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Query: EC:3.2.1.23 (
beta-galactosidase
)
14,648
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The a subunit is a membrane component of the F1F0-
ATP synthase
from Escherichia coli. Regions of a which appear important for membrane insertion or F0 assembly have been identified by analysis of both deletion mutants and fusion proteins which link the mutant a subunits to alkaline phosphatase. This analysis suggests the hydrophilic, amino-terminal domain of a is required for proper membrane targeting and/or insertion of the nascent polypeptide. In addition, the subcellular fractionation of four different a subunit-
beta-galactosidase
fusion proteins suggests this domain is localized to the periplasm, in agreement with a proposed topological model of the protein (Lewis, M.J., Chang, J.A., and Simoni, R.D. (1990) J. Biol. Chem. 265, 10541-10550). Deletions within the next three putative loops of a appear to have no significant effect on membrane targeting or insertion. Rather, they seem to interfere with the subsequent assembly of a functional enzyme.
...
PMID:Deletions in hydrophilic domains of subunit a from the Escherichia coli F1F0-ATP synthase interfere with membrane insertion or F0 assembly. 153 41
The genes for the beta and epsilon subunits of maize chloroplast
ATP synthase
are encoded by the organelle genome, are cotranscribed, and have overlapping translation initiation and termination codons. To determine whether the atpB and atpE genes are translationally coupled, they were transformed into Escherichia coli on a multicopy plasmid. Synthesis of full-length beta and epsilon polypeptides demonstrated correct initiation of translation by the bacterial ribosomes. To assay for translational coupling, the promoter-distal atpE gene was fused to lacZ, resulting in the synthesis of an active hybrid
beta-galactosidase
. A frameshift mutation was introduced into the promoter-proximal atpB gene, and its effect on the transcription and translation of the atpE::lacZ fusion was measured. The mutation resulted in a 1000- to 2000-fold reduction in
beta-galactosidase
activity, but only a 2-fold decrease in LacZ mRNA synthesis rates or galactoside transacetylase levels. Similar results were obtained when the atpB/atpE::lacZ fusion and the atpB frameshift mutation were introduced into the photosynthetic cyanobacterium Synechocystis sp. PCC6803. We show that >99% of atpE translation depends on successful translation of atpB and, thus, conclude that the two genes are translationally coupled.
...
PMID:Translational coupling of the maize chloroplast atpB and atpE genes. 1659 48
Subunit interactions among the chloroplast
ATP synthase
subunits were studied using the yeast two-hybrid system. Various pairwise combinations of genes encoding alpha, beta, gamma, delta and epsilon subunits of Spinach
ATP synthase
fused to the binding domain or activation domain of GAL4 DNA were introduced into yeast and then expression of a reporter gene encoding
beta-galactosidase
was detected. Of all the combinations, that of gamma and epsilon subunit genes showed the highest level of reporter gene expression, while those of alpha and beta, a and epsilon, beta and epsilon and beta and delta induced stable and significant reporter gene expression. The combination of delta and epsilon as well as that of delta and gamma induced weak and unstable reporter gene expression. However, combinations of alpha and gamma, beta and gamma and alpha and delta did not induce reporter gene expression. These results suggested that specific and strong interactions between gamma and epsilon, alpha and beta, alpha and epsilon, beta and epsilon and beta and delta subunits, and weak and transient interactions between delta and epsilon and delta and gamma subunits occurred in the yeast cell in the two-hybrid system. These results give a new look into the structural change of
ATP synthase
during catalysis.
...
PMID:Using yeast two-hybrid system to detect interactions of ATP synthase subunits from Spinacia oleracea. 1872 69
PAS kinase 1 (Psk1) is a key regulator of respiration in
Saccharomyces cerevisiae
Herein the molecular mechanisms of this regulation are explored through the characterization of its substrate, Centromere binding factor 1 (Cbf1).
CBF1
-deficient yeast displayed a significant decrease in cellular respiration, while PAS kinase-deficient yeast, or yeast harboring a Cbf1 phosphosite mutant (T211A) displayed a significant increase. Transmission electron micrographs showed an increased number of mitochondria in PAS kinase-deficient yeast consistent with the increase in respiration. Although the
CBF1
-deficient yeast did not appear to have an altered number of mitochondria, a mitochondrial proteomics study revealed significant differences in the mitochondrial composition of
CBF1
-deficient yeast including altered Atp3 levels, a subunit of the mitochondrial F
1
-
ATP synthase
complex. Both
beta-galactosidase
reporter assays and western blot analysis confirmed direct transcriptional control of
ATP3
by Cbf1 In addition, we confirmed the regulation of yeast lipid genes
LAC1
and
LAG1
by Cbf1 The human homolog of Cbf1, Upstream transcription factor 1 (USF1), is also known to be involved in lipid biogenesis. Herein, we provide the first evidence for a role of USF1 in respiration since it appeared to complement Cbf1
in vivo
as determined by respiration phenotypes. In addition, we confirmed USF1 as a substrate of human PAS kinase (hPASK)
in vitro
Combined, our data supports a model in which Cbf1/USF1 functions to partition glucose toward respiration and away from lipid biogenesis, while PAS kinase inhibits respiration in part through the inhibition of Cbf1/USF1.
...
PMID:The Regulation of Cbf1 by PAS Kinase Is a Pivotal Control Point for Lipogenesis
vs.
Respiration in
Saccharomyces cerevisiae
. 3038 Dec 92
