Quantifying absolute protein synthesis rates reveals principles underlying allocation of cellular resources
about
Systems biology of the structural proteomeThe role of mRNA structure in bacterial translational regulationRibosome-based quality control of mRNA and nascent peptidesInitiation of mRNA translation in bacteria: structural and dynamic aspectsA review of metabolic and enzymatic engineering strategies for designing and optimizing performance of microbial cell factoriesRibosomal frameshifting and transcriptional slippage: From genetic steganography and cryptography to adventitious useGrad-seq guides the discovery of ProQ as a major small RNA-binding proteinOn the mobility, membrane location and functionality of mechanosensitive channels in Escherichia coliMechanical slowing-down of cytoplasmic diffusion allows in vivo counting of proteins in individual cells.Genome Analysis of the Fruiting Body-Forming Myxobacterium Chondromyces crocatus Reveals High Potential for Natural Product Biosynthesis.Quantitative assessment of ribosome drop-off in E. coliEvolutionary pressures on microbial metabolic strategies in the chemostatDirect control of type IIA topoisomerase activity by a chromosomally encoded regulatory proteinPspF-binding domain PspA1-144 and the PspA·F complex: New insights into the coiled-coil-dependent regulation of AAA+ proteinsProtein synthesis. Rqc2p and 60S ribosomal subunits mediate mRNA-independent elongation of nascent chains.Five Questions (with their Answers) on ER-Associated DegradationComputing the functional proteome: recent progress and future prospects for genome-scale modelsTemporal and evolutionary dynamics of two-component signaling pathwaysHow do bacteria tune translation efficiency?Bacterial actin and tubulin homologs in cell growth and divisionThe bacterial divisome: ready for its close-upMicL, a new σE-dependent sRNA, combats envelope stress by repressing synthesis of Lpp, the major outer membrane lipoproteinCell age dependent concentration of Escherichia coli divisome proteins analyzed with ImageJ and ObjectJElongation Factor Tu Prevents Misediting of Gly-tRNA(Gly) Caused by the Design Behind the Chiral Proofreading Site of D-Aminoacyl-tRNA DeacylaseRapid bursts and slow declines: on the possible evolutionary trajectories of enzymesQuantification and Classification of E. coli Proteome Utilization and Unused Protein Costs across Environments.A Suppressor Mutation That Creates a Faster and More Robust σE Envelope Stress ResponseTransmembrane domain of surface-exposed outer membrane lipoprotein RcsF is threaded through the lumen of β-barrel proteins.The rate of osmotic downshock determines the survival probability of bacterial mechanosensitive channel mutants.Ribosome A and P sites revealed by length analysis of ribosome profiling data.Estimating Gene Expression and Codon-Specific Translational Efficiencies, Mutation Biases, and Selection Coefficients from Genomic Data AloneMulti-omic data integration enables discovery of hidden biological regularities.Analysis of translation using polysome profiling.Application of sorting and next generation sequencing to study 5΄-UTR influence on translation efficiency in Escherichia coliMolecular mechanism governing ratio-dependent transcription regulation in the ccdAB operon.Microbial consortia at steady supplyStructural and functional innovations in the real-time evolution of new (βα)8 barrel enzymes.Dynamic equilibrium on DNA defines transcriptional regulation of a multidrug binding transcriptional repressor, LmrR.Quantitative Kinetic Analyses of Shutting Off a Two-Component SystemAccumulation of heme biosynthetic intermediates contributes to the antibacterial action of the metalloid tellurite.
