Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: EC:3.1.30.1 (S1 nuclease)
3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mouse myelin proteolipid protein (PLP) gene has been studied in normal and jimpymsd mice. Potential upstream regulatory regions of the normal gene have been cloned and mapped, but when these regions were studied in jimpymsd mice by Southern blots, no alterations were observed, relative to the normal gene. To assess whether the low ratio of PLP to DM20 proteins in this mutant reflected an altered PLP/DM20 ratio mRNAs, S1 nuclease analyses were undertaken, which demonstrated that at all ages studied in both jimpy and jimpymsd mice, PLP mRNA was elevated above DM20 mRNA. When exon 3 (the site of the alternative splice signal for DM20 mRNA) of the jimpymsd PLP gene was sequenced, no mutation was identified. The transcription of the PLP gene in normal and mutant animals was studied. The transcription rate increases in normal animals with development, and in very young jimpymsd or jimpy mice, the transcription rate of the PLP gene was close to that of age-matched normal animals. However, by 10 days of age, the transcription rate of this gene in both mutants was significantly below that of age-matched controls. The transcription rate of the myelin basic protein (MBP) gene was also reduced, indicating that expression of both genes is affected by this mutation. In contrast, the transcription rate of the glycerol phosphate dehydrogenase (GPDH) gene, an early marker of oligodendrocytes, is equal to or greater than normal in both mutants. We have confirmed an earlier report of a point mutation in exon 6 of the jimpymsd PLP gene, which converts an alanine to a valine.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Mutations in the myelin proteolipid protein gene alter oligodendrocyte gene expression in jimpy and jimpymsd mice. 170 30

Five of the genes for the biosynthesis of isoleucine and valine form the ilvGMEDA operon of Escherichia coli K-12. Expression of the operon responds to changes in the availability of isoleucine, leucine, and valine (ILV). Addition of an excess of all three amino acids results in reduced expression of the operon, whereas limitation for one of the three amino acids causes an increase in expression. The operon is preceded by a leader-attenuator which clearly regulates the increased expression that occurs due to reduced aminoacylation of tRNA. To assess the factors that result in the reduced expression of this operon upon the addition of ILV, a series of plasmids were constructed in which the ilv regulatory region was fused to galK. In response to addition of the amino acids, expression of the galK gene fused to the leader-attenuator decreased five- to sevenfold, instead of the twofold observed for the chromosomal operon. A deletion analysis with these plasmids indicated that the ILV-specific decrease in expression required an intact leader-attenuator but not ilvGp2 or the DNA that precedes this promoter. This conclusion was supported by both S1 nuclease analysis of transcription initiation and determination of galK mRNA levels by RNA-RNA hybridization.
...
PMID:Analysis of regulation of the ilvGMEDA operon by using leader-attenuator-galK gene fusions. 218 12

During senescence in the filamentous fungus Podospora anserina, specific regions of the mitochondrial genome, termed senDNA are excised, ligated and amplified. We have cloned in their entirety three such autonomously replicating plasmids, alpha, beta and epsilon senDNA. None of these plasmids displayed cross-hybridization nor did we detect any significant DNA homology by computer analysis. The complete DNA sequence of the 2.5 kb alpha, the 5.5 kb epsilon and about 3.4 kb of the 9.8 kb beta senDNA is presented (kb = 10(3) base-pairs). These sequences were analyzed for the presence of consensus sequences common to introns, and it was found that alpha senDNA has the characteristics of a group II intron, epsilon senDNA contains three group I introns, and beta senDNA did not show relevant sequences in the 3.4 kb examined. Comparison of the 5' and 3'-flanking sequences of alpha senDNA with oxi 3 (Co I) amino acid sequences from Neurospora crassa and Saccharomyces cerevisiae revealed significant homology and provided strong support that the excised alpha senDNA itself consists entirely of an intron. Upstream from the oxi 3 gene a transfer RNA cysteine sequence was detected. beta senDNA contained four tRNA sequences, aspartic acid, serine, valine and tryptophan, and sequences homologous to URFC (untranslated reading frame C) as well as two new URFs. epsilon senDNA contained sequences homologous to ATPase 8 and URFl; URFl was interrupted by three group I introns. The excision site sequences, as located by S1 nuclease mapping were unique for each senDNA. Analysis for repeated units showed that each plasmid contained elements which could be involved in secondary structure required for the alignment of distal ends preparatory to excision. These results are interpreted in terms of the structural requirements of mobile elements including the possible involvement of reverse transcriptase in the excision-ligation-amplification process.
...
PMID:Excision-amplification of mitochondrial DNA during senescence in Podospora anserina. DNA sequence analysis of three unique "plasmids". 299 55

