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PLoS Computational Biology

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https://www.readbyqxmd.com/read/28448499/when-do-correlations-increase-with-firing-rates-in-recurrent-networks
#1
Andrea K Barreiro, Cheng Ly
A central question in neuroscience is to understand how noisy firing patterns are used to transmit information. Because neural spiking is noisy, spiking patterns are often quantified via pairwise correlations, or the probability that two cells will spike coincidentally, above and beyond their baseline firing rate. One observation frequently made in experiments, is that correlations can increase systematically with firing rate. Theoretical studies have determined that stimulus-dependent correlations that increase with firing rate can have beneficial effects on information coding; however, we still have an incomplete understanding of what circuit mechanisms do, or do not, produce this correlation-firing rate relationship...
April 27, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28437460/an-aggregation-removal-model-for-the-formation-and-size-determination-of-post-synaptic-scaffold-domains
#2
Jonas Ranft, Leandro G Almeida, Pamela C Rodriguez, Antoine Triller, Vincent Hakim
The formation and stability of synapses are key questions in neuroscience. Post-synaptic domains have been classically conceived as resulting from local insertion and turnover of proteins at the synapse. However, insertion is likely to occur outside the post-synaptic domains and advances in single-molecule imaging have shown that proteins diffuse in the plane of the membrane prior to their accumulation at synapses. We quantitatively investigated this scenario using computer simulations and mathematical analysis, taking for definiteness the specific case of inhibitory synapse components, i...
April 24, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28437451/predicting-explorative-motor-learning-using-decision-making-and-motor-noise
#3
Xiuli Chen, Kieran Mohr, Joseph M Galea
A fundamental problem faced by humans is learning to select motor actions based on noisy sensory information and incomplete knowledge of the world. Recently, a number of authors have asked whether this type of motor learning problem might be very similar to a range of higher-level decision-making problems. If so, participant behaviour on a high-level decision-making task could be predictive of their performance during a motor learning task. To investigate this question, we studied performance during an explorative motor learning task and a decision-making task which had a similar underlying structure with the exception that it was not subject to motor (execution) noise...
April 24, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28437450/esprit-forest-parallel-clustering-of-massive-amplicon-sequence-data-in-subquadratic-time
#4
Yunpeng Cai, Wei Zheng, Jin Yao, Yujie Yang, Volker Mai, Qi Mao, Yijun Sun
The rapid development of sequencing technology has led to an explosive accumulation of genomic sequence data. Clustering is often the first step to perform in sequence analy- sis, and hierarchical clustering is one of the most commonly used approaches for this purpose. However, it is currently computationally expensive to perform hierarchical clustering of extremely large sequence datasets due to its quadratic time and space complexities. In this paper we developed a new algorithm called ESPRIT-Forest for parallel hierarchical clustering of sequences...
April 24, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28437436/intrinsically-generated-fluctuating-activity-in-excitatory-inhibitory-networks
#5
Francesca Mastrogiuseppe, Srdjan Ostojic
Recurrent networks of non-linear units display a variety of dynamical regimes depending on the structure of their synaptic connectivity. A particularly remarkable phenomenon is the appearance of strongly fluctuating, chaotic activity in networks of deterministic, but randomly connected rate units. How this type of intrinsically generated fluctuations appears in more realistic networks of spiking neurons has been a long standing question. To ease the comparison between rate and spiking networks, recent works investigated the dynamical regimes of randomly-connected rate networks with segregated excitatory and inhibitory populations, and firing rates constrained to be positive...
April 24, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28437426/representational-models-a-common-framework-for-understanding-encoding-pattern-component-and-representational-similarity-analysis
#6
Jörn Diedrichsen, Nikolaus Kriegeskorte
Representational models specify how activity patterns in populations of neurons (or, more generally, in multivariate brain-activity measurements) relate to sensory stimuli, motor responses, or cognitive processes. In an experimental context, representational models can be defined as hypotheses about the distribution of activity profiles across experimental conditions. Currently, three different methods are being used to test such hypotheses: encoding analysis, pattern component modeling (PCM), and representational similarity analysis (RSA)...
April 24, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28426669/a-dynamic-genetic-hormonal-regulatory-network-model-explains-multiple-cellular-behaviors-of-the-root-apical-meristem-of-arabidopsis-thalian
#7
Mónica L García-Gómez, Eugenio Azpeitia, Elena R Álvarez-Buylla
The study of the concerted action of hormones and transcription factors is fundamental to understand cell differentiation and pattern formation during organ development. The root apical meristem of Arabidopsis thaliana is a useful model to address this. It has a stem cell niche near its tip conformed of a quiescent organizer and stem or initial cells around it, then a proliferation domain followed by a transition domain, where cells diminish division rate before transiting to the elongation zone; here, cells grow anisotropically prior to their final differentiation towards the plant base...
