Nascent RNA in transcription complexes interacts with CspE, a small protein in E. coli implicated in chromatin condensation

Autor:	M M, Hanna, K, Liu
Rok vydání:	1998
Předmět:	DNA Bacterial Base Sequence Transcription Genetic Escherichia coli Proteins Molecular Sequence Data Peptide Chain Elongation Translational Templates Genetic Chromatin DNA-Binding Proteins RNA Bacterial Cross-Linking Reagents Bacterial Proteins Escherichia coli Amino Acid Sequence Heat-Shock Proteins
Zdroj:	Journal of molecular biology. 282(2)
ISSN:	0022-2836
Popis:	Proteins in a partially fractionated Escherichia coli extract that interact with the nascent RNA in active transcription complexes from several promoters were detected using the photocrosslinking ribonucleotide analogs 5-(azidophenacyl)thio-UTP or 5-(azidophenacyl)thio-CTP as transcription substrates. Upon irradiation of ternary transcription complexes, several extract proteins were crosslinked to the RNA. Most notably, a small protein was crosslinked to the RNA in complexes on seven of nine templates tested. This protein was purified and sequenced and found to match a hypothetical protein, MsmC/CspE, recently shown to be involved in chromatin partitioning. CspE has 69% amino acid sequence identity with the major cold shock protein in E. coli, CspA, which has been shown to bind to a DNA sequence designated the Y box, with the sequence 5'-ATTGG. Of the nine templates tested, CspE was found to be most heavily crosslinked to RNA from the lambda PR' promoter, which is modified by the Q antiterminator protein. CspE was very heavily crosslinked to RNA only ten nucleotides long in initial ternary complexes on this promoter, but not to this same RNA after it had been released from the transcription complex. However, even when present from the start of transcription, CspE did not crosslink to the RNA 82 nucleotides long in elongation complexes from this same promoter. Despite the loss of interaction with the RNA after polymerase had left the promoter, CspE inhibited Q-mediated transcriptional antitermination from PR' in vitro almost 200 nucleotides downstream from the promoter, presumably by interaction with the Y box DNA upstream from PR', which overlaps with the binding site for the Q. A potential role for CspE and transcription in chromosome condensation and nucleoid structure is discussed.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=pmid________::b725819d544dfd1bfe7feb15db86f8dc https://pubmed.ncbi.nlm.nih.gov/9735283 Zobrazit plný text záznamu Full Text from ScienceDirect