentially expressed genes indicated that cell proliferation and
    migration pathways were affected in line with the observed phenotype. We validated
    upregulation of p21 and downregulation of Cyclin A at the protein level, which
    together with the quantification of the DNA content using fluorescence-activated
    cell sorting (FACS) analysis indicated that the observed effects on cellular proliferation
    may be due to changes in cell cycle. Further, we found testis-specific protein
    kinase 1 (TESK1) kinase upregulation corresponding with phosphorylation and inactivation
    of actin severing protein Cofilin, which could explain changes in the cytoskeleton
    and cellular migration. These results indicate that endometriosis is associated
    with LINC01133 upregulation, which may affect pathogenesis via the cellular proliferation
    and migration pathways.
acknowledgement: "Open access funding provided by Medical University of Vienna. The
  authors would like to thank all the participants and health professionals involved
  in the present study. We want to thank our technical assistants Barbara Widmar and
  Matthias Witzmann-Stern for their diligent work and constant assistance. We would
  like to thank Simon Hippenmeyer for access to\r\nbioinformatic infrastructure and
  resources."
article_number: '8385'
article_processing_charge: Yes
article_type: original
author:
- first_name: Iveta
  full_name: Yotova, Iveta
  last_name: Yotova
- first_name: Quanah J.
  full_name: Hudson, Quanah J.
  last_name: Hudson
- first_name: Florian
  full_name: Pauler, Florian
  id: 48EA0138-F248-11E8-B48F-1D18A9856A87
  last_name: Pauler
  orcid: 0000-0002-7462-0048
- first_name: Katharina
  full_name: Proestling, Katharina
  last_name: Proestling
- first_name: Isabella
  full_name: Haslinger, Isabella
  last_name: Haslinger
- first_name: Lorenz
  full_name: Kuessel, Lorenz
  last_name: Kuessel
- first_name: Alexandra
  full_name: Perricos, Alexandra
  last_name: Perricos
- first_name: Heinrich
  full_name: Husslein, Heinrich
  last_name: Husslein
- first_name: René
  full_name: Wenzl, René
  last_name: Wenzl
citation:
  ama: Yotova I, Hudson QJ, Pauler F, et al. LINC01133 inhibits invasion and promotes
    proliferation in an endometriosis epithelial cell line. <i>International Journal
    of Molecular Sciences</i>. 2021;22(16). doi:<a href="https://doi.org/10.3390/ijms22168385">10.3390/ijms22168385</a>
  apa: Yotova, I., Hudson, Q. J., Pauler, F., Proestling, K., Haslinger, I., Kuessel,
    L., … Wenzl, R. (2021). LINC01133 inhibits invasion and promotes proliferation
    in an endometriosis epithelial cell line. <i>International Journal of Molecular
    Sciences</i>. MDPI. <a href="https://doi.org/10.3390/ijms22168385">https://doi.org/10.3390/ijms22168385</a>
  chicago: Yotova, Iveta, Quanah J. Hudson, Florian Pauler, Katharina Proestling,
    Isabella Haslinger, Lorenz Kuessel, Alexandra Perricos, Heinrich Husslein, and
    René Wenzl. “LINC01133 Inhibits Invasion and Promotes Proliferation in an Endometriosis
    Epithelial Cell Line.” <i>International Journal of Molecular Sciences</i>. MDPI,
    2021. <a href="https://doi.org/10.3390/ijms22168385">https://doi.org/10.3390/ijms22168385</a>.
  ieee: I. Yotova <i>et al.</i>, “LINC01133 inhibits invasion and promotes proliferation
    in an endometriosis epithelial cell line,” <i>International Journal of Molecular
    Sciences</i>, vol. 22, no. 16. MDPI, 2021.
  ista: Yotova I, Hudson QJ, Pauler F, Proestling K, Haslinger I, Kuessel L, Perricos
    A, Husslein H, Wenzl R. 2021. LINC01133 inhibits invasion and promotes proliferation
    in an endometriosis epithelial cell line. International Journal of Molecular Sciences.
    22(16), 8385.
  mla: Yotova, Iveta, et al. “LINC01133 Inhibits Invasion and Promotes Proliferation
    in an Endometriosis Epithelial Cell Line.” <i>International Journal of Molecular
    Sciences</i>, vol. 22, no. 16, 8385, MDPI, 2021, doi:<a href="https://doi.org/10.3390/ijms22168385">10.3390/ijms22168385</a>.
  short: I. Yotova, Q.J. Hudson, F. Pauler, K. Proestling, I. Haslinger, L. Kuessel,
    A. Perricos, H. Husslein, R. Wenzl, International Journal of Molecular Sciences
    22 (2021).
date_created: 2021-08-15T22:01:27Z
date_published: 2021-08-04T00:00:00Z
date_updated: 2023-08-11T10:34:13Z
day: '04'
ddc:
- '570'
department:
- _id: SiHi
doi: 10.3390/ijms22168385
external_id:
  isi:
  - '000689147400001'
file:
- access_level: open_access
  checksum: be7f0042607ca60549cb27513c19c6af
  content_type: application/pdf
  creator: asandaue
  date_created: 2021-08-16T09:29:17Z
  date_updated: 2021-08-16T09:29:17Z
  file_id: '9922'
  file_name: 2021_InternationalJournalOfMolecularSciences_Yotova.pdf
  file_size: 2646018
  relation: main_file
  success: 1
file_date_updated: 2021-08-16T09:29:17Z
has_accepted_license: '1'
intvolume: '        22'
isi: 1
issue: '16'
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
publication: International Journal of Molecular Sciences
publication_identifier:
  eissn:
  - '14220067'
  issn:
  - '16616596'
publication_status: published
publisher: MDPI
quality_controlled: '1'
scopus_import: '1'
status: public
title: LINC01133 inhibits invasion and promotes proliferation in an endometriosis
  epithelial cell line
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 22
year: '2021'
...
---
_id: '9907'
abstract:
- lang: eng
  text: 'DivIVA is a protein initially identified as a spatial regulator of cell division
    in the model organism Bacillus subtilis, but its homologues are present in many
    other Gram-positive bacteria, including Clostridia species. Besides its role as
    topological regulator of the Min system during bacterial cell division, DivIVA
    is involved in chromosome segregation during sporulation, genetic competence,
    and cell wall synthesis. DivIVA localizes to regions of high membrane curvature,
    such as the cell poles and cell division site, where it recruits distinct binding
    partners. Previously, it was suggested that negative curvature sensing is the
    main mechanism by which DivIVA binds to these specific regions. Here, we show
    that Clostridioides difficile DivIVA binds preferably to membranes containing
    negatively charged phospholipids, especially cardiolipin. Strikingly, we observed
    that upon binding, DivIVA modifies the lipid distribution and induces changes
    to lipid bilayers containing cardiolipin. Our observations indicate that DivIVA
    might play a more complex and so far unknown active role during the formation
    of the cell division septal membrane. '
acknowledged_ssus:
- _id: Bio
- _id: LifeSc
acknowledgement: "We thank Daniela Krajˇcíkova, Katarína Muchová, Zuzana Chromíkova
  and other members of Barák’s laboratory for useful discussions, suggestions and
  help. Special thanks also to Emília Chovancová for technical support. We are grateful
  to Juraj Labaj for drawing the model and for help with graphics. Many thanks to
  all members of Loose’s laboratory: Maria del Mar\r\nLópez, Paulo Caldas, Philipp
  Radler, and other members of the Loose’s laboratory for sharing their knowledge
  of SLB preparation and TIRF experiment chambers, for sharing coverslips and for
  help with the TIRF microscope and data analysis. We also thank the members of the
  Dept. of Biochemistry of Biomembranes at the Institute of Animal Biochemistry and
  Genetics, CBs SAS for their help with preparing the lipid mixtures. We thank J.
  Bauer for critically reading the manuscript."
article_number: '8350'
article_processing_charge: Yes
article_type: original
author:
- first_name: Naďa
  full_name: Labajová, Naďa
  last_name: Labajová
- first_name: Natalia S.
  full_name: Baranova, Natalia S.
  id: 38661662-F248-11E8-B48F-1D18A9856A87
  last_name: Baranova
  orcid: 0000-0002-3086-9124
- first_name: Miroslav
  full_name: Jurásek, Miroslav
  last_name: Jurásek
- first_name: Robert
  full_name: Vácha, Robert
  last_name: Vácha
- first_name: Martin
  full_name: Loose, Martin
  id: 462D4284-F248-11E8-B48F-1D18A9856A87
  last_name: Loose
  orcid: 0000-0001-7309-9724
- first_name: Imrich
  full_name: Barák, Imrich
  last_name: Barák
citation:
  ama: Labajová N, Baranova NS, Jurásek M, Vácha R, Loose M, Barák I. Cardiolipin-containing
    lipid membranes attract the bacterial cell division protein diviva. <i>International
    Journal of Molecular Sciences</i>. 2021;22(15). doi:<a href="https://doi.org/10.3390/ijms22158350">10.3390/ijms22158350</a>
  apa: Labajová, N., Baranova, N. S., Jurásek, M., Vácha, R., Loose, M., &#38; Barák,
    I. (2021). Cardiolipin-containing lipid membranes attract the bacterial cell division
    protein diviva. <i>International Journal of Molecular Sciences</i>. MDPI. <a href="https://doi.org/10.3390/ijms22158350">https://doi.org/10.3390/ijms22158350</a>
  chicago: Labajová, Naďa, Natalia S. Baranova, Miroslav Jurásek, Robert Vácha, Martin
    Loose, and Imrich Barák. “Cardiolipin-Containing Lipid Membranes Attract the Bacterial
    Cell Division Protein Diviva.” <i>International Journal of Molecular Sciences</i>.
    MDPI, 2021. <a href="https://doi.org/10.3390/ijms22158350">https://doi.org/10.3390/ijms22158350</a>.
  ieee: N. Labajová, N. S. Baranova, M. Jurásek, R. Vácha, M. Loose, and I. Barák,
    “Cardiolipin-containing lipid membranes attract the bacterial cell division protein
    diviva,” <i>International Journal of Molecular Sciences</i>, vol. 22, no. 15.