The ilvC gene of Escherichia coli K12 encodes acetohydroxy acid isomeroreductase, the second enzyme in the parallel isoleucine-valine biosynthetic pathway. Previous data have shown that transcription of the ilvC gene is induced by the acetohydroxy acid isomeroreductase substrates, acetohydroxybutyrate or acetolactate, and that this substrate induction of ilvC expression is mediated by a positive activator encoded by the ilvY gene. We report here the isolation and complete nucleotide sequence of the ilvY and ilvC genes. The ilvY and ilvC genes encode polypeptides of Mr 33,200 and 54,000, respectively. In vitro transcription-translation of these gene templates results in the synthesis of gene products of these identical molecular weights. The ilvC gene is transcribed in the same direction as the genes of the adjacent ilvGMEDA operon. The ilvY gene is transcribed in a direction opposite to the ilvC and ilvGMEDA genes. The in vivo transcriptional initiation sites of the ilvY and ilvC genes have been determined by S1 nuclease protection experiments. These transcriptional initiation sites are 45 nucleotides apart, and transcription of the ilvY and ilvC genes is initiated via divergent overlapping promoters. The nucleotide sequence of the ilvY and ilvC promoters and 5'-coding regions of Salmonella typhimurium LT2 have been determined. A comparison of these sequences with E. coli K12 suggests regions important in the promotion, regulation, and translation of the ilvY and ilvC genes. A model is presented in which the ilvY-encoded activator binds to an operator site in the overlapping promoter region and reciprocally regulates the transcription of the ilvY and ilvC genes. The carboxyl-terminal amino acid sequence of threonine deaminase encoded by the ilvA gene of the ilv-GMEDA operon of E. coli K12 has been identified by homology with the previously deduced threonine deaminase amino acid sequence encoded by the ilv1 gene of Saccharomyces cerevisiae. Based on the deduced amino acid sequences of the ilvA and ilvY genes, the translational termination codons for both genes are shown to be separated by 52 nucleotides. The proximity of the ilvA and ilvY genes suggests that the 3'-ends of these transcripts overlap.
...
PMID:Nucleotide sequence and in vivo expression of the ilvY and ilvC genes in Escherichia coli K12. Transcription from divergent overlapping promoters. 300 15

Adenosine deaminase (ADA; adenosine aminohydrolase, EC 3.5.4.4) deficiency is one cause of the genetic disease severe combined immunodeficiency. To identify mutations responsible for ADA deficiency, we synthesized cDNAs to ADA mRNAs from two cell lines, GM2756 and GM2825A, derived from ADA-deficient immunodeficient patients. Sequence analysis of GM2756 cDNA clones revealed a different point mutation in each allele that causes amino acid changes of alanine to valine and arginine to histidine. One allele of GM2825A also has a point mutation that causes an alanine to valine substitution. The other allele of GM2825A was found to produce an mRNA in which exon 4 had been spliced out but had no other detrimental mutations. S1 nuclease mapping of GM2825A mRNAs showed equal abundance of the full-length ADA mRNA and the ADA mRNA that was missing exon 4. Several of the ADA cDNA clones extended 5' of the major initiation start site, indicating multiple start sites for ADA transcription. The point mutations in GM2756 and GM2825A and the absence of exon 4 in GM2825A appear to be directly responsible for the ADA deficiency. Comparison of a number of normal and mutant ADA cDNA sequences showed a number of changes in the third base of codons. These changes do not affect the amino acid sequence. Analyses of ADA cDNAs from different cell lines detected aberrant RNA species that either included intron 7 or excluded exon 7. Their presence is a result of aberrant splicing of pre-mRNAs and is not related to mutations that cause ADA deficiency.
...
PMID:Mutations in the human adenosine deaminase gene that affect protein structure and RNA splicing. 347 10

