---
_id: '1215'
abstract:
- lang: eng
  text: "Two generalizations of Itô formula to infinite-dimensional spaces are given.\r\nThe
    first one, in Hilbert spaces, extends the classical one by taking advantage of\r\ncancellations
    when they occur in examples and it is applied to the case of a group\r\ngenerator.
    The second one, based on the previous one and a limit procedure, is an Itô\r\nformula
    in a special class of Banach spaces having a product structure with the noise\r\nin
    a Hilbert component; again the key point is the extension due to a cancellation.
    This\r\nextension to Banach spaces and in particular the specific cancellation
    are motivated\r\nby path-dependent Itô calculus."
acknowledgement: Open access funding provided by Institute of Science and Technology
  (IST Austria). The second named author benefited partially from the support of the
  “FMJH Program Gaspard Monge in Optimization and Operations Research” (Project 2014-1607H).
  He is also grateful for the invitation to the Department of Mathematics of the University
  of Pisa. The third named author is grateful for the invitation to ENSTA.
article_processing_charge: Yes (via OA deal)
author:
- first_name: Franco
  full_name: Flandoli, Franco
  last_name: Flandoli
- first_name: Francesco
  full_name: Russo, Francesco
  last_name: Russo
- first_name: Giovanni A
  full_name: Zanco, Giovanni A
  id: 47491882-F248-11E8-B48F-1D18A9856A87
  last_name: Zanco
citation:
  ama: Flandoli F, Russo F, Zanco GA. Infinite-dimensional calculus under weak spatial
    regularity of the processes. <i>Journal of Theoretical Probability</i>. 2018;31(2):789-826.
    doi:<a href="https://doi.org/10.1007/s10959-016-0724-2">10.1007/s10959-016-0724-2</a>
  apa: Flandoli, F., Russo, F., &#38; Zanco, G. A. (2018). Infinite-dimensional calculus
    under weak spatial regularity of the processes. <i>Journal of Theoretical Probability</i>.
    Springer. <a href="https://doi.org/10.1007/s10959-016-0724-2">https://doi.org/10.1007/s10959-016-0724-2</a>
  chicago: Flandoli, Franco, Francesco Russo, and Giovanni A Zanco. “Infinite-Dimensional
    Calculus under Weak Spatial Regularity of the Processes.” <i>Journal of Theoretical
    Probability</i>. Springer, 2018. <a href="https://doi.org/10.1007/s10959-016-0724-2">https://doi.org/10.1007/s10959-016-0724-2</a>.
  ieee: F. Flandoli, F. Russo, and G. A. Zanco, “Infinite-dimensional calculus under
    weak spatial regularity of the processes,” <i>Journal of Theoretical Probability</i>,
    vol. 31, no. 2. Springer, pp. 789–826, 2018.
  ista: Flandoli F, Russo F, Zanco GA. 2018. Infinite-dimensional calculus under weak
    spatial regularity of the processes. Journal of Theoretical Probability. 31(2),
    789–826.
  mla: Flandoli, Franco, et al. “Infinite-Dimensional Calculus under Weak Spatial
    Regularity of the Processes.” <i>Journal of Theoretical Probability</i>, vol.
    31, no. 2, Springer, 2018, pp. 789–826, doi:<a href="https://doi.org/10.1007/s10959-016-0724-2">10.1007/s10959-016-0724-2</a>.
  short: F. Flandoli, F. Russo, G.A. Zanco, Journal of Theoretical Probability 31
    (2018) 789–826.
date_created: 2018-12-11T11:50:45Z
date_published: 2018-06-01T00:00:00Z
date_updated: 2021-01-12T06:49:09Z
day: '01'
ddc:
- '519'
department:
- _id: JaMa
doi: 10.1007/s10959-016-0724-2
file:
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  checksum: 47686d58ec21c164540f1a980ff2163f
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month: '06'
oa: 1
oa_version: Published Version
page: 789-826
project:
- _id: B67AFEDC-15C9-11EA-A837-991A96BB2854
  name: IST Austria Open Access Fund
publication: Journal of Theoretical Probability
publication_status: published
publisher: Springer
publist_id: '6119'
pubrep_id: '712'
quality_controlled: '1'
scopus_import: 1
status: public
title: Infinite-dimensional calculus under weak spatial regularity of the processes
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: 3E5EF7F0-F248-11E8-B48F-1D18A9856A87
volume: 31
year: '2018'
...
---
_id: '13'
abstract:
- lang: eng
  text: We propose a new method for fabricating digital objects through reusable silicone
    molds. Molds are generated by casting liquid silicone into custom 3D printed containers
    called metamolds. Metamolds automatically define the cuts that are needed to extract
    the cast object from the silicone mold. The shape of metamolds is designed through
    a novel segmentation technique, which takes into account both geometric and topological
    constraints involved in the process of mold casting. Our technique is simple,
    does not require changing the shape or topology of the input objects, and only
    requires off-the- shelf materials and technologies. We successfully tested our
    method on a set of challenging examples with complex shapes and rich geometric
    detail. © 2018 Association for Computing Machinery.
article_number: '136'
article_processing_charge: No
author:
- first_name: Thomas
  full_name: Alderighi, Thomas
  last_name: Alderighi
- first_name: Luigi
  full_name: Malomo, Luigi
  last_name: Malomo
- first_name: Daniela
  full_name: Giorgi, Daniela
  last_name: Giorgi
- first_name: Nico
  full_name: Pietroni, Nico
  last_name: Pietroni
- first_name: Bernd
  full_name: Bickel, Bernd
  id: 49876194-F248-11E8-B48F-1D18A9856A87
  last_name: Bickel
  orcid: 0000-0001-6511-9385
- first_name: Paolo
  full_name: Cignoni, Paolo
  last_name: Cignoni
citation:
  ama: 'Alderighi T, Malomo L, Giorgi D, Pietroni N, Bickel B, Cignoni P. Metamolds:
    Computational design of silicone molds. <i>ACM Trans Graph</i>. 2018;37(4). doi:<a
    href="https://doi.org/10.1145/3197517.3201381">10.1145/3197517.3201381</a>'
  apa: 'Alderighi, T., Malomo, L., Giorgi, D., Pietroni, N., Bickel, B., &#38; Cignoni,
    P. (2018). Metamolds: Computational design of silicone molds. <i>ACM Trans. Graph.</i>
    ACM. <a href="https://doi.org/10.1145/3197517.3201381">https://doi.org/10.1145/3197517.3201381</a>'
  chicago: 'Alderighi, Thomas, Luigi Malomo, Daniela Giorgi, Nico Pietroni, Bernd
    Bickel, and Paolo Cignoni. “Metamolds: Computational Design of Silicone Molds.”
    <i>ACM Trans. Graph.</i> ACM, 2018. <a href="https://doi.org/10.1145/3197517.3201381">https://doi.org/10.1145/3197517.3201381</a>.'
  ieee: 'T. Alderighi, L. Malomo, D. Giorgi, N. Pietroni, B. Bickel, and P. Cignoni,
    “Metamolds: Computational design of silicone molds,” <i>ACM Trans. Graph.</i>,
    vol. 37, no. 4. ACM, 2018.'
  ista: 'Alderighi T, Malomo L, Giorgi D, Pietroni N, Bickel B, Cignoni P. 2018. Metamolds:
    Computational design of silicone molds. ACM Trans. Graph. 37(4), 136.'
  mla: 'Alderighi, Thomas, et al. “Metamolds: Computational Design of Silicone Molds.”
    <i>ACM Trans. Graph.</i>, vol. 37, no. 4, 136, ACM, 2018, doi:<a href="https://doi.org/10.1145/3197517.3201381">10.1145/3197517.3201381</a>.'
  short: T. Alderighi, L. Malomo, D. Giorgi, N. Pietroni, B. Bickel, P. Cignoni, ACM
    Trans. Graph. 37 (2018).
date_created: 2018-12-11T11:44:09Z
date_published: 2018-08-04T00:00:00Z
date_updated: 2023-09-13T08:56:07Z
day: '04'
ddc:
- '004'
department:
- _id: BeBi
doi: 10.1145/3197517.3201381
ec_funded: 1
external_id:
  isi:
  - '000448185000097'
file:
- access_level: open_access
  checksum: 61d46273dca4de626accef1d17a0aaad
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  creator: system
  date_created: 2018-12-12T10:18:52Z
  date_updated: 2020-07-14T12:44:43Z
  file_id: '5374'
  file_name: IST-2018-1038-v1+1_metamolds_authorversion.pdf
  file_size: 91939066
  relation: main_file
file_date_updated: 2020-07-14T12:44:43Z
has_accepted_license: '1'
intvolume: '        37'
isi: 1
issue: '4'
language:
- iso: eng
month: '08'
oa: 1
oa_version: Submitted Version
project:
- _id: 24F9549A-B435-11E9-9278-68D0E5697425
  call_identifier: H2020
  grant_number: '715767'
  name: 'MATERIALIZABLE: Intelligent fabrication-oriented Computational Design and
    Modeling'
publication: ACM Trans. Graph.
publication_status: published
publisher: ACM
publist_id: '8043'
pubrep_id: '1038'
quality_controlled: '1'
related_material:
  link:
  - description: News on IST Homepage
    relation: press_release
    url: https://ist.ac.at/en/news/metamolds-molding-a-mold/
scopus_import: '1'
status: public
title: 'Metamolds: Computational design of silicone molds'
type: journal_article
user_id: c635000d-4b10-11ee-a964-aac5a93f6ac1
volume: 37
year: '2018'
...
---
_id: '9807'
abstract:
- lang: eng
  text: Table S1. Genes with highest betweenness. Table S2. Local and Master regulators
    up-regulated. Table S3. Local and Master regulators down-regulated (XLSX 23 kb).
article_processing_charge: No
author:
- first_name: Juan
  full_name: Higareda Almaraz, Juan
  last_name: Higareda Almaraz
- first_name: Michael
  full_name: Karbiener, Michael
  last_name: Karbiener
- first_name: Maude
  full_name: Giroud, Maude
  last_name: Giroud
- first_name: Florian
  full_name: Pauler, Florian
  id: 48EA0138-F248-11E8-B48F-1D18A9856A87
  last_name: Pauler
  orcid: 0000-0002-7462-0048
- first_name: Teresa
  full_name: Gerhalter, Teresa
  last_name: Gerhalter
- first_name: Stephan
  full_name: Herzig, Stephan
  last_name: Herzig
- first_name: Marcel
  full_name: Scheideler, Marcel
  last_name: Scheideler
citation:
  ama: 'Higareda Almaraz J, Karbiener M, Giroud M, et al. Additional file 1: Of Norepinephrine
    triggers an immediate-early regulatory network response in primary human white
    adipocytes. 2018. doi:<a href="https://doi.org/10.6084/m9.figshare.7295339.v1">10.6084/m9.figshare.7295339.v1</a>'
  apa: 'Higareda Almaraz, J., Karbiener, M., Giroud, M., Pauler, F., Gerhalter, T.,
    Herzig, S., &#38; Scheideler, M. (2018). Additional file 1: Of Norepinephrine
    triggers an immediate-early regulatory network response in primary human white
    adipocytes. Springer Nature. <a href="https://doi.org/10.6084/m9.figshare.7295339.v1">https://doi.org/10.6084/m9.figshare.7295339.v1</a>'
  chicago: 'Higareda Almaraz, Juan, Michael Karbiener, Maude Giroud, Florian Pauler,
    Teresa Gerhalter, Stephan Herzig, and Marcel Scheideler. “Additional File 1: Of
    Norepinephrine Triggers an Immediate-Early Regulatory Network Response in Primary
    Human White Adipocytes.” Springer Nature, 2018. <a href="https://doi.org/10.6084/m9.figshare.7295339.v1">https://doi.org/10.6084/m9.figshare.7295339.v1</a>.'
  ieee: 'J. Higareda Almaraz <i>et al.</i>, “Additional file 1: Of Norepinephrine
    triggers an immediate-early regulatory network response in primary human white
    adipocytes.” Springer Nature, 2018.'
  ista: 'Higareda Almaraz J, Karbiener M, Giroud M, Pauler F, Gerhalter T, Herzig
    S, Scheideler M. 2018. Additional file 1: Of Norepinephrine triggers an immediate-early
    regulatory network response in primary human white adipocytes, Springer Nature,
    <a href="https://doi.org/10.6084/m9.figshare.7295339.v1">10.6084/m9.figshare.7295339.v1</a>.'
  mla: 'Higareda Almaraz, Juan, et al. <i>Additional File 1: Of Norepinephrine Triggers
    an Immediate-Early Regulatory Network Response in Primary Human White Adipocytes</i>.
