The cost of expression of Escherichia coli lac operon proteins is in the process, not in the products. - Wikidata - awgldk - TriplyDB

The cost of expression of Escherichia coli lac operon proteins is in the process, not in the products.

The cost of expression of Escherichia coli lac operon proteins is in the process, not in the products.

http://www.wikidata.org/entity/Q33317948

about

Allostery in the LacI/GalR family: variations on a theme Cellular Growth Arrest and Persistence from Enzyme Saturation Evolutionary pressures on microbial metabolic strategies in the chemostat Costs of antibiotic resistance - separating trait effects and selective effects Metatranscriptomic insights on gene expression and regulatory controls in Candidatus Accumulibacter phosphatis Rheostats and toggle switches for modulating protein function A comprehensive tRNA deletion library unravels the genetic architecture of the tRNA pool Rapid bursts and slow declines: on the possible evolutionary trajectories of enzymes The functional basis of adaptive evolution in chemostats Investment in rapid growth shapes the evolutionary rates of essential proteins Evaluating the fitness cost of protein expression in Saccharomyces cerevisiae.The Evolutionary Basis of Translational Accuracy in Plants.FoldEco: a model for proteostasis in E. coli.Positive selection at high temperature reduces gene transcription in the bacteriophage ϕX174.On ribosome load, codon bias and protein abundance.lac repressor is an antivirulence factor of Salmonella enterica: its role in the evolution of virulence in Salmonella.Selection on horizontally transferred and duplicated genes in sinorhizobium (ensifer), the root-nodule symbionts of medicago.Expression level, evolutionary rate, and the cost of expression.Visual account of protein investment in cellular functions A general lack of compensation for gene dosage in yeast.Nonlinear fitness landscape of a molecular pathway.Optimality and evolution of transcriptionally regulated gene expression.Adaptive evolution of the lactose utilization network in experimentally evolved populations of Escherichia coli.Unique cost dynamics elucidate the role of frameshifting errors in promoting translational robustness.Inducible expression eliminates the fitness cost of vancomycin resistance in enterococci.The rate of the molecular clock and the cost of gratuitous protein synthesis Optimality models in the age of experimental evolution and genomics.Misfolded proteins impose a dosage-dependent fitness cost and trigger a cytosolic unfolded protein response in yeast.Lack of RsmA-mediated control results in constant hypervirulence, cell elongation, and hyperflagellation in Pectobacterium wasabiae.Adaptive regulatory substitutions affect multiple stages in the life cycle of the bacteriophage φX174 Inducing extra copies of the Hsp70 gene in Drosophila melanogaster increases energetic demand.Selection affects genes involved in replication during long-term evolution in experimental populations of the bacteriophage φX174 A mathematical model for adaptive prediction of environmental changes by microorganisms.Bacterial growth laws reflect the evolutionary importance of energy efficiency Determinants of translation efficiency and accuracy.Evolutionary tuning of protein expression levels of a positively autoregulated two-component system.Mapping the fitness landscape of gene expression uncovers the cause of antagonism and sign epistasis between adaptive mutations.Bacterial growth laws and their applications Microbial laboratory evolution in the era of genome-scale science.Multiple phenotypic changes associated with large-scale horizontal gene transfer.