    MDPI, 2021.
  ista: Labajová N, Baranova NS, Jurásek M, Vácha R, Loose M, Barák I. 2021. Cardiolipin-containing
    lipid membranes attract the bacterial cell division protein diviva. International
    Journal of Molecular Sciences. 22(15), 8350.
  mla: Labajová, Naďa, et al. “Cardiolipin-Containing Lipid Membranes Attract the
    Bacterial Cell Division Protein Diviva.” <i>International Journal of Molecular
    Sciences</i>, vol. 22, no. 15, 8350, MDPI, 2021, doi:<a href="https://doi.org/10.3390/ijms22158350">10.3390/ijms22158350</a>.
  short: N. Labajová, N.S. Baranova, M. Jurásek, R. Vácha, M. Loose, I. Barák, International
    Journal of Molecular Sciences 22 (2021).
date_created: 2021-08-15T22:01:27Z
date_published: 2021-08-01T00:00:00Z
date_updated: 2023-08-11T10:34:44Z
day: '01'
ddc:
- '570'
department:
- _id: MaLo
doi: 10.3390/ijms22158350
ec_funded: 1
external_id:
  isi:
  - '000681815400001'
  pmid:
  - '34361115'
file:
- access_level: open_access
  checksum: a4bc06e9a2c803ceff5a91f10b174054
  content_type: application/pdf
  creator: asandaue
  date_created: 2021-08-16T09:35:56Z
  date_updated: 2021-08-16T09:35:56Z
  file_id: '9923'
  file_name: 2021_InternationalJournalOfMolecularSciences_Labajová .pdf
  file_size: 6132410
  relation: main_file
  success: 1
file_date_updated: 2021-08-16T09:35:56Z
has_accepted_license: '1'
intvolume: '        22'
isi: 1
issue: '15'
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
pmid: 1
project:
- _id: 2595697A-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '679239'
  name: Self-Organization of the Bacterial Cell
publication: International Journal of Molecular Sciences
publication_identifier:
  eissn:
  - '14220067'
  issn:
  - '16616596'
publication_status: published
publisher: MDPI
quality_controlled: '1'
scopus_import: '1'
status: public
title: Cardiolipin-containing lipid membranes attract the bacterial cell division
  protein diviva
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 22
year: '2021'
...
---
_id: '9908'
abstract:
- lang: eng
  text: About eight million animal species are estimated to live on Earth, and all
    except those belonging to one subphylum are invertebrates. Invertebrates are incredibly
    diverse in their morphologies, life histories, and in the range of the ecological
    niches that they occupy. A great variety of modes of reproduction and sex determination
    systems is also observed among them, and their mosaic-distribution across the
    phylogeny shows that transitions between them occur frequently and rapidly. Genetic
    conflict in its various forms is a long-standing theory to explain what drives
    those evolutionary transitions. Here, we review (1) the different modes of reproduction
    among invertebrate species, highlighting sexual reproduction as the probable ancestral
    state; (2) the paradoxical diversity of sex determination systems; (3) the different
    types of genetic conflicts that could drive the evolution of such different systems.
article_number: '1136'
article_processing_charge: Yes
article_type: review
author:
- first_name: Marion A L
  full_name: Picard, Marion A L
  id: 2C921A7A-F248-11E8-B48F-1D18A9856A87
  last_name: Picard
  orcid: 0000-0002-8101-2518
- first_name: Beatriz
  full_name: Vicoso, Beatriz
  id: 49E1C5C6-F248-11E8-B48F-1D18A9856A87
  last_name: Vicoso
  orcid: 0000-0002-4579-8306
- first_name: Stéphanie
  full_name: Bertrand, Stéphanie
  last_name: Bertrand
- first_name: Hector
  full_name: Escriva, Hector
  last_name: Escriva
citation:
  ama: Picard MAL, Vicoso B, Bertrand S, Escriva H. Diversity of modes of reproduction
    and sex determination systems in invertebrates, and the putative contribution
    of genetic conflict. <i>Genes</i>. 2021;12(8). doi:<a href="https://doi.org/10.3390/genes12081136">10.3390/genes12081136</a>
  apa: Picard, M. A. L., Vicoso, B., Bertrand, S., &#38; Escriva, H. (2021). Diversity
    of modes of reproduction and sex determination systems in invertebrates, and the
    putative contribution of genetic conflict. <i>Genes</i>. MDPI. <a href="https://doi.org/10.3390/genes12081136">https://doi.org/10.3390/genes12081136</a>
  chicago: Picard, Marion A L, Beatriz Vicoso, Stéphanie Bertrand, and Hector Escriva.
    “Diversity of Modes of Reproduction and Sex Determination Systems in Invertebrates,
    and the Putative Contribution of Genetic Conflict.” <i>Genes</i>. MDPI, 2021.
    <a href="https://doi.org/10.3390/genes12081136">https://doi.org/10.3390/genes12081136</a>.
  ieee: M. A. L. Picard, B. Vicoso, S. Bertrand, and H. Escriva, “Diversity of modes
    of reproduction and sex determination systems in invertebrates, and the putative
    contribution of genetic conflict,” <i>Genes</i>, vol. 12, no. 8. MDPI, 2021.
  ista: Picard MAL, Vicoso B, Bertrand S, Escriva H. 2021. Diversity of modes of reproduction
    and sex determination systems in invertebrates, and the putative contribution
    of genetic conflict. Genes. 12(8), 1136.
  mla: Picard, Marion A. L., et al. “Diversity of Modes of Reproduction and Sex Determination
    Systems in Invertebrates, and the Putative Contribution of Genetic Conflict.”
    <i>Genes</i>, vol. 12, no. 8, 1136, MDPI, 2021, doi:<a href="https://doi.org/10.3390/genes12081136">10.3390/genes12081136</a>.
  short: M.A.L. Picard, B. Vicoso, S. Bertrand, H. Escriva, Genes 12 (2021).
date_created: 2021-08-15T22:01:27Z
date_published: 2021-08-01T00:00:00Z
date_updated: 2023-08-11T10:42:32Z
day: '01'
ddc:
- '570'
department:
- _id: BeVi
doi: 10.3390/genes12081136
ec_funded: 1
external_id:
  isi:
  - '000690475900001'
file:
- access_level: open_access
  checksum: 744e60e56d290a96da3c91a9779f886f
  content_type: application/pdf
  creator: asandaue
  date_created: 2021-08-16T09:49:35Z
  date_updated: 2021-08-16T09:49:35Z
  file_id: '9926'
  file_name: 2021_Genes_Picard.pdf
  file_size: 2297655
  relation: main_file
  success: 1
file_date_updated: 2021-08-16T09:49:35Z
has_accepted_license: '1'
intvolume: '        12'
isi: 1
issue: '8'
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
project:
- _id: 250BDE62-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '715257'
  name: Prevalence and Influence of Sexual Antagonism on Genome Evolution
publication: Genes
publication_identifier:
  eissn:
  - '20734425'
publication_status: published
publisher: MDPI
quality_controlled: '1'
scopus_import: '1'
status: public
title: Diversity of modes of reproduction and sex determination systems in invertebrates,
  and the putative contribution of genetic conflict
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 12
year: '2021'
...
---
_id: '9909'
abstract:
- lang: eng
  text: Roots are composed of different root types and, in the dicotyledonous Arabidopsis,
    typically consist of a primary root that branches into lateral roots. Adventitious
    roots emerge from non-root tissue and are formed upon wounding or other types
    of abiotic stress. Here, we investigated adventitious root (AR) formation in Arabidopsis
    hypocotyls under conditions of altered abscisic acid (ABA) signaling. Exogenously
    applied ABA suppressed AR formation at 0.25 µM or higher doses. AR formation was
    less sensitive to the synthetic ABA analog pyrabactin (PB). However, PB was a
    more potent inhibitor at concentrations above 1 µM, suggesting that it was more
    selective in triggering a root inhibition response. Analysis of a series of phosphonamide
    and phosphonate pyrabactin analogs suggested that adventitious root formation
    and lateral root branching are differentially regulated by ABA signaling. ABA
    biosynthesis and signaling mutants affirmed a general inhibitory role of ABA and
    point to PYL1 and PYL2 as candidate ABA receptors that regulate AR inhibition.
acknowledgement: We thank S. Cutler (Riverside, USA) for providing the ABA biosynthesis
  mutants and ABA signaling mutants.
article_number: '1141'
article_processing_charge: Yes
article_type: original
author:
- first_name: Yinwei
  full_name: Zeng, Yinwei
  last_name: Zeng
- first_name: Inge
  full_name: Verstraeten, Inge
  id: 362BF7FE-F248-11E8-B48F-1D18A9856A87
  last_name: Verstraeten
  orcid: 0000-0001-7241-2328
- first_name: Hoang Khai
  full_name: Trinh, Hoang Khai
  last_name: Trinh
- first_name: Thomas
  full_name: Heugebaert, Thomas
  last_name: Heugebaert
- first_name: Christian V.
  full_name: Stevens, Christian V.
  last_name: Stevens
- first_name: Irene
  full_name: Garcia-Maquilon, Irene
  last_name: Garcia-Maquilon
- first_name: Pedro L.
  full_name: Rodriguez, Pedro L.
  last_name: Rodriguez
- first_name: Steffen
  full_name: Vanneste, Steffen
  last_name: Vanneste
- first_name: Danny
  full_name: Geelen, Danny
  last_name: Geelen
citation:
  ama: Zeng Y, Verstraeten I, Trinh HK, et al. Arabidopsis hypocotyl adventitious
    root formation is suppressed by ABA signaling. <i>Genes</i>. 2021;12(8). doi:<a
    href="https://doi.org/10.3390/genes12081141">10.3390/genes12081141</a>
  apa: Zeng, Y., Verstraeten, I., Trinh, H. K., Heugebaert, T., Stevens, C. V., Garcia-Maquilon,
    I., … Geelen, D. (2021). Arabidopsis hypocotyl adventitious root formation is
    suppressed by ABA signaling. <i>Genes</i>. MDPI. <a href="https://doi.org/10.3390/genes12081141">https://doi.org/10.3390/genes12081141</a>
  chicago: Zeng, Yinwei, Inge Verstraeten, Hoang Khai Trinh, Thomas Heugebaert, Christian
    V. Stevens, Irene Garcia-Maquilon, Pedro L. Rodriguez, Steffen Vanneste, and Danny
    Geelen. “Arabidopsis Hypocotyl Adventitious Root Formation Is Suppressed by ABA
    Signaling.” <i>Genes</i>. MDPI, 2021. <a href="https://doi.org/10.3390/genes12081141">https://doi.org/10.3390/genes12081141</a>.