    Springer Nature, 2018, doi:<a href="https://doi.org/10.6084/m9.figshare.7295339.v1">10.6084/m9.figshare.7295339.v1</a>.'
  short: J. Higareda Almaraz, M. Karbiener, M. Giroud, F. Pauler, T. Gerhalter, S.
    Herzig, M. Scheideler, (2018).
date_created: 2021-08-06T12:26:53Z
date_published: 2018-11-03T00:00:00Z
date_updated: 2023-09-13T09:10:47Z
day: '03'
department:
- _id: SiHi
doi: 10.6084/m9.figshare.7295339.v1
main_file_link:
- open_access: '1'
  url: https://doi.org/10.6084/m9.figshare.7295339.v1
month: '11'
oa: 1
oa_version: Published Version
publisher: Springer Nature
related_material:
  record:
  - id: '20'
    relation: used_in_publication
    status: public
status: public
title: 'Additional file 1: Of Norepinephrine triggers an immediate-early regulatory
  network response in primary human white adipocytes'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9808'
abstract:
- lang: eng
  text: Table S4. Counts per Gene per Million Reads Mapped. (XLSX 2751 kb).
article_processing_charge: No
author:
- first_name: Juan
  full_name: Higareda Almaraz, Juan
  last_name: Higareda Almaraz
- first_name: Michael
  full_name: Karbiener, Michael
  last_name: Karbiener
- first_name: Maude
  full_name: Giroud, Maude
  last_name: Giroud
- first_name: Florian
  full_name: Pauler, Florian
  id: 48EA0138-F248-11E8-B48F-1D18A9856A87
  last_name: Pauler
  orcid: 0000-0002-7462-0048
- first_name: Teresa
  full_name: Gerhalter, Teresa
  last_name: Gerhalter
- first_name: Stephan
  full_name: Herzig, Stephan
  last_name: Herzig
- first_name: Marcel
  full_name: Scheideler, Marcel
  last_name: Scheideler
citation:
  ama: 'Higareda Almaraz J, Karbiener M, Giroud M, et al. Additional file 3: Of Norepinephrine
    triggers an immediate-early regulatory network response in primary human white
    adipocytes. 2018. doi:<a href="https://doi.org/10.6084/m9.figshare.7295369.v1">10.6084/m9.figshare.7295369.v1</a>'
  apa: 'Higareda Almaraz, J., Karbiener, M., Giroud, M., Pauler, F., Gerhalter, T.,
    Herzig, S., &#38; Scheideler, M. (2018). Additional file 3: Of Norepinephrine
    triggers an immediate-early regulatory network response in primary human white
    adipocytes. Springer Nature. <a href="https://doi.org/10.6084/m9.figshare.7295369.v1">https://doi.org/10.6084/m9.figshare.7295369.v1</a>'
  chicago: 'Higareda Almaraz, Juan, Michael Karbiener, Maude Giroud, Florian Pauler,
    Teresa Gerhalter, Stephan Herzig, and Marcel Scheideler. “Additional File 3: Of
    Norepinephrine Triggers an Immediate-Early Regulatory Network Response in Primary
    Human White Adipocytes.” Springer Nature, 2018. <a href="https://doi.org/10.6084/m9.figshare.7295369.v1">https://doi.org/10.6084/m9.figshare.7295369.v1</a>.'
  ieee: 'J. Higareda Almaraz <i>et al.</i>, “Additional file 3: Of Norepinephrine
    triggers an immediate-early regulatory network response in primary human white
    adipocytes.” Springer Nature, 2018.'
  ista: 'Higareda Almaraz J, Karbiener M, Giroud M, Pauler F, Gerhalter T, Herzig
    S, Scheideler M. 2018. Additional file 3: Of Norepinephrine triggers an immediate-early
    regulatory network response in primary human white adipocytes, Springer Nature,
    <a href="https://doi.org/10.6084/m9.figshare.7295369.v1">10.6084/m9.figshare.7295369.v1</a>.'
  mla: 'Higareda Almaraz, Juan, et al. <i>Additional File 3: Of Norepinephrine Triggers
    an Immediate-Early Regulatory Network Response in Primary Human White Adipocytes</i>.
    Springer Nature, 2018, doi:<a href="https://doi.org/10.6084/m9.figshare.7295369.v1">10.6084/m9.figshare.7295369.v1</a>.'
  short: J. Higareda Almaraz, M. Karbiener, M. Giroud, F. Pauler, T. Gerhalter, S.
    Herzig, M. Scheideler, (2018).
date_created: 2021-08-06T12:31:57Z
date_published: 2018-11-03T00:00:00Z
date_updated: 2023-09-13T09:10:47Z
day: '03'
department:
- _id: SiHi
doi: 10.6084/m9.figshare.7295369.v1
main_file_link:
- open_access: '1'
  url: https://doi.org/10.6084/m9.figshare.7295369.v1
month: '11'
oa: 1
oa_version: Published Version
publisher: Springer Nature
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status: public
title: 'Additional file 3: Of Norepinephrine triggers an immediate-early regulatory
  network response in primary human white adipocytes'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
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...
---
_id: '9810'
article_processing_charge: No
author:
- first_name: Waqas
  full_name: Chaudhry, Waqas
  last_name: Chaudhry
- first_name: Maros
  full_name: Pleska, Maros
  id: 4569785E-F248-11E8-B48F-1D18A9856A87
  last_name: Pleska
  orcid: 0000-0001-7460-7479
- first_name: Nilang
  full_name: Shah, Nilang
  last_name: Shah
- first_name: Howard
  full_name: Weiss, Howard
  last_name: Weiss
- first_name: Ingrid
  full_name: Mccall, Ingrid
  last_name: Mccall
- first_name: Justin
  full_name: Meyer, Justin
  last_name: Meyer
- first_name: Animesh
  full_name: Gupta, Animesh
  last_name: Gupta
- first_name: Calin C
  full_name: Guet, Calin C
  id: 47F8433E-F248-11E8-B48F-1D18A9856A87
  last_name: Guet
  orcid: 0000-0001-6220-2052
- first_name: Bruce
  full_name: Levin, Bruce
  last_name: Levin
citation:
  ama: Chaudhry W, Pleska M, Shah N, et al. Numerical data used in figures. 2018.
    doi:<a href="https://doi.org/10.1371/journal.pbio.2005971.s008">10.1371/journal.pbio.2005971.s008</a>
  apa: Chaudhry, W., Pleska, M., Shah, N., Weiss, H., Mccall, I., Meyer, J., … Levin,
    B. (2018). Numerical data used in figures. Public Library of Science. <a href="https://doi.org/10.1371/journal.pbio.2005971.s008">https://doi.org/10.1371/journal.pbio.2005971.s008</a>
  chicago: Chaudhry, Waqas, Maros Pleska, Nilang Shah, Howard Weiss, Ingrid Mccall,
    Justin Meyer, Animesh Gupta, Calin C Guet, and Bruce Levin. “Numerical Data Used
    in Figures.” Public Library of Science, 2018. <a href="https://doi.org/10.1371/journal.pbio.2005971.s008">https://doi.org/10.1371/journal.pbio.2005971.s008</a>.
  ieee: W. Chaudhry <i>et al.</i>, “Numerical data used in figures.” Public Library
    of Science, 2018.
  ista: Chaudhry W, Pleska M, Shah N, Weiss H, Mccall I, Meyer J, Gupta A, Guet CC,
    Levin B. 2018. Numerical data used in figures, Public Library of Science, <a href="https://doi.org/10.1371/journal.pbio.2005971.s008">10.1371/journal.pbio.2005971.s008</a>.
  mla: Chaudhry, Waqas, et al. <i>Numerical Data Used in Figures</i>. Public Library
    of Science, 2018, doi:<a href="https://doi.org/10.1371/journal.pbio.2005971.s008">10.1371/journal.pbio.2005971.s008</a>.
  short: W. Chaudhry, M. Pleska, N. Shah, H. Weiss, I. Mccall, J. Meyer, A. Gupta,
    C.C. Guet, B. Levin, (2018).
date_created: 2021-08-06T12:43:44Z
date_published: 2018-08-16T00:00:00Z
date_updated: 2023-09-13T08:45:41Z
day: '16'
department:
- _id: CaGu
doi: 10.1371/journal.pbio.2005971.s008
month: '08'
oa_version: Published Version
publisher: Public Library of Science
related_material:
  record:
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title: Numerical data used in figures
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9811'
abstract:
- lang: eng
  text: This document contains additional supporting evidence presented as supplemental
    tables. (XLSX 50Â kb)
article_processing_charge: No
author:
- first_name: Luis
  full_name: Zapata, Luis
  last_name: Zapata
- first_name: Oriol
  full_name: Pich, Oriol
  last_name: Pich
- first_name: Luis
  full_name: Serrano, Luis
  last_name: Serrano
- first_name: Fyodor
  full_name: Kondrashov, Fyodor
  id: 44FDEF62-F248-11E8-B48F-1D18A9856A87
  last_name: Kondrashov
  orcid: 0000-0001-8243-4694
- first_name: Stephan
  full_name: Ossowski, Stephan
  last_name: Ossowski
- first_name: Martin
  full_name: Schaefer, Martin
  last_name: Schaefer
citation:
  ama: 'Zapata L, Pich O, Serrano L, Kondrashov F, Ossowski S, Schaefer M. Additional
    file 1: Of negative selection in tumor genome evolution acts on essential cellular
    functions and the immunopeptidome. 2018. doi:<a href="https://doi.org/10.6084/m9.figshare.6401390.v1">10.6084/m9.figshare.6401390.v1</a>'
  apa: 'Zapata, L., Pich, O., Serrano, L., Kondrashov, F., Ossowski, S., &#38; Schaefer,
    M. (2018). Additional file 1: Of negative selection in tumor genome evolution
    acts on essential cellular functions and the immunopeptidome. Springer Nature.
    <a href="https://doi.org/10.6084/m9.figshare.6401390.v1">https://doi.org/10.6084/m9.figshare.6401390.v1</a>'
  chicago: 'Zapata, Luis, Oriol Pich, Luis Serrano, Fyodor Kondrashov, Stephan Ossowski,
    and Martin Schaefer. “Additional File 1: Of Negative Selection in Tumor Genome
    Evolution Acts on Essential Cellular Functions and the Immunopeptidome.” Springer
    Nature, 2018. <a href="https://doi.org/10.6084/m9.figshare.6401390.v1">https://doi.org/10.6084/m9.figshare.6401390.v1</a>.'
  ieee: 'L. Zapata, O. Pich, L. Serrano, F. Kondrashov, S. Ossowski, and M. Schaefer,
    “Additional file 1: Of negative selection in tumor genome evolution acts on essential
    cellular functions and the immunopeptidome.” Springer Nature, 2018.'
  ista: 'Zapata L, Pich O, Serrano L, Kondrashov F, Ossowski S, Schaefer M. 2018.
    Additional file 1: Of negative selection in tumor genome evolution acts on essential
    cellular functions and the immunopeptidome, Springer Nature, <a href="https://doi.org/10.6084/m9.figshare.6401390.v1">10.6084/m9.figshare.6401390.v1</a>.'
  mla: 'Zapata, Luis, et al. <i>Additional File 1: Of Negative Selection in Tumor
    Genome Evolution Acts on Essential Cellular Functions and the Immunopeptidome</i>.
    Springer Nature, 2018, doi:<a href="https://doi.org/10.6084/m9.figshare.6401390.v1">10.6084/m9.figshare.6401390.v1</a>.'
  short: L. Zapata, O. Pich, L. Serrano, F. Kondrashov, S. Ossowski, M. Schaefer,
    (2018).
date_created: 2021-08-06T12:53:49Z
date_published: 2018-05-31T00:00:00Z
date_updated: 2023-09-13T09:01:31Z
day: '31'
department:
- _id: FyKo
doi: 10.6084/m9.figshare.6401390.v1
main_file_link:
- open_access: '1'
  url: https://doi.org/10.6084/m9.figshare.6401390.v1
month: '05'
oa: 1
oa_version: Preprint
publisher: Springer Nature
related_material:
  record:
  - id: '279'
    relation: used_in_publication
    status: public
status: public
title: 'Additional file 1: Of negative selection in tumor genome evolution acts on
  essential cellular functions and the immunopeptidome'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9812'
abstract:
- lang: eng
  text: This document contains the full list of genes with their respective significance
    and dN/dS values. (TXT 4499Â kb)
article_processing_charge: No
author:
- first_name: Luis
  full_name: Zapata, Luis
  last_name: Zapata
- first_name: Oriol
  full_name: Pich, Oriol
  last_name: Pich
- first_name: Luis
  full_name: Serrano, Luis
  last_name: Serrano
- first_name: Fyodor
  full_name: Kondrashov, Fyodor
  id: 44FDEF62-F248-11E8-B48F-1D18A9856A87
  last_name: Kondrashov
  orcid: 0000-0001-8243-4694
- first_name: Stephan
  full_name: Ossowski, Stephan
  last_name: Ossowski
- first_name: Martin
  full_name: Schaefer, Martin
  last_name: Schaefer
citation:
  ama: 'Zapata L, Pich O, Serrano L, Kondrashov F, Ossowski S, Schaefer M. Additional
    file 2: Of negative selection in tumor genome evolution acts on essential cellular
    functions and the immunopeptidome. 2018. doi:<a href="https://doi.org/10.6084/m9.figshare.6401414.v1">10.6084/m9.figshare.6401414.v1</a>'
  apa: 'Zapata, L., Pich, O., Serrano, L., Kondrashov, F., Ossowski, S., &#38; Schaefer,
    M. (2018). Additional file 2: Of negative selection in tumor genome evolution
    acts on essential cellular functions and the immunopeptidome. Springer Nature.
