Engineering BioBrick vectors from BioBrick partsDetermination of cell fate selection during phage lambda infection.Refactoring bacteriophage T7A fully decompressed synthetic bacteriophage øX174 genome assembled and archived in yeastStimulus design for model selection and validation in cell signalingA survey of enabling technologies in synthetic biologyRefactored M13 bacteriophage as a platform for tumor cell imaging and drug deliveryFoundations for engineering biology.Refinement and standardization of synthetic biological parts and devices.Gemini, a bifunctional enzymatic and fluorescent reporter of gene expressionThe Alpha Project: a model system for systems biology research.Modelling cellular behaviour.Toward antiviral strategies that resist viral escapeRewritable digital data storage in live cells via engineered control of recombination directionalityThe Synthetic Biology Open Language (SBOL) provides a community standard for communicating designs in synthetic biology.Regulated cell-to-cell variation in a cell-fate decision system.Engineering life: building a fab for biology.Intracellular kinetics of a growing virus: a genetically structured simulation for bacteriophage T7.Composability of regulatory sequences controlling transcription and translation in Escherichia coliScaffold number in yeast signaling system sets tradeoff between system output and dynamic range.Measurement and modeling of intrinsic transcription terminatorsDNA synthesis and biological security.Computation, prediction, and experimental tests of fitness for bacteriophage T7 mutants with permuted genomes.Measuring the activity of BioBrick promoters using an in vivo reference standardSignal transduction. Decoding NF-kappaB signaling.Amplifying genetic logic gates.Detection of pathological biomarkers in human clinical samples via amplifying genetic switches and logic gates.Engineered cell-cell communication via DNA messaging.Editorial-synthetic biology.One-step cloning and chromosomal integration of DNA.Precise and reliable gene expression via standard transcription and translation initiation elements.Genomics. Reconstruction of the genomes.Quantitative estimation of activity and quality for collections of functional genetic elements.Reply to Intellectual property issues and synthetic biology standards.Signal transduction: molecular monogamy.Opening options for material transferSwitches, Switches, Every Where, In Any Drop We DrinkSynthetic Genomics | Options for GovernanceDefinitive demonstration by synthesis of genome annotation completenessGrowing a circular economy with fungal biotechnology: a white paper
P50
Q21202064-F815FABE-68CC-4D86-B7E0-593C2145E1FAQ24644275-CA8B83DE-1FA8-4AEB-B351-CC086E0159FAQ24672460-4DD2B8BA-4104-47AF-A45D-A13B61FEAAEEQ28277443-455CFAA5-62EE-4368-8ADC-04F82843E449Q28472617-A546EBF6-7C4A-4ADE-9903-35E259126D6FQ28681353-F900AC6B-3366-425C-A7A9-1258C9065383Q30415136-616D0DCC-46DC-4C1A-A907-4BD911954233Q30482962-DB271CE7-550B-4A22-BB2C-9D3AF9B6E65EQ33350143-D73281AE-71F6-4ED4-B43D-055EB96E1A00Q33514861-28115291-DEDF-46D6-A6D9-953A84CD1ABDQ33589313-ED5F6CD5-911E-45B2-9936-16A75605F489Q33934640-E72DEFFB-6825-4023-9DF1-E0C26AB4F376Q33979280-B41311FD-6BD1-4063-9A67-80AF85CE20DFQ34032017-2E5ED997-346B-4F84-A9A4-2278B6591EC0Q34423743-F817C7BF-B9DF-4AEE-9896-88843F25D77CQ34451943-9CEA2372-5DD6-4073-9D0F-D58F1BE8EF5AQ34528193-081BD85C-71A8-4BEA-AA3D-83DFEB24C349Q34797648-53DD0073-7677-4120-853B-93F6A7D75CABQ34909198-E86A2826-0D19-4DD6-A154-0DB0887A1A81Q35647563-04F52590-28CD-45A6-8F8D-449FB00F2BBCQ36814166-A8F44B01-E565-4301-8EF6-CD44F1E36C2EQ36844133-C5FDF1A7-9C7C-41D3-8BF0-458E2467083EQ36974531-51DB6ECB-F8A9-48DC-A5BB-EC4183607559Q37194950-03DF07E4-FCB8-4367-8481-A5D8917C23D1Q39750695-EEC1791D-BE38-4EBF-AA3C-737C0D627116Q40101578-92030E2F-0A35-4E32-B12B-29800115206EQ40283884-492A8C5B-5F98-435C-9F7B-A5A7F92EC536Q41835370-8B4EBF09-AFE4-4DB7-A88A-E9AE09726C1DQ42815882-527DD906-8FFA-403F-8155-E99EFCBDC45BQ46000081-41E21345-5CC8-436C-B9CC-87EA72062329Q46169139-A2DCA95A-956B-461B-B45E-59AF4BD824BDQ47879404-42027388-44C5-49B1-807D-495634207726Q48733771-C2FB89B3-FEEB-4061-BBBD-226DB3651F21Q53342497-D3E1704A-8827-485E-A8D2-2DE133EF13F8Q55037950-1CD06EEF-EB38-4A4F-9047-F41FFDC91259Q57558218-720B1344-4802-4A03-B12A-F6EC2EAA104CQ57558229-C39A7E53-B999-4D01-B2DE-B4D48EE48142Q57558248-F0AC3C05-2403-406B-B072-13C49784B54EQ91259374-24498880-04F4-45AC-8364-8B24F6D780D4Q91842070-B40786CE-73F1-4A5D-B157-12FACE3D4A5F
P50
description
American scientist
@en
científico estadounidense
@es
ingenieur
@nl
nolavan Lamerikänik
@vo
siensiste american
@lfn
usona sciencisto
@eo
name
Drew Endy
@af
Drew Endy
@an
Drew Endy
@ast
Drew Endy
@bar
Drew Endy
@br
Drew Endy
@ca
Drew Endy
@co
Drew Endy
@cs
Drew Endy
@cy
Drew Endy
@da
type
label
Drew Endy
@af
Drew Endy
@an
Drew Endy
@ast
Drew Endy
@bar
Drew Endy
@br
Drew Endy
@ca
Drew Endy
@co
Drew Endy
@cs
Drew Endy
@cy
Drew Endy
@da
altLabel
Andrew David Endy
@en
Andrew Endy
@en
prefLabel
Drew Endy
@af
Drew Endy
@an
Drew Endy
@ast
Drew Endy
@bar
Drew Endy
@br
Drew Endy
@ca
Drew Endy
@co
Drew Endy
@cs
Drew Endy
@cy
Drew Endy
@da
P214
P227
P244
P269
P106
P1417
biography/Drew-Endy
P21
P214
P227
1137199350
P244
no2010078345
P2456
P269
P31
P496
0000-0001-6952-8098
P569
1970-01-01T00:00:00Z
P735
P7859
lccn-no2010078345