TY - JOUR
T1 - A bacterial ATP-dependent, enhancer binding protein that activates the housekeeping RNA polymerase
AU - Bowman, William C.
AU - Kranz, Robert G.
PY - 1998/6/15
Y1 - 1998/6/15
N2 - A commonly accepted view of gene regulation in bacteria that has emerged over the last decade is that promoters are transcriptionally activated by one of two general mechanisms. The major type involves activator proteins that bind to DNA adjacent to where the RNA polymerase (RNAP) holoenzyme binds, usually assisting in recruitment of the RNAP to the promoter. This holoenzyme uses the housekeeping σ70 or a related factor, which directs the core RNAP to the promoter and assists in melting the DNA near the RNA start site. A second type of mechanism involves the alternative sigma factor (called σ54 or σ(N)) that directs RNAP to highly conserved promoters. In these cases, an activator protein with an ATPase function oligomerizes at tandem sites far upstream from the promoter. The nitrogen regulatory protein (NtrC) from enteric bacteria has been the model for this family of activators. Activation of the RNAP/σ54 holoenzyme to form the open complex is mediated by the activator, which is tethered upstream. Hence, this class of protein is sometimes called the enhancer binding protein family or the NtrC class. We describe here a third system that has properties of each of these two types. The NtrC enhancer binding protein from the photosynthetic bacterium, Rhodobacter capsulatus, is shown in vitro to activate the housekeeping RNAP/σ70 holoenzyme. Transcriptional activation by this NtrC requires ATP binding but not hydrolysis. Oligomerization at distant tandem binding sites on a supercoiled template is also necessary. Mechanistic and evolutionary questions of these systems are discussed.
AB - A commonly accepted view of gene regulation in bacteria that has emerged over the last decade is that promoters are transcriptionally activated by one of two general mechanisms. The major type involves activator proteins that bind to DNA adjacent to where the RNA polymerase (RNAP) holoenzyme binds, usually assisting in recruitment of the RNAP to the promoter. This holoenzyme uses the housekeeping σ70 or a related factor, which directs the core RNAP to the promoter and assists in melting the DNA near the RNA start site. A second type of mechanism involves the alternative sigma factor (called σ54 or σ(N)) that directs RNAP to highly conserved promoters. In these cases, an activator protein with an ATPase function oligomerizes at tandem sites far upstream from the promoter. The nitrogen regulatory protein (NtrC) from enteric bacteria has been the model for this family of activators. Activation of the RNAP/σ54 holoenzyme to form the open complex is mediated by the activator, which is tethered upstream. Hence, this class of protein is sometimes called the enhancer binding protein family or the NtrC class. We describe here a third system that has properties of each of these two types. The NtrC enhancer binding protein from the photosynthetic bacterium, Rhodobacter capsulatus, is shown in vitro to activate the housekeeping RNAP/σ70 holoenzyme. Transcriptional activation by this NtrC requires ATP binding but not hydrolysis. Oligomerization at distant tandem binding sites on a supercoiled template is also necessary. Mechanistic and evolutionary questions of these systems are discussed.
KW - ATP-dependent
KW - Enhancer
KW - Gene regulation
KW - Housekeeping holoenzyme
UR - http://www.scopus.com/inward/record.url?scp=0032525980&partnerID=8YFLogxK
U2 - 10.1101/gad.12.12.1884
DO - 10.1101/gad.12.12.1884
M3 - Article
C2 - 9637689
AN - SCOPUS:0032525980
SN - 0890-9369
VL - 12
SP - 1884
EP - 1893
JO - Genes and Development
JF - Genes and Development
IS - 12
ER -