about
Predicting Essential Genes and Proteins Based on Machine Learning and Network Topological Features: A Comprehensive ReviewRegulation by small RNAs in bacteria: expanding frontiersGenomic location of the major ribosomal protein gene locus determines Vibrio cholerae global growth and infectivityPre-disposition and epigenetics govern variation in bacterial survival upon stressDirect control of type IIA topoisomerase activity by a chromosomally encoded regulatory proteinData-driven integration of genome-scale regulatory and metabolic network modelsMicL, a new σE-dependent sRNA, combats envelope stress by repressing synthesis of Lpp, the major outer membrane lipoproteinThe BioGRID interaction database: 2015 updateGenetic interaction maps in Escherichia coli reveal functional crosstalk among cell envelope biogenesis pathwaysPrediction and validation of gene-disease associations using methods inspired by social network analysesBacterial adaptation through loss of functionA genome-wide screen for bacterial envelope biogenesis mutants identifies a novel factor involved in cell wall precursor metabolismQuantifying the Determinants of Evolutionary Dynamics Leading to Drug ResistanceA Chemical-Genomic Screen of Neglected Antibiotics Reveals Illicit Transport of Kasugamycin and Blasticidin SParallel Mapping of Antibiotic Resistance Alleles in Escherichia coliStrain Dependent Genetic Networks for Antibiotic-Sensitivity in a Bacterial Pathogen with a Large Pan-GenomeSequence-Specific Targeting of Bacterial Resistance Genes Increases Antibiotic EfficacyPhysiological Function of Rac Prophage During Biofilm Formation and Regulation of Rac Excision in Escherichia coli K-12RalR (a DNase) and RalA (a small RNA) form a type I toxin-antitoxin system in Escherichia coliPrediction of gene-phenotype associations in humans, mice, and plants using phenologsBleomycin sensitivity in Escherichia coli is medium-dependentEcoliWiki: a wiki-based community resource for Escherichia coliChemogenomics and orthology-based design of antibiotic combination therapiesPrediction and identification of sequences coding for orphan enzymes using genomic and metagenomic neighboursA Suppressor Mutation That Creates a Faster and More Robust σE Envelope Stress ResponseProtease homolog BepA (YfgC) promotes assembly and degradation of β-barrel membrane proteins in Escherichia coli.Selective ribosome profiling reveals the cotranslational chaperone action of trigger factor in vivoColony-live--a high-throughput method for measuring microbial colony growth kinetics--reveals diverse growth effects of gene knockouts in Escherichia coli.The rate of osmotic downshock determines the survival probability of bacterial mechanosensitive channel mutants.PortEco: a resource for exploring bacterial biology through high-throughput data and analysis tools.Evidence-based annotation of gene function in Shewanella oneidensis MR-1 using genome-wide fitness profiling across 121 conditions.Host-Microbe Co-metabolism Dictates Cancer Drug Efficacy in C. elegansMarA, SoxS and Rob of Escherichia coli - Global regulators of multidrug resistance, virulence and stress response.From the regulation of peptidoglycan synthesis to bacterial growth and morphology.Site-specific His/Asp phosphoproteomic analysis of prokaryotes reveals putative targets for drug resistance.Multidrug evolutionary strategies to reverse antibiotic resistance.A requirement of TolC and MDR efflux pumps for acid adaptation and GadAB induction in Escherichia coli.Maintenance of chromosome structure in Pseudomonas aeruginosaThe binary protein-protein interaction landscape of Escherichia coliStructure of the RNA polymerase assembly factor Crl and identification of its interaction surface with sigma S.
P2860
Q26751128-97D34632-A3BF-495C-B377-9AEE99CDF828Q27009044-287397D3-42FA-4ED8-A162-7D557454CAAEQ27311279-FBCECB87-D7BF-4CFB-BE5D-81CB324AB679Q27327678-4168EF2B-577D-4991-984E-8A45EAF49A11Q27684534-AA345510-22C8-4137-A012-D7DB209CD623Q28083689-E300575E-5996-4608-8EEC-7D7CAD5DF38AQ28244052-7812342B-535C-4511-9145-CC255DBE61AAQ28252221-590C5B0D-F32B-451F-AF8C-DAB9D881B000Q28478052-343923A0-29E7-4247-8CA0-DD2030CE21D5Q28487430-A6F53691-02C1-45DE-B59A-31D6B13B5117Q28534615-7E0B48FD-9D7E-4D56-9240-AE7CDF16BF59Q28538240-3D840A62-DB33-4680-8B66-D5B443B45493Q28551034-ECC524B6-1ABD-4A8C-8B7D-F49EF3D116FAQ28552249-763E2924-4C60-4B73-B6D1-5D9484DEF446Q28552559-01F76D09-2224-46BA-A59E-A95094625223Q28553946-2A503D24-8FFB-42C8-A93A-C103A557109BQ28554197-ECB7F3BA-4676-434F-BE8D-CAEBCE1B00EAQ28608116-64719539-3219-450A-BDDD-150AACD13C8FQ28658954-F3AFA50A-2FAE-443D-924D-57B79A79C0BAQ28679989-C59144D5-FDEF-4AB7-8484-F9A241946D9AQ28731284-3BA87174-A442-41C3-A215-0829D5F57B18Q28740940-ABACDBBC-0B6B-4907-A01E-BDCE194CC9A1Q28817589-0C697FA9-6FF2-49E4-85CC-68193CE91778Q28974902-EB2F89FD-4B8A-4136-AE46-5F49AE330956Q30152770-FF866B7B-8EC4-4AC2-85D1-ADA76C236A62Q30153518-4E449DDC-3AA9-474A-8818-2629F797D706Q30155411-BE86BA75-CF71-4649-B1B8-1C7C07190E8BQ30583587-38171F84-2ED6-4FF9-926B-848FA955F344Q30614006-29B6B90D-1EA3-48A7-A2E9-04A1D57A572BQ30703108-38B57236-2F16-4961-BBF9-19111667A72EQ31042511-023B44AD-2440-4FAA-AD9F-FA6DF61CF393Q33606924-38986BC0-15B2-4EBB-97E5-070DDB637712Q33652762-C8F901A2-C1B9-44C0-BD93-4E31D41D9312Q33694168-ED47BF08-AAB9-46A4-B057-B49B1551D055Q33729993-8E1366B7-D575-4479-A5DA-5ED2F54DBDD0Q33871101-35C973C4-BFB1-4273-B511-443D2BCA23CAQ33889384-7C192F2A-E834-4FE3-8164-8E1C376106E2Q33991987-98068AB5-1B36-4494-B79C-083D86E4ADFEQ34010755-365A9580-39DF-4231-A9A2-BD3563F6E968Q34056891-CF3B335B-24EB-4D89-A5AD-BD7909BB91FB
P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Phenotypic landscape of a bacterial cell
@ast
Phenotypic landscape of a bacterial cell
@en
type
label
Phenotypic landscape of a bacterial cell
@ast
Phenotypic landscape of a bacterial cell
@en
prefLabel
Phenotypic landscape of a bacterial cell
@ast
Phenotypic landscape of a bacterial cell
@en
P2093
P2860
P50
P1433
P1476
Phenotypic landscape of a bacterial cell
@en
P2093
Angela Wong
Carol A Gross
Karis J Lee
Krystyna M Kazmierczak
Malcolm E Winkler
Matylda Zietek
Michael Shales
Nevan J Krogan
Rachna Chaba
Robert J Nichols
P2860
P304
P356
10.1016/J.CELL.2010.11.052
P407
P577
2010-12-23T00:00:00Z