P2860

Q24653579-49201E2D-A382-42D5-A40A-36C85DDCCC04 Q27316551-2AEA7E7A-52EE-4B5F-9EC4-C66F8FA7BB8B Q27330287-14178F6C-9A5D-4111-8F1E-5680922DAC89 Q28082095-98BCB647-0955-4405-AAB7-1D1A0E7F29FB Q28389969-908F61CC-4F4D-4813-B467-47C49202D810 Q28538084-242FA8C9-F17B-4D32-8F97-A7AE6B4F791E Q28538765-89459FAB-9596-4482-A229-ADF5FA4ADC23 Q28607014-F6131BCF-59A5-470B-A9B2-C8CBB809ACD6 Q28649903-4101C72D-0F3F-4F9C-A161-02D678D8BBDA Q28740561-1CB73869-9DA0-4899-BE40-F58D192EE3E6 Q30354567-750259FC-46F6-4ED3-A134-09D3CE02DC78 Q30402322-BAE442B3-D6FE-4227-A278-47E2440833E9 Q30512981-4DDFBEB7-7E97-42D7-A0D8-0E35193F2A79 Q30992820-EAC62CA0-8370-48A6-9A86-80DB47E4786E Q31106688-62C639DB-AAE2-4BCB-9702-1DEDCB1D5085 Q33460439-DD4459AC-A815-49A8-ADA9-8A946171B395 Q33696373-9D5DBAAF-42A9-4CFB-8BDE-EF311359415A Q33706863-BCCBB6D9-6855-45AE-830B-E7E4A22D3D70 Q33767436-1B58866D-ECD8-4543-90DD-EA6B3E2F4561 Q33932557-E34A5E3F-510D-4569-B60C-48B7A0CF751C Q33981298-CB4F3E10-9519-470C-918D-8903734740E7 Q33994101-90A02DB8-EA43-407E-8AA9-39E6DFA7D1E9 Q34130237-FC97F849-215A-475E-B0CB-75622DCBDC55 Q34135376-D2C8FBD3-7D15-468D-BA82-3947A1EE80DD Q34165648-DDE53484-D66B-48E5-839F-232ABB79FB77 Q34247630-D1256884-F67C-4839-A90E-1D2B3A632931 Q34415262-526368A7-9F95-4912-A524-48282A8989D0 Q34490441-6C9153F0-BFE4-4BB3-84D7-5C44306CBAB4 Q34571069-D97ED75F-58DE-42AF-9554-1026D79849CC Q34626340-20C206CF-329C-4BBB-A481-A552E24E5A25 Q34627520-6E2BE66C-B27B-4D0B-B901-105F6A3BA707 Q34638096-68A497C8-000E-4E3B-9DCD-9AFDE1395E93 Q34881331-D8DC97A1-5B75-4C3F-A84B-1C336F605813 Q34985567-76FB774D-56E3-4AAF-AF6B-8EC5D21FE00D Q35006962-BD4A43C0-7DFD-48BB-B3B6-C6BD087B721E Q35034394-C5CB0B50-6231-4DDC-8CF6-0DF724025D26 Q35105723-347705E8-DEE0-46F1-94A3-078702C315BD Q35154086-A95D5781-A627-4B94-970E-C6CA54020086 Q35176401-ED51BB75-BB87-4E63-B282-9098599550FB Q35210627-072AFEC4-D75A-4469-8979-98DADBD89449

P2860

The cost of expression of Escherichia coli lac operon proteins is in the process, not in the products.

http://www.wikidata.org/entity/Q33317948

description

2008 nî lūn-bûn

@nan

2008 թուականի Փետրուարին հրատարակուած գիտական յօդուած

@hyw

2008 թվականի փետրվարին հրատարակված գիտական հոդված

@hy

2008年の論文

@ja

2008年論文

@yue

2008年論文

@zh-hant

2008年論文

@zh-hk

2008年論文

@zh-mo

2008年論文

@zh-tw

2008年论文

@wuu

name

The cost of expression of Esch ...... process, not in the products.

@ast

The cost of expression of Esch ...... process, not in the products.

@en

The cost of expression of Esch ...... process, not in the products.

@nl

type

label

The cost of expression of Esch ...... process, not in the products.

@ast

The cost of expression of Esch ...... process, not in the products.

@en

The cost of expression of Esch ...... process, not in the products.

@nl

prefLabel

The cost of expression of Esch ...... process, not in the products.

@ast

The cost of expression of Esch ...... process, not in the products.

@en

The cost of expression of Esch ...... process, not in the products.

