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)

Mammalian ADP-ribosylation factors (ARFs), approximately 20-kDa guanine nucleotide-binding proteins that stimulate cholera toxin ADP-ribosyltransferase activity, were grouped into three classes based on deduced amino acid sequence. Human ARF 1, a class I ARF, is identical with its bovine counterpart, has a distinctive pattern of tissue and developmental expression, and is encoded by a approximately 1.9-kilobase mRNA. ARF 1 cDNAs were isolated from a human fibroblast cDNA library; one arose via an alternative polyadenylation signal (AA-TACA) 84 nucleotides 5' to the polyadenylation signal (AATAAA) used in the 1815-base pair cDNA. The polyadenylation signals, their respective locations, and the surrounding nucleotide sequences are conserved in human and rat. The human ARF 1 gene, with four introns, spans approximately 16.5 kilobases. Exon 1 (46 base pairs) contains only untranslated sequence. Translation initiates in exon 2, which encodes the sequence GXXXXGK involved in phosphate binding (GTP hydrolysis). The sequence DVGG is encoded in exon 3, and NKQD, which is involved in the interaction with the guanine ring, is interrupted following the codon for Q by intron 4. The carboxyl-terminal 53 amino acids and greater than 1110 base pairs of 3'-untranslated region are encoded in exon 5. Primer extension and mung bean and S1 nuclease mapping indicated multiple transcription initiation sites and were consistent with Northern analyses. The 5'-flanking region has a high GC content but no TATA or CAAT box, as found in housekeeping genes. In addition, the two human class I ARF genes, ARF 1 and ARF 3, have similar exon/intron organizations and use GC-rich promoters.
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PMID:Characterization of the human gene encoding ADP-ribosylation factor 1, a guanine nucleotide-binding activator of cholera toxin. 157 40

A fragment of diphtheria toxin (tox) gene from beta 45 phage DNA was cloned on pUC19 plasmid in E. coli cells. The fragment is coding for toxA fragment of the toxin and contains the control region of the tox gene. The tox gene promoter is active in E. coli. The toxA protein is found mainly in periplasm of E. coli cells. The protein is enzymatically active in ADP-ribosilation of elongation factor 2 from eucaryotic cells. An in frame toxA-lacZ' fusion was constructed on pUC8 plasmid. The hybrid protein expresses both toxA and lacZ' activities. Two or seven base pairs were deleted from the central part of toxA gene by means of S1 nuclease digestion. Translation of hybrid toxA-lacZ' mRNA should be terminated downward the delections due to the frameshifts caused by them. Nevertheless, a functionally active alpha-peptide of beta-galactosidase is expressed by both the deletion fusions. The existence of another translational start site functioning in E. coli and located inside 3'-end region of toxA mRNA is suggested.
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PMID:[Construction of derivatives of the diphtheria toxin gene and their expression in Escherichia coli cells]. 283 93

A cDNA complementary to the mRNA of the ADP/ATP carrier from Neurospora crassa was identified among ordered cDNA clones by hybridizing total polyadenylated RNA to pools of 96 cDNA recombinant plasmids and subsequent cell-free translation of hybridization-selected mRNA. Further carrier cDNAs were found by colony filter hybridization at a frequency of 0.2-0.3%. The gene of the carrier was cloned and isolated on a 4.6-kbp EcoRI fragment of total Neurospora DNA, and the start of the mRNA was determined by S1 nuclease mapping. From the nucleotide sequence of the cDNA and the genomic DNA, the primary structure of the gene, of the mRNA and of the ADP/ATP carrier protein could be deduced. The gene occurs in a single copy in the genome and related genes are absent. It contains two short introns, and a pyrimidine-rich promoter region. The mRNA has a 46-bp 5' end and a 219-bp 3' end. There is an open reading frame coding for the 313 amino acid residues of the Neurospora carrier protein. The amino acid sequence is homologous in 148 positions with the established primary structure of the beef heart carrier.
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PMID:Nucleotide sequence of the cloned mRNA and gene of the ADP/ATP carrier from Neurospora crassa. 632 69

Enhanced sodium reabsorption by the kidney has a significant role in the development of genetic hypertension. In the spontaneously hypertensive rat (SHR) model of genetic hypertension, the enhanced sodium reabsorption likely arises from abnormal hormonal regulation of tubular transport. Since hormonal signaling pathways are coupled frequently via GTP binding proteins, one explanation for hormonal abnormalities in SHR would be a defect in a GTP binding protein or proteins. Recent work has suggested that the regulation of Na+,K(+)-ATPase activity by cholera toxin-sensitive GTP binding proteins is abnormal in SHR. The purpose of the present studies was to clone the alpha S-subunit, which is the subunit ADP ribosylated by cholera toxin, of GS protein to determine whether it is abnormal in SHR. Reverse transcription-polymerase chain reaction was able to detect mRNA for alpha S in both Wistar-Kyoto (WKY) rats and SHR. Northern analysis indicated that equivalent amounts of alpha S mRNA were present in WKY rats and SHR. S1 nuclease analysis demonstrated that there was no difference in the amount of alpha S short and long forms between WKY rats and SHR. Subcloning and sequencing of polymerase chain reaction products from WKY rats and SHR indicated that the alpha S forms present in renal cortex were identical. ADP ribosylation studies with cholera toxin demonstrated the presence of equivalent amounts of alpha S protein in WKY rats and SHR. Taken together, these results suggest that the abnormal regulation of Na+,K(+)-ATPase activity by a cholera toxin-sensitive pathway in SHR does not arise from a defect in the alpha S subunit.
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PMID:Cloning of the alpha-subunit of GS protein from spontaneously hypertensive rats. 796 19