@article{1895, abstract = {Major histocompatibility complex class I (MHCI) molecules were recently identified as novel regulators of synaptic plasticity. These molecules are expressed in various brain areas, especially in regions undergoing activity-dependent synaptic plasticity, but their role in the nucleus accumbens (NAc) is unknown. In this study, we investigated the effects of genetic disruption of MHCI function, through deletion of β2-microblobulin, which causes lack of cell surface expression of MHCI. First, we confirmed that MHCI molecules are expressed in the NAc core in wild-type mice. Second, we performed electrophysiological recordings with NAc core slices from wild-type and β2-microglobulin knock-out mice lacking cell surface expression of MHCI. We found that low frequency stimulation induced long-term depression in wild-type but not knock-out mice, whereas high frequency stimulation induced long-term potentiation in both genotypes, with a larger magnitude in knock-out mice. Furthermore, we demonstrated that knock-out mice showed more persistent behavioral sensitization to cocaine, which is a NAc-related behavior. Using this model, we analyzed the density of total AMPA receptors and their subunits GluR1 and GluR2 in the NAc core, by SDS-digested freeze-fracture replica labeling. After repeated cocaine exposure, the density of GluR1 was increased, but there was no change in total AMPA receptors and GluR2 levels in wildtype mice. In contrast, following repeated cocaine exposure, increased densities of total AMPA receptors, GluR1 and GluR2 were observed in knock-out mice. These results indicate that functional deficiency of MHCI enhances synaptic potentiation, induced by electrical and pharmacological stimulation.}, author = {Edamura, Mitsuhiro and Murakami, Gen and Meng, Hongrui and Itakura, Makoto and Shigemoto, Ryuichi and Fukuda, Atsuo and Nakahara, Daiichiro}, journal = {PLoS One}, number = {9}, publisher = {Public Library of Science}, title = {{Functional deficiency of MHC class i enhances LTP and abolishes LTD in the nucleus accumbens of mice}}, doi = {10.1371/journal.pone.0107099}, volume = {9}, year = {2014}, } @article{1896, abstract = {Biopolymer length regulation is a complex process that involves a large number of biological, chemical, and physical subprocesses acting simultaneously across multiple spatial and temporal scales. An illustrative example important for genomic stability is the length regulation of telomeres - nucleoprotein structures at the ends of linear chromosomes consisting of tandemly repeated DNA sequences and a specialized set of proteins. Maintenance of telomeres is often facilitated by the enzyme telomerase but, particularly in telomerase-free systems, the maintenance of chromosomal termini depends on alternative lengthening of telomeres (ALT) mechanisms mediated by recombination. Various linear and circular DNA structures were identified to participate in ALT, however, dynamics of the whole process is still poorly understood. We propose a chemical kinetics model of ALT with kinetic rates systematically derived from the biophysics of DNA diffusion and looping. The reaction system is reduced to a coagulation-fragmentation system by quasi-steady-state approximation. The detailed treatment of kinetic rates yields explicit formulas for expected size distributions of telomeres that demonstrate the key role played by the J factor, a quantitative measure of bending of polymers. The results are in agreement with experimental data and point out interesting phenomena: an appearance of very long telomeric circles if the total telomere density exceeds a critical value (excess mass) and a nonlinear response of the telomere size distributions to the amount of telomeric DNA in the system. The results can be of general importance for understanding dynamics of telomeres in telomerase-independent systems as this mode of telomere maintenance is similar to the situation in tumor cells lacking telomerase activity. Furthermore, due to its universality, the model may also serve as a prototype of an interaction between linear and circular DNA structures in various settings.