  ieee: Y. Zeng <i>et al.</i>, “Arabidopsis hypocotyl adventitious root formation
    is suppressed by ABA signaling,” <i>Genes</i>, vol. 12, no. 8. MDPI, 2021.
  ista: Zeng Y, Verstraeten I, Trinh HK, Heugebaert T, Stevens CV, Garcia-Maquilon
    I, Rodriguez PL, Vanneste S, Geelen D. 2021. Arabidopsis hypocotyl adventitious
    root formation is suppressed by ABA signaling. Genes. 12(8), 1141.
  mla: Zeng, Yinwei, et al. “Arabidopsis Hypocotyl Adventitious Root Formation Is
    Suppressed by ABA Signaling.” <i>Genes</i>, vol. 12, no. 8, 1141, MDPI, 2021,
    doi:<a href="https://doi.org/10.3390/genes12081141">10.3390/genes12081141</a>.
  short: Y. Zeng, I. Verstraeten, H.K. Trinh, T. Heugebaert, C.V. Stevens, I. Garcia-Maquilon,
    P.L. Rodriguez, S. Vanneste, D. Geelen, Genes 12 (2021).
date_created: 2021-08-15T22:01:28Z
date_published: 2021-07-27T00:00:00Z
date_updated: 2023-08-11T10:32:21Z
day: '27'
ddc:
- '580'
- '570'
department:
- _id: JiFr
doi: 10.3390/genes12081141
external_id:
  isi:
  - '000690558000001'
file:
- access_level: open_access
  checksum: 3d99535618cf9a5b14d264408fa52e97
  content_type: application/pdf
  creator: asandaue
  date_created: 2021-08-16T09:02:40Z
  date_updated: 2021-08-16T09:02:40Z
  file_id: '9919'
  file_name: 2021_Genes_Zeng.pdf
  file_size: 1340305
  relation: main_file
  success: 1
file_date_updated: 2021-08-16T09:02:40Z
has_accepted_license: '1'
intvolume: '        12'
isi: 1
issue: '8'
language:
- iso: eng
month: '07'
oa: 1
oa_version: Published Version
publication: Genes
publication_identifier:
  eissn:
  - '20734425'
publication_status: published
publisher: MDPI
quality_controlled: '1'
scopus_import: '1'
status: public
title: Arabidopsis hypocotyl adventitious root formation is suppressed by ABA signaling
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 12
year: '2021'
...
---
_id: '9910'
abstract:
- lang: eng
  text: Adult height inspired the first biometrical and quantitative genetic studies
    and is a test-case trait for understanding heritability. The studies of height
    led to formulation of the classical polygenic model, that has a profound influence
    on the way we view and analyse complex traits. An essential part of the classical
    model is an assumption of additivity of effects and normality of the distribution
    of the residuals. However, it may be expected that the normal approximation will
    become insufficient in bigger studies. Here, we demonstrate that when the height
    of hundreds of thousands of individuals is analysed, the model complexity needs
    to be increased to include non-additive interactions between sex, environment
    and genes. Alternatively, the use of log-normal approximation allowed us to still
    use the additive effects model. These findings are important for future genetic
    and methodologic studies that make use of adult height as an exemplar trait.
acknowledgement: "We are grateful to Marianna Bevova and Pavel Borodin for fruitful
  discussion and help with conceptualising our findings and to Lennart C. Karssen
  for help with handling the UK Biobank data.\r\n\r\nFunding\r\nThis research has
  been conducted using the UK Biobank Resource (project # 41601, “Non-additive effects
  in control of complex human traits”). The work of SAS, IAK, and TIS were supported
  by Russian Ministry of Science and Education under the 5–100 Excellence Programme.
  The work of YSA and TIA was supported by the Ministry of Education and Science of
  the RF via the Institute of Cytology and Genetics SB RAS (project number 0324-2019-0040-C-01/AAAA-A17-117092070032-4).
  FAK is supported by the ERC Consolidator Grant (ChrFL: 771209)."
article_processing_charge: Yes (in subscription journal)
article_type: original
author:
- first_name: Sergei A.
  full_name: Slavskii, Sergei A.
  last_name: Slavskii
- first_name: Ivan A.
  full_name: Kuznetsov, Ivan A.
  last_name: Kuznetsov
- first_name: Tatiana I.
  full_name: Shashkova, Tatiana I.
  last_name: Shashkova
- first_name: Georgii A.
  full_name: Bazykin, Georgii A.
  last_name: Bazykin
- first_name: Tatiana I.
  full_name: Axenovich, Tatiana I.
  last_name: Axenovich
- first_name: Fyodor
  full_name: Kondrashov, Fyodor
  id: 44FDEF62-F248-11E8-B48F-1D18A9856A87
  last_name: Kondrashov
  orcid: 0000-0001-8243-4694
- first_name: Yurii S.
  full_name: Aulchenko, Yurii S.
  last_name: Aulchenko
citation:
  ama: Slavskii SA, Kuznetsov IA, Shashkova TI, et al. The limits of normal approximation
    for adult height. <i>European Journal of Human Genetics</i>. 2021;29(7):1082-1091.
    doi:<a href="https://doi.org/10.1038/s41431-021-00836-7">10.1038/s41431-021-00836-7</a>
  apa: Slavskii, S. A., Kuznetsov, I. A., Shashkova, T. I., Bazykin, G. A., Axenovich,
    T. I., Kondrashov, F., &#38; Aulchenko, Y. S. (2021). The limits of normal approximation
    for adult height. <i>European Journal of Human Genetics</i>. Springer Nature.
    <a href="https://doi.org/10.1038/s41431-021-00836-7">https://doi.org/10.1038/s41431-021-00836-7</a>
  chicago: Slavskii, Sergei A., Ivan A. Kuznetsov, Tatiana I. Shashkova, Georgii A.
    Bazykin, Tatiana I. Axenovich, Fyodor Kondrashov, and Yurii S. Aulchenko. “The
    Limits of Normal Approximation for Adult Height.” <i>European Journal of Human
    Genetics</i>. Springer Nature, 2021. <a href="https://doi.org/10.1038/s41431-021-00836-7">https://doi.org/10.1038/s41431-021-00836-7</a>.
  ieee: S. A. Slavskii <i>et al.</i>, “The limits of normal approximation for adult
    height,” <i>European Journal of Human Genetics</i>, vol. 29, no. 7. Springer Nature,
    pp. 1082–1091, 2021.
  ista: Slavskii SA, Kuznetsov IA, Shashkova TI, Bazykin GA, Axenovich TI, Kondrashov
    F, Aulchenko YS. 2021. The limits of normal approximation for adult height. European
    Journal of Human Genetics. 29(7), 1082–1091.
  mla: Slavskii, Sergei A., et al. “The Limits of Normal Approximation for Adult Height.”
    <i>European Journal of Human Genetics</i>, vol. 29, no. 7, Springer Nature, 2021,
    pp. 1082–91, doi:<a href="https://doi.org/10.1038/s41431-021-00836-7">10.1038/s41431-021-00836-7</a>.
  short: S.A. Slavskii, I.A. Kuznetsov, T.I. Shashkova, G.A. Bazykin, T.I. Axenovich,
    F. Kondrashov, Y.S. Aulchenko, European Journal of Human Genetics 29 (2021) 1082–1091.
date_created: 2021-08-15T22:01:28Z
date_published: 2021-07-01T00:00:00Z
date_updated: 2023-08-11T10:33:42Z
day: '01'
ddc:
- '576'
department:
- _id: FyKo
doi: 10.1038/s41431-021-00836-7
ec_funded: 1
external_id:
  isi:
  - '000625853200001'
  pmid:
  - '33664501'
file:
- access_level: open_access
  checksum: a676d76f91b0dbe0504c63e469129c2a
  content_type: application/pdf
  creator: asandaue
  date_created: 2021-08-16T09:14:36Z
  date_updated: 2021-08-16T09:14:36Z
  file_id: '9921'
  file_name: 2021_EuropeanJournalOfHumanGenetics_Slavskii.pdf
  file_size: 1079395
  relation: main_file
  success: 1
file_date_updated: 2021-08-16T09:14:36Z
has_accepted_license: '1'
intvolume: '        29'
isi: 1
issue: '7'
language:
- iso: eng
month: '07'
oa: 1
oa_version: Published Version
page: 1082-1091
pmid: 1
project:
- _id: 26580278-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '771209'
  name: Characterizing the fitness landscape on population and global scales
publication: European Journal of Human Genetics
publication_identifier:
  eissn:
  - '14765438'
  issn:
  - '10184813'
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
scopus_import: '1'
status: public
title: The limits of normal approximation for adult height
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 29
year: '2021'
...
---
_id: '9911'
abstract:
- lang: eng
  text: A modern day light microscope has evolved from a tool devoted to making primarily
    empirical observations to what is now a sophisticated , quantitative device that
    is an integral part of both physical and life science research. Nowadays, microscopes
    are found in nearly every experimental laboratory. However, despite their prevalent
    use in capturing and quantifying scientific phenomena, neither a thorough understanding
    of the principles underlying quantitative imaging techniques nor appropriate knowledge
    of how to calibrate, operate and maintain microscopes can be taken for granted.
