EC:3.1.30.1 - FACTA Search

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Query: EC:3.1.30.1 (S1 nuclease)
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Cosmid clones containing the 5' region of the human alpha 2(VI) collagen gene have been isolated and characterized. DNA sequencing indicates that the signal peptide and the amino-globular domain are encoded by four exons of 142, 596, 21, and 66 base pairs (bp). However, S1 nuclease and primer extension analyses show that the transcription start site is not present in the 142-bp exon. Two different 5' cDNA clones are generated by the anchored polymerase chain reaction. Using the 5' cDNA clones as probes, two untranslated exons (1, 1A) are found 12 kilobase pairs upstream of the first coding exon. These two exons are alternatively used in human fibroblasts, and most transcripts contain exon 1 sequence. Exon 1 shows, by primer extension and S1 nuclease protection assay, two major and several minor transcription start sites. The promoter region contains a canonical TATA box, seven GGGCGG sequences, two possible CAAT boxes, and two sequences resembling AP2 binding sites. Exon 1A contains three alternative splice donor sites and is located 650 bp downstream of exon 1. The most 3' splice donor site of exon 1A is found within an Alu repeat sequence. Exon 1A is preceded by five GGGCGG sequences and one resembling the AP2 binding site although neither TATA or CAAT boxes are found. Two additional GGGCGG sequences are located at the beginning of exon 1A. This study establishes that the human alpha 2(VI) collagen gene is 36 kilobase pairs long and contains 30 exons. The 5'-untranslated and promoter regions are significantly different from the corresponding segments of the chicken gene. The human gene produces by alternative processing multiple mRNAs differing in the 5'-untranslated region as well as the 3'-coding and noncoding sequences.
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PMID:Human alpha 2(VI) collagen gene. Heterogeneity at the 5'-untranslated region generated by an alternate exon. 155 27

We recently reported the isolation and sequencing of two classes of human alpha 2(VI) collagen cDNA clones which share common sequences for the first two-thirds of the molecule but contain a different sequence of either 607 or 887 base pairs at their 3' ends (Chu, M.-L., Pan, T.-C., Conway, D., Kuo, H.-J., Glanville, R. W., Timpl, R., Mann, K., and Deutzmann, R. (1989) EMBO J. 8, 1939-1946). In the present study, we report the sequence of another cDNA clone, which is identical to one class of the previously isolated cDNAs except for a 293-base pair insertion between the common and variable regions. Together, the different classes of cDNAs, referred to as the alpha 2C2, alpha 2C2a, and alpha 2C2a' predict three variant alpha 2 chains of type VI collagen with carboxyl globular domains of 429, 328, and 238 amino acid residues, respectively. In order to explore the mechanisms by which the variations are generated, we isolated and characterized the 3' end of the human alpha 2(VI) collagen gene. The carboxyl globular domain was found to be encoded by six exons which appear to delineate its structural subdomains. The exon/intron arrangement clearly demonstrated that the cDNA variants arose from alternative splicing events by mutually exclusive utilization of the last two exons in conjunction with the selective usage of an internal splice acceptor site in the penultimate exon. The presence of the corresponding mature mRNA transcripts (3.2-3.5 kilobase pairs (kb] in human fibroblasts was shown by Northern blot hybridization, S1 nuclease protection assay, and the polymerase chain reaction. The results indicated that the alpha 2C2 mRNA is the major species, whereas the alpha 2C2a and alpha 2C2a' are the minor forms. Northern blot hybridization also revealed an alpha 2(VI) collagen mRNA of 6.0 kb. This mRNA retained a 2.3-kb intron located between the two alternatively spliced exons and predicted a translational product that is the same as the alpha 2C2a variant.
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PMID:Alternative splicing of the human alpha 2(VI) collagen gene generates multiple mRNA transcripts which predict three protein variants with distinct carboxyl termini. 169 Jul 28

We have isolated a 17 kilobase pair (kb) genomic clone containing the 5' portion of the human alpha 2(V) collagen gene. Nucleotide sequence was determined for 1671 base pairs (bp) comprising the promoter region, first exon and 334 bp of the first intron, and the major transcriptional start site determined by primer extension and S1 nuclease analysis. Sequence comparison revealed the alpha 2(V) promoter to be similar in structure to the promoter of the alpha 1(III) collagen gene. This is the first instance of such similarities between promoter regions of genes encoding different fibrillar collagen chains. Homology, in 5' flanking sequences, extends upstream to about nucleotide -120 in each gene and is particularly striking near the TATTTA sequence (TATA box) present in each promoter. Some homology also surrounds the two transcription start sites. The 5' untranslated regions of the two genes also show strong homology. Chimeric chloramphenicol acetyltransferase (CAT) constructs were prepared with various fragments from the 5' portion of the alpha 2(V) gene. Transient expression assays, in human fibroblasts, localized the functional alpha 2(V) promoter to the region of 5' flanking sequence conserved between the alpha 2(V) and alpha 1(III) genes. Expression assays also identified negatively acting elements, in intron and 5' flanking sequences, which inhibit transcription from the alpha 2(V) promoter.
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PMID:Homology between alpha 2(V) and alpha 1(III) collagen promoters and evidence for negatively acting elements in the alpha 2(V) first intron and 5' flanking sequences. 182 Feb 5