}, author = {Kollár, Richard and Bod'ová, Katarína and Nosek, Jozef and Tomáška, Ľubomír}, journal = {Physical Review E Statistical Nonlinear and Soft Matter Physics}, number = {3}, publisher = {American Institute of Physics}, title = {{Mathematical model of alternative mechanism of telomere length maintenance}}, doi = {10.1103/PhysRevE.89.032701}, volume = {89}, year = {2014}, } @article{1897, abstract = {GNOM is one of the most characterized membrane trafficking regulators in plants, with crucial roles in development. GNOM encodes an ARF-guanine nucleotide exchange factor (ARF-GEF) that activates small GTPases of the ARF (ADP ribosylation factor) class to mediate vesicle budding at endomembranes. The crucial role of GNOM in recycling of PIN auxin transporters and other proteins to the plasma membrane was identified in studies using the ARF-GEF inhibitor brefeldin A (BFA). GNOM, the most prominent regulator of recycling in plants, has been proposed to act and localize at so far elusive recycling endosomes. Here, we report the GNOM localization in context of its cellular function in Arabidopsis thaliana. State-of-the-art imaging, pharmacological interference, and ultrastructure analysis show that GNOM predominantly localizes to Golgi apparatus. Super-resolution confocal live imaging microscopy identified GNOM and its closest homolog GNOM-like 1 at distinct subdomains on Golgi cisternae. Short-term BFA treatment stabilizes GNOM at the Golgi apparatus, whereas prolonged exposures results in GNOM translocation to trans-Golgi network (TGN)/early endosomes (EEs). Malformed TGN/EE in gnom mutants suggests a role for GNOM in maintaining TGN/EE function. Our results redefine the subcellular action of GNOM and reevaluate the identity and function of recycling endosomes in plants.}, author = {Naramoto, Satoshi and Otegui, Marisa and Kutsuna, Natsumaro and De Rycke, Riet and Dainobu, Tomoko and Karampelias, Michael and Fujimoto, Masaru and Feraru, Elena and Miki, Daisuke and Fukuda, Hiroo and Nakano, Akihiko and Friml, Jirí}, journal = {Plant Cell}, number = {7}, pages = {3062 -- 3076}, publisher = {American Society of Plant Biologists}, title = {{Insights into the localization and function of the membrane trafficking regulator GNOM ARF-GEF at the Golgi apparatus in Arabidopsis}}, doi = {10.1105/tpc.114.125880}, volume = {26}, year = {2014}, } @article{1899, abstract = {Asymmetric cell divisions allow stem cells to balance proliferation and differentiation. During embryogenesis, murine epidermis expands rapidly from a single layer of unspecified basal layer progenitors to a stratified, differentiated epithelium. Morphogenesis involves perpendicular (asymmetric) divisions and the spindle orientation protein LGN, but little is known about how the apical localization of LGN is regulated. Here, we combine conventional genetics and lentiviral-mediated in vivo RNAi to explore the functions of the LGN-interacting proteins Par3, mInsc and Gα i3. Whereas loss of each gene alone leads to randomized division angles, combined loss of Gnai3 and mInsc causes a phenotype of mostly planar divisions, akin to loss of LGN. These findings lend experimental support for the hitherto untested model that Par3-mInsc and Gα i3 act cooperatively to polarize LGN and promote perpendicular divisions. Finally, we uncover a developmental switch between delamination-driven early stratification and spindle-orientation-dependent differentiation that occurs around E15, revealing a two-step mechanism underlying epidermal maturation.}, author = {Williams, Scott and Ratliff, Lyndsay and Postiglione, Maria P and Knoblich, Juergen and Fuchs, Elaine}, journal = {Nature Cell Biology}, number = {8}, pages = {758 -- 769}, publisher = {Nature Publishing Group}, title = {{Par3-mInsc and Gα i3 cooperate to promote oriented epidermal cell divisions through LGN}}, doi = {10.1038/ncb3001}, volume = {16}, year = {2014}, } @article{1904, abstract = {We prove a Strichartz inequality for a system of orthonormal functions, with an optimal behavior of the constant in the limit of a large number of functions. The estimate generalizes the usual Strichartz inequality, in the same fashion as the Lieb-Thirring inequality generalizes the Sobolev inequality. As an application, we consider the Schrödinger equation with a time-dependent potential and we show the existence of the wave operator in Schatten spaces.}, author = {Frank, Rupert and Lewin, Mathieu and Lieb, Élliott and Seiringer, Robert}, journal = {Journal of the European Mathematical Society}, number = {7}, pages = {1507 -- 1526}, publisher = {European Mathematical Society}, title = {{Strichartz inequality for orthonormal functions}}, doi = {10.4171/JEMS/467}, volume = {16}, year = {2014}, } @article{1906, abstract = {In this paper, we introduce a novel scene representation for the visualization of large-scale point clouds accompanied by a set of high-resolution photographs. Many real-world applications deal with very densely sampled point-cloud data, which are augmented with photographs that often reveal lighting variations and inaccuracies in registration. Consequently, the