    <a href="https://doi.org/10.6084/m9.figshare.6401414.v1">https://doi.org/10.6084/m9.figshare.6401414.v1</a>'
  chicago: 'Zapata, Luis, Oriol Pich, Luis Serrano, Fyodor Kondrashov, Stephan Ossowski,
    and Martin Schaefer. “Additional File 2: Of Negative Selection in Tumor Genome
    Evolution Acts on Essential Cellular Functions and the Immunopeptidome.” Springer
    Nature, 2018. <a href="https://doi.org/10.6084/m9.figshare.6401414.v1">https://doi.org/10.6084/m9.figshare.6401414.v1</a>.'
  ieee: 'L. Zapata, O. Pich, L. Serrano, F. Kondrashov, S. Ossowski, and M. Schaefer,
    “Additional file 2: Of negative selection in tumor genome evolution acts on essential
    cellular functions and the immunopeptidome.” Springer Nature, 2018.'
  ista: 'Zapata L, Pich O, Serrano L, Kondrashov F, Ossowski S, Schaefer M. 2018.
    Additional file 2: Of negative selection in tumor genome evolution acts on essential
    cellular functions and the immunopeptidome, Springer Nature, <a href="https://doi.org/10.6084/m9.figshare.6401414.v1">10.6084/m9.figshare.6401414.v1</a>.'
  mla: 'Zapata, Luis, et al. <i>Additional File 2: Of Negative Selection in Tumor
    Genome Evolution Acts on Essential Cellular Functions and the Immunopeptidome</i>.
    Springer Nature, 2018, doi:<a href="https://doi.org/10.6084/m9.figshare.6401414.v1">10.6084/m9.figshare.6401414.v1</a>.'
  short: L. Zapata, O. Pich, L. Serrano, F. Kondrashov, S. Ossowski, M. Schaefer,
    (2018).
date_created: 2021-08-06T12:58:25Z
date_published: 2018-05-31T00:00:00Z
date_updated: 2023-09-13T09:01:31Z
day: '31'
department:
- _id: FyKo
doi: 10.6084/m9.figshare.6401414.v1
main_file_link:
- open_access: '1'
  url: https://doi.org/10.6084/m9.figshare.6401414.v1
month: '05'
oa: 1
oa_version: Published Version
publisher: Springer Nature
related_material:
  record:
  - id: '279'
    relation: used_in_publication
    status: public
status: public
title: 'Additional file 2: Of negative selection in tumor genome evolution acts on
  essential cellular functions and the immunopeptidome'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9813'
abstract:
- lang: eng
  text: 'File S1 contains figures that clarify the following features: (i) effect
    of population size on the average number/frequency of SI classes, (ii) changes
    in the minimal completeness deficit in time for a single class, and (iii) diversification
    diagrams for all studied pathways, including the summary figure for k = 8. File
    S2 contains the code required for a stochastic simulation of the SLF system with
    an example. This file also includes the output in the form of figures and tables.'
article_processing_charge: No
author:
- first_name: Katarína
  full_name: Bod'ová, Katarína
  id: 2BA24EA0-F248-11E8-B48F-1D18A9856A87
  last_name: Bod'ová
  orcid: 0000-0002-7214-0171
- first_name: Tadeas
  full_name: Priklopil, Tadeas
  id: 3C869AA0-F248-11E8-B48F-1D18A9856A87
  last_name: Priklopil
- first_name: David
  full_name: Field, David
  id: 419049E2-F248-11E8-B48F-1D18A9856A87
  last_name: Field
  orcid: 0000-0002-4014-8478
- first_name: Nicholas H
  full_name: Barton, Nicholas H
  id: 4880FE40-F248-11E8-B48F-1D18A9856A87
  last_name: Barton
  orcid: 0000-0002-8548-5240
- first_name: Melinda
  full_name: Pickup, Melinda
  id: 2C78037E-F248-11E8-B48F-1D18A9856A87
  last_name: Pickup
  orcid: 0000-0001-6118-0541
citation:
  ama: Bodova K, Priklopil T, Field D, Barton NH, Pickup M. Supplemental material
    for Bodova et al., 2018. 2018. doi:<a href="https://doi.org/10.25386/genetics.6148304.v1">10.25386/genetics.6148304.v1</a>
  apa: Bodova, K., Priklopil, T., Field, D., Barton, N. H., &#38; Pickup, M. (2018).
    Supplemental material for Bodova et al., 2018. Genetics Society of America. <a
    href="https://doi.org/10.25386/genetics.6148304.v1">https://doi.org/10.25386/genetics.6148304.v1</a>
  chicago: Bodova, Katarina, Tadeas Priklopil, David Field, Nicholas H Barton, and
    Melinda Pickup. “Supplemental Material for Bodova et Al., 2018.” Genetics Society
    of America, 2018. <a href="https://doi.org/10.25386/genetics.6148304.v1">https://doi.org/10.25386/genetics.6148304.v1</a>.
  ieee: K. Bodova, T. Priklopil, D. Field, N. H. Barton, and M. Pickup, “Supplemental
    material for Bodova et al., 2018.” Genetics Society of America, 2018.
  ista: Bodova K, Priklopil T, Field D, Barton NH, Pickup M. 2018. Supplemental material
    for Bodova et al., 2018, Genetics Society of America, <a href="https://doi.org/10.25386/genetics.6148304.v1">10.25386/genetics.6148304.v1</a>.
  mla: Bodova, Katarina, et al. <i>Supplemental Material for Bodova et Al., 2018</i>.
    Genetics Society of America, 2018, doi:<a href="https://doi.org/10.25386/genetics.6148304.v1">10.25386/genetics.6148304.v1</a>.
  short: K. Bodova, T. Priklopil, D. Field, N.H. Barton, M. Pickup, (2018).
date_created: 2021-08-06T13:04:32Z
date_published: 2018-04-30T00:00:00Z
date_updated: 2025-05-28T11:57:01Z
day: '30'
department:
- _id: NiBa
- _id: GaTk
doi: 10.25386/genetics.6148304.v1
main_file_link:
- open_access: '1'
  url: https://doi.org/10.25386/genetics.6148304.v1
month: '04'
oa: 1
oa_version: Published Version
publisher: Genetics Society of America
related_material:
  record:
  - id: '316'
    relation: used_in_publication
    status: public
status: public
title: Supplemental material for Bodova et al., 2018
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9831'
abstract:
- lang: eng
  text: 'Implementation of the inference method in Matlab, including three applications
    of the method: The first one for the model of ant motion, the second one for bacterial
    chemotaxis, and the third one for the motion of fish.'
article_processing_charge: No
author:
- first_name: Katarína
  full_name: Bod’Ová, Katarína
  last_name: Bod’Ová
- first_name: Gabriel
  full_name: Mitchell, Gabriel
  id: 315BCD80-F248-11E8-B48F-1D18A9856A87
  last_name: Mitchell
- first_name: Roy
  full_name: Harpaz, Roy
  last_name: Harpaz
- first_name: Elad
  full_name: Schneidman, Elad
  last_name: Schneidman
- first_name: Gašper
  full_name: Tkačik, Gašper
  id: 3D494DCA-F248-11E8-B48F-1D18A9856A87
  last_name: Tkačik
  orcid: 0000-0002-6699-1455
citation:
  ama: Bod’Ová K, Mitchell G, Harpaz R, Schneidman E, Tkačik G. Implementation of
    the inference method in Matlab. 2018. doi:<a href="https://doi.org/10.1371/journal.pone.0193049.s001">10.1371/journal.pone.0193049.s001</a>
  apa: Bod’Ová, K., Mitchell, G., Harpaz, R., Schneidman, E., &#38; Tkačik, G. (2018).
    Implementation of the inference method in Matlab. Public Library of Science. <a
    href="https://doi.org/10.1371/journal.pone.0193049.s001">https://doi.org/10.1371/journal.pone.0193049.s001</a>
  chicago: Bod’Ová, Katarína, Gabriel Mitchell, Roy Harpaz, Elad Schneidman, and Gašper
    Tkačik. “Implementation of the Inference Method in Matlab.” Public Library of
    Science, 2018. <a href="https://doi.org/10.1371/journal.pone.0193049.s001">https://doi.org/10.1371/journal.pone.0193049.s001</a>.
  ieee: K. Bod’Ová, G. Mitchell, R. Harpaz, E. Schneidman, and G. Tkačik, “Implementation
    of the inference method in Matlab.” Public Library of Science, 2018.
  ista: Bod’Ová K, Mitchell G, Harpaz R, Schneidman E, Tkačik G. 2018. Implementation
    of the inference method in Matlab, Public Library of Science, <a href="https://doi.org/10.1371/journal.pone.0193049.s001">10.1371/journal.pone.0193049.s001</a>.
  mla: Bod’Ová, Katarína, et al. <i>Implementation of the Inference Method in Matlab</i>.
    Public Library of Science, 2018, doi:<a href="https://doi.org/10.1371/journal.pone.0193049.s001">10.1371/journal.pone.0193049.s001</a>.
  short: K. Bod’Ová, G. Mitchell, R. Harpaz, E. Schneidman, G. Tkačik, (2018).
date_created: 2021-08-09T07:01:24Z
date_published: 2018-03-07T00:00:00Z
date_updated: 2023-09-15T12:06:18Z
day: '07'
department:
- _id: GaTk
doi: 10.1371/journal.pone.0193049.s001
month: '03'
oa_version: Published Version
publisher: Public Library of Science
related_material:
  record:
  - id: '406'
    relation: used_in_publication
    status: public
status: public
title: Implementation of the inference method in Matlab
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9837'
abstract:
- lang: eng
  text: Both classical and recent studies suggest that chromosomal inversion polymorphisms
    are important in adaptation and speciation. However, biases in discovery and reporting
    of inversions make it difficult to assess their prevalence and biological importance.
    Here, we use an approach based on linkage disequilibrium among markers genotyped
    for samples collected across a transect between contrasting habitats to detect
    chromosomal rearrangements de novo. We report 17 polymorphic rearrangements in
    a single locality for the coastal marine snail, Littorina saxatilis. Patterns
    of diversity in the field and of recombination in controlled crosses provide strong
    evidence that at least the majority of these rearrangements are inversions. Most
    show clinal changes in frequency between habitats, suggestive of divergent selection,
    but only one appears to be fixed for different arrangements in the two habitats.