P2860
Q24672160-FD5CAD8E-FCAF-49DB-A791-709DB15A6744Q26746091-A072C47D-1167-4C9D-BD06-A5E22CD7235CQ26748589-61A36E0E-6E49-4D5B-81DE-D4C9D4149F52Q26799769-9512ABE7-CB03-4732-BA15-DF81927AA7B3Q26828848-D1791777-C9C6-45CA-9D5E-1AE74D062AA4Q26970809-B050CDFE-C58C-450A-853B-4B1A6153103AQ27243322-EBC9C172-6C7D-40A9-94A7-49A10A629266Q27313205-60630D6E-E0C0-4A6C-B1AC-E61075FC69AEQ27316297-7FF63D07-7BBB-46B3-B7C1-1956145CCD5FQ27323149-7DF5AADB-7F13-4E17-ACC2-2D9E450EFB09Q27324047-F79BB29E-8C3D-41EF-93A4-BFA13042B877Q27330287-ED80BF97-3723-41A0-A668-BAF94B6B1466Q27684534-65FD607E-A2B1-4E3C-A990-C6DF3C0B4602Q27701716-6C200BD7-22C8-46B0-B2B8-51ACFD09BFADQ27933843-8D3724C0-BDD9-41E4-B828-C633BC781E2AQ28076804-5F612DB1-75DC-4FF0-B087-1B7E1CAE4A53Q28080776-CD1641E7-0266-4341-883B-3886E92020AEQ28082034-CF999E6E-0A62-4B82-8051-8E43C8096D8FQ28083131-2E7E6382-F173-4046-94DB-1F31EE22A6CDQ28083563-33087BEE-45F0-4AEB-8FA2-8D22B5479958Q28085277-FF82F855-F398-4661-A768-47B954A29C11Q28244052-179D202C-3479-4143-B49A-40A6A952FB30Q28364545-D928868D-61E9-4222-B8B7-43BEA8364C89Q28552401-30C6C886-EC79-42FE-B5AF-9D9FC4AAA3DBQ28607014-0F0FFAC4-D6AA-4382-B60C-C48111710765Q30151952-258E9787-B1B6-4D5D-9AA3-236ED3A60418Q30152770-24D00879-068E-43CD-9FF3-A5C645A887ECQ30153329-69C4C903-6E78-4AD6-B521-F322F731737FQ30614006-533A4637-BC1B-40C7-A2DE-75EFA01913BDQ30915245-0C55022D-8C3A-437C-8E4F-FB924EEEED4EQ30952178-FC53477D-07D9-4520-9B47-926CA92E706FQ31139124-4BBC5A3C-2072-46FC-817B-E19793131381Q33554240-394D153F-A9F6-4A4B-9331-ABD059BD4A34Q33558117-EF8C832A-D8F1-4DDF-B49A-0D8D3D5DCEE5Q33558427-321ED523-0EEB-4D90-89BF-2CB69CAB9BD4Q33643604-76BB2126-A3AC-4078-BC48-D7BEDE0EB496Q33650982-69CEE72A-4D92-4BC4-A962-950F0925B0AEQ33670155-77DFFBF5-A367-4A59-895C-1C10C58864DDQ33691864-4AD8902D-A399-431E-930A-EA9B08A81D87Q33705605-6682CD17-FAA5-4655-B616-4E49B37F868B
P2860
Quantifying absolute protein synthesis rates reveals principles underlying allocation of cellular resources
description
2014 nî lūn-bûn
@nan
2014 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Quantifying absolute protein s ...... location of cellular resources
@ast
Quantifying absolute protein s ...... location of cellular resources
@en
Quantifying absolute protein s ...... ocation of cellular resources.
@nl
type
label
Quantifying absolute protein s ...... location of cellular resources
@ast
Quantifying absolute protein s ...... location of cellular resources
@en
Quantifying absolute protein s ...... ocation of cellular resources.
@nl
prefLabel
Quantifying absolute protein s ...... location of cellular resources
@ast
Quantifying absolute protein s ...... location of cellular resources
@en
Quantifying absolute protein s ...... ocation of cellular resources.
@nl
P2093
P2860
P1433
P1476
Quantifying absolute protein s ...... location of cellular resources
@en
P2093
Carol Gross
David Burkhardt
Gene-Wei Li
P2860
P304
P356
10.1016/J.CELL.2014.02.033
P407
P577
2014-04-01T00:00:00Z