high-quality representation of the captured data, i.e., both point clouds and photographs together, is a challenging and time-consuming task. We propose a two-phase approach, in which the first (preprocessing) phase generates multiple overlapping surface patches and handles the problem of seamless texture generation locally for each patch. The second phase stitches these patches at render-time to produce a high-quality visualization of the data. As a result of the proposed localization of the global texturing problem, our algorithm is more than an order of magnitude faster than equivalent mesh-based texturing techniques. Furthermore, since our preprocessing phase requires only a minor fraction of the whole data set at once, we provide maximum flexibility when dealing with growing data sets.}, author = {Arikan, Murat and Preiner, Reinhold and Scheiblauer, Claus and Jeschke, Stefan and Wimmer, Michael}, journal = {IEEE Transactions on Visualization and Computer Graphics}, number = {9}, pages = {1280 -- 1292}, publisher = {IEEE}, title = {{Large-scale point-cloud visualization through localized textured surface reconstruction}}, doi = {10.1109/TVCG.2014.2312011}, volume = {20}, year = {2014}, } @inproceedings{1907, abstract = {Most cryptographic security proofs require showing that two systems are indistinguishable. A central tool in such proofs is that of a game, where winning the game means provoking a certain condition, and it is shown that the two systems considered cannot be distinguished unless this condition is provoked. Upper bounding the probability of winning such a game, i.e., provoking this condition, for an arbitrary strategy is usually hard, except in the special case where the best strategy for winning such a game is known to be non-adaptive. A sufficient criterion for ensuring the optimality of non-adaptive strategies is that of conditional equivalence to a system, a notion introduced in [1]. In this paper, we show that this criterion is not necessary to ensure the optimality of non-adaptive strategies by giving two results of independent interest: 1) the optimality of non-adaptive strategies is not preserved under parallel composition; 2) in contrast, conditional equivalence is preserved under parallel composition.}, author = {Demay, Grégory and Gazi, Peter and Maurer, Ueli and Tackmann, Björn}, booktitle = {IEEE International Symposium on Information Theory}, location = {Honolulu, USA}, publisher = {IEEE}, title = {{Optimality of non-adaptive strategies: The case of parallel games}}, doi = {10.1109/ISIT.2014.6875125}, year = {2014}, } @article{1908, abstract = {In large populations, multiple beneficial mutations may be simultaneously spreading. In asexual populations, these mutations must either arise on the same background or compete against each other. In sexual populations, recombination can bring together beneficial alleles from different backgrounds, but tightly linked alleles may still greatly interfere with each other. We show for well-mixed populations that when this interference is strong, the genome can be seen as consisting of many effectively asexual stretches linked together. The rate at which beneficial alleles fix is thus roughly proportional to the rate of recombination and depends only logarithmically on the mutation supply and the strength of selection. Our scaling arguments also allow us to predict, with reasonable accuracy, the fitness distribution of fixed mutations when the mutational effect sizes are broad. We focus on the regime in which crossovers occur more frequently than beneficial mutations, as is likely to be the case for many natural populations.}, author = {Weissman, Daniel and Hallatschek, Oskar}, journal = {Genetics}, number = {4}, pages = {1167 -- 1183}, publisher = {Genetics Society of America}, title = {{The rate of adaptation in large sexual populations with linear chromosomes}}, doi = {10.1534/genetics.113.160705}, volume = {196}, year = {2014}, } @article{1909, abstract = {Summary: Phenotypes are often environmentally dependent, which requires organisms to track environmental change. The challenge for organisms is to construct phenotypes using the most accurate environmental cue. Here, we use a quantitative genetic model of adaptation by additive genetic variance, within- and transgenerational plasticity via linear reaction norms and indirect genetic effects respectively. We show how the relative influence on the eventual phenotype of these components depends on the predictability of environmental change (fast or slow, sinusoidal or stochastic) and the developmental lag τ between when the environment is perceived and when selection