    Consistent with widespread evidence for balancing selection on inversion polymorphisms,
    we argue that a combination of heterosis and divergent selection can explain the
    observed patterns and should be considered in other systems spanning environmental
    gradients.
article_processing_charge: No
author:
- first_name: Rui
  full_name: Faria, Rui
  last_name: Faria
- first_name: Pragya
  full_name: Chaube, Pragya
  last_name: Chaube
- first_name: Hernán E.
  full_name: Morales, Hernán E.
  last_name: Morales
- first_name: Tomas
  full_name: Larsson, Tomas
  last_name: Larsson
- first_name: Alan R.
  full_name: Lemmon, Alan R.
  last_name: Lemmon
- first_name: Emily M.
  full_name: Lemmon, Emily M.
  last_name: Lemmon
- first_name: Marina
  full_name: Rafajlović, Marina
  last_name: Rafajlović
- first_name: Marina
  full_name: Panova, Marina
  last_name: Panova
- first_name: Mark
  full_name: Ravinet, Mark
  last_name: Ravinet
- first_name: Kerstin
  full_name: Johannesson, Kerstin
  last_name: Johannesson
- first_name: Anja M
  full_name: Westram, Anja M
  id: 3C147470-F248-11E8-B48F-1D18A9856A87
  last_name: Westram
  orcid: 0000-0003-1050-4969
- first_name: Roger K.
  full_name: Butlin, Roger K.
  last_name: Butlin
citation:
  ama: 'Faria R, Chaube P, Morales HE, et al. Data from: Multiple chromosomal rearrangements
    in a hybrid zone between Littorina saxatilis ecotypes. 2018. doi:<a href="https://doi.org/10.5061/dryad.72cg113">10.5061/dryad.72cg113</a>'
  apa: 'Faria, R., Chaube, P., Morales, H. E., Larsson, T., Lemmon, A. R., Lemmon,
    E. M., … Butlin, R. K. (2018). Data from: Multiple chromosomal rearrangements
    in a hybrid zone between Littorina saxatilis ecotypes. Dryad. <a href="https://doi.org/10.5061/dryad.72cg113">https://doi.org/10.5061/dryad.72cg113</a>'
  chicago: 'Faria, Rui, Pragya Chaube, Hernán E. Morales, Tomas Larsson, Alan R. Lemmon,
    Emily M. Lemmon, Marina Rafajlović, et al. “Data from: Multiple Chromosomal Rearrangements
    in a Hybrid Zone between Littorina Saxatilis Ecotypes.” Dryad, 2018. <a href="https://doi.org/10.5061/dryad.72cg113">https://doi.org/10.5061/dryad.72cg113</a>.'
  ieee: 'R. Faria <i>et al.</i>, “Data from: Multiple chromosomal rearrangements in
    a hybrid zone between Littorina saxatilis ecotypes.” Dryad, 2018.'
  ista: 'Faria R, Chaube P, Morales HE, Larsson T, Lemmon AR, Lemmon EM, Rafajlović
    M, Panova M, Ravinet M, Johannesson K, Westram AM, Butlin RK. 2018. Data from:
    Multiple chromosomal rearrangements in a hybrid zone between Littorina saxatilis
    ecotypes, Dryad, <a href="https://doi.org/10.5061/dryad.72cg113">10.5061/dryad.72cg113</a>.'
  mla: 'Faria, Rui, et al. <i>Data from: Multiple Chromosomal Rearrangements in a
    Hybrid Zone between Littorina Saxatilis Ecotypes</i>. Dryad, 2018, doi:<a href="https://doi.org/10.5061/dryad.72cg113">10.5061/dryad.72cg113</a>.'
  short: R. Faria, P. Chaube, H.E. Morales, T. Larsson, A.R. Lemmon, E.M. Lemmon,
    M. Rafajlović, M. Panova, M. Ravinet, K. Johannesson, A.M. Westram, R.K. Butlin,
    (2018).
date_created: 2021-08-09T12:46:39Z
date_published: 2018-10-09T00:00:00Z
date_updated: 2023-08-24T14:50:26Z
day: '09'
department:
- _id: NiBa
doi: 10.5061/dryad.72cg113
main_file_link:
- open_access: '1'
  url: https://doi.org/10.5061/dryad.72cg113
month: '10'
oa: 1
oa_version: Published Version
publisher: Dryad
related_material:
  record:
  - id: '6095'
    relation: used_in_publication
    status: public
status: public
title: 'Data from: Multiple chromosomal rearrangements in a hybrid zone between Littorina
  saxatilis ecotypes'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9838'
abstract:
- lang: eng
  text: 'Facial shape is the basis for facial recognition and categorization. Facial
    features reflect the underlying geometry of the skeletal structures. Here we reveal
    that cartilaginous nasal capsule (corresponding to upper jaw and face) is shaped
    by signals generated by neural structures: brain and olfactory epithelium. Brain-derived
    Sonic Hedgehog (SHH) enables the induction of nasal septum and posterior nasal
    capsule, whereas the formation of a capsule roof is controlled by signals from
    the olfactory epithelium. Unexpectedly, the cartilage of the nasal capsule turned
    out to be important for shaping membranous facial bones during development. This
    suggests that conserved neurosensory structures could benefit from protection
    and have evolved signals inducing cranial cartilages encasing them. Experiments
    with mutant mice revealed that the genomic regulatory regions controlling production
    of SHH in the nervous system contribute to facial cartilage morphogenesis, which
    might be a mechanism responsible for the adaptive evolution of animal faces and
    snouts.'
article_processing_charge: No
author:
- first_name: Marketa
  full_name: Kaucka, Marketa
  last_name: Kaucka
- first_name: Julian
  full_name: Petersen, Julian
  last_name: Petersen
- first_name: Marketa
  full_name: Tesarova, Marketa
  last_name: Tesarova
- first_name: Bara
  full_name: Szarowska, Bara
  last_name: Szarowska
- first_name: Maria Eleni
  full_name: Kastriti, Maria Eleni
  last_name: Kastriti
- first_name: Meng
  full_name: Xie, Meng
  last_name: Xie
- first_name: Anna
  full_name: Kicheva, Anna
  id: 3959A2A0-F248-11E8-B48F-1D18A9856A87
  last_name: Kicheva
  orcid: 0000-0003-4509-4998
- first_name: Karl
  full_name: Annusver, Karl
  last_name: Annusver
- first_name: Maria
  full_name: Kasper, Maria
  last_name: Kasper
- first_name: Orsolya
  full_name: Symmons, Orsolya
  last_name: Symmons
- first_name: Leslie
  full_name: Pan, Leslie
  last_name: Pan
- first_name: Francois
  full_name: Spitz, Francois
  last_name: Spitz
- first_name: Jozef
  full_name: Kaiser, Jozef
  last_name: Kaiser
- first_name: Maria
  full_name: Hovorakova, Maria
  last_name: Hovorakova
- first_name: Tomas
  full_name: Zikmund, Tomas
  last_name: Zikmund
- first_name: Kazunori
  full_name: Sunadome, Kazunori
  last_name: Sunadome
- first_name: Michael P
  full_name: Matise, Michael P
  last_name: Matise
- first_name: Hui
  full_name: Wang, Hui
  last_name: Wang
- first_name: Ulrika
  full_name: Marklund, Ulrika
  last_name: Marklund
- first_name: Hind
  full_name: Abdo, Hind
  last_name: Abdo
- first_name: Patrik
  full_name: Ernfors, Patrik
  last_name: Ernfors
- first_name: Pascal
  full_name: Maire, Pascal
  last_name: Maire
- first_name: Maud
  full_name: Wurmser, Maud
  last_name: Wurmser
- first_name: Andrei S
  full_name: Chagin, Andrei S
  last_name: Chagin
- first_name: Kaj
  full_name: Fried, Kaj
  last_name: Fried
- first_name: Igor
  full_name: Adameyko, Igor
  last_name: Adameyko
citation:
  ama: 'Kaucka M, Petersen J, Tesarova M, et al. Data from: Signals from the brain
    and olfactory epithelium control shaping of the mammalian nasal capsule cartilage.
    2018. doi:<a href="https://doi.org/10.5061/dryad.f1s76f2">10.5061/dryad.f1s76f2</a>'
  apa: 'Kaucka, M., Petersen, J., Tesarova, M., Szarowska, B., Kastriti, M. E., Xie,
    M., … Adameyko, I. (2018). Data from: Signals from the brain and olfactory epithelium
    control shaping of the mammalian nasal capsule cartilage. Dryad. <a href="https://doi.org/10.5061/dryad.f1s76f2">https://doi.org/10.5061/dryad.f1s76f2</a>'
  chicago: 'Kaucka, Marketa, Julian Petersen, Marketa Tesarova, Bara Szarowska, Maria
    Eleni Kastriti, Meng Xie, Anna Kicheva, et al. “Data from: Signals from the Brain
    and Olfactory Epithelium Control Shaping of the Mammalian Nasal Capsule Cartilage.”
    Dryad, 2018. <a href="https://doi.org/10.5061/dryad.f1s76f2">https://doi.org/10.5061/dryad.f1s76f2</a>.'
  ieee: 'M. Kaucka <i>et al.</i>, “Data from: Signals from the brain and olfactory
    epithelium control shaping of the mammalian nasal capsule cartilage.” Dryad, 2018.'
  ista: 'Kaucka M, Petersen J, Tesarova M, Szarowska B, Kastriti ME, Xie M, Kicheva
    A, Annusver K, Kasper M, Symmons O, Pan L, Spitz F, Kaiser J, Hovorakova M, Zikmund
    T, Sunadome K, Matise MP, Wang H, Marklund U, Abdo H, Ernfors P, Maire P, Wurmser
    M, Chagin AS, Fried K, Adameyko I. 2018. Data from: Signals from the brain and
    olfactory epithelium control shaping of the mammalian nasal capsule cartilage,
    Dryad, <a href="https://doi.org/10.5061/dryad.f1s76f2">10.5061/dryad.f1s76f2</a>.'
  mla: 'Kaucka, Marketa, et al. <i>Data from: Signals from the Brain and Olfactory
    Epithelium Control Shaping of the Mammalian Nasal Capsule Cartilage</i>. Dryad,
    2018, doi:<a href="https://doi.org/10.5061/dryad.f1s76f2">10.5061/dryad.f1s76f2</a>.'
  short: M. Kaucka, J. Petersen, M. Tesarova, B. Szarowska, M.E. Kastriti, M. Xie,
    A. Kicheva, K. Annusver, M. Kasper, O. Symmons, L. Pan, F. Spitz, J. Kaiser, M.
    Hovorakova, T. Zikmund, K. Sunadome, M.P. Matise, H. Wang, U. Marklund, H. Abdo,
    P. Ernfors, P. Maire, M. Wurmser, A.S. Chagin, K. Fried, I. Adameyko, (2018).
date_created: 2021-08-09T12:54:35Z
date_published: 2018-06-14T00:00:00Z
date_updated: 2023-09-18T09:29:07Z
day: '14'
department:
- _id: AnKi
doi: 10.5061/dryad.f1s76f2
main_file_link:
- open_access: '1'
  url: https://doi.org/10.5061/dryad.f1s76f2
month: '06'
oa: 1
oa_version: Published Version
publisher: Dryad
related_material:
  record:
  - id: '162'
    relation: used_in_publication
    status: public
status: public
title: 'Data from: Signals from the brain and olfactory epithelium control shaping
  of the mammalian nasal capsule cartilage'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9840'
abstract:
- lang: eng
  text: Herd immunity, a process in which resistant individuals limit the spread of
    a pathogen among susceptible hosts has been extensively studied in eukaryotes.
    Even though bacteria have evolved multiple immune systems against their phage
    pathogens, herd immunity in bacteria remains unexplored. Here we experimentally
    demonstrate that herd immunity arises during phage epidemics in structured and
    unstructured Escherichia coli populations consisting of differing frequencies
    of susceptible and resistant cells harboring CRISPR immunity. In addition, we
    develop a mathematical model that quantifies how herd immunity is affected by
    spatial population structure, bacterial growth rate, and phage replication rate.
    Using our model we infer a general epidemiological rule describing the relative
    speed of an epidemic in partially resistant spatially structured populations.
    Our experimental and theoretical findings indicate that herd immunity may be important
    in bacterial communities, allowing for stable coexistence of bacteria and their
    phages and the maintenance of polymorphism in bacterial immunity.
article_processing_charge: No
author:
- first_name: Pavel
  full_name: Payne, Pavel
  id: 35F78294-F248-11E8-B48F-1D18A9856A87
  last_name: Payne
  orcid: 0000-0002-2711-9453
- first_name: Lukas
  full_name: Geyrhofer, Lukas
  last_name: Geyrhofer
- first_name: Nicholas H
  full_name: Barton, Nicholas H
  id: 4880FE40-F248-11E8-B48F-1D18A9856A87
  last_name: Barton
  orcid: 0000-0002-8548-5240
- first_name: Jonathan P
  full_name: Bollback, Jonathan P
  id: 2C6FA9CC-F248-11E8-B48F-1D18A9856A87
  last_name: Bollback
  orcid: 0000-0002-4624-4612
citation:
  ama: 'Payne P, Geyrhofer L, Barton NH, Bollback JP. Data from: CRISPR-based herd
    immunity limits phage epidemics in bacterial populations. 2018. doi:<a href="https://doi.org/10.5061/dryad.42n44">10.5061/dryad.42n44</a>'
  apa: 'Payne, P., Geyrhofer, L., Barton, N. H., &#38; Bollback, J. P. (2018). Data
    from: CRISPR-based herd immunity limits phage epidemics in bacterial populations.