The tRNA-like structure of turnip yellow mosaic virus is known to be efficiently recognized and aminoacylated by valyl-tRNA synthetase. The present work reports domains in the isolated tRNA-like fragment (159 terminal nucleotides at the 3'-end of the two viral RNAs) in contact with purified yeast valyl-tRNA synthetase. These domains were determined in protection experiments using chemical and enzymatic structural probes. In addition, new data, re-enforcing the validity of the tertiary folding model for the native RNA, are given. In particular, at the level of the amino acid accepting arm it was found that the two phosphate groups flanking the three guanine residues of loop I are inaccessible to ethylnitrosourea. This is in agreement with a higher-order structure of this loop involving "pseudo knotting", as proposed by Rietveld et al. (1982). Valyl-tRNA synthetase efficiently protects the viral RNA against digestion by single-strand-specific S1 nuclease at the level of the anticodon loop. With cobra venom ribonuclease, specific for double-stranded regions of RNA, protection was detected on both sides of the anticodon arm and at the 5'-ends of loop I, a region that is involved in the building up of the acceptor arm. Loop II, which is topologically homologous to the T-loop of canonical tRNA was likewise protected. Weak protection was observed between arms I and II, and at the 3'-side of arm V. This arm, located at the 5'-side of arm IV (homologous to the D-arm of tRNA), does not participate in the pseudo-knotted model of the valine acceptor arm. Ethylnitrosourea was used to determine the phosphates of the tRNA-like structure in close contact with the synthetase. These are grouped in several stretches scattered over the RNA molecule. In agreement with the nuclease digestion results, protected phosphates are located in arms I, II, and III. Additionally, this chemical probe permits detection of other protected phosphates on the 3'-side of arm IV and on both sides of arm V. When displayed in the three-dimensional model of the tRNA-like structure, protected areas are localized on both limbs of the L-shaped RNA. It appears that valyl-tRNA synthetase embraces the entire tRNA-like structure. This is reminiscent of the interaction model of canonical yeast tRNAVal with its cognate synthetase.
...
PMID:Contact areas of the turnip yellow mosaic virus tRNA-like structure interacting with yeast valyl-tRNA synthetase. 354 Mar 11

The oxi2 gene of yeast mitochondrial DNA was previously shown to code for subunit 3 of cytochrome oxidase (Thalenfeld, B.E., and Tzagoloff, A. (1980) J. Biol. Chem. 255, 6173-6180). In Saccharomyces cerevisiae D273-10B, a 3.6-kilobase (kb) transcript has been mapped to the oxi2 region of mitochondrial DNA. This transcript, presumed to be the messenger RNA of subunit 3, has been characterized by Northern hybridization analysis and by S1 nuclease mapping. The 3.6-kb transcript has a 5' untranslated leader of 490 nucleotides followed by a 807-nucleotide long coding sequence and a 3' extension of approximately 2450 nucleotides. The nucleotide sequence of the coding region in the 3.6-kb transcript is identical with the gene sequence, thus excluding the presence of introns in the oxi2 gene. Analysis of mitochondrial RNA in cytoplasmic petite mutants containing the oxi2 gene, but with varying lengths of flanking sequences, suggest the presence of a common promoter for oxi2 and the upstream valine tRNA. The promoter has been mapped to a 400-nucleotide long region located on the 5' side of the tRNA gene. Generation of the mature subunit 3 mRNA must, therefore, involve the excision of the tRNA from the primary transcript.
...
PMID:Assembly of the mitochondrial membrane system. Characterization of the oxi2 transcript and localization of its promoter in Saccharomyces cerevisiae D273-10B. 629 16

mRNA was isolated from the thoracic aortas of 16-day chick embryos and used to synthesize blunt-ended heteroduplex molecules consisting of one strand of mRNA and one of cDNA using AMV reverse transcriptase and S1 nuclease. The duplexes were tailed with dCTP and hybridized to the plasmid pBR322 which had been restricted with Pst I and tailed with dGTP. Recombinant plasmids were used to transform E. coli C600 and colonies containing elastin cDNA were selected by in situ hybridization with 32P labeled elastin mRNA and by hybrid selected translation using the nuclease-treated reticulocyte lysate system. mRNA recovered from hybridization to DNA of one clone, pWB1, markedly stimulated incorporation of [3H]valine into a protein which was immunoprecipitable with elastin-specific antibody and had a molecular weight of 72,000, characteristic of tropoelastin. The 230 bp insert of pWB1 was sequenced by the technique of Maxam and Gilbert and found to be derived from a nontranslated region of the 3' end of the mRNA. Nick-translated pWB1 was used to identify and to estimate the relative amounts of elastin mRNA in the developing chick embryo aorta by blot hybridization. A single mRNA species of 3.5 kb hybridized to the pWB1 probe and this species increased greatly in amount between day 7 and day 14. This increase was paralleled by an increase in translatable elastin mRNA and by the rate of elastin synthesis of aortas from various age embryos incubated in vivo. The injection of 150 microgram of hydrocortisone 21-phosphate into 8-day eggs produced a significant increase in both the relative rate of tropoelastin synthesized by the isolated aortas and the relative amount of elastin mRNA. These results suggest that the observed changes in elastin synthesis during development and after hydrocortisone administration are governed by the elastin mRNA content of the aortas.
...
PMID:Control of elastin synthesis. 708 85

