Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Yersinia pestis is one of many microorganisms responding to environmental iron concentrations by regulating the synthesis of proteins and an iron transport system(s). In a number of bacteria, expression of iron uptake systems and other virulence determinants is controlled by the Fur regulatory protein. DNA hybridization analysis revealed that both pigmented and nonpigmented cells of Y. pestis possess a DNA locus homologous to the Escherichia coli fur gene. Introduction of a Fur-regulated beta-galactosidase reporter gene into Y. pestis KIM resulted in iron-responsive beta-galactosidase activity, indicating that Y. pestis KIM expresses a functional Fur regulatory protein. A cloned 1.9-kb ClaI fragment of Y. pestis chromosomal DNA hybridized specifically to the fur gene of E. coli. The coding region of the E. coli fur gene hybridized to a 1.1-kb region at one end of the cloned Y. pestis fragment. The failure of this clone to complement an E. coli fur mutant suggests that the 1.9-kb clone does not contain a functional promoter. Subcloning of this fragment into an inducible expression vector restored Fur regulation in an E. coli fur mutant. In addition, a larger 4.8-kb Y. pestis clone containing the putative promoter region complemented the Fur- phenotype. These results suggest that Y. pestis possesses a functional Fur regulatory protein capable of interacting with the E. coli Fur system. In Y. pestis Fur may regulate the expression of iron transport systems and other virulence factors in response to iron limitation in the environment. Possible candidates for Fur regulation in Y. pestis include genes involved in ferric iron transport as well as hemin, heme/hemopexin, heme/albumin, ferritin, hemoglobin, and hemoglobin/haptoglobin utilization.
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PMID:Identification and cloning of a fur regulatory gene in Yersinia pestis. 189 28

Collagenase is a member of the matrix metalloproteinase family whose members are all capable of degrading extracellular matrix components. The mature form of porcine collagenase has been expressed in Escherichia coli using the pAX5 expression vector. The fusion protein consists of beta-galactosidase at the N-terminus joined to a collagen hinge region and a blood-coagulation factor Xa cleavage site linked to an active form of collagenase. Recombinant collagenase was biologically active in the form of a fusion protein; this was cleaved with factor Xa to yield collagenase with the authentic N terminus (phenylalanine) found in vivo and purified in a single step on a peptide hydroxamic acid affinity column. On purification the recombinant porcine collagenase undergoes autolysis at a number of different bonds in the region connecting the active site domain with the C-terminal hemopexin-like domain. This may represent a loop region of poor secondary structure, making it susceptible to relatively nonspecific cleavage. The N-terminal fragment retains a reduced level of collagenolytic activity, along with that against casein and gelatin.
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PMID:Recombinant porcine collagenase: purification and autolysis. 784 Jun 5

Transgenic mice harboring the human hemopexin promoter sequences linked to the lacZ reporter gene were generated and analyzed for temporal and spatial distribution of beta-galactosidase. Upstream sequences spanning from -1800, -700 and -500 bp to the transcription start point direct regulated beta-galactosidase expression specifically to the liver and to the brain of transgenic mice. These results suggest that the 500 bp DNA fragment flanking the 5'end of the human hemopexin gene contains the cis-acting elements required for tissue and developmental stage-specific expression in vivo and provide evidence for a new extrahepatic site of expression of the hemopexin gene.
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PMID:Specific expression in brain and liver driven by the hemopexin promoter in transgenic mice. 857 76

We used the green fluorescent protein (GFP) from the jellyfish Aequorea victoria as a reporter of gene expression in transgenic mice. The GFP coding sequence was placed under the control of the human hemopexin and the mouse beta1 integrin promoter that were previously studied in transgenic mice using the lacZ reporter gene. We showed that GFP has a higher degree of sensitivity compared to the lacZ reporter gene allowing to identify cells with low and otherwise undetectable beta-galactosidase activity. Thus we showed the potentiality of GFP in replacing lacZ as a reporter gene to investigate promoter mapping and gene regulation in transgenic mice.
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PMID:Green fluorescent protein as a reporter of gene expression in transgenic mice. 919 50