LOCUS AF103731 1839 bp mRNA linear HUM 05-MAY-1999 DEFINITION Homo sapiens putative glycolipid transfer protein mRNA, complete cds. ACCESSION AF103731 VERSION AF103731.1 KEYWORDS FLI_CDNA. SOURCE Homo sapiens (human) ORGANISM Homo sapiens Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini; Catarrhini; Hominidae; Homo. REFERENCE 1 (bases 1 to 1839) AUTHORS Wei,Y.J., Ding,J.F., Xu,Y.Y., Liu,Y.Q., Hui,R.T., Sheng,H., Zhao,X.W., Jiang,Y.X., Meng,X.M., Liu,D.Q., Zhao,Y., Cao,H.Q. and Liu,S. TITLE Prediction of the coding sequences of unidentified human genes. I. The complete sequence of HAW1053 cDNA clone from human adult aorta cDNA library JOURNAL Unpublished REFERENCE 2 (bases 1 to 1839) AUTHORS Wei,Y.J., Ding,J.F., Xu,Y.Y., Liu,Y.Q., Hui,R.T., Sheng,H., Zhao,X.W., Jiang,Y.X., Meng,X.M., Liu,D.Q., Zhao,Y., Cao,H.Q. and Liu,S. TITLE Direct Submission JOURNAL Submitted (01-NOV-1998) Molecular Medicine Center, Cardiovascular Institute and Fu Wai Hospital, 167 Beilishi Road, West District, Beijing 100037, China FEATURES Location/Qualifiers source 1..1839 /db_xref="H-InvDB:HIT000069379" /organism="Homo sapiens" /mol_type="mRNA" /db_xref="taxon:9606" /clone="HAW1053" /tissue_type="aorta" /dev_stage="adult" CDS 538..1713 /codon_start=1 /product="putative glycolipid transfer protein" /protein_id="AAC97956.1" /translation="MSELRLCCDLLVQQVDKTKEVTTTGVSNSEEGIDVGTLLKSTCN TFLKTLEECMQIANAAFTSELLYHTPPGSPQLAMLKSSKMKHPIIPIHNSLERQTELS TCENGSLNMEINGEEEILMKNKNSLYLKSAEIDCSISSEENTDDNITVQGEIMKEDRM ENLKNHDNNLSQSGSDSSCSPECLWEEGKEVIPTFFSTMNTSFSDIELLEDSGIPTEA FLASCCAVVPVLDKLGPTVFAPVKMDLVENIKKVNQKYITNKEEFTTLQKIVLHEVEA DVAQVRNSATEALLWLKRGLKFLKGFLTEVKNGEKDIQTALNNAYGKTLRQHHGWVVR GVFALALRATPSYEDFVAALTVKEGDHRKEAFSIGMQRDLSLYLPAMKKQMAILDAL" regulatory 1782..1787 /regulatory_class="polyA_signal_sequence" BASE COUNT 603 a 342 c 468 g 426 t ORIGIN 1 gagactgcag agggagtagt gcgatcctgc gcgcggggga actagctgga gggcaaggcg 61 ggaacaccat ctattgttgg ggtgatcgga cctaacacca ggttgtgggg acaacgaagt 121 ccagaagagt gaaaggaatg agaaaagaca gtttgagaga gaaagtgggc ccagggggcc 181 aatgcgagta tggaggctgt gaaggccccg agccctggaa gcccagacta tttattggtg 241 atcaaacaaa gaaacaggtg gggaatattg tcctattatg attctcctga agatgcctgg 301 aaaggttgca aagggagcat acaaatggca gtctgtgaaa ttgaagttca ttctgtagat 361 aatacatgca tggacctgat aatccccggg gaacagtatt tctacctgaa ggccagaagt 421 gtgcctgaaa gatagcggcg gctggtggcc ctgggatcag ccaaggcttg cctgactgac 481 agtaggaccc agaaggataa agagtttgct gaaaacactg aaaacttgaa aaccaaaatg 541 tcagaactaa gactctgctg tgacctcctt gttcagcaag tagataaaac aaaagaagtg 601 accacaactg gtgtgtccaa ttctgaggag ggaattgatg tgggaacttt gctgaaatca 661 acctgtaata cttttctgaa gaccttggaa gaatgcatgc agattgcaaa tgcagccttc 721 acctctgagc tgctctacca cactccacca ggatcaccac agctggccat gctcaagtcc 781 agcaagatga aacatcctat tataccaatt cataattcat tggaaaggca aacggagttg 841 agcacttgtg aaaatggatc tttaaatatg gaaataaatg gtgaggaaga aatcctaatg 901 aaaaataaga attccttata tttgaaatct gcagagatag actgcagcat atcaagtgag 961 gaaaatacag atgataatat aaccgtccaa ggtgaaataa tgaaggaaga tagaatggaa 1021 aacctgaaaa atcatgacaa taacttgtct cagtctggat cagactcaag ttgctctcca 1081 gaatgcctct gggaggaagg caaagaagtt atcccaactt tctttagtac catgaacaca 1141 agctttagtg acattgaact tctggaagac agtggcattc ccacagaagc attcttggca 1201 tcatgttgtg ctgtggttcc agtattagac aaacttggcc ctacagtgtt tgctcctgtt 1261 aagatggatc ttgttgaaaa tattaagaaa gtaaatcaga agtatataac caacaaagaa 1321 gagtttacca ctctccagaa gatagtgctg cacgaagtgg aggcggatgt agcccaggtt 1381 aggaactcag cgactgaagc cctcttgtgg ctgaagagag gtctcaaatt tttgaaggga 1441 tttttgacag aagtgaaaaa tggggaaaag gatatccaga cagccctgaa taacgcatat 1501 ggtaaaacat tgcggcaaca ccatggctgg gtagttcgag gggtttttgc gttagcttta 1561 agggcaactc catcctatga agattttgtg gccgcgttaa ccgtaaagga aggtgaccac 1621 cggaaagaag ctttcagtat tgggatgcag agggacctca gcctttacct ccctgccatg 1681 aagaagcaga tggccatact ggacgcttta taagaggtcc atgggctgga atctgatgag 1741 gttgtatgat ggctgctggg cagcacctcc taacttcagg gaataaagtg ctaaagtgta 1801 aaaaaaaata aaaataaaaa taaataaata aataaaatt //