acts. We then decompose expected mean fitness into three components (variance load, adaptation and fluctuation load) to study the fitness costs of within- and transgenerational plasticity. A strongly negative maternal effect coefficient m minimizes the variance load, but a strongly positive m minimises the fluctuation load. The adaptation term is maximized closer to zero, with positive or negative m preferred under different environmental scenarios. Phenotypic plasticity is higher when τ is shorter and when the environment changes frequently between seasonal extremes. Expected mean population fitness is highest away from highest observed levels of phenotypic plasticity. Within- and transgenerational plasticity act in concert to deliver well-adapted phenotypes, which emphasizes the need to study both simultaneously when investigating phenotypic evolution.}, author = {Ezard, Thomas and Prizak, Roshan and Hoyle, Rebecca}, journal = {Functional Ecology}, number = {3}, pages = {693 -- 701}, publisher = {Wiley-Blackwell}, title = {{The fitness costs of adaptation via phenotypic plasticity and maternal effects}}, doi = {10.1111/1365-2435.12207}, volume = {28}, year = {2014}, } @article{1912, abstract = {Kupffer's vesicle (KV) is the zebrafish organ of laterality, patterning the embryo along its left-right (LR) axis. Regional differences in cell shape within the lumen-lining KV epithelium are essential for its LR patterning function. However, the processes by which KV cells acquire their characteristic shapes are largely unknown. Here, we show that the notochord induces regional differences in cell shape within KV by triggering extracellular matrix (ECM) accumulation adjacent to anterior-dorsal (AD) regions of KV. This localized ECM deposition restricts apical expansion of lumen-lining epithelial cells in AD regions of KV during lumen growth. Our study provides mechanistic insight into the processes by which KV translates global embryonic patterning into regional cell shape differences required for its LR symmetry-breaking function.}, author = {Compagnon, Julien and Barone, Vanessa and Rajshekar, Srivarsha and Kottmeier, Rita and Pranjic-Ferscha, Kornelija and Behrndt, Martin and Heisenberg, Carl-Philipp J}, journal = {Developmental Cell}, number = {6}, pages = {774 -- 783}, publisher = {Cell Press}, title = {{The notochord breaks bilateral symmetry by controlling cell shapes in the Zebrafish laterality organ}}, doi = {10.1016/j.devcel.2014.11.003}, volume = {31}, year = {2014}, } @article{1913, abstract = {Deposits of phosphorylated tau protein and convergence of pathology in the hippocampus are the hallmarks of neurodegenerative tauopathies. Thus we aimed to evaluate whether regional and cellular vulnerability patterns in the hippocampus distinguish tauopathies or are influenced by their concomitant presence. Methods: We created a heat map of phospho-tau (AT8) immunoreactivity patterns in 24 hippocampal subregions/layers in individuals with Alzheimer's disease (AD)-related neurofibrillary degeneration (n = 40), Pick's disease (n = 8), progressive supranuclear palsy (n = 7), corticobasal degeneration (n = 6), argyrophilic grain disease (AGD, n = 18), globular glial tauopathy (n = 5), and tau-astrogliopathy of the elderly (n = 10). AT8 immunoreactivity patterns were compared by mathematical analysis. Results: Our study reveals disease-specific hot spots and regional selective vulnerability for these disorders. The pattern of hippocampal AD-related tau pathology is strongly influenced by concomitant AGD. Mathematical analysis reveals that hippocampal involvement in primary tauopathies is distinguishable from early-stage AD-related neurofibrillary degeneration. Conclusion: Our data demonstrate disease-specific AT8 immunoreactivity patterns and hot spots in the hippocampus even in tauopathies, which primarily do not affect the hippocampus. These hot spots can be shifted to other regions by the co-occurrence of tauopathies like AGD. Our observations support the notion that globular glial tauopathies and tau-astrogliopathy of the elderly are distinct entities.