Gene/Protein
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Target Concepts:
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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)
A collagen molecule in the sea urchin embryo was characterized by analysis of a 2.7-kb cDNA clone. This clone, Spcoll, was obtained by screening a gastrula stage Strongylocentrotus purpuratus cDNA library with a 237-bp genomic clone encoding a collagen-like sequence previously isolated by Venkatesan et al. (1986). DNA sequence analysis of the cDNA clone demonstrated the nonfibrillar nature of the encoded molecule--13 interruptions of the Gly-X-Y repeat motif were found in the 85-kDa open reading frame. The mRNA of approximately 9 kb accumulated specifically in mesenchyme cells of the embryo through development to the pluteus larva. Polyclonal antibodies generated against a Spcoll-
beta-galactosidase
fusion protein were utilized to identify and localize the native Spcoll. This collagen molecule of approximately 210 kDa was deposited into the blastocoel by the primary mesenchyme cells. When primary mesenchyme cells were cultured in vitro, Spcoll was secreted into the media and accumulated at sites of cell-substrate interaction. Addition of anti-Spcoll antibodies to primary mesenchyme cell cultures selectively inhibited spiculogenesis, whereas other antibodies had no inhibitory effect. Since collagen is not a component of the organic matrix of spicules (
Benson
et al., 1986), these results suggest that the autonomous production of Spcoll by differentiating mesenchyme cells in turn influences the point in differentiation at which these cell initiate biomineralization.
...
PMID:Primary mesenchyme cells of the sea urchin embryo require an autonomously produced, nonfibrillar collagen for spiculogenesis. 193 64
The genes encoding enzymes of the Calvin-
Benson
-Bassham (CBB) reductive pentose phosphate pathway in Rhodobacter capsulatus are organized in at least two operons, each preceded by a separate cbbR gene, encoding potential LysR-type transcriptional activators. As a prelude to studies of cbb gene regulation in R. capsulatus, the nucleotide sequence of a 4,537-bp region, which included cbbRII, was determined. This region contained the following open reading frames: a partial pgm gene (encoding phosphoglucomutase) and a complete qor gene (encoding NADPH:quinone oxidoreductase), followed by cbbRII, cbbF (encoding fructose 1,6-bisphosphatase), cbbP (encoding phosphoribulokinase), and part of cbbT (encoding transketolase). Physiological control of the CBB pathway and regulation of the R. capsulatus cbb genes were studied by using a combination of mutant strains and promoter fusion constructs. Characterization of mutant strains revealed that either form I or form II ribulose 1, 5-bisphosphate carboxylase/oxygenase (RubisCO), encoded by the cbbLS and cbbM genes, respectively, could support photoheterotrophic and autotrophic growth. A strain with disruptions in both cbbL and cbbM could not grow autotrophically and grew photoheterotrophically only when dimethyl sulfoxide was added to the culture medium. Disruption of cbbP resulted in a strain that did not synthesize form II RubisCO and had a phenotype similar to that observed in the RubisCO-minus strain, suggesting that there is only one cbbP gene in R. capsulatus and that this gene is cotranscribed with cbbM. Analysis of RubisCO activity and synthesis in strains with disruptions in either cbbRI or cbbRII, and
beta-galactosidase
determinations from wild-type and mutant strains containing cbbIp- and cbbIIp-lacZ fusion constructs, indicated that the cbbI and cbbII operons of R. capsulatus are within separate CbbR regulons.
...
PMID:Physiological control and regulation of the Rhodobacter capsulatus cbb operons. 969 77
A number of cbbFI::lacZ translational fusion plasmids containing various lengths of sequence 5' to the form I (cbbI) Calvin-
Benson
-Bassham cycle operon (cbbFIcbbPIcbbAIcbbLIcbbSI) of Rhodobacter sphaeroides were constructed. Expression of
beta-galactosidase
was monitored under a variety of growth conditions. It was found that 103 bp of sequence upstream of the cbbFI transcription start was sufficient to confer low levels of regulated cbbI promoter expression; this activity was dependent on the presence of an intact cbbR gene. Additionally, R. sphaeroides CbbR was shown to bind to the region between 9 and 100 bp 5' to the cbbFI transcription start. Inclusion of an additional upstream sequence, from 280 to 636 bp 5' to cbbFI, resulted in a significant increase in regulated cbbI promoter expression under all growth conditions tested. A 50-bp region responsible for the majority of this increase occurs between 280 and 330 bp 5' to cbbFI. The additional 306 bp of upstream sequence from 330 to 636 bp also appears to play a positive regulatory role. A 4-bp deletion 281 to 284 bp 5' to cbbFI significantly reduced cbbI expression while the proper regulatory pattern was retained. These studies provide evidence for the presence of two functionally distinct regions of the cbbI promoter, with the distal domain providing significant regulated promoter activity that adheres to the normal pattern of expression.
...
PMID:Two functionally distinct regions upstream of the cbbI operon of Rhodobacter sphaeroides regulate gene expression. 973 94
In a previous study (Dubbs, J. M., Bird, T. H., Bauer, C. E., and Tabita, F. R. (2000) J. Biol. Chem. 275, 19224-19230), it was demonstrated that the regulators CbbR and RegA (PrrA) interacted with both promoter proximal and promoter distal regions of the form I (cbb(I)) promoter operon specifying genes of the Calvin-
Benson
-Bassham cycle of Rhodobacter sphaeroides. To determine how these regulators interact with the form II (cbb(II)) promoter, three cbbF(II)::lacZ translational fusion plasmids were constructed containing various lengths of sequence 5' to the cbb(II) operon of R. sphaeroides CAC. Expression of
beta-galactosidase
was monitored under a variety of growth conditions in both the parental strain and knock-out strains that contain mutations that affect synthesis of CbbR and RegA. The binding sites for both CbbR and RegA were determined by DNase I footprinting. A region of the cbb(II) promoter from +38 to -227 bp contained a CbbR binding site and conferred low level regulated cbb(II) expression. The region from -227 to -1025 bp contained six RegA binding sites and conferred enhanced cbb(II) expression under all growth conditions. Unlike the cbb(I) operon, the region between -227 and -545 bp that contains one RegA binding site, was responsible for the majority of the observed enhancement. Both RegA and CbbR were required for maximal cbb(II) expression. Two potentially novel and specific cbb(II) promoter-binding proteins that did not interact with the cbb(I) promoter region were detected in crude extracts of R. sphaeroides. These results, combined with the observation that chemoautotrophic expression of the cbb(I) operon is RegA independent, indicated that the mechanisms controlling cbb(I) and cbb(II) operon expression during chemoautotrophic growth are quite different.
...
PMID:Interactions of the cbbII promoter-operator region with CbbR and RegA (PrrA) regulators indicate distinct mechanisms to control expression of the two cbb operons of Rhodobacter sphaeroides. 1260 Oct 11
