Protein Domain : IPR001437

Type:  Domain Name:  Transcription elongation factor, GreA/GreB, C-terminal
Description:  Bacterial proteins GreA and GreB are necessary for efficient RNA polymerase transcription elongation past template-encoded arresting sites. Arresting sites in DNA have the property of trapping a certain fraction of elongating RNA polymerases that pass through, resulting in locked DNA/RNA/ polymerase ternary complexes. Cleavage of the nascent transcript by cleavage factors, such as greA or greB, allows the resumption of elongation from the new 3' terminus [, ]. Escherichia coliGreA and GreB are sequence homologues and have homologues in every known bacterial genome []. GreA induces cleavage two or three nucleotides behind the terminus and can only prevent the formation of arrested complexes while greB releases longer sequences up to eighteen nucleotides in length and can rescue preexisting arrested complexes. These functional differences correlate with a distinctive structural feature, the distribution of positively charged residues on one face of the N-terminal coiled coil. Remarkably, despite close functional similarity, the prokaryotic Gre factors have no sequence or structural similarity with eukaryotic TFIIS. Short Name:  Tscrpt_elong_fac_GreA/B_C
Paste the following link

0 Child Features

1 Contains

DB identifier Type Name
IPR018151 Conserved_site Transcription elongation factor, GreA/GreB, conserved site

2 Cross Referencess

Identifier
PF01272
G3DSA:3.10.50.30

2 Found Ins

DB identifier Type Name
IPR006359 Family Transcription elongation factor GreA
IPR006358 Family Transcription elongation factor GreB

2 GO Annotations

GO Term Gene Name
GO:0003677 IPR001437
GO:0032784 IPR001437

2 Ontology Annotations

GO Term Gene Name
GO:0003677 IPR001437
GO:0032784 IPR001437

0 Parent Features

55 Proteins

DB identifier UniProt Accession Secondary Identifier Organism Name Length
35913.m000029 B9TE78 PAC:16826787 Ricinus communis 196  
AT5G38690.1 Q8RW95 PAC:19670655 Arabidopsis thaliana 572  
Araha.11756s0099.1.p PAC:28856258 Arabidopsis halleri 341  
Araha.7365s0005.1.p PAC:28837869 Arabidopsis halleri 525  
Traes_2DL_EDCBA4311.2 PAC:31833629 Triticum aestivum 411  
GSMUA_Achr10P11870_001 PAC:32322979 Musa acuminata 86  
Pp3s42_270V3.1.p PAC:32945170 Physcomitrium patens 215  
Brdisv1BdTR7a1000073m.p PAC:33344909 Brachypodium distachyon BdTR7a 160  
Brdisv1pangenome1006576m.p PAC:33623764 Brachypodium distachyon Pangenome 927  
Brdisv1pangenome1006793m.p PAC:33655608 Brachypodium distachyon Pangenome 906  
Brdisv1Koz-31038742m.p PAC:35141469 Brachypodium distachyon Koz-3 70  
Brdisv1BdTR11A1044930m.p PAC:35690079 Brachypodium distachyon BdTR11a 1221  
Brdisv1BdTR11A1041598m.p PAC:35689264 Brachypodium distachyon BdTR11a 906  
Brdisv1BdTR11A1041383m.p PAC:35696436 Brachypodium distachyon BdTR11a 927  
Solyc01g020600.1.1 PAC:36141129 Solanum lycopersicum 306  
Phvul.002G082900.1.p V7CHH5 PAC:37177474 Phaseolus vulgaris 238  
Zm00008a022144_P01 PAC:37211634 Zea mays PH207 155  
AT5G38690.1 Q8RW95 PAC:37420579 Arabidopsis thaliana 572  
AT5G38690.2 Q8RW95 PAC:37420580 Arabidopsis thaliana 572  
PGSC0003DMP400005420 PAC:37464359 Solanum tuberosum 374  
evm.model.Scaffold_2033.22 PAC:37872128 Coffea arabica 790  
Sobic.001G281800.1.p C5WQL9 PAC:37939869 Sorghum bicolor 160  
VIT_214s0068g00160.1 A5B0H0 PAC:38022325 Vitis vinifera 121  
HORVU4Hr1G054880.3 PAC:38562179 Hordeum vulgare 70  
SbRio.01G305800.1.p C5WQL9 PAC:38991868 Sorghum bicolor Rio 160  
Vigun03g293600.2.p PAC:39016352 Vigna unguiculata 212  
Vigun03g293600.1.p A0A4D6KYP1 PAC:39016351 Vigna unguiculata 219  
Alyli.0147s0026.1.p PAC:39137274 Alyssum linifolium 500  
Roisl.0022s0138.1.p PAC:39215023 Rorippa islandica 156  
Roisl.0213s0805.1.p PAC:39213417 Rorippa islandica 596  

3 Publications

First Author Title Year Journal Volume Pages PubMed ID
            8431948
            7854424
            12914698