Prokaryotic genome regulation: A revolutionary paradigm
スポンサーリンク
概要
- 論文の詳細を見る
After determination of the whole genome sequence, the research frontier of bacterial molecular genetics has shifted to reveal the genome regulation under stressful conditions in nature. The gene selectivity of RNA polymerase is modulated after interaction with two groups of regulatory proteins, 7 sigma factors and 300 transcription factors. For identification of regulation targets of transcription factors in Escherichia coli, we have developed Genomic SELEX system and subjected to screening the binding sites of these factors on the genome. The number of regulation targets by a single transcription factor was more than those hitherto recognized, ranging up to hundreds of promoters. The number of transcription factors involved in regulation of a single promoter also increased to as many as 30 regulators. The multi-target transcription factors and the multi-factor promoters were assembled into complex networks of transcription regulation. The most complex network was identified in the regulation cascades of transcription of two master regulators for planktonic growth and biofilm formation.<BR><BR>(Communicated by Tasuku HONJO, M.J.A.)
著者
-
Ishihama Akira
Department Of Biochemistry Institute For Virus Research Kyoto University
-
ISHIHAMA Akira
Department of Frontier Bioscience and Micro-Nano Technology Research Center, Hosei University
関連論文
- 1P134 核様体タンパク質FisとDpsによるDNA折り畳み様式の差異(核酸-相互作用・複合体,第48回日本生物物理学会年会)
- 大腸菌プロモ-タ-のランダムスクリ-ニングと活性強度による分類〔英文〕
- Isolation of Thermolabile Mutant RNA Polymerase II from Fission Yeast Schizosaccharomyces pombe with Mutations in the Subunit 3 Gene^1
- Purification and characterization of RNA Polymerase holoenzyme (Eσ_B) from Vegetative-Phase Mycelia of Streptomyces griseus
- The fission yeast RPA51 is a functional homolog of the budding yeast A49 subunit of RNA polymerase I and required for maximizing transcription of ribosomal DNA
- Photoaffinity Labeling of Influenaz Virus RNA Polymerase PB1 Subunit with 8-Azido GTP^1
- THE INFLUENCE OF OLIGONUCLEOTIDES AND POLYNUCLEOTIDE ANALOGUES ON REVERSE TRANSCRIPTASE
- Characterization of CitA-CitB Signal Transduction Activating Genes Involved in Anaerobic Citrate Catabolism in Escherichia coli
- Anaerobic Regulation of Citrate Fermentation by CitAB in Escherichia coli
- Two Modes of Autoregulation of the murR Repressor in Escherichia coli
- Genetic Strategies of Bacteria for Stationary-Phase Survival
- Identification of Two Nucleotide-Binding Domains on the PB1 Subunit of Influenza Virus RNA Polymerase^1
- Prokaryotic genome regulation: A revolutionary paradigm
- Induction of YdeO, a Regulator for Acid Resistance Genes, by Ultraviolet Irradiation in Escherichia coli