    This is clearly demonstrated by the well-documented and widespread difficulties
    that are routinely encountered in evaluating acquired data and reproducing scientific
    experiments. Indeed, studies have shown that more than 70% of researchers have
    tried and failed to repeat another scientist's experiments, while more than half
    have even failed to reproduce their own experiments. One factor behind the reproducibility
    crisis of experiments published in scientific journals is the frequent underreporting
    of imaging methods caused by a lack of awareness and/or a lack of knowledge of
    the applied technique. Whereas quality control procedures for some methods used
    in biomedical research, such as genomics (e.g. DNA sequencing, RNA-seq) or cytometry,
    have been introduced (e.g. ENCODE), this issue has not been tackled for optical
    microscopy instrumentation and images. Although many calibration standards and
    protocols have been published, there is a lack of awareness and agreement on common
    standards and guidelines for quality assessment and reproducibility. In April
    2020, the QUality Assessment and REProducibility for instruments and images in
    Light Microscopy (QUAREP-LiMi) initiative was formed. This initiative comprises
    imaging scientists from academia and industry who share a common interest in achieving
    a better understanding of the performance and limitations of microscopes and improved
    quality control (QC) in light microscopy. The ultimate goal of the QUAREP-LiMi
    initiative is to establish a set of common QC standards, guidelines, metadata
    models and tools, including detailed protocols, with the ultimate aim of improving
    reproducible advances in scientific research. This White Paper (1) summarizes
    the major obstacles identified in the field that motivated the launch of the QUAREP-LiMi
    initiative; (2) identifies the urgent need to address these obstacles in a grassroots
    manner, through a community of stakeholders including, researchers, imaging scientists,
    bioimage analysts, bioimage informatics developers, corporate partners, funding
    agencies, standards organizations, scientific publishers and observers of such;
    (3) outlines the current actions of the QUAREP-LiMi initiative and (4) proposes
    future steps that can be taken to improve the dissemination and acceptance of
    the proposed guidelines to manage QC. To summarize, the principal goal of the
    QUAREP-LiMi initiative is to improve the overall quality and reproducibility of
    light microscope image data by introducing broadly accepted standard practices
    and accurately captured image data metrics.
acknowledgement: We thank https://www.somersault1824.com/somersault18:24 BV (Leuven,
  Belgium) for help with Figure 1. E. C.-S. was supported by the project PPBI-POCI-01-0145-FEDER-022122,
  in the scope of Fundação para a Ciência e Tecnologia, Portugal (FCT) National Roadmap
  of Research Infrastructures. R.N. was funded by the Deutsche Forschungsgemeinschaft
  (DFG, German Research Foundation) Grant number Ni 451/9-1 - MIAP-Freiburg.
article_processing_charge: Yes
article_type: original
author:
- first_name: Glyn
  full_name: Nelson, Glyn
  last_name: Nelson
- first_name: Ulrike
  full_name: Boehm, Ulrike
  last_name: Boehm
- first_name: Steve
  full_name: Bagley, Steve
  last_name: Bagley
- first_name: Peter
  full_name: Bajcsy, Peter
  last_name: Bajcsy
- first_name: Johanna
  full_name: Bischof, Johanna
  last_name: Bischof
- first_name: Claire M.
  full_name: Brown, Claire M.
  last_name: Brown
- first_name: Aurélien
  full_name: Dauphin, Aurélien
  last_name: Dauphin
- first_name: Ian M.
  full_name: Dobbie, Ian M.
  last_name: Dobbie
- first_name: John E.
  full_name: Eriksson, John E.
  last_name: Eriksson
- first_name: Orestis
  full_name: Faklaris, Orestis
  last_name: Faklaris
- first_name: Julia
  full_name: Fernandez-Rodriguez, Julia
  last_name: Fernandez-Rodriguez
- first_name: Alexia
  full_name: Ferrand, Alexia
  last_name: Ferrand
- first_name: Laurent
  full_name: Gelman, Laurent
  last_name: Gelman
- first_name: Ali
  full_name: Gheisari, Ali
  last_name: Gheisari
- first_name: Hella
  full_name: Hartmann, Hella
  last_name: Hartmann
- first_name: Christian
  full_name: Kukat, Christian
  last_name: Kukat
- first_name: Alex
  full_name: Laude, Alex
  last_name: Laude
- first_name: Miso
  full_name: Mitkovski, Miso
  last_name: Mitkovski
- first_name: Sebastian
  full_name: Munck, Sebastian
  last_name: Munck
- first_name: Alison J.
  full_name: North, Alison J.
  last_name: North
- first_name: Tobias M.
  full_name: Rasse, Tobias M.
  last_name: Rasse
- first_name: Ute
  full_name: Resch-Genger, Ute
  last_name: Resch-Genger
- first_name: Lucas C.
  full_name: Schuetz, Lucas C.
  last_name: Schuetz
- first_name: Arne
  full_name: Seitz, Arne
  last_name: Seitz
- first_name: Caterina
  full_name: Strambio-De-Castillia, Caterina
  last_name: Strambio-De-Castillia
- first_name: Jason R.
  full_name: Swedlow, Jason R.
  last_name: Swedlow
- first_name: Ioannis
  full_name: Alexopoulos, Ioannis
  last_name: Alexopoulos
- first_name: Karin
  full_name: Aumayr, Karin
  last_name: Aumayr
- first_name: Sergiy
  full_name: Avilov, Sergiy
  last_name: Avilov
- first_name: Gert Jan
  full_name: Bakker, Gert Jan
  last_name: Bakker
- first_name: Rodrigo R.
  full_name: Bammann, Rodrigo R.
  last_name: Bammann
- first_name: Andrea
  full_name: Bassi, Andrea
  last_name: Bassi
- first_name: Hannes
  full_name: Beckert, Hannes
  last_name: Beckert
- first_name: Sebastian
  full_name: Beer, Sebastian
  last_name: Beer
- first_name: Yury
  full_name: Belyaev, Yury
  last_name: Belyaev
- first_name: Jakob
  full_name: Bierwagen, Jakob
  last_name: Bierwagen
- first_name: Konstantin A.
  full_name: Birngruber, Konstantin A.
  last_name: Birngruber
- first_name: Manel
  full_name: Bosch, Manel
  last_name: Bosch
- first_name: Juergen
  full_name: Breitlow, Juergen
  last_name: Breitlow
- first_name: Lisa A.
  full_name: Cameron, Lisa A.
  last_name: Cameron
- first_name: Joe
  full_name: Chalfoun, Joe
  last_name: Chalfoun
- first_name: James J.
  full_name: Chambers, James J.
  last_name: Chambers
- first_name: Chieh Li
  full_name: Chen, Chieh Li
  last_name: Chen
- first_name: Eduardo
  full_name: Conde-Sousa, Eduardo
  last_name: Conde-Sousa
- first_name: Alexander D.
  full_name: Corbett, Alexander D.
  last_name: Corbett
- first_name: Fabrice P.
  full_name: Cordelieres, Fabrice P.
  last_name: Cordelieres
- first_name: Elaine Del
  full_name: Nery, Elaine Del
  last_name: Nery
- first_name: Ralf
  full_name: Dietzel, Ralf
  last_name: Dietzel
- first_name: Frank
  full_name: Eismann, Frank
  last_name: Eismann
- first_name: Elnaz
  full_name: Fazeli, Elnaz
  last_name: Fazeli
- first_name: Andreas
  full_name: Felscher, Andreas
  last_name: Felscher
- first_name: Hans
  full_name: Fried, Hans
  last_name: Fried
- first_name: Nathalie
  full_name: Gaudreault, Nathalie
  last_name: Gaudreault
- first_name: Wah Ing
  full_name: Goh, Wah Ing
  last_name: Goh
- first_name: Thomas
  full_name: Guilbert, Thomas
  last_name: Guilbert
- first_name: Roland
  full_name: Hadleigh, Roland
  last_name: Hadleigh
- first_name: Peter
  full_name: Hemmerich, Peter
  last_name: Hemmerich
- first_name: Gerhard A.
  full_name: Holst, Gerhard A.
  last_name: Holst
- first_name: Michelle S.
  full_name: Itano, Michelle S.
  last_name: Itano
- first_name: Claudia B.
  full_name: Jaffe, Claudia B.
  last_name: Jaffe
- first_name: Helena K.
  full_name: Jambor, Helena K.
  last_name: Jambor
- first_name: Stuart C.
  full_name: Jarvis, Stuart C.
  last_name: Jarvis
- first_name: Antje
  full_name: Keppler, Antje
  last_name: Keppler
- first_name: David
  full_name: Kirchenbuechler, David
  last_name: Kirchenbuechler
- first_name: Marcel
  full_name: Kirchner, Marcel
  last_name: Kirchner
- first_name: Norio
  full_name: Kobayashi, Norio
  last_name: Kobayashi
- first_name: Gabriel
  full_name: Krens, Gabriel
  id: 2B819732-F248-11E8-B48F-1D18A9856A87
  last_name: Krens
  orcid: 0000-0003-4761-5996
- first_name: Susanne
  full_name: Kunis, Susanne
  last_name: Kunis
- first_name: Judith
  full_name: Lacoste, Judith
  last_name: Lacoste
- first_name: Marco
  full_name: Marcello, Marco
  last_name: Marcello
- first_name: Gabriel G.
  full_name: Martins, Gabriel G.
  last_name: Martins
- first_name: Daniel J.
  full_name: Metcalf, Daniel J.
  last_name: Metcalf
- first_name: Claire A.
  full_name: Mitchell, Claire A.
  last_name: Mitchell
- first_name: Joshua
  full_name: Moore, Joshua
  last_name: Moore
- first_name: Tobias
  full_name: Mueller, Tobias
  last_name: Mueller
- first_name: Michael S.
  full_name: Nelson, Michael S.
  last_name: Nelson
- first_name: Stephen
  full_name: Ogg, Stephen
  last_name: Ogg
- first_name: Shuichi
  full_name: Onami, Shuichi
  last_name: Onami
- first_name: Alexandra L.
  full_name: Palmer, Alexandra L.
  last_name: Palmer
- first_name: Perrine
  full_name: Paul-Gilloteaux, Perrine
  last_name: Paul-Gilloteaux
- first_name: Jaime A.
  full_name: Pimentel, Jaime A.
  last_name: Pimentel
- first_name: Laure
  full_name: Plantard, Laure
  last_name: Plantard
- first_name: Santosh
  full_name: Podder, Santosh
  last_name: Podder
- first_name: Elton
  full_name: Rexhepaj, Elton
  last_name: Rexhepaj
- first_name: Arnaud
  full_name: Royon, Arnaud
  last_name: Royon
- first_name: Markku A.
  full_name: Saari, Markku A.
  last_name: Saari
- first_name: Damien
  full_name: Schapman, Damien
  last_name: Schapman
- first_name: Vincent
  full_name: Schoonderwoert, Vincent
  last_name: Schoonderwoert
- first_name: Britta
  full_name: Schroth-Diez, Britta
  last_name: Schroth-Diez
- first_name: Stanley
  full_name: Schwartz, Stanley
  last_name: Schwartz
- first_name: Michael
  full_name: Shaw, Michael
  last_name: Shaw
- first_name: Martin
  full_name: Spitaler, Martin
  last_name: Spitaler
- first_name: Martin T.
  full_name: Stoeckl, Martin T.