    Dryad. <a href="https://doi.org/10.5061/dryad.42n44">https://doi.org/10.5061/dryad.42n44</a>'
  chicago: 'Payne, Pavel, Lukas Geyrhofer, Nicholas H Barton, and Jonathan P Bollback.
    “Data from: CRISPR-Based Herd Immunity Limits Phage Epidemics in Bacterial Populations.”
    Dryad, 2018. <a href="https://doi.org/10.5061/dryad.42n44">https://doi.org/10.5061/dryad.42n44</a>.'
  ieee: 'P. Payne, L. Geyrhofer, N. H. Barton, and J. P. Bollback, “Data from: CRISPR-based
    herd immunity limits phage epidemics in bacterial populations.” Dryad, 2018.'
  ista: 'Payne P, Geyrhofer L, Barton NH, Bollback JP. 2018. Data from: CRISPR-based
    herd immunity limits phage epidemics in bacterial populations, Dryad, <a href="https://doi.org/10.5061/dryad.42n44">10.5061/dryad.42n44</a>.'
  mla: 'Payne, Pavel, et al. <i>Data from: CRISPR-Based Herd Immunity Limits Phage
    Epidemics in Bacterial Populations</i>. Dryad, 2018, doi:<a href="https://doi.org/10.5061/dryad.42n44">10.5061/dryad.42n44</a>.'
  short: P. Payne, L. Geyrhofer, N.H. Barton, J.P. Bollback, (2018).
date_created: 2021-08-09T13:10:02Z
date_published: 2018-03-12T00:00:00Z
date_updated: 2023-09-11T12:49:17Z
day: '12'
department:
- _id: NiBa
- _id: JoBo
doi: 10.5061/dryad.42n44
main_file_link:
- open_access: '1'
  url: https://doi.org/10.5061/dryad.42n44
month: '03'
oa: 1
oa_version: Published Version
publisher: Dryad
related_material:
  record:
  - id: '423'
    relation: used_in_publication
    status: public
status: public
title: 'Data from: CRISPR-based herd immunity limits phage epidemics in bacterial
  populations'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9841'
abstract:
- lang: eng
  text: Around 150 million years ago, eusocial termites evolved from within the cockroaches,
    50 million years before eusocial Hymenoptera, such as bees and ants, appeared.
    Here, we report the 2-Gb genome of the German cockroach, Blattella germanica,
    and the 1.3-Gb genome of the drywood termite Cryptotermes secundus. We show evolutionary
    signatures of termite eusociality by comparing the genomes and transcriptomes
    of three termites and the cockroach against the background of 16 other eusocial
    and non-eusocial insects. Dramatic adaptive changes in genes underlying the production
    and perception of pheromones confirm the importance of chemical communication
    in the termites. These are accompanied by major changes in gene regulation and
    the molecular evolution of caste determination. Many of these results parallel
    molecular mechanisms of eusocial evolution in Hymenoptera. However, the specific
    solutions are remarkably different, thus revealing a striking case of convergence
    in one of the major evolutionary transitions in biological complexity.
article_processing_charge: No
author:
- first_name: Mark C.
  full_name: Harrison, Mark C.
  last_name: Harrison
- first_name: Evelien
  full_name: Jongepier, Evelien
  last_name: Jongepier
- first_name: Hugh M.
  full_name: Robertson, Hugh M.
  last_name: Robertson
- first_name: Nicolas
  full_name: Arning, Nicolas
  last_name: Arning
- first_name: Tristan
  full_name: Bitard-Feildel, Tristan
  last_name: Bitard-Feildel
- first_name: Hsu
  full_name: Chao, Hsu
  last_name: Chao
- first_name: Christopher P.
  full_name: Childers, Christopher P.
  last_name: Childers
- first_name: Huyen
  full_name: Dinh, Huyen
  last_name: Dinh
- first_name: Harshavardhan
  full_name: Doddapaneni, Harshavardhan
  last_name: Doddapaneni
- first_name: Shannon
  full_name: Dugan, Shannon
  last_name: Dugan
- first_name: Johannes
  full_name: Gowin, Johannes
  last_name: Gowin
- first_name: Carolin
  full_name: Greiner, Carolin
  last_name: Greiner
- first_name: Yi
  full_name: Han, Yi
  last_name: Han
- first_name: Haofu
  full_name: Hu, Haofu
  last_name: Hu
- first_name: Daniel S. T.
  full_name: Hughes, Daniel S. T.
  last_name: Hughes
- first_name: Ann K
  full_name: Huylmans, Ann K
  id: 4C0A3874-F248-11E8-B48F-1D18A9856A87
  last_name: Huylmans
  orcid: 0000-0001-8871-4961
- first_name: Carsten
  full_name: Kemena, Carsten
  last_name: Kemena
- first_name: Lukas P. M.
  full_name: Kremer, Lukas P. M.
  last_name: Kremer
- first_name: Sandra L.
  full_name: Lee, Sandra L.
  last_name: Lee
- first_name: Alberto
  full_name: Lopez-Ezquerra, Alberto
  last_name: Lopez-Ezquerra
- first_name: Ludovic
  full_name: Mallet, Ludovic
  last_name: Mallet
- first_name: Jose M.
  full_name: Monroy-Kuhn, Jose M.
  last_name: Monroy-Kuhn
- first_name: Annabell
  full_name: Moser, Annabell
  last_name: Moser
- first_name: Shwetha C.
  full_name: Murali, Shwetha C.
  last_name: Murali
- first_name: Donna M.
  full_name: Muzny, Donna M.
  last_name: Muzny
- first_name: Saria
  full_name: Otani, Saria
  last_name: Otani
- first_name: Maria-Dolors
  full_name: Piulachs, Maria-Dolors
  last_name: Piulachs
- first_name: Monica
  full_name: Poelchau, Monica
  last_name: Poelchau
- first_name: Jiaxin
  full_name: Qu, Jiaxin
  last_name: Qu
- first_name: Florentine
  full_name: Schaub, Florentine
  last_name: Schaub
- first_name: Ayako
  full_name: Wada-Katsumata, Ayako
  last_name: Wada-Katsumata
- first_name: Kim C.
  full_name: Worley, Kim C.
  last_name: Worley
- first_name: Qiaolin
  full_name: Xie, Qiaolin
  last_name: Xie
- first_name: Guillem
  full_name: Ylla, Guillem
  last_name: Ylla
- first_name: Michael
  full_name: Poulsen, Michael
  last_name: Poulsen
- first_name: Richard A.
  full_name: Gibbs, Richard A.
  last_name: Gibbs
- first_name: Coby
  full_name: Schal, Coby
  last_name: Schal
- first_name: Stephen
  full_name: Richards, Stephen
  last_name: Richards
- first_name: Xavier
  full_name: Belles, Xavier
  last_name: Belles
- first_name: Judith
  full_name: Korb, Judith
  last_name: Korb
- first_name: Erich
  full_name: Bornberg-Bauer, Erich
  last_name: Bornberg-Bauer
citation:
  ama: 'Harrison MC, Jongepier E, Robertson HM, et al. Data from: Hemimetabolous genomes
    reveal molecular basis of termite eusociality. 2018. doi:<a href="https://doi.org/10.5061/dryad.51d4r">10.5061/dryad.51d4r</a>'
  apa: 'Harrison, M. C., Jongepier, E., Robertson, H. M., Arning, N., Bitard-Feildel,
    T., Chao, H., … Bornberg-Bauer, E. (2018). Data from: Hemimetabolous genomes reveal
    molecular basis of termite eusociality. Dryad. <a href="https://doi.org/10.5061/dryad.51d4r">https://doi.org/10.5061/dryad.51d4r</a>'
  chicago: 'Harrison, Mark C., Evelien Jongepier, Hugh M. Robertson, Nicolas Arning,
    Tristan Bitard-Feildel, Hsu Chao, Christopher P. Childers, et al. “Data from:
    Hemimetabolous Genomes Reveal Molecular Basis of Termite Eusociality.” Dryad,
    2018. <a href="https://doi.org/10.5061/dryad.51d4r">https://doi.org/10.5061/dryad.51d4r</a>.'
  ieee: 'M. C. Harrison <i>et al.</i>, “Data from: Hemimetabolous genomes reveal molecular
    basis of termite eusociality.” Dryad, 2018.'
  ista: 'Harrison MC, Jongepier E, Robertson HM, Arning N, Bitard-Feildel T, Chao
    H, Childers CP, Dinh H, Doddapaneni H, Dugan S, Gowin J, Greiner C, Han Y, Hu
    H, Hughes DST, Huylmans AK, Kemena C, Kremer LPM, Lee SL, Lopez-Ezquerra A, Mallet
    L, Monroy-Kuhn JM, Moser A, Murali SC, Muzny DM, Otani S, Piulachs M-D, Poelchau
    M, Qu J, Schaub F, Wada-Katsumata A, Worley KC, Xie Q, Ylla G, Poulsen M, Gibbs
    RA, Schal C, Richards S, Belles X, Korb J, Bornberg-Bauer E. 2018. Data from:
    Hemimetabolous genomes reveal molecular basis of termite eusociality, Dryad, <a
    href="https://doi.org/10.5061/dryad.51d4r">10.5061/dryad.51d4r</a>.'
  mla: 'Harrison, Mark C., et al. <i>Data from: Hemimetabolous Genomes Reveal Molecular
    Basis of Termite Eusociality</i>. Dryad, 2018, doi:<a href="https://doi.org/10.5061/dryad.51d4r">10.5061/dryad.51d4r</a>.'
  short: M.C. Harrison, E. Jongepier, H.M. Robertson, N. Arning, T. Bitard-Feildel,
    H. Chao, C.P. Childers, H. Dinh, H. Doddapaneni, S. Dugan, J. Gowin, C. Greiner,
    Y. Han, H. Hu, D.S.T. Hughes, A.K. Huylmans, C. Kemena, L.P.M. Kremer, S.L. Lee,
    A. Lopez-Ezquerra, L. Mallet, J.M. Monroy-Kuhn, A. Moser, S.C. Murali, D.M. Muzny,
    S. Otani, M.-D. Piulachs, M. Poelchau, J. Qu, F. Schaub, A. Wada-Katsumata, K.C.
    Worley, Q. Xie, G. Ylla, M. Poulsen, R.A. Gibbs, C. Schal, S. Richards, X. Belles,
    J. Korb, E. Bornberg-Bauer, (2018).
date_created: 2021-08-09T13:13:48Z
date_published: 2018-12-12T00:00:00Z
date_updated: 2023-09-11T14:10:56Z
day: '12'
department:
- _id: BeVi
doi: 10.5061/dryad.51d4r
main_file_link:
- open_access: '1'
  url: https://doi.org/10.5061/dryad.51d4r
month: '12'
oa: 1
oa_version: Published Version
publisher: Dryad
related_material:
  record:
  - id: '448'
    relation: used_in_publication
    status: public
status: public
title: 'Data from: Hemimetabolous genomes reveal molecular basis of termite eusociality'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9915'
abstract:
- lang: eng
  text: 'The evolution of assortative mating is a key part of the speciation process.
    Stronger assortment, or greater divergence in mating traits, between species pairs
    with overlapping ranges is commonly observed, but possible causes of this pattern
    of reproductive character displacement are difficult to distinguish. We use a
    multidisciplinary approach to provide a rare example where it is possible to distinguish
    among hypotheses concerning the evolution of reproductive character displacement.
    We build on an earlier comparative analysis that illustrated a strong pattern
    of greater divergence in penis form between pairs of sister species with overlapping
    ranges than between allopatric sister-species pairs, in a large clade of marine
    gastropods (Littorinidae). We investigate both assortative mating and divergence
    in male genitalia in one of the sister-species pairs, discriminating among three
    contrasting processes each of which can generate a pattern of reproductive character
    displacement: reinforcement, reproductive interference and the Templeton effect.
    We demonstrate reproductive character displacement in assortative mating, but
    not in genital form between this pair of sister species and use demographic models
    to distinguish among the different processes. Our results support a model with
    no gene flow since secondary contact and thus favor reproductive interference
    as the cause of reproductive character displacement for mate choice, rather than
    reinforcement. High gene flow within species argues against the Templeton effect.