@nl

P1433

Q33317948-96E3B1C8-AD6A-4D88-8776-E96179173804

P1476

Q33317948-95A2BBCF-5713-430B-84C9-942170D7F52B

P2093

Q33317948-C8FDB556-B632-4540-AE63-947FEEC1D531

Q33317948-FE3985D1-B0F1-4280-9158-F9C74BCBF8AA

P2860

Q33317948-0280204C-6C75-4FC1-A89D-2EAE0A89E81B

Q33317948-064AAFB3-3D5E-4EC7-A918-D6185479151A

Q33317948-0BDE4A90-17E1-4994-8C5D-028F4FE5F293

Q33317948-0CAD551D-722D-4A77-A6B4-69C9CFAB85A7

Q33317948-13D1A471-10F7-4D54-8CF1-CC377F1AA886

Q33317948-1A928A79-2D83-4217-A799-B88175413889

Q33317948-1CD8CBF4-14E9-4885-96BE-695F5298F4A9

Q33317948-27509F9C-CBC6-43C2-A850-9C827C3514FF

Q33317948-3D52B481-424B-473B-937F-D8A9D16F02FD

Q33317948-3E6173F6-12B3-4A22-9A3A-7BA2C5777FE5

P304

Q33317948-3E6BDAB5-BAA3-421C-AFDC-1AE0A487CDD1

P31

Q33317948-BA4396EC-31E6-40D0-BC20-73E9EFE19BE0

P356

Q33317948-871F6FE8-1F36-4AE5-A217-19E3DA2F0A32

P407

Q33317948-0BA2B52C-6558-4C91-B7C0-7062E01C2048

P433

Q33317948-157A7025-BDA8-4BFB-A0BD-BDF00F1B9442

P478

Q33317948-0D1B0A9B-0B9F-4464-A477-62CB78CDB5F6

P50

Q33317948-534807E7-95A9-4E15-A002-853BF61EF5FD

P577

Q33317948-7CDD62A4-F057-4E0B-AFCA-CC8ED4F87DF4

P5875

Q33317948-C4965F46-800E-4B93-B739-E6F3B8E7701B

P698

Q33317948-5A4354B2-1EF7-493D-B9C6-EC74269F773C

P921

Q33317948-AB839AD5-1F56-4791-9D94-696AA448337F

P932

Q33317948-21FDCDAA-0A8E-4C51-AED8-42970E7B2BE1

P356

GENETICS.107.085399

P1433

P1476

The cost of expression of Esch ...... process, not in the products.

@en

P2093

Antony M Dean

http://www.w3.org/2001/XMLSchema#string

Daniel E Dykhuizen

http://www.w3.org/2001/XMLSchema#string

P2860

Evolution of specialists in an experimental microcosm

Evolutionary genomics of ecological specialization

The ClpXP and ClpAP proteases degrade proteins with carboxy-terminal peptide tails added by the SsrA-tagging system

Selection in chemostats

Resource availability and plant antiherbivore defense

Functional effects of PGI allozymes in Escherichia coli.

Parallel changes in gene expression after 20,000 generations of evolution in Escherichiacoli

rpoS mutations and loss of general stress resistance in Escherichia coli populations as a consequence of conflict between competing stress responses.

Enzyme kinetics, substitutable resources and competition: from biochemistry to frequency-dependent selection in lac.

SIZE DOESN'T MATTER: MICROBIAL SELECTION EXPERIMENTS ADDRESS ECOLOGICAL PHENOMENA.

P304

1653-1660

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1534/GENETICS.107.085399

http://www.w3.org/2001/XMLSchema#string

P407

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

178

http://www.w3.org/2001/XMLSchema#string

P50

Daniel M Stoebel

P577

2008-02-03T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

5606016

http://www.w3.org/2001/XMLSchema#string

P698

18245823

http://www.w3.org/2001/XMLSchema#string

P921

Escherichia coli

P932

2278061

http://www.w3.org/2001/XMLSchema#string