Gene and cDNA structures of flounder insulin-like growth factor-I (IGF-I): multiple mRNA species encode a single short mature IGF-I
To understand the comprehensive mechanisms of gene expression and processing for insulin-like growth factor-I (IGF-I) in vertebrates, we have investigated the gene organization, promoter and transcriptional initiation sites, alternative splicing and polyadenylating sites, and the cDNA structures of...
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| Veröffentlicht in: | DNA and cell biology 1998-10, Vol.17 (10), p.859-868 |
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| creator | Tanaka, M Taniguchi, T Yamamoto, I Sakaguchi, K Yoshizato, H Ohkubo, T Nakashima, K |
| description | To understand the comprehensive mechanisms of gene expression and processing for insulin-like growth factor-I (IGF-I) in vertebrates, we have investigated the gene organization, promoter and transcriptional initiation sites, alternative splicing and polyadenylating sites, and the cDNA structures of this gene in the Japanese flounder, Paralichthys olivaceus. The flounder IGF-I gene was found to be composed of five exons and four introns spanning 17.5 kb. By Northern blot analysis, two major mRNA classes of 4.7 kb and 2.9 kb were found in the liver. cDNA cloning and reverse transcription polymerase chain reaction (RT-PCR) analysis indicated that these two mRNA classes result from two different-sized 3'-noncoding regions generated by alternative usage of two polyadenylating signals. Further analysis by RT-PCR and sequencing revealed that these mRNA classes both contain two subclasses of mRNA encoding two forms of IGF-I prepropeptide, preproIGF-I-1 and preproIGF-I-2. The two forms of preproIGF-I share the identical signal peptide and mature IGF-I domain but contain different E domains as a result of alternative splicing in exon 3. The mature form of flounder IGF-I was found to comprise 68 amino acid residues, showing a small molecular weight, 7486. In the 5'-flanking region, one major and four minor transcription start sites have been identified by ribonuclease protection assay between -230 and -130 from the translation initiation codon, but no canonical TATA box or GC box was detected in their upstream regions up to -724. The results suggest that some unknown transcription initiation factors are functioning in the promotion of IGF-I gene expression. |
| doi_str_mv | 10.1089/dna.1998.17.859 |
| format | Article |
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The flounder IGF-I gene was found to be composed of five exons and four introns spanning 17.5 kb. By Northern blot analysis, two major mRNA classes of 4.7 kb and 2.9 kb were found in the liver. cDNA cloning and reverse transcription polymerase chain reaction (RT-PCR) analysis indicated that these two mRNA classes result from two different-sized 3'-noncoding regions generated by alternative usage of two polyadenylating signals. Further analysis by RT-PCR and sequencing revealed that these mRNA classes both contain two subclasses of mRNA encoding two forms of IGF-I prepropeptide, preproIGF-I-1 and preproIGF-I-2. The two forms of preproIGF-I share the identical signal peptide and mature IGF-I domain but contain different E domains as a result of alternative splicing in exon 3. The mature form of flounder IGF-I was found to comprise 68 amino acid residues, showing a small molecular weight, 7486. In the 5'-flanking region, one major and four minor transcription start sites have been identified by ribonuclease protection assay between -230 and -130 from the translation initiation codon, but no canonical TATA box or GC box was detected in their upstream regions up to -724. 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The flounder IGF-I gene was found to be composed of five exons and four introns spanning 17.5 kb. By Northern blot analysis, two major mRNA classes of 4.7 kb and 2.9 kb were found in the liver. cDNA cloning and reverse transcription polymerase chain reaction (RT-PCR) analysis indicated that these two mRNA classes result from two different-sized 3'-noncoding regions generated by alternative usage of two polyadenylating signals. Further analysis by RT-PCR and sequencing revealed that these mRNA classes both contain two subclasses of mRNA encoding two forms of IGF-I prepropeptide, preproIGF-I-1 and preproIGF-I-2. The two forms of preproIGF-I share the identical signal peptide and mature IGF-I domain but contain different E domains as a result of alternative splicing in exon 3. The mature form of flounder IGF-I was found to comprise 68 amino acid residues, showing a small molecular weight, 7486. In the 5'-flanking region, one major and four minor transcription start sites have been identified by ribonuclease protection assay between -230 and -130 from the translation initiation codon, but no canonical TATA box or GC box was detected in their upstream regions up to -724. The results suggest that some unknown transcription initiation factors are functioning in the promotion of IGF-I gene expression.