  last_name: Stoeckl
- first_name: Damir
  full_name: Sudar, Damir
  last_name: Sudar
- first_name: Jeremie
  full_name: Teillon, Jeremie
  last_name: Teillon
- first_name: Stefan
  full_name: Terjung, Stefan
  last_name: Terjung
- first_name: Roland
  full_name: Thuenauer, Roland
  last_name: Thuenauer
- first_name: Christian D.
  full_name: Wilms, Christian D.
  last_name: Wilms
- first_name: Graham D.
  full_name: Wright, Graham D.
  last_name: Wright
- first_name: Roland
  full_name: Nitschke, Roland
  last_name: Nitschke
citation:
  ama: 'Nelson G, Boehm U, Bagley S, et al. QUAREP-LiMi: A community-driven initiative
    to establish guidelines for quality assessment and reproducibility for instruments
    and images in light microscopy. <i>Journal of Microscopy</i>. 2021;284(1):56-73.
    doi:<a href="https://doi.org/10.1111/jmi.13041">10.1111/jmi.13041</a>'
  apa: 'Nelson, G., Boehm, U., Bagley, S., Bajcsy, P., Bischof, J., Brown, C. M.,
    … Nitschke, R. (2021). QUAREP-LiMi: A community-driven initiative to establish
    guidelines for quality assessment and reproducibility for instruments and images
    in light microscopy. <i>Journal of Microscopy</i>. Wiley. <a href="https://doi.org/10.1111/jmi.13041">https://doi.org/10.1111/jmi.13041</a>'
  chicago: 'Nelson, Glyn, Ulrike Boehm, Steve Bagley, Peter Bajcsy, Johanna Bischof,
    Claire M. Brown, Aurélien Dauphin, et al. “QUAREP-LiMi: A Community-Driven Initiative
    to Establish Guidelines for Quality Assessment and Reproducibility for Instruments
    and Images in Light Microscopy.” <i>Journal of Microscopy</i>. Wiley, 2021. <a
    href="https://doi.org/10.1111/jmi.13041">https://doi.org/10.1111/jmi.13041</a>.'
  ieee: 'G. Nelson <i>et al.</i>, “QUAREP-LiMi: A community-driven initiative to establish
    guidelines for quality assessment and reproducibility for instruments and images
    in light microscopy,” <i>Journal of Microscopy</i>, vol. 284, no. 1. Wiley, pp.
    56–73, 2021.'
  ista: 'Nelson G et al. 2021. QUAREP-LiMi: A community-driven initiative to establish
    guidelines for quality assessment and reproducibility for instruments and images
    in light microscopy. Journal of Microscopy. 284(1), 56–73.'
  mla: 'Nelson, Glyn, et al. “QUAREP-LiMi: A Community-Driven Initiative to Establish
    Guidelines for Quality Assessment and Reproducibility for Instruments and Images
    in Light Microscopy.” <i>Journal of Microscopy</i>, vol. 284, no. 1, Wiley, 2021,
    pp. 56–73, doi:<a href="https://doi.org/10.1111/jmi.13041">10.1111/jmi.13041</a>.'
  short: G. Nelson, U. Boehm, S. Bagley, P. Bajcsy, J. Bischof, C.M. Brown, A. Dauphin,
    I.M. Dobbie, J.E. Eriksson, O. Faklaris, J. Fernandez-Rodriguez, A. Ferrand, L.
    Gelman, A. Gheisari, H. Hartmann, C. Kukat, A. Laude, M. Mitkovski, S. Munck,
    A.J. North, T.M. Rasse, U. Resch-Genger, L.C. Schuetz, A. Seitz, C. Strambio-De-Castillia,
    J.R. Swedlow, I. Alexopoulos, K. Aumayr, S. Avilov, G.J. Bakker, R.R. Bammann,
    A. Bassi, H. Beckert, S. Beer, Y. Belyaev, J. Bierwagen, K.A. Birngruber, M. Bosch,
    J. Breitlow, L.A. Cameron, J. Chalfoun, J.J. Chambers, C.L. Chen, E. Conde-Sousa,
    A.D. Corbett, F.P. Cordelieres, E.D. Nery, R. Dietzel, F. Eismann, E. Fazeli,
    A. Felscher, H. Fried, N. Gaudreault, W.I. Goh, T. Guilbert, R. Hadleigh, P. Hemmerich,
    G.A. Holst, M.S. Itano, C.B. Jaffe, H.K. Jambor, S.C. Jarvis, A. Keppler, D. Kirchenbuechler,
    M. Kirchner, N. Kobayashi, G. Krens, S. Kunis, J. Lacoste, M. Marcello, G.G. Martins,
    D.J. Metcalf, C.A. Mitchell, J. Moore, T. Mueller, M.S. Nelson, S. Ogg, S. Onami,
    A.L. Palmer, P. Paul-Gilloteaux, J.A. Pimentel, L. Plantard, S. Podder, E. Rexhepaj,
    A. Royon, M.A. Saari, D. Schapman, V. Schoonderwoert, B. Schroth-Diez, S. Schwartz,
    M. Shaw, M. Spitaler, M.T. Stoeckl, D. Sudar, J. Teillon, S. Terjung, R. Thuenauer,
    C.D. Wilms, G.D. Wright, R. Nitschke, Journal of Microscopy 284 (2021) 56–73.
date_created: 2021-08-15T22:01:29Z
date_published: 2021-08-11T00:00:00Z
date_updated: 2023-08-11T10:30:40Z
day: '11'
department:
- _id: Bio
doi: 10.1111/jmi.13041
external_id:
  isi:
  - '000683702700001'
intvolume: '       284'
isi: 1
issue: '1'
language:
- iso: eng
main_file_link:
- open_access: '1'
  url: https://doi.org/10.1111/jmi.13041
month: '08'
oa: 1
oa_version: Published Version
page: 56-73
publication: Journal of Microscopy
publication_identifier:
  eissn:
  - 1365-2818
  issn:
  - 0022-2720
publication_status: published
publisher: Wiley
quality_controlled: '1'
scopus_import: '1'
status: public
title: 'QUAREP-LiMi: A community-driven initiative to establish guidelines for quality
  assessment and reproducibility for instruments and images in light microscopy'
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 284
year: '2021'
...
---
_id: '9912'
abstract:
- lang: eng
  text: "In the customary random matrix model for transport in quantum dots with M
    internal degrees of freedom coupled to a chaotic environment via \U0001D441≪\U0001D440
    channels, the density \U0001D70C of transmission eigenvalues is computed from
    a specific invariant ensemble for which explicit formula for the joint probability
    density of all eigenvalues is available. We revisit this problem in the large
    N regime allowing for (i) arbitrary ratio \U0001D719:=\U0001D441/\U0001D440≤1;
    and (ii) general distributions for the matrix elements of the Hamiltonian of the
    quantum dot. In the limit \U0001D719→0, we recover the formula for the density
    \U0001D70C that Beenakker (Rev Mod Phys 69:731–808, 1997) has derived for a special
    matrix ensemble. We also prove that the inverse square root singularity of the
    density at zero and full transmission in Beenakker’s formula persists for any
    \U0001D719<1 but in the borderline case \U0001D719=1 an anomalous \U0001D706−2/3
    singularity arises at zero. To access this level of generality, we develop the
    theory of global and local laws on the spectral density of a large class of noncommutative
    rational expressions in large random matrices with i.i.d. entries."
acknowledgement: The authors are very grateful to Yan Fyodorov for discussions on
  the physical background and for providing references, and to the anonymous referee
  for numerous valuable remarks.
article_processing_charge: Yes (in subscription journal)
article_type: original
arxiv: 1
author:
- first_name: László
  full_name: Erdös, László
  id: 4DBD5372-F248-11E8-B48F-1D18A9856A87
  last_name: Erdös
  orcid: 0000-0001-5366-9603
- first_name: Torben H
  full_name: Krüger, Torben H
  id: 3020C786-F248-11E8-B48F-1D18A9856A87
  last_name: Krüger
  orcid: 0000-0002-4821-3297
- first_name: Yuriy
  full_name: Nemish, Yuriy
  id: 4D902E6A-F248-11E8-B48F-1D18A9856A87
  last_name: Nemish
  orcid: 0000-0002-7327-856X
citation:
  ama: Erdös L, Krüger TH, Nemish Y. Scattering in quantum dots via noncommutative
    rational functions. <i>Annales Henri Poincaré </i>. 2021;22:4205–4269. doi:<a
    href="https://doi.org/10.1007/s00023-021-01085-6">10.1007/s00023-021-01085-6</a>
  apa: Erdös, L., Krüger, T. H., &#38; Nemish, Y. (2021). Scattering in quantum dots
    via noncommutative rational functions. <i>Annales Henri Poincaré </i>. Springer
    Nature. <a href="https://doi.org/10.1007/s00023-021-01085-6">https://doi.org/10.1007/s00023-021-01085-6</a>
  chicago: Erdös, László, Torben H Krüger, and Yuriy Nemish. “Scattering in Quantum
    Dots via Noncommutative Rational Functions.” <i>Annales Henri Poincaré </i>. Springer
    Nature, 2021. <a href="https://doi.org/10.1007/s00023-021-01085-6">https://doi.org/10.1007/s00023-021-01085-6</a>.
  ieee: L. Erdös, T. H. Krüger, and Y. Nemish, “Scattering in quantum dots via noncommutative
    rational functions,” <i>Annales Henri Poincaré </i>, vol. 22. Springer Nature,
    pp. 4205–4269, 2021.
  ista: Erdös L, Krüger TH, Nemish Y. 2021. Scattering in quantum dots via noncommutative
    rational functions. Annales Henri Poincaré . 22, 4205–4269.
  mla: Erdös, László, et al. “Scattering in Quantum Dots via Noncommutative Rational
    Functions.” <i>Annales Henri Poincaré </i>, vol. 22, Springer Nature, 2021, pp.