}, author = {Milenković, Ivan and Petrov, Tatjana and Kovács, Gábor}, issn = {1420-8008}, journal = {Dementia and Geriatric Cognitive Disorders}, number = {5-6}, pages = {375 -- 388}, publisher = {Karger Publishers}, title = {{Patterns of hippocampal tau pathology differentiate neurodegenerative dementias}}, doi = {10.1159/000365548}, volume = {38}, year = {2014}, } @article{1916, abstract = {Hereditary spastic paraplegias (HSPs) are neurodegenerative motor neuron diseases characterized by progressive age-dependent loss of corticospinal motor tract function. Although the genetic basis is partly understood, only a fraction of cases can receive a genetic diagnosis, and a global view of HSP is lacking. By using whole-exome sequencing in combination with network analysis, we identified 18 previously unknown putative HSP genes and validated nearly all of these genes functionally or genetically. The pathways highlighted by these mutations link HSP to cellular transport, nucleotide metabolism, and synapse and axon development. Network analysis revealed a host of further candidate genes, of which three were mutated in our cohort. Our analysis links HSP to other neurodegenerative disorders and can facilitate gene discovery and mechanistic understanding of disease.}, author = {Novarino, Gaia and Fenstermaker, Ali and Zaki, Maha and Hofree, Matan and Silhavy, Jennifer and Heiberg, Andrew and Abdellateef, Mostafa and Rosti, Başak and Scott, Eric and Mansour, Lobna and Masri, Amira and Kayserili, Hülya and Al Aama, Jumana and Abdel Salam, Ghada and Karminejad, Ariana and Kara, Majdi and Kara, Bülent and Bozorgmehri, Bita and Ben Omran, Tawfeg and Mojahedi, Faezeh and Mahmoud, Iman and Bouslam, Naïma and Bouhouche, Ahmed and Benomar, Ali and Hanein, Sylvain and Raymond, Laure and Forlani, Sylvie and Mascaro, Massimo and Selim, Laila and Shehata, Nabil and Al Allawi, Nasir and Bindu, Parayil and Azam, Matloob and Günel, Murat and Caglayan, Ahmet and Bilgüvar, Kaya and Tolun, Aslihan and Issa, Mahmoud and Schroth, Jana and Spencer, Emily and Rosti, Rasim and Akizu, Naiara and Vaux, Keith and Johansen, Anide and Koh, Alice and Megahed, Hisham and Dürr, Alexandra and Brice, Alexis and Stévanin, Giovanni and Gabriel, Stacy and Ideker, Trey and Gleeson, Joseph}, journal = {Science}, number = {6170}, pages = {506 -- 511}, publisher = {American Association for the Advancement of Science}, title = {{Exome sequencing links corticospinal motor neuron disease to common neurodegenerative disorders}}, doi = {10.1126/science.1247363}, volume = {343}, year = {2014}, } @article{1917, abstract = {Auxin-binding protein 1 (ABP1) was discovered nearly 40 years ago and was shown to be essential for plant development and morphogenesis, but its mode of action remains unclear. Here, we report that the plasma membrane-localized transmembrane kinase (TMK) receptor-like kinases interact with ABP1 and transduce auxin signal to activate plasma membrane-associated ROPs [Rho-like guanosine triphosphatases (GTPase) from plants], leading to changes in the cytoskeleton and the shape of leaf pavement cells in Arabidopsis. The interaction between ABP1 and TMK at the cell surface is induced by auxin and requires ABP1 sensing of auxin. These findings show that TMK proteins and ABP1 form a cell surface auxin perception complex that activates ROP signaling pathways, regulating nontranscriptional cytoplasmic responses and associated fundamental processes.}, author = {Xu, Tongda and Dai, Ning and Chen, Jisheng and Nagawa, Shingo and Cao, Min and Li, Hongjiang and Zhou, Zimin and Chen, Xu and De Rycke, Riet and Rakusová, Hana and Wang, Wen and Jones, Alan and Friml, Jirí and Patterson, Sara and Bleecker, Anthony and Yang, Zhenbiao}, journal = {Science}, number = {6174}, pages = {1025 -- 1028}, publisher = {American Association for the Advancement of Science}, title = {{Cell surface ABP1-TMK auxin sensing complex activates ROP GTPase signaling}}, doi = {10.1126/science.1245125}, volume = {343}, year = {2014}, } @article{1918, abstract = {As the nuclear charge Z is continuously decreased an N-electron atom undergoes a binding-unbinding transition. We investigate whether the electrons remain bound and whether the radius of the system stays finite as the critical value Zc is approached. Existence of a ground state at Zc is shown under the condition Zc < N-K, where K is the maximal number of electrons that can be removed at Zc without changing the energy.}, author = {Bellazzini, Jacopo and Frank, Rupert and Lieb, Élliott and Seiringer, Robert}, journal = {Reviews in Mathematical Physics}, number = {1}, publisher = {World Scientific Publishing}, title = {{Existence of ground states for negative ions at the binding threshold}}, doi = {10.1142/S0129055X13500219}, volume = {26}, year = {2014}, } @article{1919, abstract = {Long-lasting memories are formed when the stimulus is temporally distributed (spacing effect). However, the synaptic mechanisms underlying this robust phenomenon and the precise time course of the synaptic modifications that occur during learning remain unclear. Here we examined the adaptation of horizontal optokinetic response in mice that underwent 1 h of