</description><subject>Amino Acid Sequence</subject><subject>Animals</subject><subject>Base Sequence</subject><subject>Catfishes</subject><subject>Chickens</subject><subject>Cloning, Molecular</subject><subject>DNA, Complementary</subject><subject>Exons</subject><subject>Flounder - genetics</subject><subject>Humans</subject><subject>Insulin-Like Growth Factor I - biosynthesis</subject><subject>Insulin-Like Growth Factor I - chemistry</subject><subject>Insulin-Like Growth Factor I - genetics</subject><subject>Introns</subject><subject>Marine</subject><subject>Molecular Sequence Data</subject><subject>Paralichthys olivaceus</subject><subject>Protein Precursors - chemistry</subject><subject>Protein Precursors - genetics</subject><subject>Recombinant Proteins - biosynthesis</subject><subject>Recombinant Proteins - chemistry</subject><subject>Reverse Transcriptase Polymerase Chain Reaction</subject><subject>RNA, Messenger - chemistry</subject><subject>RNA, Messenger - genetics</subject><subject>Salmon</subject><subject>Sequence Alignment</subject><subject>Sequence Homology, Amino Acid</subject><subject>Sequence Homology, Nucleic Acid</subject><subject>Transcription, Genetic</subject><subject>Vertebrates</subject><subject>Xenopus</subject><issn>1044-5498</issn><issn>1557-7430</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1998</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkT1PwzAQhi0E4qMwMyF5QjCkteu4ttmqAqVSBRKCOXKcMw0kdrETIWb-OC5UrEx30j3ve8OD0CklQ0qkGlVOD6lSckjFUHK1gw4p5yITOSO7aSd5nvFcyQN0FOMrIYSPKdlH-0oSJXJxiL7m4ABrV2FzfT_FsQu96foAEXuLbeN7V0HAtYt9U7usqd8AvwT_0a2w1abzIVvgi8X8NltcXuG2b7p63QBuHzdVazB16gFnfJVe4Fi7l3SMKx863OrNF_wTPUZ7VjcRTrZzgJ5vb55md9nyYb6YTZeZYVJ1GZdQQjmpJpzyCbWGWSnzsSmVtjDWvFLUTGTONaOE5GNWCsm4JSCoBgraVGyAzn9718G_9xC7oq2jgabRDnwfC0EIU1SKf0EqKONSqgSOfkETfIwBbLEOdavDZ0FJsfFTJD_Fxk_KFMlPSpxtq_uyheqP3wph31HWi5A</recordid><startdate>19981001</startdate><enddate>19981001</enddate><creator>Tanaka, M</creator><creator>Taniguchi, T</creator><creator>Yamamoto, I</creator><creator>Sakaguchi, K</creator><creator>Yoshizato, H</creator><creator>Ohkubo, T</creator><creator>Nakashima, K</creator><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>8FD</scope><scope>F1W</scope><scope>FR3</scope><scope>H95</scope><scope>H99</scope><scope>L.F</scope><scope>L.G</scope><scope>P64</scope><scope>7X8</scope></search><sort><creationdate>19981001</creationdate><title>Gene and cDNA structures of flounder insulin-like growth factor-I (IGF-I): multiple mRNA species encode a single short mature IGF-I</title><author>Tanaka, M ; Taniguchi, T ; Yamamoto, I ; Sakaguchi, K ; Yoshizato, H ; Ohkubo, T ; Nakashima, K</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c389t-58ebeb6d651561fc3f8842cb9afe2a5d91c6845a3100423b7835f0e71ae1eacd3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1998</creationdate><topic>Amino Acid Sequence</topic><topic>Animals</topic><topic>Base Sequence</topic><topic>Catfishes</topic><topic>Chickens</topic><topic>Cloning, Molecular</topic><topic>DNA, Complementary</topic><topic>Exons</topic><topic>Flounder - genetics</topic><topic>Humans</topic><topic>Insulin-Like Growth Factor I - biosynthesis</topic><topic>Insulin-Like Growth Factor I - chemistry</topic><topic>Insulin-Like Growth Factor I - genetics</topic><topic>Introns</topic><topic>Marine</topic><topic>Molecular Sequence Data</topic><topic>Paralichthys olivaceus</topic><topic>Protein Precursors - chemistry</topic><topic>Protein Precursors - genetics</topic><topic>Recombinant Proteins - biosynthesis</topic><topic>Recombinant Proteins - chemistry</topic><topic>Reverse Transcriptase Polymerase Chain Reaction</topic><topic>RNA, Messenger - chemistry</topic><topic>RNA, Messenger - genetics</topic><topic>Salmon</topic><topic>Sequence Alignment</topic><topic>Sequence Homology, Amino Acid</topic><topic>Sequence Homology, Nucleic