Comparative transcriptomics of two environmentally relevant cyanobacteria reveals unexpected transcriptome diversity.
about
Genome-wide transcription start site mapping of Bradyrhizobium japonicum grown free-living or in symbiosis - a rich resource to identify new transcripts, proteins and to study gene regulationTarget activation by regulatory RNAs in bacteriaRegulatory RNAs in photosynthetic cyanobacteriaAlkane Biosynthesis Genes in Cyanobacteria and Their Transcriptional OrganizationToward a systems-level understanding of gene regulatory, protein interaction, and metabolic networks in cyanobacteriaPhysiological regulation of isocitrate dehydrogenase and the role of 2-oxoglutarate in Prochlorococcus sp. strain PCC 9511Interactions between closely related bacterial strains are revealed by deep transcriptome sequencingA Novel Strategy for Exploitation of Host RNase E Activity by a Marine CyanophagemdRNA-Seq analysis of marine microbial communities from the northern Red Sea.Genome-Wide Transcriptional Start Site Mapping and sRNA Identification in the Pathogen Leptospira interrogans.Small Antisense RNA RblR Positively Regulates RuBisCo in Synechocystis sp. PCC 6803Current status of antisense RNA-mediated gene regulation in Listeria monocytogenes.The primary transcriptome of the marine diazotroph Trichodesmium erythraeum IMS101.Nitrogen cost minimization is promoted by structural changes in the transcriptome of N-deprived Prochlorococcus cells.Comparative transcriptomics across the prokaryotic tree of lifeTranscriptomic response during phage infection of a marine cyanobacterium under phosphorus-limited conditions.Strand specific RNA-sequencing and membrane lipid profiling reveals growth phase-dependent cold stress response mechanisms in Listeria monocytogenesTermination factor Rho: From the control of pervasive transcription to cell fate determination in Bacillus subtilis.The Complex Transcriptional Response of Acaryochloris marina to Different Oxygen LevelsPervasive Transcription of Mitochondrial, Plastid, and Nucleomorph Genomes across Diverse Plastid-Bearing Species.Torn apart and reunited: impact of a heterotroph on the transcriptome of Prochlorococcus.When eukaryotes and prokaryotes look alike: the case of regulatory RNAs.Benefit from decline: the primary transcriptome of Alteromonas macleodii str. Te101 during Trichodesmium demise.Expression of the cyanobacterial enzyme cyanase increases cyanate metabolism and cyanate tolerance in Arabidopsis.Transcriptional response of Prochlorococcus to co-culture with a marine Alteromonas: differences between strains and the involvement of putative infochemicals.Heterotroph Interactions Alter Prochlorococcus Transcriptome Dynamics during Extended Periods of Darkness.A glutamine riboswitch is a key element for the regulation of glutamine synthetase in cyanobacteriaThe primary transcriptome of the fast-growing cyanobacterium UTEX 2973
P2860
Q24247657-A7374987-1D22-483C-9F67-AB4EB26313F3Q28081126-26AC604A-55B5-4CC6-BD8A-0EC1939701A7Q28087017-DE555470-9C4F-4F59-A91D-4BCCFAA16286Q28655783-741B60EE-E7C7-4686-9595-7E55B6FCBDDAQ28656376-C5733026-6D8A-42AB-965C-41DBDAC31193Q35213042-E21720A8-48FD-46D1-BA08-AF507E00C5F0Q36279479-73B3C46B-B2DD-441A-8C24-EAD4F0D61A14Q37076846-8B7D43E2-F094-4905-9C1C-990DCE96D3CFQ37349196-647F2F06-25AC-461A-BE0F-D4958EC1C2F7Q37592700-7B3CAA6D-19D2-4A68-AC15-8603C6B92276Q37639617-6CA2B095-4B89-4B87-8468-2F9FACA0EEF5Q38261031-F3EB2FAD-FD44-457F-9422-782E82BDF905Q39353354-59DA1C76-51CC-48D5-A61F-398792B4764DQ39387886-C6C5813E-C488-4FEE-95F3-1173D8163561Q39787416-A228FD15-D552-4DCB-9DD6-D1C3C49022B3Q40369693-CA6FF177-8747-4783-A75D-6AA3C30EE82CQ41001786-FE009123-CF81-43E7-89C6-705438F5D9F2Q41217069-B3309905-4A9A-467A-BE6A-E3A073E0BAFFQ42323409-EB5F2ED0-E0ED-446C-9559-A54F842797F3Q46280589-6A7E86F7-B08A-44CE-974E-0AED1C3EAEA0Q46538029-8EA7188E-5F46-485A-B9FC-B30356C5EC0FQ47692283-64CD2025-ABDE-4F48-A34C-7BEAFF8E3E1BQ48239315-9B62C516-94D2-4829-A0D6-E2FA0962D0EAQ48361738-EA3F0A41-0A0A-463F-9099-374FBF1795B4Q50319958-45F02517-8571-4FDD-AE94-763CD2ACA5EBQ55004823-0FFF9621-7686-4D54-88FF-E2EA456918DBQ57253963-D63A2571-0C4A-4DB6-978F-BED559DFAABBQ58800568-639EFCD6-B4A0-4DE2-BC65-C67D50BA055F
P2860
Comparative transcriptomics of two environmentally relevant cyanobacteria reveals unexpected transcriptome diversity.
description
2014 nî lūn-bûn
@nan
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
2014年论文
@zh
2014年论文
@zh-cn
name
Comparative transcriptomics of ...... ected transcriptome diversity.
@en
type
label
Comparative transcriptomics of ...... ected transcriptome diversity.
@en
prefLabel
Comparative transcriptomics of ...... ected transcriptome diversity.
@en
P2093
P2860
P50
P356
P1433
P1476
Comparative transcriptomics of ...... ected transcriptome diversity.
@en
P2093
Claudia Steglich
Jan Mitschke
Karsten Voigt
S Joke Lambrecht
P2860
P2888
P304
P356
10.1038/ISMEJ.2014.57
P577
2014-04-17T00:00:00Z