Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.1 (S1 nuclease)
 3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The nucleotide sequence of a cloned 2.8-kilobase-pair BamHI-PstI fragment containing dcmA, the dichloromethane dehalogenase structural gene from Methylobacterium sp. strain DM4, was determined. An open reading frame with a coding capacity of 287 amino acids (molecular weight, 37,430) was identified as dcmA by its agreement with the N-terminal amino acid sequence, the total amino acid composition, and the subunit size of the purified enzyme. Alignment of the deduced dichloromethane dehalogenase amino acid sequence with amino acid sequences of the functionally related eucaryotic glutathione S-transferases revealed three regions containing highly conserved amino acid residues and indicated that dcmA is a member of the glutathione S-transferase supergene family. The 5' terminus of in vivo dcmA transcripts was determined by nuclease S1 mapping to be 82 base pairs upstream of the GTG initiation codon of dcmA. Despite a putative promoter sequence with high resemblance to the Escherichia coli -10 and -35 consensus sequences, located at an appropriate distance from the transcription start point, dcmA was only marginally expressed in E. coli. The strong induction of dichloromethane dehalogenase in Methylobacterium sp. by dichloromethane was abolished by deleting the 1.3-kilobase-pair upstream region of dcmA. Plasmid constructs devoid of this region directed expression of dichloromethane dehalogenase at a constitutively induced level.
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PMID:Sequence analysis and expression of the bacterial dichloromethane dehalogenase structural gene, a member of the glutathione S-transferase supergene family. 210 2

Double-stranded cDNA sequences for rat alpha 1-acid glycoprotein and rat glutathione S-transferase mRNAs were inserted into the Pst I site of bacteriophage M13mp7 and used to develop a new method for preparing specific cDNA hybridization probes directly from cloned template DNA. A palindrome sequence surrounding the Pst I site in the vector DNA permitted single-stranded DNA isolated from the recombinant phage to fold back, thus forming a stable hybrid bounded on the ends by a large loop of M13mp7 single-stranded DNA and a small loop of inserted foreign DNA. A primer corresponding to an internal sequence of the foreign DNA was hybridized, then Escherichia coli DNA polymerase I was used to synthesize a 32P-labeled complementary DNA copy of the cloned inserted DNA. The single-stranded cDNA reaction product was easily isolated by subsequent sedimentation through alkaline sucrose gradients. Gel electrophoresis of the labeled cDNA product, after denaturation with glyoxal, indicated a single discrete band with an electrophoretic mobility corresponding to the length of the inserted DNA sequence. About 95% of the cDNA product formed S1 nuclease-resistant hybrids in hybridization reactions with excess RNA in solution. DNA sequences complementary to the M13mp7 vector DNA were not detected in the cDNA product. Thus, these M13mp7-derived probes are the functional equivalent of cDNA copies to mRNAs and can be employed for quantitative measurements of mRNA concentration. This simple, rapid method probably can be used for most cloned DNA sequences to yield single-stranded radioactively labeled DNA, without contaminating vector DNA sequences, for virtually any hybridization requirement.
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PMID:Simple rapid method for the synthesis of radioactively labeled cDNA hybridization probes utilizing bacteriophage M13mp7. 627 92

Max (Myc-associated factor X) is a basic helix-loop-helix/leucine zipper protein that has been shown to play a central role in the functional activity of c-Myc as a transcriptional activator. Max potentiates the binding of Myc-Max heterodimers through its basic region to its specific E-box Myc site (EMS), enabling c-Myc to transactivate effectively. In addition to the alternatively spliced exon a, several naturally occurring forms of alternatively spliced max mRNAs have been reported, but variant protein products from these transcripts have not been detected. Using Western blot (immunoblot) and immunoprecipitation analysis, we have identified a variant form of Max protein (16 to 17 kDa), termed dMax, in detergent nuclear extracts of murine B-lymphoma cells, normal B lymphocytes, and NIH 3T3 fibroblasts. Cloning and sequencing revealed that dMax contains a deletion spanning the basic region and helix 1 and the loop of the helix-loop-helix region, presumably as a result of alternative splicing of max RNA. S1 nuclease analysis confirmed the presence of the mRNA for dMax in cells. The dMax protein, prepared via in vitro transcription and translation, associated with bacterially synthesized Myc-glutathione S-transferase. Coimmunoprecipitation of dMax and c-Myc indicated their intracellular association. In vitro-synthesized dMax failed to bind EMS DNA, presumably because of the absence of the basic region. Coexpression of dMax inhibited EMS-mediated transactivation by c-Myc. Thus dMax, which can interact with c-Myc, appears to function as a dominant negative regulator, providing an additional level of regulation to the transactivation potential of c-Myc.
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PMID:Variant Max protein, derived by alternative splicing, associates with c-Myc in vivo and inhibits transactivation. 852 35