about
Synthetic biology: new engineering rules for an emerging disciplineAntibiotics as a selective driver for conjugation dynamicsInterplay of physical mechanisms and biofilm processes: review of microfluidic methodsEngineered bidirectional communication mediates a consensus in a microbial biofilm consortium.Multi-input regulation and logic with T7 promoters in cells and cell-free systems.Model for biological communication in a nanofabricated cell-mimic driven by stochastic resonance.Expression optimization and synthetic gene networks in cell-free systems.Noise in biological circuits.A Stoichioproteomic Analysis of Samples from the Human Microbiome Project.Invasion speeds in microbial systems with toxin production and quorum sensing.Cell-free synthetic biology for environmental sensing and remediation.Preservation of protein expression systems at elevated temperatures for portable therapeutic production.Signal-amplifying genetic circuit enables in vivo observation of weak promoter activation in the Rhl quorum sensing system.Metabolic division of labor in microbial systems.Probing cell-free gene expression noise in femtoliter volumes.Direct Growth of Bacteria in Headspace Vials Allows for Screening of Volatiles by Gas Chromatography Mass Spectrometry.Distribution and regulation of stochasticity and plasticity in Saccharomyces cerevisiaeStochastic Turing patterns in a synthetic bacterial populationTrait-based analysis of the human skin microbiomeDetecting interaction networks in the human microbiome with conditional Granger causality
P50
Q24672399-ABE1C127-BD39-4B73-90D8-5AEC3DD8F8A6Q27313286-ED3A9EF7-7FEA-4534-A400-E3AEE9B1F0C1Q30394297-000B59A6-F83E-4873-8DC0-EC7C636AE142Q33303833-DAD162F1-7DDA-4F07-98CB-2DA9B5793586Q35032580-6C22A1B1-1AC1-4621-880E-54158E52F29CQ35073118-0AD3B034-79B7-4D5E-976F-3D77CB4CB2A7Q35906061-426256BA-8FEF-44A8-A566-68AC366A0B9DQ37668294-E5379682-64C3-4FE0-A1B6-4808CCDF70D7Q38645606-E82D68F6-499D-4B7A-9C97-906F52675392Q38996734-72CB89B5-18BF-4A2B-82C9-C4AB24D38C88Q39146827-44D991E5-EB1E-4FD2-83EE-F04A34CFE963Q40226185-3F3D5B10-53C1-49A7-B3C8-1A3D5387F8BDQ45217534-285354EF-B96C-46E0-BE7E-914D189E8DFFQ49790316-FAC2C1A9-FFCF-4A04-80FD-FA73E2DA36EFQ53106417-59B93836-2F6B-4480-86EF-C641A8BC4F32Q53409127-979405C9-50A3-4BF9-BA3B-02EC1F2A3143Q57272696-7611B263-CB8D-43C0-84A3-3C025ADDB3D1Q89069060-013DCD69-7DC6-442E-94F5-C2C5B4041D14Q91660674-8D76D345-5DA0-4060-84F8-C621FC4D7A45Q92156775-9EB074A7-CB05-487E-9F49-03DE8D44AD88
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
David K Karig
@nl
David K Karig
@sl
David K. Karig
@en
David K. Karig
@es
type
label
David K Karig
@nl
David K Karig
@sl
David K. Karig
@en
David K. Karig
@es
prefLabel
David K Karig
@nl
David K Karig
@sl
David K. Karig
@en
David K. Karig
@es
P106
P1153
7003281452
P21
P2456
P31
P496
0000-0002-9508-6411