    Secondary contact appears to have had little impact on genital divergence.'
acknowledgement: The authors express a special thanks to Dr Richard Willan at the
  Museum and Art Gallery of the Northern Territory for guidance and support in the
  field, and to Carole Smadja for reading and commenting on the manuscript. The authors
  thank the Government of Western Australia Department of Parks and Wildlife (license
  no. 009254) and Fishery Research Division (exemption no. 2262) for assistance with
  permits. Khalid Belkhir modified the coalescent sampler msnsam for the specific
  needs of this project and Martin Hirsch helped to set up the ABC pipeline and to
  modify the summary statistic calculator mscalc. The authors are grateful to the
  Crafoord Foundation for supporting this project. R.K.B., A.M.W., and L.D. were supported
  by grants from the Natural Environment Research Council, R.K.B. and A.M.W. were
  also supported by the European Research Council and R.K.B. and L.D. by the Leverhulme
  Trust. M.M.R. was supported by Consejo Nacional de Ciencia y Tecnología and Secretaría
  de Educación Pública, Mexico. G.B. was supported by the Centre for Animal Movement
  Research (CAnMove) financed by a Linnaeus grant (No. 349-2007-8690) from the Swedish
  Research Council and Lund University.
article_processing_charge: Yes
article_type: letter_note
author:
- first_name: Johan
  full_name: Hollander, Johan
  last_name: Hollander
- first_name: Mauricio
  full_name: Montaño-Rendón, Mauricio
  last_name: Montaño-Rendón
- first_name: Giuseppe
  full_name: Bianco, Giuseppe
  last_name: Bianco
- first_name: Xi
  full_name: Yang, Xi
  last_name: Yang
- first_name: Anja M
  full_name: Westram, Anja M
  id: 3C147470-F248-11E8-B48F-1D18A9856A87
  last_name: Westram
  orcid: 0000-0003-1050-4969
- first_name: Ludovic
  full_name: Duvaux, Ludovic
  last_name: Duvaux
- first_name: David G.
  full_name: Reid, David G.
  last_name: Reid
- first_name: Roger K.
  full_name: Butlin, Roger K.
  last_name: Butlin
citation:
  ama: Hollander J, Montaño-Rendón M, Bianco G, et al. Are assortative mating and
    genital divergence driven by reinforcement? <i>Evolution Letters</i>. 2018;2(6):557-566.
    doi:<a href="https://doi.org/10.1002/evl3.85">10.1002/evl3.85</a>
  apa: Hollander, J., Montaño-Rendón, M., Bianco, G., Yang, X., Westram, A. M., Duvaux,
    L., … Butlin, R. K. (2018). Are assortative mating and genital divergence driven
    by reinforcement? <i>Evolution Letters</i>. Wiley. <a href="https://doi.org/10.1002/evl3.85">https://doi.org/10.1002/evl3.85</a>
  chicago: Hollander, Johan, Mauricio Montaño-Rendón, Giuseppe Bianco, Xi Yang, Anja
    M Westram, Ludovic Duvaux, David G. Reid, and Roger K. Butlin. “Are Assortative
    Mating and Genital Divergence Driven by Reinforcement?” <i>Evolution Letters</i>.
    Wiley, 2018. <a href="https://doi.org/10.1002/evl3.85">https://doi.org/10.1002/evl3.85</a>.
  ieee: J. Hollander <i>et al.</i>, “Are assortative mating and genital divergence
    driven by reinforcement?,” <i>Evolution Letters</i>, vol. 2, no. 6. Wiley, pp.
    557–566, 2018.
  ista: Hollander J, Montaño-Rendón M, Bianco G, Yang X, Westram AM, Duvaux L, Reid
    DG, Butlin RK. 2018. Are assortative mating and genital divergence driven by reinforcement?
    Evolution Letters. 2(6), 557–566.
  mla: Hollander, Johan, et al. “Are Assortative Mating and Genital Divergence Driven
    by Reinforcement?” <i>Evolution Letters</i>, vol. 2, no. 6, Wiley, 2018, pp. 557–66,
    doi:<a href="https://doi.org/10.1002/evl3.85">10.1002/evl3.85</a>.
  short: J. Hollander, M. Montaño-Rendón, G. Bianco, X. Yang, A.M. Westram, L. Duvaux,
    D.G. Reid, R.K. Butlin, Evolution Letters 2 (2018) 557–566.
date_created: 2021-08-16T07:30:00Z
date_published: 2018-12-13T00:00:00Z
date_updated: 2023-09-19T15:08:53Z
day: '13'
ddc:
- '570'
department:
- _id: BeVi
doi: 10.1002/evl3.85
external_id:
  isi:
  - '000452990000002'
  pmid:
  - '30564439'
file:
- access_level: open_access
  checksum: 997a78ac41c809975ca69cbdea441f88
  content_type: application/pdf
  creator: asandaue
  date_created: 2021-08-16T07:37:28Z
  date_updated: 2021-08-16T07:37:28Z
  file_id: '9916'
  file_name: 2018_EvolutionLetters_Hollander.pdf
  file_size: 584606
  relation: main_file
  success: 1
file_date_updated: 2021-08-16T07:37:28Z
has_accepted_license: '1'
intvolume: '         2'
isi: 1
issue: '6'
language:
- iso: eng
month: '12'
oa: 1
oa_version: Published Version
page: 557-566
pmid: 1
publication: Evolution Letters
publication_identifier:
  eissn:
  - 2056-3744
  issn:
  - ' 2056-3744'
publication_status: published
publisher: Wiley
quality_controlled: '1'
related_material:
  record:
  - id: '9929'
    relation: research_data
    status: public
status: public
title: Are assortative mating and genital divergence driven by reinforcement?
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: c635000d-4b10-11ee-a964-aac5a93f6ac1
volume: 2
year: '2018'
...
---
_id: '9917'
abstract:
- lang: eng
  text: Adaptive divergence and speciation may happen despite opposition by gene flow.
    Identifying the genomic basis underlying divergence with gene flow is a major
    task in evolutionary genomics. Most approaches (e.g., outlier scans) focus on
    genomic regions of high differentiation. However, not all genomic architectures
    potentially underlying divergence are expected to show extreme differentiation.
    Here, we develop an approach that combines hybrid zone analysis (i.e., focuses
    on spatial patterns of allele frequency change) with system-specific simulations
    to identify loci inconsistent with neutral evolution. We apply this to a genome-wide
    SNP set from an ideally suited study organism, the intertidal snail Littorina
    saxatilis, which shows primary divergence between ecotypes associated with different
    shore habitats. We detect many SNPs with clinal patterns, most of which are consistent
    with neutrality. Among non-neutral SNPs, most are located within three large putative
    inversions differentiating ecotypes. Many non-neutral SNPs show relatively low
    levels of differentiation. We discuss potential reasons for this pattern, including
    loose linkage to selected variants, polygenic adaptation and a component of balancing
    selection within populations (which may be expected for inversions). Our work
    is in line with theory predicting a role for inversions in divergence, and emphasizes
    that genomic regions contributing to divergence may not always be accessible with
    methods purely based on allele frequency differences. These conclusions call for
    approaches that take spatial patterns of allele frequency change into account
    in other systems.
acknowledgement: We are very grateful to people who helped with fieldwork, snail processing,
  and DNA extractions, particularly Laura Brettell, Mårten Duvetorp, Juan Galindo,
  Anne-Lise Liabot and Irena Senčić. We would also like to thank Magnus Alm Rosenblad
  and Mats Töpel for their contribution to assembling the Littorina saxatilis genome,
  Carl André, Pasi Rastas, and Romain Villoutreix for discussion, and two anonymous
  reviewers for their helpful comments on the manuscript. We are grateful to RapidGenomics
  for library preparation and sequencing. We thank the Natural Environment Research
  Council, the European Research Council and the Swedish Research Councils VR and
  Formas (Linnaeus grant to the Centre for Marine Evolutionary Biology and Tage Erlander
  Guest Professorship) for funding. P.C. was funded by the University of Sheffield
  Vice-chancellor's India scholarship. R.F. is funded by the European Union's Horizon
  2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement
  no. 706376. M. Raf. was supported by the Adlerbert Research Foundation.
article_processing_charge: Yes
article_type: letter_note
author:
- first_name: Anja M
  full_name: Westram, Anja M
  id: 3C147470-F248-11E8-B48F-1D18A9856A87
  last_name: Westram
  orcid: 0000-0003-1050-4969
- first_name: Marina
  full_name: Rafajlović, Marina
  last_name: Rafajlović
- first_name: Pragya
  full_name: Chaube, Pragya
  last_name: Chaube
- first_name: Rui
  full_name: Faria, Rui
  last_name: Faria
- first_name: Tomas
  full_name: Larsson, Tomas
  last_name: Larsson
- first_name: Marina
  full_name: Panova, Marina
  last_name: Panova
- first_name: Mark
  full_name: Ravinet, Mark
  last_name: Ravinet
- first_name: Anders
  full_name: Blomberg, Anders
  last_name: Blomberg
- first_name: Bernhard
  full_name: Mehlig, Bernhard
  last_name: Mehlig
- first_name: Kerstin
  full_name: Johannesson, Kerstin
  last_name: Johannesson
- first_name: Roger
  full_name: Butlin, Roger
  last_name: Butlin
citation:
  ama: 'Westram AM, Rafajlović M, Chaube P, et al. Clines on the seashore: The genomic
    architecture underlying rapid divergence in the face of gene flow. <i>Evolution
    Letters</i>. 2018;2(4):297-309. doi:<a href="https://doi.org/10.1002/evl3.74">10.1002/evl3.74</a>'
  apa: 'Westram, A. M., Rafajlović, M., Chaube, P., Faria, R., Larsson, T., Panova,
    M., … Butlin, R. (2018). Clines on the seashore: The genomic architecture underlying
    rapid divergence in the face of gene flow. <i>Evolution Letters</i>. Wiley. <a
    href="https://doi.org/10.1002/evl3.74">https://doi.org/10.1002/evl3.74</a>'
  chicago: 'Westram, Anja M, Marina Rafajlović, Pragya Chaube, Rui Faria, Tomas Larsson,
    Marina Panova, Mark Ravinet, et al. “Clines on the Seashore: The Genomic Architecture
    Underlying Rapid Divergence in the Face of Gene Flow.” <i>Evolution Letters</i>.
    Wiley, 2018. <a href="https://doi.org/10.1002/evl3.74">https://doi.org/10.1002/evl3.74</a>.'
  ieee: 'A. M. Westram <i>et al.</i>, “Clines on the seashore: The genomic architecture
    underlying rapid divergence in the face of gene flow,” <i>Evolution Letters</i>,
    vol. 2, no. 4. Wiley, pp. 297–309, 2018.'
  ista: 'Westram AM, Rafajlović M, Chaube P, Faria R, Larsson T, Panova M, Ravinet
    M, Blomberg A, Mehlig B, Johannesson K, Butlin R. 2018. Clines on the seashore:
    The genomic architecture underlying rapid divergence in the face of gene flow.
    Evolution Letters. 2(4), 297–309.'
  mla: 'Westram, Anja M., et al. “Clines on the Seashore: The Genomic Architecture
    Underlying Rapid Divergence in the Face of Gene Flow.” <i>Evolution Letters</i>,
    vol. 2, no. 4, Wiley, 2018, pp. 297–309, doi:<a href="https://doi.org/10.1002/evl3.74">10.1002/evl3.74</a>.'
  short: A.M. Westram, M. Rafajlović, P. Chaube, R. Faria, T. Larsson, M. Panova,
    M. Ravinet, A. Blomberg, B. Mehlig, K. Johannesson, R. Butlin, Evolution Letters
    2 (2018) 297–309.
date_created: 2021-08-16T07:45:38Z
date_published: 2018-08-20T00:00:00Z
date_updated: 2023-09-19T15:08:25Z
day: '20'
ddc:
- '570'
department:
- _id: BeVi
doi: 10.1002/evl3.74
external_id:
  isi:
  - '000446774400004'
  pmid:
  - '30283683'
file:
- access_level: open_access
  checksum: 8524e72507d521416be3f8ccfcd5e3f5
  content_type: application/pdf
  creator: asandaue
  date_created: 2021-08-16T07:48:03Z
  date_updated: 2021-08-16T07:48:03Z
  file_id: '9918'
  file_name: 2018_EvolutionLetters_Westram.pdf
  file_size: 764299
  relation: main_file
  success: 1
file_date_updated: 2021-08-16T07:48:03Z
has_accepted_license: '1'
intvolume: '         2'
isi: 1
issue: '4'
language:
- iso: eng
month: '08'
oa: 1
oa_version: Published Version
page: 297-309
pmid: 1
publication: Evolution Letters
publication_identifier:
  eissn:
  - 2056-3744
  issn:
  - 2056-3744
publication_status: published
publisher: Wiley
quality_controlled: '1'
related_material:
  record:
  - id: '9930'
    relation: research_data
    status: public
status: public
title: 'Clines on the seashore: The genomic architecture underlying rapid divergence
  in the face of gene flow'
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: c635000d-4b10-11ee-a964-aac5a93f6ac1
volume: 2
year: '2018'
...
