GenBank-Updates@genbank.bio.net (08/17/90)
LOCUS FSBAPOPSG 1740 bp ss-mRNA VRT 17-AUG-1990
DEFINITION Rainbow trout apopolysialoglycoprotein (apoPSGP) mRNA, complete
cds.
ACCESSION J04051 M29099
KEYWORDS apopolysialoglycoprotein.
SOURCE Rainbow trout ovary (immature), cDNA to mRNA, clone RTc-5-4.
ORGANISM Salmo gairdneri
Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Osteichthyes;
Actinopterygii; Salmoniformes; Salmonoidei; Salminidae.
REFERENCE 1 (bases 1 to 1740)
AUTHORS Sorimachi,H., Emori,Y., Kawasaki,H., Kitajima,K., Inoue,S.,
Suzuki,K. and Inoue,Y.
TITLE Molecular cloning and characterization of cDNAs coding for
apo-polysialoglycoprotein of rainbow trout eggs: Multiple mRNA
species transcribed from multiple genes contain diverged numbers of
exact 39-base (13-amino acid) repeats
JOURNAL J. Biol. Chem. 263, 17678-17684 (1988)
STANDARD full staff_review
COMMENT Draft entry and computer readable sequence [1] kindly submitted by
H.Sorimachi, 18-AUG-1988.
FEATURES from to/span description
pept 28 1656 apopolysialoglycoprotein precursor
sigp 28 90 apopolysialoglycoprotein signal peptide
matp 388 1635 apopolysialoglycoprotein
mRNA < 1 1740 apopolysialoglycoprotein mRNA
BASE COUNT 312 a 629 c 514 g 285 t
ORIGIN 140 bp upstream of PstI site.
1 acctgttgat aacacagacc tattttcatg atcatgggag gtgtgagaga attgctgctc
61 gttgtgatga cagtgggggt tgtcaaagtt tcttgttacc ctgttggaaa gtcccagaag
121 caagatcaag tctctctgca gaggagactt ggagagctgt catcaaatga cgtctccatt
181 gtgcatgccc tggccttgct ccgatccata gggtctgacg ctaaacaagc cagagaagag
241 tatttagaga ccaatgaagt agaatcccaa gcttctccaa accatggtag ctctccggca
301 aatgatgccc tgtcctctga ggagaagctg aggcgcgtgt cctcggacga cgccgccacc
361 tctgaagctg cgaccggccc gtctggcgac gacgccacct ctgaagctgc gaccggcccg
421 tctggcgacg acgccacctc tgaagctgcg accggcccgt ctggcgacga cgccacctct
481 gaagctgcga ccggcccgtc tggcgacgac gccacctctg aagctgcgac cggcccgtct
541 ggcgacgacg ccacctctga agctgcgacc ggcccgtctg gcgacgacgc cacctctgaa
601 gctgcgaccg gcccgtctgg cgacgacgcc acctctgaag ctgcgaccgg cccgtctggc
661 gacgacgcca cctctgaagc tgcgaccggc ccgtctggcg acgacgccac ctctgaagct
721 gcgaccggcc cgtctggcga cgacgccacc tctgaagctg cgaccggccc gtctggcgac
781 gacgccacct ctgaagctgc gaccggcccg tctggcgacg acgccacctc tgaagctgcg
841 accggcccgt ctggcgacga cgccacctct gaagctgcga ccggcccgtc tggcgacgac
901 gccacctctg aagctgcgac cggcccgtct ggcgacgacg ccacctctga agctgcgacc
961 ggcccgtctg gcgacgacgc cacctctgaa gctgcgaccg gcccgtctgg cgacgacgcc
1021 acctctgaag ctgcgaccgg cccgtctggc gacgacgcca cctctgaagc tgcgaccggc
1081 ccgtctggcg acgacgccac ctctgaagct gcgaccggcc cgtctggcga cgacgccacc
1141 tctgaagctg cgaccggccc gtctggcgac gacgccacct ctgaagctgc gaccggcccg
1201 tctggcgacg acgccacctc tgaagctgcg accggcccgt ctggcgacga cgccacctct
1261 gaagctgcga ccggcccgtc tggcgacgac gccacctctg aagctgcgac cggcccgtct
1321 ggcgacgacg ccacctctga agctgcgacc ggcccgtctg gcgacgacgc cacctctgaa
1381 gctgcgaccg gcccgtctgg cgacgacgcc acctctgaag ctgcgaccgg cccgtctggc
1441 gacgacgcca cctctgaagc tgcgaccggc ccgtctggcg acgacgccac ctctgaagct
1501 gcgaccggcc cgtctggcga cgacgccacc tctgaagctg cgaccggccc gtctggcgac
1561 gacgccacct ctgaagctgc gaccggcccg tctggcgacg acgccacctc tgaagctgcg
1621 accggcccgt ctggcgacga cgccatggat atctgacgtg ggacatgcaa gagttcatgg
1681 gtactctagt ccagtgtgta actgcatttg cttgttttgg ctcaattaaa cattaactgt
//