The structure of the gene for the human alpha 1(XIII) collagen chain (COL13A1) was determined from genomic clones spanning 140,000 base pairs (bp), including about 3,000 bp of the 5'-end-flanking region and 5,000 bp of the 3'-end-flanking region. The gene was shown to contain 39 exons. There were eight exons of 27 bp, five of 36 bp, four of 54 bp, three of 45 bp, and two of 42 bp. The rest of the exons coding for translated sequences had sizes varying between 24 and 153 bp. The genomic clones did not contain exons 3 and 4 whose sizes could, however, be estimated from cDNA clones. S1 nuclease mapping and primer extension analyzes indicated five closely spaced initiation sites of transcription. Sequencing of the 5'-end-flanking region did not reveal a typical TATA box but a four times repeated TATTTAT sequence that may serve as true TATA boxes. Two CCAAT boxes were found starting at positions-13 and -194, and furthermore, the promoter region contains two GC boxes. Previous studies on alpha 1 (XIII) collagen cDNA and genomic clones showed that the primary transcript undergoes complex alternative splicing generating at least four different forms of mRNAs. The present work demonstrated that sequences of seven exons are alternatively used. These exons contain sequences coding for pure collagenous regions, pure noncollagenous regions, and an exon coding for a junction of a collagenous and noncollagenous domain.
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PMID:Human alpha 1 (XIII) collagen gene. Multiple forms of the gene transcripts are generated through complex alternative splicing of several short exons. 189 51

The promoter of the chicken alpha 2(VI) collagen gene reveals several interesting features characteristic of house-keeping genes and growth control related genes. It does not possess a typical TATAA or CAAT box, but it contains several potential binding sites for transcription factors Sp1 and ETF. The 5' flanking region of the gene forms a typical 'CpG island' where the dinucleotide sequence CpG occurs with high frequency relative to the bulk genome. Consistent with the lack of a TATAA element, the gene contains multiple transcription initiation sites distributed over 75 bp of genomic DNA. A short DNA fragment (207 bp) encompassing all the transcription initiation sites and the entire CpG island shows strong promoter activity when linked to a heterologous reporter gene. The upstream region of the promoter harbours a long homopurine/homopyrimidine element (403 bp) which is sensitive to endonuclease S1. This element might have the ability to adopt an intramolecular hairpin triplex structure and could play a role in the organization of the chromatin at the alpha 2(VI) collagen locus. Our results demonstrate that the structure of the alpha 2(VI) collagen promoter is completely different from that of any other collagen promoter characterized so far.
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PMID:The promoter of the chicken alpha 2(VI) collagen gene has features characteristic of house-keeping genes and of proto-oncogenes. 201 22

We recently reported the isolation and sequencing of human cDNA clones corresponding to the alpha 3 chain of type VI collagen (Chu, M.-L., Zhang, R.-Z., Pan, T.-c., Stokes, D., Conway, D., Kuo, H.-J., Glanville, R., Mayer, U., Mann, K., Deutzmann, R., and Timpl, R. (1990) EMBO J. 9, 385-393). The study indicates that the amino-terminal globular domain of the alpha 3(VI) chain consists of nine repetitive subdomains of approximately 200 amino acid residues (N1-N9) and the gene appeared to undergo alternative splicing since some clones lacked regions encoding the N9 and part of the N3 subdomains. In the present study, we report the exon structure for the region encoding the amino-terminal globular domain of the human alpha 3(VI) chain. The nine repetitive subdomains are encoded by 10 exons spanning 26 kilobase pairs of genomic DNA. Eight of the repetitive subdomains (N2-N9) were found to be encoded by separate exons of approximately 600 base pairs each. The only exception is the N1 subdomain which is encoded by two exons of 417 and 146 base pairs. Characterization of the exon/intron structure showed that the cDNA variants were the result of splicing out of exon 9 (encoding the N9 subdomain) and part of exon 3 (encoding the N3 subdomain). Nuclease S1 analysis and the polymerase chain reaction demonstrated that exon 7 (N7 subdomain) was also subject to alternative splicing in normal skin fibroblasts. Examination of these splicing events by nuclease S1 analysis in normal fibroblasts, three different human tumor cell lines, and several human tissues showed that splicing out of exon 9 is much more efficient in normal as compared to tumor cells.
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PMID:Human alpha 3(VI) collagen gene. Characterization of exons coding for the amino-terminal globular domain and alternative splicing in normal and tumor cells. 202 73