---
_id: '9929'
abstract:
- lang: eng
  text: 'The evolution of assortative mating is a key part of the speciation process.
    Stronger assortment, or greater divergence in mating traits, between species pairs
    with overlapping ranges is commonly observed, but possible causes of this pattern
    of reproductive character displacement are difficult to distinguish. We use a
    multidisciplinary approach to provide a rare example where it is possible to distinguish
    among hypotheses concerning the evolution of reproductive character displacement.
    We build on an earlier comparative analysis that illustrated a strong pattern
    of greater divergence in penis form between pairs of sister species with overlapping
    ranges than between allopatric sister-species pairs, in a large clade of marine
    gastropods (Littorinidae). We investigate both assortative mating and divergence
    in male genitalia in one of the sister-species pairs, discriminating among three
    contrasting processes each of which can generate a pattern of reproductive character
    displacement: reinforcement, reproductive interference and the Templeton effect.
    We demonstrate reproductive character displacement in assortative mating, but
    not in genital form between this pair of sister species and use demographic models
    to distinguish among the different processes. Our results support a model with
    no gene flow since secondary contact and thus favour reproductive interference
    as the cause of reproductive character displacement for mate choice, rather than
    reinforcement. High gene flow within species argues against the Templeton effect.
    Secondary contact appears to have had little impact on genital divergence.'
article_processing_charge: No
author:
- first_name: Johan
  full_name: Hollander, Johan
  last_name: Hollander
- first_name: Mauricio
  full_name: Montaño-Rendón, Mauricio
  last_name: Montaño-Rendón
- first_name: Giuseppe
  full_name: Bianco, Giuseppe
  last_name: Bianco
- first_name: Xi
  full_name: Yang, Xi
  last_name: Yang
- first_name: Anja M
  full_name: Westram, Anja M
  id: 3C147470-F248-11E8-B48F-1D18A9856A87
  last_name: Westram
  orcid: 0000-0003-1050-4969
- first_name: Ludovic
  full_name: Duvaux, Ludovic
  last_name: Duvaux
- first_name: David G.
  full_name: Reid, David G.
  last_name: Reid
- first_name: Roger K.
  full_name: Butlin, Roger K.
  last_name: Butlin
citation:
  ama: 'Hollander J, Montaño-Rendón M, Bianco G, et al. Data from: Are assortative
    mating and genital divergence driven by reinforcement? 2018. doi:<a href="https://doi.org/10.5061/dryad.51sd2p5">10.5061/dryad.51sd2p5</a>'
  apa: 'Hollander, J., Montaño-Rendón, M., Bianco, G., Yang, X., Westram, A. M., Duvaux,
    L., … Butlin, R. K. (2018). Data from: Are assortative mating and genital divergence
    driven by reinforcement? Dryad. <a href="https://doi.org/10.5061/dryad.51sd2p5">https://doi.org/10.5061/dryad.51sd2p5</a>'
  chicago: 'Hollander, Johan, Mauricio Montaño-Rendón, Giuseppe Bianco, Xi Yang, Anja
    M Westram, Ludovic Duvaux, David G. Reid, and Roger K. Butlin. “Data from: Are
    Assortative Mating and Genital Divergence Driven by Reinforcement?” Dryad, 2018.
    <a href="https://doi.org/10.5061/dryad.51sd2p5">https://doi.org/10.5061/dryad.51sd2p5</a>.'
  ieee: 'J. Hollander <i>et al.</i>, “Data from: Are assortative mating and genital
    divergence driven by reinforcement?” Dryad, 2018.'
  ista: 'Hollander J, Montaño-Rendón M, Bianco G, Yang X, Westram AM, Duvaux L, Reid
    DG, Butlin RK. 2018. Data from: Are assortative mating and genital divergence
    driven by reinforcement?, Dryad, <a href="https://doi.org/10.5061/dryad.51sd2p5">10.5061/dryad.51sd2p5</a>.'
  mla: 'Hollander, Johan, et al. <i>Data from: Are Assortative Mating and Genital
    Divergence Driven by Reinforcement?</i> Dryad, 2018, doi:<a href="https://doi.org/10.5061/dryad.51sd2p5">10.5061/dryad.51sd2p5</a>.'
  short: J. Hollander, M. Montaño-Rendón, G. Bianco, X. Yang, A.M. Westram, L. Duvaux,
    D.G. Reid, R.K. Butlin, (2018).
date_created: 2021-08-17T08:51:06Z
date_published: 2018-10-17T00:00:00Z
date_updated: 2023-09-19T15:08:53Z
day: '17'
department:
- _id: BeVi
doi: 10.5061/dryad.51sd2p5
main_file_link:
- open_access: '1'
  url: https://doi.org/10.5061/dryad.51sd2p5
month: '10'
oa: 1
oa_version: Published Version
publisher: Dryad
related_material:
  record:
  - id: '9915'
    relation: used_in_publication
    status: public
status: public
title: 'Data from: Are assortative mating and genital divergence driven by reinforcement?'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '9930'
abstract:
- lang: eng
  text: Adaptive divergence and speciation may happen despite opposition by gene flow.
    Identifying the genomic basis underlying divergence with gene flow is a major
    task in evolutionary genomics. Most approaches (e.g. outlier scans) focus on genomic
    regions of high differentiation. However, not all genomic architectures potentially
    underlying divergence are expected to show extreme differentiation. Here, we develop
    an approach that combines hybrid zone analysis (i.e. focuses on spatial patterns
    of allele frequency change) with system-specific simulations to identify loci
    inconsistent with neutral evolution. We apply this to a genome-wide SNP set from
    an ideally-suited study organism, the intertidal snail Littorina saxatilis, which
    shows primary divergence between ecotypes associated with different shore habitats.
    We detect many SNPs with clinal patterns, most of which are consistent with neutrality.
    Among non-neutral SNPs, most are located within three large putative inversions
    differentiating ecotypes. Many non-neutral SNPs show relatively low levels of
    differentiation. We discuss potential reasons for this pattern, including loose
    linkage to selected variants, polygenic adaptation and a component of balancing
    selection within populations (which may be expected for inversions). Our work
    is in line with theory predicting a role for inversions in divergence, and emphasises
    that genomic regions contributing to divergence may not always be accessible with
    methods purely based on allele frequency differences. These conclusions call for
    approaches that take spatial patterns of allele frequency change into account
    in other systems.
article_processing_charge: No
author:
- first_name: Anja M
  full_name: Westram, Anja M
  id: 3C147470-F248-11E8-B48F-1D18A9856A87
  last_name: Westram
  orcid: 0000-0003-1050-4969
- first_name: Marina
  full_name: Rafajlović, Marina
  last_name: Rafajlović
- first_name: Pragya
  full_name: Chaube, Pragya
  last_name: Chaube
- first_name: Rui
  full_name: Faria, Rui
  last_name: Faria
- first_name: Tomas
  full_name: Larsson, Tomas
  last_name: Larsson
- first_name: Marina
  full_name: Panova, Marina
  last_name: Panova
- first_name: Mark
  full_name: Ravinet, Mark
  last_name: Ravinet
- first_name: Anders
  full_name: Blomberg, Anders
  last_name: Blomberg
- first_name: Bernhard
  full_name: Mehlig, Bernhard
  last_name: Mehlig
- first_name: Kerstin
  full_name: Johannesson, Kerstin
  last_name: Johannesson
- first_name: Roger
  full_name: Butlin, Roger
  last_name: Butlin
citation:
  ama: 'Westram AM, Rafajlović M, Chaube P, et al. Data from: Clines on the seashore:
    the genomic architecture underlying rapid divergence in the face of gene flow.
    2018. doi:<a href="https://doi.org/10.5061/dryad.bp25b65">10.5061/dryad.bp25b65</a>'
  apa: 'Westram, A. M., Rafajlović, M., Chaube, P., Faria, R., Larsson, T., Panova,
    M., … Butlin, R. (2018). Data from: Clines on the seashore: the genomic architecture
    underlying rapid divergence in the face of gene flow. Dryad. <a href="https://doi.org/10.5061/dryad.bp25b65">https://doi.org/10.5061/dryad.bp25b65</a>'
  chicago: 'Westram, Anja M, Marina Rafajlović, Pragya Chaube, Rui Faria, Tomas Larsson,
    Marina Panova, Mark Ravinet, et al. “Data from: Clines on the Seashore: The Genomic
    Architecture Underlying Rapid Divergence in the Face of Gene Flow.” Dryad, 2018.
    <a href="https://doi.org/10.5061/dryad.bp25b65">https://doi.org/10.5061/dryad.bp25b65</a>.'
  ieee: 'A. M. Westram <i>et al.</i>, “Data from: Clines on the seashore: the genomic
    architecture underlying rapid divergence in the face of gene flow.” Dryad, 2018.'
  ista: 'Westram AM, Rafajlović M, Chaube P, Faria R, Larsson T, Panova M, Ravinet
    M, Blomberg A, Mehlig B, Johannesson K, Butlin R. 2018. Data from: Clines on the
    seashore: the genomic architecture underlying rapid divergence in the face of
    gene flow, Dryad, <a href="https://doi.org/10.5061/dryad.bp25b65">10.5061/dryad.bp25b65</a>.'
  mla: 'Westram, Anja M., et al. <i>Data from: Clines on the Seashore: The Genomic
    Architecture Underlying Rapid Divergence in the Face of Gene Flow</i>. Dryad,
    2018, doi:<a href="https://doi.org/10.5061/dryad.bp25b65">10.5061/dryad.bp25b65</a>.'
  short: A.M. Westram, M. Rafajlović, P. Chaube, R. Faria, T. Larsson, M. Panova,
    M. Ravinet, A. Blomberg, B. Mehlig, K. Johannesson, R. Butlin, (2018).
date_created: 2021-08-17T08:58:47Z
date_published: 2018-07-23T00:00:00Z
date_updated: 2023-09-19T15:08:24Z
day: '23'
department:
- _id: BeVi
doi: 10.5061/dryad.bp25b65
main_file_link:
- open_access: '1'
  url: https://doi.org/10.5061/dryad.bp25b65
month: '07'
oa: 1
oa_version: Published Version
publisher: Dryad
related_material:
  record:
  - id: '9917'
    relation: used_in_publication
    status: public
status: public
title: 'Data from: Clines on the seashore: the genomic architecture underlying rapid
  divergence in the face of gene flow'
type: research_data_reference
user_id: 6785fbc1-c503-11eb-8a32-93094b40e1cf
year: '2018'
...
---
_id: '34'
abstract:
- lang: eng
  text: Partially observable Markov decision processes (POMDPs) are widely used in
    probabilistic planning problems in which an agent interacts with an environment
    using noisy and imprecise sensors. We study a setting in which the sensors are
    only partially defined and the goal is to synthesize “weakest” additional sensors,
    such that in the resulting POMDP, there is a small-memory policy for the agent
    that almost-surely (with probability 1) satisfies a reachability objective. We
    show that the problem is NP-complete, and present a symbolic algorithm by encoding
    the problem into SAT instances. We illustrate trade-offs between the amount of
    memory of the policy and the number of additional sensors on a simple example.
