about
The genome organization of Thermotoga maritima reflects its lifestyledRNA-Seq Reveals Genomewide TSSs and Noncoding RNAs of Plant Beneficial Rhizobacterium Bacillus amyloliquefaciens FZB42A Coming of Age Story: Chlamydia in the Post-Genetic EraSmall RNAs, 5' UTR elements and RNA-binding proteins in intracellular bacteria: impact on metabolism and virulenceSingle-cell RNA-seq: advances and future challengesThe role of peptidoglycan in chlamydial cell division: towards resolving the chlamydial anomalyEvolutionary Cell Biology of Division Mode in the Bacterial Planctomycetes-Verrucomicrobia- Chlamydiae SuperphylumTranslation inhibition of the developmental cycle protein HctA by the small RNA IhtA is conserved across ChlamydiaWikiGenomes: an open Web application for community consumption and curation of gene annotation data in WikidataA new metabolic cell-wall labelling method reveals peptidoglycan in Chlamydia trachomatis.Directional RNA-seq reveals highly complex condition-dependent transcriptomes in E. coli K12 through accurate full-length transcripts assembling.Relaxed selection drives a noisy noncoding transcriptome in members of the Mycobacterium tuberculosis complex.Genome-wide identification of transcriptional start sites in the plant pathogen Pseudomonas syringae pv. tomato str. DC3000.The transcriptional landscape and small RNAs of Salmonella enterica serovar Typhimurium.Discovery of putative small non-coding RNAs from the obligate intracellular bacterium Wolbachia pipientis.Comparative genomics and transcriptomics of trait-gene associationNon-coding RNA regulation in pathogenic bacteria located inside eukaryotic cells.Simultaneous transcriptional profiling of bacteria and their host cellsStructural properties of prokaryotic promoter regions correlate with functional features.Interrogating Genes That Mediate Chlamydia trachomatis Survival in Cell Culture Using Conditional Mutants and Recombination.Evidence for horizontal gene transfer between Chlamydophila pneumoniae and Chlamydia phageEDGE-pro: Estimated Degree of Gene Expression in Prokaryotic Genomes.Sequestration of host metabolism by an intracellular pathogenIdentification and characterization of small RNAs in Yersinia pestisUltra deep sequencing of Listeria monocytogenes sRNA transcriptome revealed new antisense RNAs.Biphasic Metabolism and Host Interaction of a Chlamydial SymbiontOne Face of Chlamydia trachomatis: The Infectious Elementary Body.Regulatory (pan-)genome of an obligate intracellular pathogen in the PVC superphylum.Following the Footsteps of Chlamydial Gene Regulation.Riboregulators and the role of Hfq in photosynthetic bacteria.A genetic system for targeted mutations to disrupt and restore genes in the obligate bacterium, Ehrlichia chaffeensis.Toward a Universal Structural and Energetic Model for Prokaryotic PromotersVirulence-related comparative transcriptomics of infectious and non-infectious chlamydial particles
P2860
Q21092408-40EAB775-1949-4EBF-A7A3-F7C866EECD88Q24490214-1B7DCA00-0CAE-419E-A27E-0152A9ECDC43Q26775890-0CEB3F88-9E76-4573-B0D8-5E6C8E7A3881Q26852464-F5180752-DB2B-4808-B6AC-0ABCFF451589Q27023759-F35E038B-C957-4053-909F-2F0F00477245Q27025555-86200C69-0016-4E50-800C-8EC46234691DQ28069068-D2EA893E-7886-4F0A-ADE5-C69F44DDCCBDQ28277185-AD1CA832-E3CD-4B87-8839-DF2DD8C240FDQ28529449-C4AFE465-F5EE-49AD-96AB-0FD45F3C5346Q30576851-D288EB6E-7F82-4079-A78B-113F7282A9C9Q31125424-7EF64C6C-E1FB-4841-B9FF-CFA57223107DQ34026241-D15F34F2-3B9E-481C-924F-3E696E4B6503Q34117497-8785F927-B78A-4191-843C-D5948395BB94Q34248983-9D0EB821-510C-47AF-B800-241805210029Q34465662-DC174686-E138-439B-AD0B-1B23086E9583Q34488725-5EB2FE97-0D31-48B0-ADE9-BB35E52323F1Q34496381-692E8E31-D2EF-4C44-AAA6-7CB1AF1442B6Q35063762-2BEBC6D1-D181-4425-B510-6FC48799CD14Q35091822-AD6299CF-06C5-4862-896B-15FDADC4181CQ36035656-52B52CCB-4A76-4F37-ACCD-F3F52DECA473Q36110280-39A10FD3-EAC9-4F10-BA88-153D19D0BA64Q36702597-2C25985E-BA7D-4B18-BE2A-28DDAFA90449Q36791942-EBD4F1D7-E2A5-485E-A6FE-11D4510F418EQ36901773-4F8C31CE-4131-4B7A-9889-35982AE58354Q37548346-72ADEAC4-E1DA-46E2-95B0-D869DCEC493AQ37834004-3A568517-07DE-4044-880E-3A69D3496E1AQ37836353-30E3F504-F9D1-4161-AD51-E954360C2CD3Q37837167-B480D5A0-B169-4783-B05D-D2F229E8D33DQ37838898-9BD5C3C3-623F-43C5-9ECE-9FCC5B185D85Q38197832-3B24A5BE-B1A7-4F95-8554-65D17D9C84EDQ46259256-8AE196CB-DEE9-4717-ACCF-B01A0F819B5AQ57044337-F53CF5C7-CFE7-44F9-AF5A-98BB6CD6B06FQ58803216-2036CD11-DAA7-434B-B1E2-63A9E358ECAA
P2860
description
2011 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
Peer reviewed research article
@en
articolo scientifico (pubblicato il 2011/10/11)
@it
artigo científico (publicado na 2011/10/11)
@pt
artículu científicu espublizáu en 2011
@ast
im Oktober 2011 veröffentlichter wissenschaftlicher Artikel
@de
vedecký článok (publikovaný 2011/10/11)
@sk
videnskabelig artikel (udgivet 2011/10/11)
@da
vědecký článek publikovaný v roce 2011
@cs
name
The transcriptional landscape of Chlamydia pneumoniae
@ast
The transcriptional landscape of Chlamydia pneumoniae
@en
The transcriptional landscape of Chlamydia pneumoniae
@nl
type
label
The transcriptional landscape of Chlamydia pneumoniae
@ast
The transcriptional landscape of Chlamydia pneumoniae
@en
The transcriptional landscape of Chlamydia pneumoniae
@nl
prefLabel
The transcriptional landscape of Chlamydia pneumoniae
@ast
The transcriptional landscape of Chlamydia pneumoniae
@en
The transcriptional landscape of Chlamydia pneumoniae
@nl
P2860
P1433
P1476
The transcriptional landscape of Chlamydia pneumoniae
@en
P2860
P2888
P356
10.1186/GB-2011-12-10-R98
P407
P577
2011-10-11T00:00:00Z
P5875
P6179
1030518506