about
Tuning the dials of Synthetic BiologyRewiring cell signalling through chimaeric regulatory protein engineeringFlow graphs: Interweaving dynamics and structureMarkov dynamics as a zooming lens for multiscale community detection: non clique-like communities and the field-of-view limitStochastic kinetics of viral capsid assembly based on detailed protein structures.A dominated coupling from the past algorithm for the stochastic simulation of networks of biochemical reactionsStability of graph communities across time scales.The effect of spatially inhomogeneous extracellular electric fields on neurons.Interest communities and flow roles in directed networks: the Twitter network of the UK riotsCompound stress response in stomatal closure: a mathematical model of ABA and ethylene interaction in guard cells.Hhex and Cer1 mediate the Sox17 pathway for cardiac mesoderm formation in embryonic stem cells.Transcriptome-wide noise controls lineage choice in mammalian progenitor cellsEmergence of Slow-Switching Assemblies in Structured Neuronal NetworksPDGFRα demarcates the cardiogenic clonogenic Sca1+ stem/progenitor cell in adult murine myocardium.Engineering and ethical perspectives in synthetic biology. Rigorous, robust and predictable designs, public engagement and a modern ethical framework are vital to the continued success of synthetic biology.Flow-Based Network Analysis of the Caenorhabditis elegans Connectome.SC3: consensus clustering of single-cell RNA-seq dataChemistry across scales: from molecules to cells.Great cities look small.Toward Precision Healthcare: Context and Mathematical ChallengesStochastic models of gene transcription with upstream drives: exact solution and sample path characterization.Linear models of activation cascades: analytical solutions and coarse-graining of delayed signal transduction.A modular cell-based biosensor using engineered genetic logic circuits to detect and integrate multiple environmental signals.Switchable genetic oscillator operating in quasi-stable mode.Prediction of allosteric sites and mediating interactions through bond-to-bond propensities.Combinatorial stresses kill pathogenic Candida species.Kinetic Analysis Reveals the Identity of Aβ-Metal Complex Responsible for the Initial Aggregation of Aβ in the Synapse.Nitrogen and carbon status are integrated at the transcriptional level by the nitrogen regulator NtrC in vivoPerfect sampling of the master equation for gene regulatory networksGraph partitions and cluster synchronization in networks of oscillators.Biophysical regulation of lipid biosynthesis in the plasma membrane.Engineering modular and tunable genetic amplifiers for scaling transcriptional signals in cascaded gene networks.Amplification of small molecule-inducible gene expression via tuning of intracellular receptor densities.Squeeze-and-breathe evolutionary Monte Carlo optimization with local search acceleration and its application to parameter fitting.Crowding-induced anisotropic transport modulates reaction kinetics in nanoscale porous media.Observability and coarse graining of consensus dynamics through the external equitable partition.Revealing cell assemblies at multiple levels of granularity.Self-assembled, deterministic carbon nanotube wiring networks.X-ray diffraction measurement of the monolayer spontaneous curvature of dioleoylphosphatidylglycerol.GlnK Facilitates the Dynamic Regulation of Bacterial Nitrogen Assimilation.
P50
Q24630346-A3717D42-0FA3-42DE-8516-941DEB3FA1D0Q26822574-632DB4E7-1CD9-4AFD-9267-06BCB6F1F9A2Q27444503-6B2E08F4-846B-4E69-B7C2-9E96A74D2695Q28731701-622BDD62-9876-4CF2-BA0F-85785440B4D8Q30352933-570478FE-DC8D-4786-B844-D62627E92859Q33333128-F02724C1-C2BA-4F89-B042-67BB113536F9Q34059106-5CE30CB0-F1EC-4C8F-B128-878585AF06A6Q34096726-6E583EC6-1E05-4E62-9330-5D1CE8B90B44Q34470506-F30F5D47-94B5-42E0-A880-D57F88201925Q34487191-B88C0755-D934-4BA6-A37B-B78CFE2F3996Q34658631-84FA83C5-8C2C-49F2-9FC4-B3D9DC23DDCFQ34780848-F4C2EC92-ADB2-4E75-B79E-DA58FF50B60BQ35692017-E0448857-DD86-41FB-A92E-B659CFFC5EE9Q35775407-14617CA5-3FC5-4B05-B86E-A819D83F54ADQ36074977-5ED0EB5B-9CA9-49F4-A513-EE9A6E7DD5F3Q36095826-5842D8F3-FE82-45E1-AF73-B9167A0E01CEQ36323703-360A7156-6C93-4496-BEE3-58A3E9982BDFQ36940351-7CEF2BAB-FCC1-4CDF-A5F2-108676BB4FB7Q38388430-61DD9AAB-7486-47CF-B326-FB216FFD29DEQ38854423-E67D49D2-FC56-4C1C-B3BF-27B1D1B90051Q39039943-EFBED974-A9CC-4400-B63C-3EBC6720AE3BQ39434646-5298B93D-B376-45EC-A4A0-59413F25BD32Q39552299-DFF9C657-A3F3-443B-AD48-81610F0EF496Q40862173-33C16203-7A4F-4B88-9627-0E5CCCE1C00FQ40990726-322E896A-2B50-4E37-86B9-7879AEFD0ABDQ41667579-ED894D19-08B1-434D-AF3C-874E1355DDEEQ41690668-E0CFB9B8-3AD4-404E-AA27-C055F982B76CQ41786047-0AF885DC-E813-4AEC-95A1-7E9A7A1F5F29Q41879890-AAEE8EAE-4CCD-49E3-8640-629AC365208DQ41943486-8F8B8E96-4154-4375-90BA-312413C76CA8Q41949336-2AADA30F-E91E-4387-BD19-963C5F00EFE2Q42074372-216CC81B-E294-4DF0-9700-172B8AB7275DQ42118085-612B27E5-E67E-446B-8D69-59DEB4A0AC8DQ42218869-D9DE9421-CC50-422E-A55C-A9D02818A151Q43108655-BB657287-C670-44BE-B2B1-081AF3E0D0B5Q44051771-06DF038D-A148-4A76-928B-B1D96D5DEE31Q45958640-113ADA29-B83B-4406-BC4C-423339659F08Q46507600-D0BB3D9A-2886-48B2-97F3-737BD691AC3DQ46649852-8BD50399-FAB3-4FC3-A31A-194719E6B10AQ47833519-BCF530D2-DCB9-4BA0-9E3A-E486E65D8FCA
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Mauricio Barahona
@ast
Mauricio Barahona
@en
Mauricio Barahona
@es
Mauricio Barahona
@nl
Mauricio Barahona
@sl
type
label
Mauricio Barahona
@ast
Mauricio Barahona
@en
Mauricio Barahona
@es
Mauricio Barahona
@nl
Mauricio Barahona
@sl
prefLabel
Mauricio Barahona
@ast
Mauricio Barahona
@en
Mauricio Barahona
@es
Mauricio Barahona
@nl
Mauricio Barahona
@sl
P1053
C-3638-2008
P106
P1153
7004545407
P21
P2456
P2798
P31
P3829
P496
0000-0002-1089-5675