    We have implemented our approach and consider three classical POMDP examples from
    the literature, and show that in all the examples the number of sensors can be
    significantly decreased (as compared to the existing solutions in the literature)
    without increasing the complexity of the policies.
alternative_title:
- ICAPS
article_processing_charge: No
arxiv: 1
author:
- first_name: Krishnendu
  full_name: Chatterjee, Krishnendu
  id: 2E5DCA20-F248-11E8-B48F-1D18A9856A87
  last_name: Chatterjee
  orcid: 0000-0002-4561-241X
- first_name: Martin
  full_name: Chemlík, Martin
  last_name: Chemlík
- first_name: Ufuk
  full_name: Topcu, Ufuk
  last_name: Topcu
citation:
  ama: 'Chatterjee K, Chemlík M, Topcu U. Sensor synthesis for POMDPs with reachability
    objectives. In: Vol 2018. AAAI Press; 2018:47-55.'
  apa: 'Chatterjee, K., Chemlík, M., &#38; Topcu, U. (2018). Sensor synthesis for
    POMDPs with reachability objectives (Vol. 2018, pp. 47–55). Presented at the ICAPS:
    International Conference on Automated Planning and Scheduling, Delft, Netherlands:
    AAAI Press.'
  chicago: Chatterjee, Krishnendu, Martin Chemlík, and Ufuk Topcu. “Sensor Synthesis
    for POMDPs with Reachability Objectives,” 2018:47–55. AAAI Press, 2018.
  ieee: 'K. Chatterjee, M. Chemlík, and U. Topcu, “Sensor synthesis for POMDPs with
    reachability objectives,” presented at the ICAPS: International Conference on
    Automated Planning and Scheduling, Delft, Netherlands, 2018, vol. 2018, pp. 47–55.'
  ista: 'Chatterjee K, Chemlík M, Topcu U. 2018. Sensor synthesis for POMDPs with
    reachability objectives. ICAPS: International Conference on Automated Planning
    and Scheduling, ICAPS, vol. 2018, 47–55.'
  mla: Chatterjee, Krishnendu, et al. <i>Sensor Synthesis for POMDPs with Reachability
    Objectives</i>. Vol. 2018, AAAI Press, 2018, pp. 47–55.
  short: K. Chatterjee, M. Chemlík, U. Topcu, in:, AAAI Press, 2018, pp. 47–55.
conference:
  end_date: 2018-06-29
  location: Delft, Netherlands
  name: 'ICAPS: International Conference on Automated Planning and Scheduling'
  start_date: 2018-06-24
date_created: 2018-12-11T11:44:16Z
date_published: 2018-06-01T00:00:00Z
date_updated: 2023-09-19T14:44:14Z
day: '01'
department:
- _id: KrCh
ec_funded: 1
external_id:
  arxiv:
  - '1710.00675'
  isi:
  - '000492986200006'
intvolume: '      2018'
isi: 1
language:
- iso: eng
main_file_link:
- open_access: '1'
  url: https://arxiv.org/abs/1710.00675
month: '06'
oa: 1
oa_version: Preprint
page: 47 - 55
project:
- _id: 2584A770-B435-11E9-9278-68D0E5697425
  call_identifier: FWF
  grant_number: P 23499-N23
  name: Modern Graph Algorithmic Techniques in Formal Verification
- _id: 2581B60A-B435-11E9-9278-68D0E5697425
  call_identifier: FP7
  grant_number: '279307'
  name: 'Quantitative Graph Games: Theory and Applications'
- _id: 25832EC2-B435-11E9-9278-68D0E5697425
  call_identifier: FWF
  grant_number: S 11407_N23
  name: Rigorous Systems Engineering
- _id: 2587B514-B435-11E9-9278-68D0E5697425
  name: Microsoft Research Faculty Fellowship
publication_status: published
publisher: AAAI Press
publist_id: '8021'
quality_controlled: '1'
scopus_import: '1'
status: public
title: Sensor synthesis for POMDPs with reachability objectives
type: conference
user_id: c635000d-4b10-11ee-a964-aac5a93f6ac1
volume: 2018
year: '2018'
...
---
_id: '35'
abstract:
- lang: eng
  text: 'We consider planning problems for graphs, Markov decision processes (MDPs),
    and games on graphs. While graphs represent the most basic planning model, MDPs
    represent interaction with nature and games on graphs represent interaction with
    an adversarial environment. We consider two planning problems where there are
    k different target sets, and the problems are as follows: (a) the coverage problem
    asks whether there is a plan for each individual target set; and (b) the sequential
    target reachability problem asks whether the targets can be reached in sequence.
    For the coverage problem, we present a linear-time algorithm for graphs, and quadratic
    conditional lower bound for MDPs and games on graphs. For the sequential target
    problem, we present a linear-time algorithm for graphs, a sub-quadratic algorithm
    for MDPs, and a quadratic conditional lower bound for games on graphs. Our results
    with conditional lower bounds establish (i) model-separation results showing that
    for the coverage problem MDPs and games on graphs are harder than graphs and for
    the sequential reachability problem games on graphs are harder than MDPs and graphs;
    and (ii) objective-separation results showing that for MDPs the coverage problem
    is harder than the sequential target problem.'
article_processing_charge: No
arxiv: 1
author:
- first_name: Krishnendu
  full_name: Chatterjee, Krishnendu
  id: 2E5DCA20-F248-11E8-B48F-1D18A9856A87
  last_name: Chatterjee
  orcid: 0000-0002-4561-241X
- first_name: Wolfgang
  full_name: Dvorák, Wolfgang
  last_name: Dvorák
- first_name: Monika H
  full_name: Henzinger, Monika H
  id: 540c9bbd-f2de-11ec-812d-d04a5be85630
  last_name: Henzinger
  orcid: 0000-0002-5008-6530
- first_name: Alexander
  full_name: Svozil, Alexander
  last_name: Svozil
citation:
  ama: 'Chatterjee K, Dvorák W, Henzinger MH, Svozil A. Algorithms and conditional
    lower bounds for planning problems. In: <i>28th International Conference on Automated
    Planning and Scheduling </i>. AAAI Press; 2018.'
  apa: 'Chatterjee, K., Dvorák, W., Henzinger, M. H., &#38; Svozil, A. (2018). Algorithms
    and conditional lower bounds for planning problems. In <i>28th International Conference
    on Automated Planning and Scheduling </i>. Delft, Netherlands: AAAI Press.'
  chicago: Chatterjee, Krishnendu, Wolfgang Dvorák, Monika H Henzinger, and Alexander
    Svozil. “Algorithms and Conditional Lower Bounds for Planning Problems.” In <i>28th
    International Conference on Automated Planning and Scheduling </i>. AAAI Press,
    2018.
  ieee: K. Chatterjee, W. Dvorák, M. H. Henzinger, and A. Svozil, “Algorithms and
    conditional lower bounds for planning problems,” in <i>28th International Conference
    on Automated Planning and Scheduling </i>, Delft, Netherlands, 2018.
  ista: 'Chatterjee K, Dvorák W, Henzinger MH, Svozil A. 2018. Algorithms and conditional
    lower bounds for planning problems. 28th International Conference on Automated
    Planning and Scheduling . ICAPS: International Conference on Automated Planning
    and Scheduling.'
  mla: Chatterjee, Krishnendu, et al. “Algorithms and Conditional Lower Bounds for
    Planning Problems.” <i>28th International Conference on Automated Planning and
    Scheduling </i>, AAAI Press, 2018.
  short: K. Chatterjee, W. Dvorák, M.H. Henzinger, A. Svozil, in:, 28th International
    Conference on Automated Planning and Scheduling , AAAI Press, 2018.
conference:
  end_date: 2018-06-29
  location: Delft, Netherlands
  name: 'ICAPS: International Conference on Automated Planning and Scheduling'
  start_date: 2018-06-24
date_created: 2018-12-11T11:44:17Z
date_published: 2018-06-01T00:00:00Z
date_updated: 2023-09-26T10:41:41Z
day: '01'
department:
- _id: KrCh
ec_funded: 1
external_id:
  arxiv:
  - '1804.07031'
  isi:
  - '000492986200007'
isi: 1
language:
- iso: eng
main_file_link:
- open_access: '1'
  url: https://arxiv.org/abs/1804.07031
month: '06'
oa: 1
oa_version: None
project:
- _id: 25832EC2-B435-11E9-9278-68D0E5697425
  call_identifier: FWF
  grant_number: S 11407_N23
  name: Rigorous Systems Engineering
- _id: 2581B60A-B435-11E9-9278-68D0E5697425
  call_identifier: FP7
  grant_number: '279307'
  name: 'Quantitative Graph Games: Theory and Applications'
publication: '28th International Conference on Automated Planning and Scheduling '
publication_status: published
publisher: AAAI Press
publist_id: '8020'
quality_controlled: '1'
related_material:
  record:
  - id: '9293'
    relation: later_version
    status: public
scopus_import: '1'
status: public
title: Algorithms and conditional lower bounds for planning problems
type: conference
user_id: c635000d-4b10-11ee-a964-aac5a93f6ac1
year: '2018'
...
---
_id: '36'
abstract:
- lang: eng
  text: Wheat (Triticum ssp.) is one of the most important human food sources. However,
    this crop is very sensitive to temperature changes. Specifically, processes during
    wheat leaf, flower, and seed development and photosynthesis, which all contribute
    to the yield of this crop, are affected by high temperature. While this has to
    some extent been investigated on physiological, developmental, and molecular levels,
    very little is known about early signalling events associated with an increase
    in temperature. Phosphorylation-mediated signalling mechanisms, which are quick
    and dynamic, are associated with plant growth and development, also under abiotic
    stress conditions. Therefore, we probed the impact of a short-term and mild increase
    in temperature on the wheat leaf and spikelet phosphoproteome. In total, 3822
    (containing 5178 phosphosites) and 5581 phosphopeptides (containing 7023 phosphosites)
    were identified in leaf and spikelet samples, respectively. Following statistical
    analysis, the resulting data set provides the scientific community with a first
    large-scale plant phosphoproteome under the control of higher ambient temperature.
    This community resource on the high temperature-mediated wheat phosphoproteome
    will be valuable for future studies. Our analyses also revealed a core set of
    common proteins between leaf and spikelet, suggesting some level of conserved
    regulatory mechanisms. Furthermore, we observed temperature-regulated interconversion
    of phosphoforms, which probably impacts protein activity.
acknowledgement: TZ is supported by a grant from the Chinese Scholarship Council.
article_processing_charge: No
author:
- first_name: Lam
  full_name: Vu, Lam
  last_name: Vu
- first_name: Tingting
  full_name: Zhu, Tingting
  last_name: Zhu
- first_name: Inge
  full_name: Verstraeten, Inge
  id: 362BF7FE-F248-11E8-B48F-1D18A9856A87
  last_name: Verstraeten
  orcid: 0000-0001-7241-2328
- first_name: Brigitte
  full_name: Van De Cotte, Brigitte
  last_name: Van De Cotte
- first_name: Kris
  full_name: Gevaert, Kris
  last_name: Gevaert
- first_name: Ive
  full_name: De Smet, Ive
  last_name: De Smet
citation:
  ama: Vu L, Zhu T, Verstraeten I, Van De Cotte B, Gevaert K, De Smet I. Temperature-induced
    changes in the wheat phosphoproteome reveal temperature-regulated interconversion
    of phosphoforms. <i>Journal of Experimental Botany</i>. 2018;69(19):4609-4624.
    doi:<a href="https://doi.org/10.1093/jxb/ery204">10.1093/jxb/ery204</a>
  apa: Vu, L., Zhu, T., Verstraeten, I., Van De Cotte, B., Gevaert, K., &#38; De Smet,
    I. (2018). Temperature-induced changes in the wheat phosphoproteome reveal temperature-regulated
    interconversion of phosphoforms. <i>Journal of Experimental Botany</i>. Oxford
    University Press. <a href="https://doi.org/10.1093/jxb/ery204">https://doi.org/10.1093/jxb/ery204</a>
  chicago: Vu, Lam, Tingting Zhu, Inge Verstraeten, Brigitte Van De Cotte, Kris Gevaert,
    and Ive De Smet. “Temperature-Induced Changes in the Wheat Phosphoproteome Reveal
    Temperature-Regulated Interconversion of Phosphoforms.” <i>Journal of Experimental
    Botany</i>. Oxford University Press, 2018. <a href="https://doi.org/10.1093/jxb/ery204">https://doi.org/10.1093/jxb/ery204</a>.
  ieee: L. Vu, T. Zhu, I. Verstraeten, B. Van De Cotte, K. Gevaert, and I. De Smet,
    “Temperature-induced changes in the wheat phosphoproteome reveal temperature-regulated
    interconversion of phosphoforms,” <i>Journal of Experimental Botany</i>, vol.
    69, no. 19. Oxford University Press, pp. 4609–4624, 2018.
  ista: Vu L, Zhu T, Verstraeten I, Van De Cotte B, Gevaert K, De Smet I. 2018. Temperature-induced
    changes in the wheat phosphoproteome reveal temperature-regulated interconversion
    of phosphoforms. Journal of Experimental Botany. 69(19), 4609–4624.
  mla: Vu, Lam, et al. “Temperature-Induced Changes in the Wheat Phosphoproteome Reveal
    Temperature-Regulated Interconversion of Phosphoforms.” <i>Journal of Experimental
    Botany</i>, vol. 69, no. 19, Oxford University Press, 2018, pp. 4609–24, doi:<a
    href="https://doi.org/10.1093/jxb/ery204">10.1093/jxb/ery204</a>.
  short: L. Vu, T. Zhu, I. Verstraeten, B. Van De Cotte, K. Gevaert, I. De Smet, Journal
    of Experimental Botany 69 (2018) 4609–4624.
date_created: 2018-12-11T11:44:17Z
date_published: 2018-08-31T00:00:00Z
date_updated: 2023-09-19T10:00:46Z
day: '31'
ddc:
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department:
- _id: JiFr
doi: 10.1093/jxb/ery204
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publication: Journal of Experimental Botany
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title: Temperature-induced changes in the wheat phosphoproteome reveal temperature-regulated
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