about
Evidence for soft bounds in Ubuntu package sizes and mammalian body massesMicrotubule organization in three-dimensional confined geometries: evaluating the role of elasticity through a combined in vitro and modeling approach.Functional models for large-scale gene regulation networks: realism and fiction.Ordered structure of the transcription network inherited from the yeast whole-genome duplication.Nutrient consumption and chain tuning in diatoms exposed to storm-like turbulence.Role of growth rate on the orientational alignment of Escherichia coli in a slit.DnaA and the timing of chromosome replication in Escherichia coli as a function of growth rateThe nucleoid as a smart polymer.Characterizing the size and shape of sea ice floesJoint scaling laws in functional and evolutionary categories in prokaryotic genomes.Mapping Topoisomerase IV Binding and Activity Sites on the E. coli Genome.The spatiotemporal program of replication in the genome of Lachancea kluyveriConcerted control of Escherichia coli cell division.Dynamic membrane patterning, signal localization and polarity in living cells.Procedures for Model-Guided Data Analysis of Chromosomal Loci Dynamics at Short Time Scales.Step by Step, Cell by Cell: Quantification of the Bacterial Cell Cycle.Regulation of chain length in two diatoms as a growth-fragmentation process.Individuality and universality in the growth-division laws of single E. coli cells.Cross-species gene-family fluctuations reveal the dynamics of horizontal transfersUniversal features in the genome-level evolution of protein domains.Contrasting evolutionary genome dynamics between domesticated and wild yeastsStochasticity and homeostasis in the E. coli replication and division cycle.Gene silencing and large-scale domain structure of the E. coli genome.Cells Escape an Operational Mitotic Checkpoint through a Stochastic Process.Family-specific scaling laws in bacterial genomes.Statistical mechanics of the "Chinese restaurant process": lack of self-averaging, anomalous finite-size effects, and condensation.Current quantization and fractal hierarchy in a driven repulsive lattice gas.Model of chromosomal loci dynamics in bacteria as fractional diffusion with intermittent transport.Combined collapse by bridging and self-adhesion in a prototypical polymer model inspired by the bacterial nucleoid.NuST: analysis of the interplay between nucleoid organization and gene expression.Short-time movement of E. coli chromosomal loci depends on coordinate and subcellular localization.Microfluidic chemostat for measuring single cell dynamics in bacteria.Measuring bacterial adaptation dynamics at the single-cell level using a microfluidic chemostat and time-lapse fluorescence microscopy.Continuum description of the cytoskeleton: ring formation in the cell cortex.Both genome and cytosol dynamics change in E. coli challenged with sublethal rifampicin.Dicke simulators with emergent collective quantum computational abilities.Minimal two-sphere model of the generation of fluid flow at low Reynolds numbers.Feedback topology and XOR-dynamics in Boolean networks with varying input structure.Logic backbone of a transcription network.Metachronal waves for deterministic switching two-state oscillators with hydrodynamic interaction.
P50
Q28660925-8A63C24F-2EB5-4254-9B44-D77AC10A2665Q30478862-7EF6AC7A-B4E2-4B5D-BF9D-AC2108520E68Q33435393-996F98DD-BC7D-44CE-BE58-ED09ABE0CDFCQ33595119-4D4E317F-55FE-4956-B1CF-13FE3197F5E4Q33686987-7AF1F0EF-8672-432A-8026-C48E6827E821Q33862074-CB33C49B-BAB3-4B2A-BB0C-C7595D4E21D1Q34107943-87244B8D-0AD4-4606-B28F-82ECD7DB300EQ35585047-FBC603B2-E89B-4280-9FAA-4CF2B453784AQ35650676-59D260EE-0A76-4130-BF44-394918FEF9A7Q35672185-F91B9A8E-4E36-402A-9C7D-A360827AEA03Q36015774-1F5A1E2B-BC9E-4297-9ED4-E0ABE7010D4AQ36663967-8D68F612-F966-4039-92E4-44B7A427D57AQ37627914-69CBE2EA-8D33-4D7F-8579-6F71905E7179Q38309176-5E134CFA-7D9E-4276-9388-509E4F3EF3DEQ38607476-029B2DF5-B190-4E3D-AF66-AA2208448F0BQ39017350-A8A8C6C4-8D11-4C53-9490-837AABA0F026Q39391394-143A31C0-980A-4041-A210-BFFE22F4B615Q40002020-C0B121A1-0337-44EE-8C1E-5DEB35C69E12Q41003008-8184F0D3-E9BB-4EDD-ACFC-E8DCF6C95317Q42098515-0BFE76E7-D844-49B2-ACFE-0B923F9F9962Q42241472-0FD1D4FC-D985-4F9F-B6A1-CB0CF4CA5E07Q42261411-BFA2D850-C7A3-4CC0-940B-B244B608620CQ46189959-A0589915-7D02-4EF2-BDAA-633DB5670C0AQ46237998-4101C797-46E9-4CA0-A298-9163517C2A3AQ47125124-FBED5A99-AB00-4D24-9A01-B29E36131394Q47437709-A45F049F-7618-44A3-9707-60CA89D6974FQ47559419-1377CDB2-8B1D-4E36-B312-BB93D308B703Q47559727-4240E68F-73D7-4FEA-9FDB-13036E9AEB47Q47694001-37EA3573-7D90-431E-A823-F3FB479354EEQ47857703-084B41DC-7AD0-438B-925E-A91F13B7C753Q48720565-78AE51AE-2321-4338-BA43-74F97CDC919FQ48739880-E78E1C88-0E57-417D-9BB0-E143EC236BCAQ50450964-8D5FF17B-E346-4C22-9676-978D38EB5C99Q50734122-65A73444-DDF8-4F50-B6D3-667999C6BC2DQ50889449-841A4FEC-7634-474F-8683-52271C4455F7Q50925641-322E423B-0A31-4CDC-86D9-C223AF0C3A6CQ51707842-A460409A-5E69-447A-9CFE-28503392B40CQ51788758-B7856B3E-3670-4C50-B7F8-9B228FEC0D51Q51961463-AEDBB645-C776-4A8C-B38B-47C22D9CF9E1Q52008379-43DCB56B-BC7D-43E7-AAA0-98300FC73FD4
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Marco Cosentino Lagomarsino
@ast
Marco Cosentino Lagomarsino
@en
Marco Cosentino Lagomarsino
@es
Marco Cosentino Lagomarsino
@sl
type
label
Marco Cosentino Lagomarsino
@ast
Marco Cosentino Lagomarsino
@en
Marco Cosentino Lagomarsino
@es
Marco Cosentino Lagomarsino
@sl
prefLabel
Marco Cosentino Lagomarsino
@ast
Marco Cosentino Lagomarsino
@en
Marco Cosentino Lagomarsino
@es
Marco Cosentino Lagomarsino
@sl
P1053
B-7233-2012
P106
P1153
8143007300
P21
P31
P3829
P496
0000-0003-0235-0445