Isopenicillin-N synthase (IPNS) of Streptomyces clavuligerus is encoded by the pcbC gene which is found within the cephamycin biosynthetic gene cluster. pcbC is located directly downstream from lat and pcbAB, which encode the enzymes, lysine epsilon-amino transferase and delta-(L-alpha-aminoadipyl)-L-cysteinyl-D-valine synthetase, respectively. These enzymes act prior to IPNS in the biosynthetic pathway, and the three genes are transcribed in the same direction. Previous pcbC transcriptional studies involving recombinant promoter probe plasmids, Northern analysis and 5' primer extension indicated the presence of a monocistronic 1.2-kb transcript that initiated within pcbAB, 92-bp upstream from the pcbC start codon. S1 nuclease mapping studies have now shown, not only the transcript initiating 92 bp upstream from pcbC, but also a transcript initiating further upstream, possibly including the entire pcbAB gene. Promoter probe analysis and S1 nuclease mapping failed to detect promoter activity or a transcription start point (tsp) directly upstream from pcbAB, suggesting that pcbAB transcripts initiated within or upstream from lat. Northern analysis, to search for a pcbAB transcript, showed no distinct transcript and indicated severely degraded mRNA. Similar results were obtained when Northern analysis was used to search for lat transcripts. Promoter probe analysis to locate the lat promoter indicated that a sequence promoting transcription was present in a 330-bp DNA fragment that extended from 227-bp upstream from the lat structural gene to 103 bp inside the gene.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Transcriptional mapping of the genes encoding the early enzymes of the cephamycin biosynthetic pathway of Streptomyces clavuligerus. 818 55

We have studied the interactions between Escherichia coli tRNAVal and valyl-tRNA synthetase (ValRS) by enzymatic footprinting with nuclease S1 and ribonuclease V1, and by analysis of the aminoacylation kinetics of mutant tRNAVal transcripts. Valyl-tRNA synthetase specifically protects the anticodon loop, the 3' side of the stacked T-stem/acceptor-stem helix, and the 5' side of the anticodon stem of tRNAVal against cleavage by double- and single-strand-specific nucleases. Increased nuclease susceptibility at the ends of the anticodon- and T-stems in the tRNAVal.ValRS complex is indicative of enzyme-induced conformational changes in the tRNA. The most important synthetase recognition determinants are the middle and 3' anticodon nucleotides (A35 and C36, respectively); G20, in the variable pocket, and G45, in the tRNA central core, are minor recognition elements. The discriminator base, position 73, and the anticodon stem also are recognized by ValRS. Replacing wild-type A73 with G73 reduces the aminoacylation efficiency more than 40-fold. However, the C73 and U73 mutants remain good substrates for ValRS, suggesting that guanosine at position 73 acts as a negative determinant. The amino acid acceptor arm of tRNAVal contains no other synthetase recognition nucleotides, but regular A-type RNA helix geometry in the acceptor stem is essential [Liu, M., et al. (1997) Nucleic Acids Res. 25, 4883-4890]. In the anticodon stem, converting the U29:A41 base pair to C29:G41 reduces the aminoacylation efficiency 50-fold. This is apparently due to the rigidity of the anticodon stem caused by the presence of five consecutive C:G base pairs, since the A29:U41 mutant is readily aminoacylated. Identity switch experiments provide additional evidence for a role of the anticodon stem in synthetase recognition. The valine recognition determinants, A35, C36, A73, G20, G45, and a regular A-RNA acceptor helix are insufficient to transform E. coli tRNAPhe into an effective valine acceptor. Replacing the anticodon stem of tRNAPhe with that of tRNAVal, however, converts the tRNA into a good substrate for ValRS. These experiments confirm G45 as a minor ValRS recognition element.
...
PMID:Synthetase recognition determinants of E. coli valine transfer RNA. 1038 13


1 2 Next >>

---