Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
about
sameAs
Structural basis of the non-coding RNA RsmZ acting as a protein spongeThe social fabric of the RNA degradosomeFrom conformational chaos to robust regulation: the structure and function of the multi-enzyme RNA degradosome5' End-independent RNase J1 endonuclease cleavage of Bacillus subtilis model RNAThe first small-molecule inhibitors of members of the ribonuclease E family.Upregulation of RNase E activity by mutation of a site that uncompetitively interferes with RNA binding.Distinct Requirements for 5'-Monophosphate-assisted RNA Cleavage by Escherichia coli RNase E and RNase GLicensing and due process in the turnover of bacterial RNA.Initiation of mRNA decay in bacteria.Rapid cleavage of RNA by RNase E in the absence of 5' monophosphate stimulation.RNA degradosomes in bacteria and chloroplasts: classification, distribution and evolution of RNase E homologs.The rph-1 encoded truncated RNase PH protein inhibits RNase P maturation of pre-tRNAs with short leader sequences in the absence of RppH.Adjacent single-stranded regions mediate processing of tRNA precursors by RNase E direct entryTemperature-sensitive mutants of RNase E in Salmonella enterica.Cross talk between ABC transporter mRNAs via a target mRNA-derived sponge of the GcvB small RNAAltering the divalent metal ion preference of RNase E.Small RNA-induced mRNA degradation achieved through both translation block and activated cleavage.An archaeal RNA binding protein, FAU-1, is a novel ribonuclease related to rRNA stability in Pyrococcus and Thermococcus.The seed region of a small RNA drives the controlled destruction of the target mRNA by the endoribonuclease RNase E.The ribosome binding site of a mini-ORF protects a T3SS mRNA from degradation by RNase E.Direct entry by RNase E is a major pathway for the degradation and processing of RNA in Escherichia coli.Roles of the 5'-phosphate sensor domain in RNase E.Determinants in the rpsT mRNAs recognized by the 5'-sensor domain of RNase E.Partial deletion of rng (RNase G)-enhanced homoethanol fermentation of xylose by the non-transgenic Escherichia coli RM10.A tale of two mRNA degradation pathways mediated by RNase E.Two pathways for RNase E action in Escherichia coli in vivo and bypass of its essentiality in mutants defective for Rho-dependent transcription termination.Substrate Recognition and Autoinhibition in the Central Ribonuclease RNase EPoly(A) polymerase is required for RyhB sRNA stability and function in
P2860
Q27690232-DA1BEEEA-784F-4162-8E32-55AD378DDCE4Q28972220-B7869BB7-AE54-48FA-8B3C-42CF5D2BE647Q29541839-8CC24ACE-0C38-482D-986F-094E872483F8Q35266558-BCBF2026-0EFF-4F30-A57E-88A84BE1C139Q35548884-E8277BA2-AFBF-45C5-B329-1700EA9345E0Q35987633-D9515724-F5EB-49B8-945F-47D5C3C3411AQ36650290-EE4FDE1C-B94D-4E86-BD25-59DBD8AA8955Q38098474-7FE61AAB-8399-42B7-A078-DEFAE1836754Q38142683-5C752509-2D51-42BD-9A9A-991237308F00Q38349121-5A1D5526-8C8B-41C5-A731-4FBFCDB895CFQ38533831-6FF13823-A5CD-40B1-925B-C905F56DA8F2Q38624983-5F7BDB3A-83AF-4C06-A049-3D22B8A8A631Q38735401-12FE1AC7-FCA6-47A4-AFB9-CFC0BF03B301Q39662098-BE9782D7-7F6C-410A-88BE-87DA29C562A1Q41516624-2395BC56-1F2F-4E2E-ADCC-ADC479945D61Q41850874-30715D23-4A86-49BF-933E-3F473220564EQ41912798-0F603D76-2751-48FD-8DBB-68F3E0772BA8Q42281351-CF014A8F-AAB7-4BBD-9DD7-29C47F5151DBQ42428502-F0603542-BA54-4AB9-8F10-5DFF2764C7ECQ42534241-D2AD626B-C439-4189-83EB-C0D42CBB8852Q42775531-9CC28E7A-45DB-4895-A2F4-C325DC934837Q46614745-A81A69E1-DA22-4701-B277-15A2A0CBC85CQ50938699-605BEB35-CEAB-48DA-B6A9-A1AB27B3F34CQ54341424-8CD0B129-A48D-46F9-9657-FCFD789656DDQ54349116-C93D981B-C75B-4EA0-BC15-537F9E081FAEQ54350092-BCAD5FC0-61E2-4FDA-9A04-3C4F9D650103Q57072123-30737F41-779B-403B-933A-6234D6DCE0D3Q58702556-281395A7-B14C-4E2D-A621-A3D6BC5C4C94
P2860
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
description
2009 nî lūn-bûn
@nan
2009 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@ast
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@en
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@nl
type
label
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@ast
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@en
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@nl
prefLabel
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@ast
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@en
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@nl
P2093
P2860
P356
P1476
Substrate binding and active site residues in RNases E and G: role of the 5'-sensor
@en
P2093
George A Mackie
Janet S Hankins
Jenna L Riffell
Leigh M Stickney
Melinda Diver
Michaela Blech
Stephen M Garrey
Vitharani Kunanithy
Ying-Han Roger Hsu
P2860
P304
P356
10.1074/JBC.M109.063263
P407
P577
2009-11-13T00:00:00Z