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Binding properties and evolution of homodimers in protein-protein interaction networksAvalanches and 1/f noise in evolution and growth modelsAvalanche dynamics in evolution, growth, and depinning modelsSpecificity and stability in topology of protein networksPopulation cycles and species diversity in dynamic Kill-the-Winner model of microbial ecosystemsLarge-scale atlas of microarray data reveals the distinct expression landscape of different tissues in Arabidopsis.Large-Scale Public Transcriptomic Data Mining Reveals a Tight Connection between the Transport of Nitrogen and Other Transport Processes in Arabidopsis.Automatic pathway building in biological association networks.UV-induced mutagenesis in Escherichia coli SOS response: a quantitative model.Detection of the dominant direction of information flow and feedback links in densely interconnected regulatory networks.A toolbox model of evolution of metabolic pathways on networks of arbitrary topology.Evolutionary capacitance and control of protein stability in protein-protein interaction networks.Transcriptional responses to sucrose mimic the plant-associated life style of the plant growth promoting endophyte Enterobacter sp. 638Joint scaling laws in functional and evolutionary categories in prokaryotic genomes.Well-temperate phage: optimal bet-hedging against local environmental collapses.Diversity Waves in Collapse-Driven Population Dynamics.Recombinant transfer in the basic genome of Escherichia coli.Propagation of large concentration changes in reversible protein-binding networks.DREISS: Using State-Space Models to Infer the Dynamics of Gene Expression Driven by External and Internal Regulatory NetworksUniversal distribution of component frequencies in biological and technological systems.Toolbox model of evolution of prokaryotic metabolic networks and their regulation.Promise and pitfalls of extending Google's PageRank algorithm to citation networks.Pan- and core- network analysis of co-expression genes in a model plant.Recombination-Driven Genome Evolution and Stability of Bacterial Species.Severe population collapses and species extinctions in multihost epidemic dynamics.Understanding the differences between genome sequences of Escherichia coli B strains REL606 and BL21(DE3) and comparison of the E. coli B and K-12 genomes.Family-specific scaling laws in bacterial genomes.Spontaneous emergence of autocatalytic information-coding polymers.Hierarchy measures in complex networks.Infinite Series of Exact Equations in the Bak-Sneppen Model of Biological Evolution.KBase: The United States Department of Energy Systems Biology KnowledgebaseOnset of natural selection in populations of autocatalytic heteropolymersEnergy Separation of Single-Particle and Continuum States in anS=1/2Weakly Coupled Chains AntiferromagnetModularity and extreme edges of the internetExact solution of a stochastic directed sandpile modelLaws for stationary states in systems with extremal dynamicsTime Directed Avalanches in Invasion ModelsExactly Solved Model of Self-Organized CriticalityExtracting hidden information from knowledge networksCorrelations, mean-field properties, and scaling of a one-dimensional sandpile model
P50
Q24813701-889F3C88-A92C-425D-833F-8708003010CAQ27337595-6482AC77-5E11-407C-8779-F3320E73A1EEQ27340268-C42C46C6-BCD4-4BD7-A959-F8323A926F54Q28216450-18FAA2F8-5B66-45B9-B500-C64B2ACCB12FQ28359553-273049BA-50ED-4D88-8F86-67F4EE1CA1B9Q31063446-25E9ED4E-35E0-42EB-A8C3-97E85C1B7EF2Q31123719-DC63871B-A896-4077-A55E-BF507F5FF7B6Q33237561-5AB71456-80A6-45FC-9C1E-02E52CC4CC52Q33279151-02D51208-711A-42FA-B360-8D1AE8E529E7Q33374653-B9AE652C-536E-4C95-8FE7-99AA6FF77D48Q33916616-AB71D51C-EDC6-4C6F-923C-C888F64299EEQ34671764-DB89CB53-FE85-47A1-ACAF-6FE2F226E83DQ34994324-2AA2BB7C-89DD-43DC-85FC-7B075A00E613Q35672185-DAE286EC-E10C-4BB3-A8DD-D346434CE10FQ35673125-499C9A62-5F70-4517-B5E1-EA22BB0BDC9BQ35772715-7B5F07A5-567C-43FD-8A2E-B83B842C8B7CQ35895593-8DC34B7A-CD5F-433E-8FD0-73A8C40A0D8DQ35962966-D34B8F97-D35C-4556-AC89-3A6894388CF1Q36167690-68A8C125-E151-4AC3-93F5-D68C45368B9CQ36762501-A903D60E-0EF7-4EDB-A6F7-D59396D6ED23Q37239039-6CA17021-FB69-4869-AA2B-69D307F844C3Q37312868-A76417AB-D980-4531-96FB-84BCB789C2F5Q37508331-495667B5-1C53-4B2C-B6EE-0B17A53E7773Q38656614-8B732B32-96E4-45CE-99BA-49EF82DCF582Q41993988-AAD505F4-065F-45A3-AE22-2157CBB7D6A4Q43274452-A3F4CF76-6C9A-46CB-8B53-6E7379E3E12AQ47125124-20FE0BA9-297F-47A3-B0C7-08B9DA543695Q47830818-D7CDC76F-AAA1-45F2-AEEB-9747F59C1C51Q49248423-88CEAAB7-040D-47C5-9D00-F1547D82394AQ52299258-17D39905-24D4-4250-9B5C-D483036DE84BQ57021720-729280A2-5D4A-4E60-80D7-060818349379Q57182780-034DB864-5A1A-479F-938F-447F1F6593CAQ62579248-A660E3B5-2827-405D-91B6-7B76F42EA051Q73354519-CCCF51E1-3DFE-430B-925C-783C9FD21FB9Q73770706-86DB4853-60FE-472F-9E97-795676320AF3Q74558192-DADA7F6B-595A-4F32-9FD5-A9EAA80EBD68Q74559233-5F7A289C-89E2-4EFC-B441-75377ACD5EF9Q74564791-196A3117-535C-4F3E-8141-F3B22B09EC0EQ77330783-E1F80492-F068-41D5-B91F-C1FC2F288FBDQ78057344-6F822223-CB3F-4DF3-A208-BF4BA04E15A5
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Sergei Maslov
@ast
Sergei Maslov
@en
Sergei Maslov
@es
Sergei Maslov
@sl
type
label
Sergei Maslov
@ast
Sergei Maslov
@en
Sergei Maslov
@es
Sergei Maslov
@sl
altLabel
Sergei S. Maslov
@en
prefLabel
Sergei Maslov
@ast
Sergei Maslov
@en
Sergei Maslov
@es
Sergei Maslov
@sl
P1053
C-2397-2009
P106
P1153
7007164417
P21
P2456
P2798
P31
P3829
P496
0000-0002-3701-492X