    4205–4269, doi:<a href="https://doi.org/10.1007/s00023-021-01085-6">10.1007/s00023-021-01085-6</a>.
  short: L. Erdös, T.H. Krüger, Y. Nemish, Annales Henri Poincaré  22 (2021) 4205–4269.
date_created: 2021-08-15T22:01:29Z
date_published: 2021-12-01T00:00:00Z
date_updated: 2023-08-11T10:31:48Z
day: '01'
ddc:
- '510'
department:
- _id: LaEr
doi: 10.1007/s00023-021-01085-6
ec_funded: 1
external_id:
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  - '1911.05112'
  isi:
  - '000681531500001'
file:
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oa_version: Published Version
page: 4205–4269
project:
- _id: 258DCDE6-B435-11E9-9278-68D0E5697425
  call_identifier: FP7
  grant_number: '338804'
  name: Random matrices, universality and disordered quantum systems
publication: 'Annales Henri Poincaré '
publication_identifier:
  eissn:
  - 1424-0661
  issn:
  - 1424-0637
publication_status: published
publisher: Springer Nature
quality_controlled: '1'
scopus_import: '1'
status: public
title: Scattering in quantum dots via noncommutative rational functions
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 22
year: '2021'
...
---
_id: '9913'
abstract:
- lang: eng
  text: Nitrate commands genome-wide gene expression changes that impact metabolism,
    physiology, plant growth, and development. In an effort to identify new components
    involved in nitrate responses in plants, we analyze the Arabidopsis thaliana root
    phosphoproteome in response to nitrate treatments via liquid chromatography coupled
    to tandem mass spectrometry. 176 phosphoproteins show significant changes at 5
    or 20 min after nitrate treatments. Proteins identified by 5 min include signaling
    components such as kinases or transcription factors. In contrast, by 20 min, proteins
    identified were associated with transporter activity or hormone metabolism functions,
    among others. The phosphorylation profile of NITRATE TRANSPORTER 1.1 (NRT1.1)
    mutant plants was significantly altered as compared to wild-type plants, confirming
    its key role in nitrate signaling pathways that involves phosphorylation changes.
    Integrative bioinformatics analysis highlights auxin transport as an important
    mechanism modulated by nitrate signaling at the post-translational level. We validated
    a new phosphorylation site in PIN2 and provide evidence that it functions in primary
    and lateral root growth responses to nitrate.
acknowledgement: This work was supported by ANID—Millennium Science Initiative Program—ICN17_022,
  Fondo de Desarrollo de Areas Prioritarias (FONDAP) Center for Genome Regulation
  (15090007), ANID—Fondo Nacional de Desarrollo Científico y Tecnológico (FONDECYT)
  1180759 (to RAG) and 1171631 (to AV). We would like to thank Unidad de Microscopía
  Avanzada UC (UMA UC).
article_number: e51813
article_processing_charge: Yes
article_type: original
author:
- first_name: Andrea
  full_name: Vega, Andrea
  last_name: Vega
- first_name: Isabel
  full_name: Fredes, Isabel
  last_name: Fredes
- first_name: José
  full_name: O’Brien, José
  last_name: O’Brien
- first_name: Zhouxin
  full_name: Shen, Zhouxin
  last_name: Shen
- first_name: Krisztina
  full_name: Ötvös, Krisztina
  id: 29B901B0-F248-11E8-B48F-1D18A9856A87
  last_name: Ötvös
  orcid: 0000-0002-5503-4983
- first_name: Rashed
  full_name: Abualia, Rashed
  id: 4827E134-F248-11E8-B48F-1D18A9856A87
  last_name: Abualia
  orcid: 0000-0002-9357-9415
- first_name: Eva
  full_name: Benková, Eva
  id: 38F4F166-F248-11E8-B48F-1D18A9856A87
  last_name: Benková
  orcid: 0000-0002-8510-9739
- first_name: Steven P.
  full_name: Briggs, Steven P.
  last_name: Briggs
- first_name: Rodrigo A.
  full_name: Gutiérrez, Rodrigo A.
  last_name: Gutiérrez
citation:
  ama: Vega A, Fredes I, O’Brien J, et al. Nitrate triggered phosphoproteome changes
    and a PIN2 phosphosite modulating root system architecture. <i>EMBO Reports</i>.
    2021;22(9). doi:<a href="https://doi.org/10.15252/embr.202051813">10.15252/embr.202051813</a>
  apa: Vega, A., Fredes, I., O’Brien, J., Shen, Z., Ötvös, K., Abualia, R., … Gutiérrez,
    R. A. (2021). Nitrate triggered phosphoproteome changes and a PIN2 phosphosite
    modulating root system architecture. <i>EMBO Reports</i>. Wiley. <a href="https://doi.org/10.15252/embr.202051813">https://doi.org/10.15252/embr.202051813</a>
  chicago: Vega, Andrea, Isabel Fredes, José O’Brien, Zhouxin Shen, Krisztina Ötvös,
    Rashed Abualia, Eva Benková, Steven P. Briggs, and Rodrigo A. Gutiérrez. “Nitrate
    Triggered Phosphoproteome Changes and a PIN2 Phosphosite Modulating Root System
    Architecture.” <i>EMBO Reports</i>. Wiley, 2021. <a href="https://doi.org/10.15252/embr.202051813">https://doi.org/10.15252/embr.202051813</a>.
  ieee: A. Vega <i>et al.</i>, “Nitrate triggered phosphoproteome changes and a PIN2
    phosphosite modulating root system architecture,” <i>EMBO Reports</i>, vol. 22,
    no. 9. Wiley, 2021.
  ista: Vega A, Fredes I, O’Brien J, Shen Z, Ötvös K, Abualia R, Benková E, Briggs
    SP, Gutiérrez RA. 2021. Nitrate triggered phosphoproteome changes and a PIN2 phosphosite
    modulating root system architecture. EMBO Reports. 22(9), e51813.
  mla: Vega, Andrea, et al. “Nitrate Triggered Phosphoproteome Changes and a PIN2
    Phosphosite Modulating Root System Architecture.” <i>EMBO Reports</i>, vol. 22,
    no. 9, e51813, Wiley, 2021, doi:<a href="https://doi.org/10.15252/embr.202051813">10.15252/embr.202051813</a>.
  short: A. Vega, I. Fredes, J. O’Brien, Z. Shen, K. Ötvös, R. Abualia, E. Benková,
    S.P. Briggs, R.A. Gutiérrez, EMBO Reports 22 (2021).
date_created: 2021-08-15T22:01:30Z
date_published: 2021-09-06T00:00:00Z
date_updated: 2024-03-25T23:30:22Z
day: '06'
ddc:
- '580'
department:
- _id: EvBe
- _id: GradSch
doi: 10.15252/embr.202051813
external_id:
  isi:
  - '000681754200001'
  pmid:
  - '34357701 '
file:
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  date_created: 2021-10-05T13:36:42Z
  date_updated: 2021-10-05T13:36:42Z
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scopus_import: '1'
status: public
title: Nitrate triggered phosphoproteome changes and a PIN2 phosphosite modulating
  root system architecture
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 22
year: '2021'
...
---
_id: '9920'
abstract:
- lang: eng
  text: 'This work is concerned with two fascinating circuit quantum electrodynamics
    components, the Josephson junction and the geometric superinductor, and the interesting
    experiments that can be done by combining the two. The Josephson junction has
    revolutionized the field of superconducting circuits as a non-linear dissipation-less
    circuit element and is used in almost all superconducting qubit implementations
    since the 90s. On the other hand, the superinductor is a relatively new circuit
    element introduced as a key component of the fluxonium qubit in 2009. This is
    an inductor with characteristic impedance larger than the resistance quantum and
    self-resonance frequency in the GHz regime. The combination of these two elements
    can occur in two fundamental ways: in parallel and in series. When connected in
    parallel the two create the fluxonium qubit, a loop with large inductance and
    a rich energy spectrum reliant on quantum tunneling. On the other hand placing
    the two elements in series aids with the measurement of the IV curve of a single
    Josephson junction in a high impedance environment. In this limit theory predicts
    that the junction will behave as its dual element: the phase-slip junction. While
    the Josephson junction acts as a non-linear inductor the phase-slip junction has
    the behavior of a non-linear capacitance and can be used to measure new Josephson
    junction phenomena, namely Coulomb blockade of Cooper pairs and phase-locked Bloch
    oscillations. The latter experiment allows for a direct link between frequency
    and current which is an elusive connection in quantum metrology. This work introduces
    the geometric superinductor, a superconducting circuit element where the high
    inductance is due to the geometry rather than the material properties of the superconductor,
    realized from a highly miniaturized superconducting planar coil. These structures
    will be described and characterized as resonators and qubit inductors and progress
    towards the measurement of phase-locked Bloch oscillations will be presented.'
acknowledged_ssus:
- _id: NanoFab
- _id: M-Shop
alternative_title:
- ISTA Thesis
article_processing_charge: No
author:
- first_name: Matilda
  full_name: Peruzzo, Matilda
  id: 3F920B30-F248-11E8-B48F-1D18A9856A87
  last_name: Peruzzo
  orcid: 0000-0002-3415-4628
citation:
  ama: Peruzzo M. Geometric superinductors and their applications in circuit quantum
    electrodynamics. 2021. doi:<a href="https://doi.org/10.15479/at:ista:9920">10.15479/at:ista:9920</a>
  apa: Peruzzo, M. (2021). <i>Geometric superinductors and their applications in circuit
    quantum electrodynamics</i>. Institute of Science and Technology Austria. <a href="https://doi.org/10.15479/at:ista:9920">https://doi.org/10.15479/at:ista:9920</a>
  chicago: Peruzzo, Matilda. “Geometric Superinductors and Their Applications in Circuit
    Quantum Electrodynamics.” Institute of Science and Technology Austria, 2021. <a
    href="https://doi.org/10.15479/at:ista:9920">https://doi.org/10.15479/at:ista:9920</a>.
  ieee: M. Peruzzo, “Geometric superinductors and their applications in circuit quantum
    electrodynamics,” Institute of Science and Technology Austria, 2021.
  ista: Peruzzo M. 2021. Geometric superinductors and their applications in circuit
    quantum electrodynamics. Institute of Science and Technology Austria.
  mla: Peruzzo, Matilda. <i>Geometric Superinductors and Their Applications in Circuit
    Quantum Electrodynamics</i>. Institute of Science and Technology Austria, 2021,
    doi:<a href="https://doi.org/10.15479/at:ista:9920">10.15479/at:ista:9920</a>.
  short: M. Peruzzo, Geometric Superinductors and Their Applications in Circuit Quantum
    Electrodynamics, Institute of Science and Technology Austria, 2021.
date_created: 2021-08-16T09:44:09Z
date_published: 2021-08-19T00:00:00Z
date_updated: 2024-09-10T12:23:56Z
day: '19'
ddc:
- '539'
degree_awarded: PhD
department:
- _id: GradSch
- _id: JoFi
doi: 10.15479/at:ista:9920
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  description: Extra copy of the thesis as PDF/A-2b
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  file_size: 17592425
  relation: other
file_date_updated: 2021-09-06T08:39:47Z
has_accepted_license: '1'
keyword:
- quantum computing
- superinductor
- quantum metrology
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
page: '149'
publication_identifier:
  isbn:
  - 978-3-99078-013-8
  issn:
  - 2663-337X
publication_status: published
publisher: Institute of Science and Technology Austria
related_material:
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status: public
supervisor:
- first_name: Johannes M
  full_name: Fink, Johannes M
  id: 4B591CBA-F248-11E8-B48F-1D18A9856A87
  last_name: Fink
  orcid: 0000-0001-8112-028X
title: Geometric superinductors and their applications in circuit quantum electrodynamics
type: dissertation
user_id: c635000d-4b10-11ee-a964-aac5a93f6ac1
year: '2021'
...