massed and spaced training at varying intervals. Despite similar acquisition by all training protocols, 1 h of spacing produced the highest memory retention at 24 h, which lasted for 1 mo. The distinct kinetics of memory are strongly correlated with the reduction of floccular parallel fiber-Purkinje cell synapses but not with AMPA receptor (AMPAR) number and synapse size. After the spaced training, we observed 25%, 23%, and 12% reduction in AMPAR density, synapse size, and synapse number, respectively. Four hours after the spaced training, half of the synapses and Purkinje cell spines had been eliminated, whereas AMPAR density and synapse size were recovered in remaining synapses. Surprisingly, massed training also produced long-term memory and halving of synapses; however, this occurred slowly over days, and the memory lasted for only 1 wk. This distinct kinetics of structural plasticity may serve as a basis for unique temporal profiles in the formation and decay of memory with or without intervals.}, author = {Aziz, Wajeeha and Wang, Wen and Kesaf, Sebnem and Mohamed, Alsayed and Fukazawa, Yugo and Shigemoto, Ryuichi}, journal = {PNAS}, number = {1}, pages = {E194 -- E202}, publisher = {National Academy of Sciences}, title = {{Distinct kinetics of synaptic structural plasticity, memory formation, and memory decay in massed and spaced learning}}, doi = {10.1073/pnas.1303317110}, volume = {111}, year = {2014}, } @article{1920, abstract = {Cerebellar motor learning is suggested to be caused by long-term plasticity of excitatory parallel fiber-Purkinje cell (PF-PC) synapses associated with changes in the number of synaptic AMPA-type glutamate receptors (AMPARs). However, whether the AMPARs decrease or increase in individual PF-PC synapses occurs in physiological motor learning and accounts for memory that lasts over days remains elusive. We combined quantitative SDS-digested freeze-fracture replica labeling for AMPAR and physical dissector electron microscopy with a simple model of cerebellar motor learning, adaptation of horizontal optokinetic response (HOKR) in mouse. After 1-h training of HOKR, short-term adaptation (STA) was accompanied with transient decrease in AMPARs by 28% in target PF-PC synapses. STA was well correlated with AMPAR decrease in individual animals and both STA and AMPAR decrease recovered to basal levels within 24 h. Surprisingly, long-termadaptation (LTA) after five consecutive daily trainings of 1-h HOKR did not alter the number of AMPARs in PF-PC synapses but caused gradual and persistent synapse elimination by 45%, with corresponding PC spine loss by the fifth training day. Furthermore, recovery of LTA after 2 wk was well correlated with increase of PF-PC synapses to the control level. Our findings indicate that the AMPARs decrease in PF-PC synapses and the elimination of these synapses are in vivo engrams in short- and long-term motor learning, respectively, showing a unique type of synaptic plasticity that may contribute to memory consolidation.}, author = {Wang, Wen and Nakadate, Kazuhiko and Masugi Tokita, Miwako and Shutoh, Fumihiro and Aziz, Wajeeha and Tarusawa, Etsuko and Lörincz, Andrea and Molnár, Elek and Kesaf, Sebnem and Li, Yunqing and Fukazawa, Yugo and Nagao, Soichi and Shigemoto, Ryuichi}, journal = {PNAS}, number = {1}, pages = {E188 -- E193}, publisher = {National Academy of Sciences}, title = {{Distinct cerebellar engrams in short-term and long-term motor learning}}, doi = {10.1073/pnas.1315541111}, volume = {111}, year = {2014}, } @article{1921, abstract = {Cell polarity manifested by asymmetric distribution of cargoes, such as receptors and transporters, within the plasma membrane (PM) is crucial for essential functions in multicellular organisms. In plants, cell polarity (re)establishment is intimately linked to patterning processes. Despite the importance of cell polarity, its underlying mechanisms are still largely unknown, including the definition and distinctiveness of the polar domains within the PM. Here, we show in Arabidopsis thaliana that the signaling membrane components, the phosphoinositides phosphatidylinositol 4-phosphate (PtdIns4P) and phosphatidylinositol 4, 5-bisphosphate [PtdIns(4, 5)P2] as well as PtdIns4P 5-kinases mediating their interconversion, are specifically enriched at apical and basal polar plasma membrane domains. The PtdIns4P 5-kinases PIP5K1 and PIP5K2 are redundantly required for polar localization of specifically apical and basal cargoes, such as PIN-FORMED transporters for the plant hormone auxin. As a consequence of the polarity defects, instructive auxin gradients as well as embryonic and postembryonic patterning are severely compromised. Furthermore, auxin itself regulates PIP5K transcription and PtdIns4P and PtdIns(4, 5)P2 levels, in particular their association with polar PM domains. Our results provide insight into the polar domain-delineating mechanisms in plant cells that depend on apical and basal distribution of membrane lipids and are essential for embryonic and postembryonic patterning.