April 20, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28426660/exhaustive-search-of-linear-information-encoding-protein-peptide-recognition
#8
Abdellali Kelil, Benjamin Dubreuil, Emmanuel D Levy, Stephen W Michnick
High-throughput in vitro methods have been extensively applied to identify linear information that encodes peptide recognition. However, these methods are limited in number of peptides, sequence variation, and length of peptides that can be explored, and often produce solutions that are not found in the cell. Despite the large number of methods developed to attempt addressing these issues, the exhaustive search of linear information encoding protein-peptide recognition has been so far physically unfeasible...
April 20, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28422957/towards-a-theory-of-cortical-columns-from-spiking-neurons-to-interacting-neural-populations-of-finite-size
#9
Tilo Schwalger, Moritz Deger, Wulfram Gerstner
Neural population equations such as neural mass or field models are widely used to study brain activity on a large scale. However, the relation of these models to the properties of single neurons is unclear. Here we derive an equation for several interacting populations at the mesoscopic scale starting from a microscopic model of randomly connected generalized integrate-and-fire neuron models. Each population consists of 50-2000 neurons of the same type but different populations account for different neuron types...
April 19, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28419098/robust-information-propagation-through-noisy-neural-circuits
#10
Joel Zylberberg, Alexandre Pouget, Peter E Latham, Eric Shea-Brown
Sensory neurons give highly variable responses to stimulation, which can limit the amount of stimulus information available to downstream circuits. Much work has investigated the factors that affect the amount of information encoded in these population responses, leading to insights about the role of covariability among neurons, tuning curve shape, etc. However, the informativeness of neural responses is not the only relevant feature of population codes; of potentially equal importance is how robustly that information propagates to downstream structures...
April 18, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28419089/erroneous-energy-generating-cycles-in-published-genome-scale-metabolic-networks-identification-and-removal
#11
Claus Jonathan Fritzemeier, Daniel Hartleb, Balázs Szappanos, Balázs Papp, Martin J Lercher
Energy metabolism is central to cellular biology. Thus, genome-scale models of heterotrophic unicellular species must account appropriately for the utilization of external nutrients to synthesize energy metabolites such as ATP. However, metabolic models designed for flux-balance analysis (FBA) may contain thermodynamically impossible energy-generating cycles: without nutrient consumption, these models are still capable of charging energy metabolites (such as ADP→ATP or NADP+→NADPH). Here, we show that energy-generating cycles occur in over 85% of metabolic models without extensive manual curation, such as those contained in the ModelSEED and MetaNetX databases; in contrast, such cycles are rare in the manually curated models of the BiGG database...
April 18, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28414801/probabilistic-fluorescence-based-synapse-detection
#12
Anish K Simhal, Cecilia Aguerrebere, Forrest Collman, Joshua T Vogelstein, Kristina D Micheva, Richard J Weinberg, Stephen J Smith, Guillermo Sapiro
Deeper exploration of the brain's vast synaptic networks will require new tools for high-throughput structural and molecular profiling of the diverse populations of synapses that compose those networks. Fluorescence microscopy (FM) and electron microscopy (EM) offer complementary advantages and disadvantages for single-synapse analysis. FM combines exquisite molecular discrimination capacities with high speed and low cost, but rigorous discrimination between synaptic and non-synaptic fluorescence signals is challenging...
April 17, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28414800/semantic-prioritization-of-novel-causative-genomic-variants
#13
Imane Boudellioua, Rozaimi B Mahamad Razali, Maxat Kulmanov, Yasmeen Hashish, Vladimir B Bajic, Eva Goncalves-Serra, Nadia Schoenmakers, Georgios V Gkoutos, Paul N Schofield, Robert Hoehndorf
Discriminating the causative disease variant(s) for individuals with inherited or de novo mutations presents one of the main challenges faced by the clinical genetics community today. Computational approaches for variant prioritization include machine learning methods utilizing a large number of features, including molecular information, interaction networks, or phenotypes. Here, we demonstrate the PhenomeNET Variant Predictor (PVP) system that exploits semantic technologies and automated reasoning over genotype-phenotype relations to filter and prioritize variants in whole exome and whole genome sequencing datasets...