---
_id: '9928'
abstract:
- lang: eng
  text: There are two elementary superconducting qubit types that derive directly
    from the quantum harmonic oscillator. In one, the inductor is replaced by a nonlinear
    Josephson junction to realize the widely used charge qubits with a compact phase
    variable and a discrete charge wave function. In the other, the junction is added
    in parallel, which gives rise to an extended phase variable, continuous wave functions,
    and a rich energy-level structure due to the loop topology. While the corresponding
    rf superconducting quantum interference device Hamiltonian was introduced as a
    quadratic quasi-one-dimensional potential approximation to describe the fluxonium
    qubit implemented with long Josephson-junction arrays, in this work we implement
    it directly using a linear superinductor formed by a single uninterrupted aluminum
    wire. We present a large variety of qubits, all stemming from the same circuit
    but with drastically different characteristic energy scales. This includes flux
    and fluxonium qubits but also the recently introduced quasicharge qubit with strongly
    enhanced zero-point phase fluctuations and a heavily suppressed flux dispersion.
    The use of a geometric inductor results in high reproducibility of the inductive
    energy as guaranteed by top-down lithography—a key ingredient for intrinsically
    protected superconducting qubits.
acknowledged_ssus:
- _id: NanoFab
- _id: M-Shop
acknowledgement: We thank W. Hughes for analytic and numerical modeling during the
  early stages of this work, J. Koch for discussions and support with the scqubits
  package, R. Sett, P. Zielinski, and L. Drmic for software development, and G. Katsaros
  for equipment support, as well as the MIBA workshop and the Institute of Science
  and Technology Austria nanofabrication facility. We thank I. Pop, S. Deleglise,
  and E. Flurin for discussions. This work was supported by a NOMIS Foundation research
  grant, the Austrian Science Fund (FWF) through BeyondC (F7105), and IST Austria.
  M.P. is the recipient of a Pöttinger scholarship at IST Austria. E.R. is the recipient
  of a DOC fellowship of the Austrian Academy of Sciences at IST Austria.
article_processing_charge: No
article_type: original
arxiv: 1
author:
- first_name: Matilda
  full_name: Peruzzo, Matilda
  id: 3F920B30-F248-11E8-B48F-1D18A9856A87
  last_name: Peruzzo
  orcid: 0000-0002-3415-4628
- first_name: Farid
  full_name: Hassani, Farid
  id: 2AED110C-F248-11E8-B48F-1D18A9856A87
  last_name: Hassani
  orcid: 0000-0001-6937-5773
- first_name: Gregory
  full_name: Szep, Gregory
  last_name: Szep
- first_name: Andrea
  full_name: Trioni, Andrea
  id: 42F71B44-F248-11E8-B48F-1D18A9856A87
  last_name: Trioni
- first_name: Elena
  full_name: Redchenko, Elena
  id: 2C21D6E8-F248-11E8-B48F-1D18A9856A87
  last_name: Redchenko
- first_name: Martin
  full_name: Zemlicka, Martin
  id: 2DCF8DE6-F248-11E8-B48F-1D18A9856A87
  last_name: Zemlicka
- first_name: Johannes M
  full_name: Fink, Johannes M
  id: 4B591CBA-F248-11E8-B48F-1D18A9856A87
  last_name: Fink
  orcid: 0000-0001-8112-028X
citation:
  ama: 'Peruzzo M, Hassani F, Szep G, et al. Geometric superinductance qubits: Controlling
    phase delocalization across a single Josephson junction. <i>PRX Quantum</i>. 2021;2(4):040341.
    doi:<a href="https://doi.org/10.1103/PRXQuantum.2.040341">10.1103/PRXQuantum.2.040341</a>'
  apa: 'Peruzzo, M., Hassani, F., Szep, G., Trioni, A., Redchenko, E., Zemlicka, M.,
    &#38; Fink, J. M. (2021). Geometric superinductance qubits: Controlling phase
    delocalization across a single Josephson junction. <i>PRX Quantum</i>. American
    Physical Society. <a href="https://doi.org/10.1103/PRXQuantum.2.040341">https://doi.org/10.1103/PRXQuantum.2.040341</a>'
  chicago: 'Peruzzo, Matilda, Farid Hassani, Gregory Szep, Andrea Trioni, Elena Redchenko,
    Martin Zemlicka, and Johannes M Fink. “Geometric Superinductance Qubits: Controlling
    Phase Delocalization across a Single Josephson Junction.” <i>PRX Quantum</i>.
    American Physical Society, 2021. <a href="https://doi.org/10.1103/PRXQuantum.2.040341">https://doi.org/10.1103/PRXQuantum.2.040341</a>.'
  ieee: 'M. Peruzzo <i>et al.</i>, “Geometric superinductance qubits: Controlling
    phase delocalization across a single Josephson junction,” <i>PRX Quantum</i>,
    vol. 2, no. 4. American Physical Society, p. 040341, 2021.'
  ista: 'Peruzzo M, Hassani F, Szep G, Trioni A, Redchenko E, Zemlicka M, Fink JM.
    2021. Geometric superinductance qubits: Controlling phase delocalization across
    a single Josephson junction. PRX Quantum. 2(4), 040341.'
  mla: 'Peruzzo, Matilda, et al. “Geometric Superinductance Qubits: Controlling Phase
    Delocalization across a Single Josephson Junction.” <i>PRX Quantum</i>, vol. 2,
    no. 4, American Physical Society, 2021, p. 040341, doi:<a href="https://doi.org/10.1103/PRXQuantum.2.040341">10.1103/PRXQuantum.2.040341</a>.'
  short: M. Peruzzo, F. Hassani, G. Szep, A. Trioni, E. Redchenko, M. Zemlicka, J.M.
    Fink, PRX Quantum 2 (2021) 040341.
date_created: 2021-08-17T08:14:18Z
date_published: 2021-11-24T00:00:00Z
date_updated: 2023-09-07T13:31:22Z
day: '24'
ddc:
- '530'
department:
- _id: JoFi
- _id: NanoFab
- _id: M-Shop
doi: 10.1103/PRXQuantum.2.040341
ec_funded: 1
external_id:
  arxiv:
  - '2106.05882'
  isi:
  - '000723015100001'
file:
- access_level: open_access
  checksum: 36eb41ea43d8ca22b0efab12419e4eb2
  content_type: application/pdf
  creator: cchlebak
  date_created: 2022-01-18T11:29:33Z
  date_updated: 2022-01-18T11:29:33Z
  file_id: '10641'
  file_name: 2021_PRXQuantum_Peruzzo.pdf
  file_size: 4247422
  relation: main_file
  success: 1
file_date_updated: 2022-01-18T11:29:33Z
has_accepted_license: '1'
intvolume: '         2'
isi: 1
issue: '4'
keyword:
- quantum physics
- mesoscale and nanoscale physics
language:
- iso: eng
month: '11'
oa: 1
oa_version: Published Version
page: '040341'
project:
- _id: 26927A52-B435-11E9-9278-68D0E5697425
  call_identifier: FWF
  grant_number: F07105
  name: Integrating superconducting quantum circuits
- _id: 2564DBCA-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '665385'
  name: International IST Doctoral Program
- _id: 2622978C-B435-11E9-9278-68D0E5697425
  name: Hybrid Semiconductor - Superconductor Quantum Devices
publication: PRX Quantum
publication_identifier:
  eissn:
  - 2691-3399
publication_status: published
publisher: American Physical Society
quality_controlled: '1'
related_material:
  record:
  - id: '13057'
    relation: research_data
    status: public
  - id: '9920'
    relation: dissertation_contains
    status: public
scopus_import: '1'
status: public
title: 'Geometric superinductance qubits: Controlling phase delocalization across
  a single Josephson junction'
tmp:
  image: /images/cc_by.png
  legal_code_url: https://creativecommons.org/licenses/by/4.0/legalcode
  name: Creative Commons Attribution 4.0 International Public License (CC-BY 4.0)
  short: CC BY (4.0)
type: journal_article
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
volume: 2
year: '2021'
...
---
_id: '9933'
abstract:
- lang: eng
  text: "In this paper, we study the power and limitations of component-stable algorithms
    in the low-space model of Massively Parallel Computation (MPC). Recently Ghaffari,
    Kuhn and Uitto (FOCS 2019) introduced the class of component-stable low-space
    MPC algorithms, which are, informally, defined as algorithms for which the outputs
    reported by the nodes in different connected components are required to be independent.