The structure of the gene for human 70-kDa type IV collagenase (gelatinase) was determined. Three overlapping genomic clones were isolated and shown to contain 0.4 kilobase (kb) of the 5'-flanking region, the 27-kb structural gene, and 4.5 kb of the 3'-flanking region. The gene has 13 exons that vary in length from 110 to 901 base pairs (bp) and 12 introns that range from 175 to 4350 bp. Alignment of intron locations demonstrated that introns 1-4 and 8-12 of the type IV collagenase gene coincide with intron locations in the interstitial collagenase and stromelysin genes, indicating a close structural relationship of these metalloproteinase genes. Exons 5-7 are each 174 bp in size, and each codes for one complete internal repeat that resembles the collagen-binding domains of fibronectin. The transcription initiation site was determined by primer extension and S1 nuclease analyses. Analysis of the 0.4-kb 5'-flanking region of the gene showed that, in contrast to the genes of interstitial collagenease and stromelysin, there is no TATA box or 12-O-tetradecanoylphorbol-13-acetate-responsive element present in the promoter region, whereas there are two GC boxes. There is no CAAT box, but a potential binding site (CCCCAGGC) for the transcription factor AP-2 is located in the first exon.
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PMID:Structure of the human type IV collagenase gene. 216 31

The effect of hypertonic conditions on RNA synthesis in cultured chick embryo cells was examined. The appearance of newly synthesized 28 S, 18 S, and 4 S and 5 S RNA into the cytoplasm was found to be decreased by hypertonic conditions. The appearance of newly synthesized poly(A)+ RNA into the cytoplasm was also found to be depressed. To examine the behavior of a specific mRNA, nuclear and cytoplasmic levels of procollagen alpha 2(I) mRNA were measured during high salt treatment. While nuclear levels of this mRNA were found to increase, those of the cytoplasm fell markedly. S1 nuclease digestion studies of an intron flanked by two exons revealed that the pro alpha 2(I) collagen nuclear RNA that accumulated under hypertonic conditions was spliced. The nuclear accumulation of mRNA appears therefore to be due to a hypertonic block of nuclear-cytoplasmic transport, and not to an inhibition of RNA splicing.
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PMID:Changes in ribosomal RNA, poly(A)+ RNA, and collagen alpha 2(I) mRNA synthesis and processing during hypertonic treatment of cultured chick embryo cells. 244 98

Two overlapping human genomic clones that encode a short-chain collagen, designated alpha 1(XIII), were isolated by using recently described cDNA clones. Characterization of the cosmid clones that span approximately equal to 65,000 base pairs (bp) of the 3' end of the gene established several unusual features of this collagen gene. The last exon encodes solely the 3' untranslated region and it begins with a complete stop codon. The 10 adjacent exons vary in size from 27 to 87 bp and two of them are 54 bp. Therefore, the alpha 1-chain gene of type XIII collagen has some features found in genes for fibrillar collagens but other features that are distinctly different. Previous analysis of overlapping cDNA clones and nuclease S1 mapping of mRNAs indicated one alternative splicing site causing a deletion of 36 bp from the mature mRNA. The present study showed that the 36 bp is contained within the gene as a single exon and also that the gene has a 45-bp -Gly-Xaa-Xaa- repeat coding exon not found in the cDNA clones previously characterized. Nuclease S1 mapping experiments indicated that this 45-bp exon is found in normal human skin fibroblast mRNAs. Accordingly, the data demonstrate that there is alternative splicing of at least two exons of the type alpha 1(XIII)-chain gene.
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PMID:Gene structure for the alpha 1 chain of a human short-chain collagen (type XIII) with alternatively spliced transcripts and translation termination codon at the 5' end of the last exon. 245 7

Transcription of the spo0B gene and genes downstream of it was investigated by S1 nuclease protection experiments. The spo0B gene was transcribed from a single promoter, and this transcript extended through a gene, obg, coding for a 47,668 Mr protein. Transcription of this operon ended in a stem-loop structure. The sequence of the deduced obg protein contained a region with homology to known GTP-binding proteins in the nucleotide-binding regions. The amino-terminal portion of this protein showed homology to mammalian collagen, suggesting a structural role. The purified obg protein was shown to bind [alpha-32P]GTP in vitro. Several attempts to inactivate the obg gene were unsuccessful, indicating that the obg gene product was essential for growth. The possible function of this protein and its relationship to RAS-like proteins and sporulation was discussed. Immediately downstream of the obg gene were two genes involved in phenylalanine biosynthesis, pheB and pheA. The pheA gene coded for monofunctional prephenate dehydratase, on the basis of the high homology of the deduced amino acid sequence to prephenate dehydratases of bacterial origin. The sequence of the pheB gene product was not homologous to chorismate mutase, and its function remains unknown. Transcription of the phe genes was shown to begin at the stem-loop structure between obg and pheB. The possibility was entertained that phe gene transcription arises from processing or antitermination of the spo0B transcript.
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PMID:The Bacillus subtilis spo0B stage 0 sporulation operon encodes an essential GTP-binding protein. 253 15

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