A nuclease that cuts specifically in the ribosome binding site of some T4 mRNAs.
about
Ribonucleases J1 and J2: two novel endoribonucleases in B.subtilis with functional homology to E.coli RNase E.mRNA stability in mammalian cellsCharacterization of an atypical superoxide dismutase from Sinorhizobium melilotiThe rIIA gene of bacteriophage T4. I. Its DNA sequence and discovery of a new open reading frame between genes 60 and rIIA.The rIIA gene of bacteriophage T4. II. Regulation of its messenger RNA synthesisCharacterization of Escherichia coli dinJ-yafQ toxin-antitoxin system using insights from mutagenesis dataRecognition and specific degradation of bacteriophage T4 mRNAsLate steps of ribosome assembly in E. coli are sensitive to a severe heat stress but are assisted by the HSP70 chaperone machine.The use of amino sugars by Bacillus subtilis: presence of a unique operon for the catabolism of glucosamine.The phage T4 restriction endoribonuclease RegB: a cyclizing enzyme that requires two histidines to be fully active.Analysis of the Erwinia chrysanthemi ferrichrysobactin receptor gene: resemblance to the Escherichia coli fepA-fes bidirectional promoter region and homology with hydroxamate receptors.Bacteriophage T4 polynucleotide kinase triggers degradation of mRNAsThe asiA gene of bacteriophage T4 codes for the anti-sigma 70 proteinExpression of both Bacillus subtilis threonyl-tRNA synthetase genes is autogenously regulatedThe asiA gene product of bacteriophage T4 is required for middle mode RNA synthesis.Cotranscription of two genes necessary for ribosomal protein L11 methylation (prmA) and pantothenate transport (panF) in Escherichia coli K-12.Sequence and characterization of the bacteriophage T4 comC alpha gene product, a possible transcription antitermination factor.Sequence analysis of conserved regA and variable orf43.1 genes in T4-like bacteriophagesTranslation inhibitors stabilize Escherichia coli mRNAs independently of ribosome protection.Polynucleotide phosphorylase of Escherichia coli induces the degradation of its RNase III processed messenger by preventing its translationPost-transcriptional control by bacteriophage T4: mRNA decay and inhibition of translation initiation.Temperature-dependent template switching during in vitro cDNA synthesis by the AMV-reverse transcriptase.The Escherichia coli threonyl-tRNA synthetase gene contains a split ribosomal binding site interrupted by a hairpin structure that is essential for autoregulation.Fur positive regulation of iron superoxide dismutase in Escherichia coli: functional analysis of the sodB promoter.Divergence of a DNA replication gene cluster in the T4-related bacteriophage RB69.Coordinated regulation of amino sugar-synthesizing and -degrading enzymes in Escherichia coli K-12.The use of a tRNA as a transcriptional reporter: the T7 late promoter is extremely efficient in Escherichia coli but its transcripts are poorly expressed.The sequences and activities of RegB endoribonucleases of T4-related bacteriophages.Lack of a 5' non-coding region in Tn1721 encoded tetR mRNA is associated with a low efficiency of translation and a short half-life in Escherichia coli.Control of mRNA stability in chloroplasts by 3' inverted repeats: effects of stem and loop mutations on degradation of psbA mRNA in vitro.An additional promoter within the protein-coding region of the psbD-psbC gene cluster in tobacco chloroplast DNA.The stability of Escherichia coli lacZ mRNA depends upon the simultaneity of its synthesis and translationBtcd, a mouse protein that binds to curved DNA, can substitute in Escherichia coli for H-NS, a bacterial nucleoid protein.Cleavages in the 5' region of the ompA and bla mRNA control stability: studies with an E. coli mutant altering mRNA stability and a novel endoribonuclease.Activation of RegB endoribonuclease by S1 ribosomal protein requires an 11 nt conserved sequence.A mutation in the gene for polynucleotide kinase of bacteriophage T4 K10 affects mRNA processing.Nucleotide sequence and control of transcription of the bacteriophage T4 motA regulatory gene.Processing of a polycistronic mRNA requires a 5' cis element and active translation.Activation of the RegB endoribonuclease by the S1 ribosomal protein is due to cooperation between the S1 four C-terminal modules in a substrate-dependant manner.