April 17, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28414750/effect-of-transcription-factor-resource-sharing-on-gene-expression-noise
#14
Dipjyoti Das, Supravat Dey, Robert C Brewster, Sandeep Choubey
Gene expression is intrinsically a stochastic (noisy) process with important implications for cellular functions. Deciphering the underlying mechanisms of gene expression noise remains one of the key challenges of regulatory biology. Theoretical models of transcription often incorporate the kinetics of how transcription factors (TFs) interact with a single promoter to impact gene expression noise. However, inside single cells multiple identical gene copies as well as additional binding sites can compete for a limiting pool of TFs...
April 17, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28414718/achieving-global-perfect-homeostasis-through-transporter-regulation
#15
Yonatan Savir, Alexander Martynov, Michael Springer
Nutrient homeostasis-the maintenance of relatively constant internal nutrient concentrations in fluctuating external environments-is essential to the survival of most organisms. Transcriptional regulation of plasma membrane transporters by internal nutrient concentrations is typically assumed to be the main mechanism by which homeostasis is achieved. While this mechanism is homeostatic we show that it does not achieve global perfect homeostasis-a condition where internal nutrient concentrations are completely independent of external nutrient concentrations for all external nutrient concentrations...
April 17, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28414716/dynamics-of-adaptive-immunity-against-phage-in-bacterial-populations
#16
Serena Bradde, Marija Vucelja, Tiberiu Teşileanu, Vijay Balasubramanian
The CRISPR (clustered regularly interspaced short palindromic repeats) mechanism allows bacteria to adaptively defend against phages by acquiring short genomic sequences (spacers) that target specific sequences in the viral genome. We propose a population dynamical model where immunity can be both acquired and lost. The model predicts regimes where bacterial and phage populations can co-exist, others where the populations exhibit damped oscillations, and still others where one population is driven to extinction...
April 17, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28410433/simple-biochemical-networks-allow-accurate-sensing-of-multiple-ligands-with-a-single-receptor
#17
Vijay Singh, Ilya Nemenman
Cells use surface receptors to estimate concentrations of external ligands. Limits on the accuracy of such estimations have been well studied for pairs of ligand and receptor species. However, the environment typically contains many ligands, which can bind to the same receptors with different affinities, resulting in cross-talk. In traditional rate models, such cross-talk prevents accurate inference of concentrations of individual ligands. In contrast, here we show that knowing the precise timing sequence of stochastic binding and unbinding events allows one receptor to provide information about multiple ligands simultaneously and with a high accuracy...
April 14, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28410418/heterogeneous-firing-responses-predict-diverse-couplings-to-presynaptic-activity-in-mice-layer-v-pyramidal-neurons
#18
Yann Zerlaut, Alain Destexhe
In this study, we present a theoretical framework combining experimental characterizations and analytical calculus to capture the firing rate input-output properties of single neurons in the fluctuation-driven regime. Our framework consists of a two-step procedure to treat independently how the dendritic input translates into somatic fluctuation variables, and how the latter determine action potential firing. We use this framework to investigate the functional impact of the heterogeneity in firing responses found experimentally in young mice layer V pyramidal cells...
April 14, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28410363/highly-accessible-au-rich-regions-in-3-untranslated-regions-are-hotspots-for-binding-of-regulatory-factors
#19
Mireya Plass, Simon H Rasmussen, Anders Krogh
Post-transcriptional regulation is regarded as one of the major processes involved in the regulation of gene expression. It is mainly performed by RNA binding proteins and microRNAs, which target RNAs and typically affect their stability. Recent efforts from the scientific community have aimed at understanding post-transcriptional regulation at a global scale by using high-throughput sequencing techniques such as cross-linking and immunoprecipitation (CLIP), which facilitates identification of binding sites of these regulatory factors...
April 14, 2017: PLoS Computational Biology
https://www.readbyqxmd.com/read/28448498/personalized-glucose-forecasting-for-type-2-diabetes-using-data-assimilation
#20
David J Albers, Matthew Levine, Bruce Gluckman, Henry Ginsberg, George Hripcsak, Lena Mamykina
Type 2 diabetes leads to premature death and reduced quality of life for 8% of Americans. Nutrition management is critical to maintaining glycemic control, yet it is difficult to achieve due to the high individual differences in glycemic response to nutrition. Anticipating glycemic impact of different meals can be challenging not only for individuals with diabetes, but also for expert diabetes educators. Personalized computational models that can accurately forecast an impact of a given meal on an individual's blood glucose levels can serve as the engine for a new generation of decision support tools for individuals with diabetes...
April 2017: PLoS Computational Biology
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