Acid</topic><topic>Transcription, Genetic</topic><topic>Vertebrates</topic><topic>Xenopus</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Tanaka, M</creatorcontrib><creatorcontrib>Taniguchi, T</creatorcontrib><creatorcontrib>Yamamoto, I</creatorcontrib><creatorcontrib>Sakaguchi, K</creatorcontrib><creatorcontrib>Yoshizato, H</creatorcontrib><creatorcontrib>Ohkubo, T</creatorcontrib><creatorcontrib>Nakashima, K</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>Technology Research Database</collection><collection>ASFA: Aquatic Sciences and Fisheries Abstracts</collection><collection>Engineering Research Database</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) 1: Biological Sciences & Living Resources</collection><collection>ASFA: Marine Biotechnology Abstracts</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) Marine Biotechnology Abstracts</collection><collection>Aquatic Science & Fisheries Abstracts (ASFA) Professional</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>MEDLINE - Academic</collection><jtitle>DNA and cell biology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Tanaka, M</au><au>Taniguchi, T</au><au>Yamamoto, I</au><au>Sakaguchi, K</au><au>Yoshizato, H</au><au>Ohkubo, T</au><au>Nakashima, K</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Gene and cDNA structures of flounder insulin-like growth factor-I (IGF-I): multiple mRNA species encode a single short mature IGF-I</atitle><jtitle>DNA and cell biology</jtitle><addtitle>DNA Cell Biol</addtitle><date>1998-10-01</date><risdate>1998</risdate><volume>17</volume><issue>10</issue><spage>859</spage><epage>868</epage><pages>859-868</pages><issn>1044-5498</issn><eissn>1557-7430</eissn><abstract>To understand the comprehensive mechanisms of gene expression and processing for insulin-like growth factor-I (IGF-I) in vertebrates, we have investigated the gene organization, promoter and transcriptional initiation sites, alternative splicing and polyadenylating sites, and the cDNA structures of this gene in the Japanese flounder, Paralichthys olivaceus. The flounder IGF-I gene was found to be composed of five exons and four introns spanning 17.5 kb. By Northern blot analysis, two major mRNA classes of 4.7 kb and 2.9 kb were found in the liver. cDNA cloning and reverse transcription polymerase chain reaction (RT-PCR) analysis indicated that these two mRNA classes result from two different-sized 3'-noncoding regions generated by alternative usage of two polyadenylating signals. Further analysis by RT-PCR and sequencing revealed that these mRNA classes both contain two subclasses of mRNA encoding two forms of IGF-I prepropeptide, preproIGF-I-1 and preproIGF-I-2. The two forms of preproIGF-I share the identical signal peptide and mature IGF-I domain but contain different E domains as a result of alternative splicing in exon 3. The mature form of flounder IGF-I was found to comprise 68 amino acid residues, showing a small molecular weight, 7486. In the 5'-flanking region, one major and four minor transcription start sites have been identified by ribonuclease protection assay between -230 and -130 from the translation initiation codon, but no canonical TATA box or GC box was detected in their upstream regions up to -724. The results suggest that some unknown transcription initiation factors are functioning in the promotion of IGF-I gene expression.</abstract><cop>United States</cop><pmid>9809747</pmid><doi>10.1089/dna.1998.17.859</doi><tpages>10</tpages></addata></record> |
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| ispartof | DNA and cell biology, 1998-10, Vol.17 (10), p.859-868 |
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| source | Mary Ann Liebert Online Subscription; MEDLINE |
| subjects | Amino Acid Sequence Animals Base Sequence Catfishes Chickens Cloning, Molecular DNA, Complementary Exons Flounder - genetics Humans Insulin-Like Growth Factor I - biosynthesis Insulin-Like Growth Factor I - chemistry Insulin-Like Growth Factor I - genetics Introns Marine Molecular Sequence Data Paralichthys olivaceus Protein Precursors - chemistry Protein Precursors - genetics Recombinant Proteins - biosynthesis Recombinant Proteins - chemistry Reverse Transcriptase Polymerase Chain Reaction RNA, Messenger - chemistry RNA, Messenger - genetics Salmon Sequence Alignment Sequence Homology, Amino Acid Sequence Homology, Nucleic Acid Transcription, Genetic Vertebrates Xenopus |
| title | Gene and cDNA structures of flounder insulin-like growth factor-I (IGF-I): multiple mRNA species encode a single short mature IGF-I |
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