}, author = {Tejos, Ricardo and Sauer, Michael and Vanneste, Steffen and Palacios-Gomez, MiriamPalacios and Li, Hongjiang and Heilmann, Mareike and Van Wijk, Ringo and Vermeer, Joop and Heilmann, Ingo and Munnik, Teun and Friml, Jirí}, journal = {Plant Cell}, number = {5}, pages = {2114 -- 2128}, publisher = {American Society of Plant Biologists}, title = {{Bipolar plasma membrane distribution of phosphoinositides and their requirement for auxin-mediated cell polarity and patterning in Arabidopsis}}, doi = {10.1105/tpc.114.126185}, volume = {26}, year = {2014}, } @article{1923, abstract = {We derive the equations for a thin, axisymmetric elastic shell subjected to an internal active stress giving rise to active tension and moments within the shell. We discuss the stability of a cylindrical elastic shell and its response to a localized change in internal active stress. This description is relevant to describe the cellular actomyosin cortex, a thin shell at the cell surface behaving elastically at a short timescale and subjected to active internal forces arising from myosin molecular motor activity. We show that the recent observations of cell deformation following detachment of adherent cells (Maître J-L et al 2012 Science 338 253-6) are well accounted for by this mechanical description. The actin cortex elastic and bending moduli can be obtained from a quantitative analysis of cell shapes observed in these experiments. Our approach thus provides a non-invasive, imaging-based method for the extraction of cellular physical parameters.}, author = {Berthoumieux, Hélène and Maître, Jean-Léon and Heisenberg, Carl-Philipp J and Paluch, Ewa and Julicher, Frank and Salbreux, Guillaume}, journal = {New Journal of Physics}, publisher = {IOP Publishing Ltd.}, title = {{Active elastic thin shell theory for cellular deformations}}, doi = {10.1088/1367-2630/16/6/065005}, volume = {16}, year = {2014}, } @article{1925, abstract = {In the past decade carbon nanotubes (CNTs) have been widely studied as a potential drug-delivery system, especially with functionality for cellular targeting. Yet, little is known about the actual process of docking to cell receptors and transport dynamics after internalization. Here we performed single-particle studies of folic acid (FA) mediated CNT binding to human carcinoma cells and their transport inside the cytosol. In particular, we employed molecular recognition force spectroscopy, an atomic force microscopy based method, to visualize and quantify docking of FA functionalized CNTs to FA binding receptors in terms of binding probability and binding force. We then traced individual fluorescently labeled, FA functionalized CNTs after specific uptake, and created a dynamic 'roadmap' that clearly showed trajectories of directed diffusion and areas of nanotube confinement in the cytosol. Our results demonstrate the potential of a single-molecule approach for investigation of drug-delivery vehicles and their targeting capacity.}, author = {Lamprecht, Constanze and Plochberger, Birgit and Ruprecht, Verena and Wieser, Stefan and Rankl, Christian and Heister, Elena and Unterauer, Barbara and Brameshuber, Mario and Danzberger, Jürgen and Lukanov, Petar and Flahaut, Emmanuel and Schütz, Gerhard and Hinterdorfer, Peter and Ebner, Andreas}, journal = {Nanotechnology}, number = {12}, publisher = {IOP Publishing}, title = {{A single-molecule approach to explore binding uptake and transport of cancer cell targeting nanotubes}}, doi = {10.1088/0957-4484/25/12/125704}, volume = {25}, year = {2014}, } @article{1926, abstract = {We consider cross products of finite graphs with a class of trees that have arbitrarily but finitely long line segments, such as the Fibonacci tree. Such cross products are called tree-strips. We prove that for small disorder random Schrödinger operators on such tree-strips have purely absolutely continuous spectrum in a certain set.}, author = {Sadel, Christian}, journal = {Mathematical Physics, Analysis and Geometry}, number = {3-4}, pages = {409 -- 440}, publisher = {Springer}, title = {{Absolutely continuous spectrum for random Schrödinger operators on the Fibonacci and similar Tree-strips}}, doi = {10.1007/s11040-014-9163-4}, volume = {17}, year = {2014}, }