Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.7.6 (
RNA polymerase
)
34,946
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Adjustment of the synthesis of abundant protein to the requirements of the cell involves processes critical to the minimization of energy expenditure. The regulation of S-layer genes might be a good model for such processes because expression must be controlled, such that the encoded proteins exactly cover the surface of the bacterium. Bacillus anthracis has two S-layer genes, sap and eag, encoding the S-layer proteins Sap and
EA1
respectively. We report that the production and surface localization of Sap and
EA1
are under developmental control, suggesting that an exponential phase 'Sap layer' is subsequently replaced by a stationary phase '
EA1
layer'. This switch is controlled at the transcriptional level: sap is most certainly transcribed by
RNA polymerase
containing sigmaA, whereas eag expression depends on sigmaH. More importantly, Sap is required for the temporal control of eag, and
EA1
is involved in strict feedback regulation of eag. This control may be direct because both S-layer proteins bind, in vitro, the eag promoter, specifically suggesting that they might act as transcriptional repressors.
...
PMID:Developmental switch of S-layer protein synthesis in Bacillus anthracis. 1195 9
Conserved motifs found in known bacterial polI DNA polymerase sequences were identified, and degenerate PCR primers were designed for PCR amplification of an internal portion of polI genes from all bacterial divisions. We describe here a method that has allowed the rapid identification and isolation of 13 polI genes from a diverse selection of thermophilic bacteria and report on the biochemical characteristics of nine of the purified recombinant enzymes. Several enzymes showed significant reverse-
transcriptase
activity in the presence of Mg2+, particularly the polymerases from Bacillus caldolyticus
EA1
, Caldibacillus cellovorans CompA.2, and Clostridium stercorarium.
...
PMID:Thermophilic bacterial DNA polymerases with reverse-transcriptase activity. 1519 5
Acid-adapted strains of
Escherichia coli
K-12 W3110 were obtained by serial culture in medium buffered at pH 4.6 (M. M. Harden, A. He, K. Creamer, M. W. Clark, I. Hamdallah, K. A. Martinez, R. L. Kresslein, S. P. Bush, and J. L. Slonczewski, Appl Environ Microbiol 81:1932-1941, 2015, https://doi.org/10.1128/
AEM
.03494-14). Revised genomic analysis of these strains revealed insertion sequence (IS)-driven insertions and deletions that knocked out regulators CadC (acid induction of lysine decarboxylase), GadX (acid induction of glutamate decarboxylase), and FNR (anaerobic regulator). Each acid-evolved strain showed loss of one or more amino acid decarboxylase systems, which normally help neutralize external acid (pH 5 to 6) and increase survival in extreme acid (pH 2). Strains from populations B11, H9, and F11 had an IS
5
insertion or IS-mediated deletion in
cadC
, while population B11 had a point mutation affecting the arginine activator
adiY
The
cadC
and
adiY
mutants failed to neutralize acid in the presence of exogenous lysine or arginine. In strain B11-1, reversion of an
rpoC
(
RNA polymerase
) mutation partly restored arginine-dependent neutralization. All eight strains showed deletion or downregulation of the Gad acid fitness island. Strains with the Gad deletion lost the ability to produce GABA (gamma-aminobutyric acid) and failed to survive extreme acid. Transcriptome sequencing (RNA-seq) of strain B11-1 showed upregulated genes for catabolism of diverse substrates but downregulated acid stress genes (the biofilm regulator
ariR
,
yhiM
, and Gad). Other strains showed downregulation of H
2
consumption mediated by hydrogenases (
hya
and
hyb
) which release acid. Strains F9-2 and F9-3 had a deletion of
fnr
and showed downregulation of FNR-dependent genes (
dmsABC
,
frdABCD
,
hybABO
,
nikABCDE
, and
nrfAC
). Overall, strains that had evolved in buffered acid showed loss or downregulation of systems that neutralize unbuffered acid and showed altered regulation of catabolism.
IMPORTANCE
Experimental evolution of an enteric bacterium under a narrow buffered range of acid pH leads to loss of genes that enhance fitness above or below the buffered pH range, including loss of enzymes that may raise external pH in the absence of buffer. Prominent modes of evolutionary change involve IS-mediated insertions and deletions that knock out key regulators. Over generations of acid stress, catabolism undergoes reregulation in ways that differ for each evolving strain.
...
PMID:Acid Evolution of Escherichia coli K-12 Eliminates Amino Acid Decarboxylases and Reregulates Catabolism. 2838 40