P2860
Q24796978-25C93CF4-13F3-4C84-BB4D-308091C2E2C9Q29616374-2B439A69-436E-44E1-AA53-D0E50A71F9B8Q30633128-27B38065-FF1F-4293-86D1-53FC36B270E7Q33956570-2A422844-43BB-4B18-B0EF-F133EBC8350EQ33956575-3933FA39-D2A9-492A-BDB1-28A02EBE6AD8Q34128324-C64125A2-07EF-49FB-8D8F-0C57BB5F893CQ34612414-2B8DC948-D18E-4F62-93F8-A9E0210E8BBDQ34699779-838F99BE-65B9-4B1C-87CE-582033A5E831Q34717964-BC3E0076-9BE1-416C-BCD2-3EC999BDDC2CQ35031733-1FEFB2F7-05BE-417E-86CC-DA0C164B8EBCQ35603083-94F8CE3C-0E36-4465-9D9C-850092CB0D2CQ35935601-BAEBD305-C99F-42FF-A2D5-B80122CD5FE9Q35965793-9DF7B688-2737-4C0D-A781-B60F6CDFB9E8Q36104811-6486C2EA-3EC0-46BE-89CE-506458D4483CQ36108713-FB936128-DD3D-419D-907E-9A82E8C4C443Q36123741-A0BCFA9C-02DB-40DA-97E2-A12073E83694Q36139374-FE02669C-673E-40FD-8C2B-0E53E3506DC9Q36253693-DAF9055F-47DC-4717-B42B-D355417C91B9Q37379181-68D89397-EA08-4365-B1E5-588828DB7B9EQ37585931-EAF9C6B9-66FC-498F-830D-ED2E186F4397Q37815568-84C422B7-2B58-4C26-AEB1-A5E5526381A8Q38325120-C12F60C1-7550-48D3-88A1-A02EEEF72F74Q38332568-A04C9F65-8E54-4305-B589-067C7F8AE013Q39500041-5BB486D4-EF3C-4D25-A210-8039D17C8F7DQ39565478-687BB703-5DCC-4DDC-B5F4-4AAD357AE464Q39929784-B6D53803-F5FA-49E2-94C6-48ED34060A7FQ40227266-98D61D2C-2047-4D05-8E25-8114C11475D2Q40250018-CC522A10-B085-4139-8FB9-62833E5BE6BBQ40506498-B8C4AC37-DAED-4D2E-A8CC-0ECEB6932A58Q40524961-D1E6CA85-24C3-4EE6-98BC-2BC90137FE69Q40539532-EDC8675D-0348-476D-962E-1A30E2FE691FQ40788726-CC09D435-6DC6-44AA-84AE-AD86FD123F9DQ41076450-E3D694E7-1357-4770-A48B-725C85543BBFQ41221481-E627E98F-9A13-4729-AA74-A5DC2EF8FE59Q41284578-05270DF7-193F-43BF-AB9F-90EF7D7A5894Q42276487-70598480-AB2B-49C7-A0C1-57405AEE1A06Q42635545-BE6CD015-51EF-406A-8A54-678D66C323C2Q48183805-8BF21690-09EC-4202-B5B1-25543DE58C73Q54530544-26C99903-CF50-4692-BF9C-65605DC88CE1
P2860
A nuclease that cuts specifically in the ribosome binding site of some T4 mRNAs.
description
1988 nî lūn-bûn
@nan
1988 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1988 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1988年の論文
@ja
1988年論文
@yue
1988年論文
@zh-hant
1988年論文
@zh-hk
1988年論文
@zh-mo
1988年論文
@zh-tw
1988年论文
@wuu
name
A nuclease that cuts specifically in the ribosome binding site of some T4 mRNAs.
@ast
A nuclease that cuts specifically in the ribosome binding site of some T4 mRNAs.
@en
type
label
A nuclease that cuts specifically in the ribosome binding site of some T4 mRNAs.
@ast
A nuclease that cuts specifically in the ribosome binding site of some T4 mRNAs.
@en
prefLabel
A nuclease that cuts specifically in the ribosome binding site of some T4 mRNAs.
@ast
A nuclease that cuts specifically in the ribosome binding site of some T4 mRNAs.
@en
P2093
P2860
P356
P1476
A nuclease that cuts specifically in the ribosome binding site of some T4 mRNAs.
@en
P2093
P2860
P304
P356
10.1073/PNAS.85.23.8895
P407
P577
1988-12-01T00:00:00Z