    This very natural notion was introduced to capture most (if not all) of the known
    efficient MPC algorithms to date, and it was the first general class of MPC algorithms
    for which one can show non-trivial conditional lower bounds. In this paper we
    enhance the framework of component-stable algorithms and investigate its effect
    on the complexity of randomized and deterministic low-space MPC. Our key contributions
    include: 1) We revise and formalize the lifting approach of Ghaffari, Kuhn and
    Uitto. This requires a very delicate amendment of the notion of component stability,
    which allows us to fill in gaps in the earlier arguments. 2) We also extend the
    framework to obtain conditional lower bounds for deterministic algorithms and
    fine-grained lower bounds that depend on the maximum degree Δ. 3) We demonstrate
    a collection of natural graph problems for which non-component-stable algorithms
    break the conditional lower bound obtained for component-stable algorithms. This
    implies that, for both deterministic and randomized algorithms, component-stable
    algorithms are conditionally weaker than the non-component-stable ones.\r\n\r\nAltogether
    our results imply that component-stability might limit the computational power
    of the low-space MPC model, paving the way for improved upper bounds that escape
    the conditional lower bound setting of Ghaffari, Kuhn, and Uitto."
acknowledgement: This work is partially supported by a Weizmann-UK Making Connections
  Grant, the Centre for Discrete Mathematics and its Applications (DIMAP), IBM Faculty
  Award, EPSRC award EP/V01305X/1, European Research Council (ERC) Grant No. 949083,
  the Minerva foundation with funding from the Federal German Ministry for Education
  and Research No. 713238, and the European Union’s Horizon 2020 programme under the
  Marie Skłodowska-Curie grant agreement No 754411.
article_processing_charge: No
arxiv: 1
author:
- first_name: Artur
  full_name: Czumaj, Artur
  last_name: Czumaj
- first_name: Peter
  full_name: Davies, Peter
  id: 11396234-BB50-11E9-B24C-90FCE5697425
  last_name: Davies
  orcid: 0000-0002-5646-9524
- first_name: Merav
  full_name: Parter, Merav
  last_name: Parter
citation:
  ama: 'Czumaj A, Davies P, Parter M. Component stability in low-space massively parallel
    computation. In: <i>Proceedings of the 2021 ACM Symposium on Principles of Distributed
    Computing</i>. Association for Computing Machinery; 2021:481–491. doi:<a href="https://doi.org/10.1145/3465084.3467903">10.1145/3465084.3467903</a>'
  apa: 'Czumaj, A., Davies, P., &#38; Parter, M. (2021). Component stability in low-space
    massively parallel computation. In <i>Proceedings of the 2021 ACM Symposium on
    Principles of Distributed Computing</i> (pp. 481–491). Virtual, Italy: Association
    for Computing Machinery. <a href="https://doi.org/10.1145/3465084.3467903">https://doi.org/10.1145/3465084.3467903</a>'
  chicago: Czumaj, Artur, Peter Davies, and Merav Parter. “Component Stability in
    Low-Space Massively Parallel Computation.” In <i>Proceedings of the 2021 ACM Symposium
    on Principles of Distributed Computing</i>, 481–491. Association for Computing
    Machinery, 2021. <a href="https://doi.org/10.1145/3465084.3467903">https://doi.org/10.1145/3465084.3467903</a>.
  ieee: A. Czumaj, P. Davies, and M. Parter, “Component stability in low-space massively
    parallel computation,” in <i>Proceedings of the 2021 ACM Symposium on Principles
    of Distributed Computing</i>, Virtual, Italy, 2021, pp. 481–491.
  ista: 'Czumaj A, Davies P, Parter M. 2021. Component stability in low-space massively
    parallel computation. Proceedings of the 2021 ACM Symposium on Principles of Distributed
    Computing. PODC: Principles of Distributed Computing, 481–491.'
  mla: Czumaj, Artur, et al. “Component Stability in Low-Space Massively Parallel
    Computation.” <i>Proceedings of the 2021 ACM Symposium on Principles of Distributed
    Computing</i>, Association for Computing Machinery, 2021, pp. 481–491, doi:<a
    href="https://doi.org/10.1145/3465084.3467903">10.1145/3465084.3467903</a>.
  short: A. Czumaj, P. Davies, M. Parter, in:, Proceedings of the 2021 ACM Symposium
    on Principles of Distributed Computing, Association for Computing Machinery, 2021,
    pp. 481–491.
conference:
  end_date: 2021-07-30
  location: Virtual, Italy
  name: 'PODC: Principles of Distributed Computing'
  start_date: 2021-07-26
date_created: 2021-08-17T18:11:16Z
date_published: 2021-07-21T00:00:00Z
date_updated: 2023-08-17T07:11:32Z
day: '21'
department:
- _id: DaAl
doi: 10.1145/3465084.3467903
ec_funded: 1
external_id:
  arxiv:
  - '2106.01880'
  isi:
  - '000744439800049'
isi: 1
language:
- iso: eng
main_file_link:
- open_access: '1'
  url: https://arxiv.org/abs/2106.01880
month: '07'
oa: 1
oa_version: Submitted Version
page: 481–491
project:
- _id: 260C2330-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '754411'
  name: ISTplus - Postdoctoral Fellowships
publication: Proceedings of the 2021 ACM Symposium on Principles of Distributed Computing
publication_identifier:
  isbn:
  - '9781450385480'
publication_status: published
publisher: Association for Computing Machinery
quality_controlled: '1'
status: public
title: Component stability in low-space massively parallel computation
type: conference
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
year: '2021'
...
---
_id: '9935'
abstract:
- lang: eng
  text: "We present a deterministic O(log log log n)-round low-space Massively Parallel
    Computation (MPC) algorithm for the classical problem of (Δ+1)-coloring on n-vertex
    graphs. In this model, every machine has sublinear local space of size n^φ for
    any arbitrary constant φ \\in (0,1). Our algorithm works under the relaxed setting
    where each machine is allowed to perform exponential local computations, while
    respecting the n^φ space and bandwidth limitations.\r\n\r\nOur key technical contribution
    is a novel derandomization of the ingenious (Δ+1)-coloring local algorithm by
    Chang-Li-Pettie (STOC 2018, SIAM J. Comput. 2020). The Chang-Li-Pettie algorithm
    runs in T_local =poly(loglog n) rounds, which sets the state-of-the-art randomized
    round complexity for the problem in the local model. Our derandomization employs
    a combination of tools, notably pseudorandom generators (PRG) and bounded-independence
    hash functions.\r\n\r\nThe achieved round complexity of O(logloglog n) rounds
    matches the bound of log(T_local ), which currently serves an upper bound barrier
    for all known randomized algorithms for locally-checkable problems in this model.
    Furthermore, no deterministic sublogarithmic low-space MPC algorithms for the
    (Δ+1)-coloring problem have been known before."
acknowledgement: This work is partially supported by a Weizmann-UK Making Connections
  Grant, the Centre for Discrete Mathematics and its Applications (DIMAP), IBM Faculty
  Award, EPSRC award EP/V01305X/1, European Research Council (ERC) Grant No. 949083,
  the Minerva foundation with funding from the Federal German Ministry for Education
  and Research No. 713238, and the European Union’s Horizon 2020 programme under the
  Marie Skłodowska-Curie grant agreement No 754411.
article_processing_charge: No
author:
- first_name: Artur
  full_name: Czumaj, Artur
  last_name: Czumaj
- first_name: Peter
  full_name: Davies, Peter
  id: 11396234-BB50-11E9-B24C-90FCE5697425
  last_name: Davies
  orcid: 0000-0002-5646-9524
- first_name: Merav
  full_name: Parter, Merav
  last_name: Parter
citation:
  ama: 'Czumaj A, Davies P, Parter M. Improved deterministic (Δ+1) coloring in low-space
    MPC. In: <i>Proceedings of the 2021 ACM Symposium on Principles of Distributed
    Computing</i>. Association for Computing Machinery; 2021:469–479. doi:<a href="https://doi.org/10.1145/3465084.3467937">10.1145/3465084.3467937</a>'
  apa: 'Czumaj, A., Davies, P., &#38; Parter, M. (2021). Improved deterministic (Δ+1)
    coloring in low-space MPC. In <i>Proceedings of the 2021 ACM Symposium on Principles
    of Distributed Computing</i> (pp. 469–479). Virtual, Italy: Association for Computing
    Machinery. <a href="https://doi.org/10.1145/3465084.3467937">https://doi.org/10.1145/3465084.3467937</a>'
  chicago: Czumaj, Artur, Peter Davies, and Merav Parter. “Improved Deterministic
    (Δ+1) Coloring in Low-Space MPC.” In <i>Proceedings of the 2021 ACM Symposium
    on Principles of Distributed Computing</i>, 469–479. Association for Computing
    Machinery, 2021. <a href="https://doi.org/10.1145/3465084.3467937">https://doi.org/10.1145/3465084.3467937</a>.
  ieee: A. Czumaj, P. Davies, and M. Parter, “Improved deterministic (Δ+1) coloring
    in low-space MPC,” in <i>Proceedings of the 2021 ACM Symposium on Principles of
    Distributed Computing</i>, Virtual, Italy, 2021, pp. 469–479.
  ista: 'Czumaj A, Davies P, Parter M. 2021. Improved deterministic (Δ+1) coloring
    in low-space MPC. Proceedings of the 2021 ACM Symposium on Principles of Distributed
    Computing. PODC: Symposium on Principles of Distributed Computing, 469–479.'
  mla: Czumaj, Artur, et al. “Improved Deterministic (Δ+1) Coloring in Low-Space MPC.”
    <i>Proceedings of the 2021 ACM Symposium on Principles of Distributed Computing</i>,
    Association for Computing Machinery, 2021, pp. 469–479, doi:<a href="https://doi.org/10.1145/3465084.3467937">10.1145/3465084.3467937</a>.
  short: A. Czumaj, P. Davies, M. Parter, in:, Proceedings of the 2021 ACM Symposium
    on Principles of Distributed Computing, Association for Computing Machinery, 2021,
    pp. 469–479.
conference:
  end_date: 2021-07-30
  location: Virtual, Italy
  name: 'PODC: Symposium on Principles of Distributed Computing'
  start_date: 2021-07-26
date_created: 2021-08-17T18:14:15Z
date_published: 2021-07-21T00:00:00Z
date_updated: 2023-08-17T07:11:03Z
day: '21'
department:
- _id: DaAl
doi: 10.1145/3465084.3467937
ec_funded: 1
external_id:
  isi:
  - '000744439800048'
isi: 1
language:
- iso: eng
main_file_link:
- open_access: '1'
  url: http://wrap.warwick.ac.uk/153753
month: '07'
oa: 1
oa_version: Submitted Version
page: 469–479
project:
- _id: 260C2330-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '754411'
  name: ISTplus - Postdoctoral Fellowships
publication: Proceedings of the 2021 ACM Symposium on Principles of Distributed Computing
publication_identifier:
  isbn:
  - 978-1-4503-8548-0
publication_status: published
publisher: Association for Computing Machinery
quality_controlled: '1'
status: public
title: Improved deterministic (Δ+1) coloring in low-space MPC
type: conference
user_id: 4359f0d1-fa6c-11eb-b949-802e58b17ae8
year: '2021'
...