Dbfetch
ID OU461403; SV 1; linear; genomic DNA; STD; HUM; 3516 BP. XX AC OU461403; XX PR Project:PRJEB46613; XX DT 14-MAR-2023 (Rel. 144, Created) DT 15-MAR-2023 (Rel. 144, Last updated, Version 1) XX DE Homo sapiens, HLA-A gene for MHC class I antigen, cell line DE DKMS-LSL_ID19554501_A_1, allele HLA-A*26:new XX KW . XX OS Homo sapiens (human) OC Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia; OC Eutheria; Euarchontoglires; Primates; Haplorrhini; Catarrhini; Hominidae; OC Homo. XX RN [1] RA Albrecht V., Schmidt H. A., Klussmeier A., Lange V., Putke K.; RT ; RL Submitted (29-JUL-2021) to the INSDC. RL DKMS LIFE SCIENCE LAB, Research & Development, St. Petersburger Str. 2, RL Saxony, 01069 Dresden, Germany XX DR MD5; 9d2ccc4807e395a8df0c0d1fafa79084. XX FH Key Location/Qualifiers FH FT source 1..3516 FT /organism="Homo sapiens" FT /mol_type="genomic DNA" FT /cell_line="DKMS-LSL_ID19554501_A_1" FT /db_xref="taxon:9606" FT exon 1..373 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=1 FT CDS join(301..373,503..772,1014..1289,1890..2165,2265..2381, FT 2820..2852,2995..3042,3212..3216) FT /codon_start=1 FT /transl_table=1 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /product="MHC class I antigen" FT /function="antigen presenting molecule" FT /protein_id="CAG9001904.1" FT /translation="MAVMAPRTLLLLLLGALALTQTWAGSHSMRYFTTSVSRPGRGEPR FT FIAVGYVDDTQFVRFDSDAASQRMEPRAPWIEQEGPEYWDRNTRNVKAHSQTDRANLGT FT LRGYYNQSEDGSHTIQRMYGCDVGPDGRFLRGYQQDAYDGKDYIALNEDLRSWTAADMA FT AQITQRKWETAHEAEQWRAYLEGRCVEWLRRYLENGKETLQRTDAPKTHMTHHAVSDHE FT ATLRCWALSFYPAEITLTWQRDGEDQTQDTELVETRPAGDGTFQKWASVVVPSGQEQRY FT TCHVQHEGLPKPLTLRWEPSSQPTIPIVGIIAGLVLFGAVIAGAVVAAVMWRRKSSDRK FT GGSYSQAASSDSAQGSDMSLTACKV" FT intron 374..502 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=1 FT exon 503..772 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=2 FT intron 773..1013 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=2 FT exon 1014..1289 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=3 FT intron 1290..1889 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=3 FT exon 1890..2165 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=4 FT intron 2166..2264 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=4 FT exon 2265..2381 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=5 FT intron 2382..2819 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=5 FT exon 2820..2852 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=6 FT intron 2853..2994 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=6 FT exon 2995..3042 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=7 FT intron 3043..3211 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=7 FT exon 3212..3516 FT /gene="HLA-A" FT /allele="HLA-A*26:new" FT /number=8 XX SQ Sequence 3516 BP; 666 A; 1021 C; 1071 G; 758 T; 0 other; caggagcaga ggggtcaggg cgaagtccca gggccccagg cgtggctctc agggtctcag 60 gccccgaagg cggtgtatgg attggggagt cccagccttg gggattcccc aactccgcag 120 tttcttttct ccctctgcca acctatgtag ggtccttctt cctggatact cacgacgcgg 180 acccagttct cactcccatt gggtgtcggg tttccagaga agccaatcag tgtcgtcgcg 240 gtcgcggttc taaagtccgc acgcacccac cgggactcag attctcccca gacgccgagg 300 atggccgtca tggcgccccg aaccctcctc ctgctactct tgggggccct ggccctgacc 360 cagacctggg cgggtgagtg cggggtcgtg gggaaaccgc ctctgcgggg agaagcaagg 420 ggcccgcccg gcggggacgc aggacccggg tagccgcgcc gggaggaggg tcgggtgggt 480 ctcagccact cctcgccccc aggctcccac tccatgaggt atttcaccac atccgtgtcc 540 cggcccggcc gcggggagcc ccgcttcatc gccgtgggct acgtggacga cacgcagttc 600 gtgcggttcg acagcgacgc cgcgagccag aggatggagc cgcgggcgcc gtggatagag 660 caggaggggc cggagtattg ggaccggaac acacggaatg tgaaggccca ctcacagact 720 gaccgagcga acctggggac cctgcgcggc tactacaacc agagcgagga cggtgagtga 780 ccccggcccg gggcgcaggt cacgacccct catcccccac ggacgggcca ggtcgcccac 840 agtctccggg tccgagatcc gccccgaagc cgcgggaccc cgagaccctt gccccgggag 900 aggcccaggc gcctttaccc ggtttcattt tcagtttagg ccaaaaatcc ccccgggttg 960 gtcggggcgg ggcggggctc gggggaccgg gctgacctcg gggtccgggc caggttctca 1020 caccatccag aggatgtatg gctgcgacgt ggggccggac gggcgcttcc tccgcgggta 1080 ccagcaggac gcttacgacg gcaaggatta catcgccctg aacgaggacc tgcgctcttg 1140 gaccgcggcg gacatggcgg ctcagatcac ccagcgcaag tgggagacgg cccatgaggc 1200 ggagcagtgg agagcctacc tggagggccg gtgcgtggag tggctccgca gatacctgga 1260 gaacgggaag gagacgctgc agcgcacggg taccaggggc cacggggcgc ctccctgatc 1320 gcctgtagat ctcccgggct ggcctcccac aaggagggga gacaattggg accaacacta 1380 gaatatcgcc ctccctctgg tcctgaggga gaggaatcct cctgggtttc cagatcctgt 1440 accagagagt gactctgagg ttccgccctg ctctctgaca caattaaggg ataaaatctc 1500 tgaaggaatg acgggaagac gatccctcga atactgatga gtggttccct ttgacacaca 1560 ccggcagcag ccttgggccc gtgacttttc ctctcaggcc ttgttctctg cttcacactc 1620 aatgtgtgtg ggggtctgag tccagcactt ctgagtccct cagcctccac tcaggtcagg 1680 accagaagtc gctgttccct cttcagggac tagaattttc cacggaatag gagattatcc 1740 caggtgcctg tgtccaggct ggtgtctggg ttctgtgctc ccttccccat cccaggtgtc 1800 ctgtccattc tcaagatagc cacatgtgtg ctggaggagt gtcccatgac agatgcaaaa 1860 tgcctgaatg ttctgactct tcctgacaga cgcccccaag acgcatatga ctcaccacgc 1920 tgtctctgac catgaggcca ccctgaggtg ctgggccctg agcttctacc ctgcggagat 1980 cacactgacc tggcagcggg atggggagga ccagacccag gacacggagc tcgtggagac 2040 caggcctgca ggggatggga ccttccagaa gtgggcgtct gtggtggtgc cttctggaca 2100 ggagcagaga tacacctgcc atgtgcagca tgagggtctg cccaagcccc tcaccctgag 2160 atggggtaag gagggagacg ggggtgtcat gtcttttagg gaaagcagga gcctctctga 2220 cctttagcag ggtcagggcc cctcaccttc ccctcttttc ccagagccgt cttcccagcc 2280 caccatcccc atcgtgggca tcattgctgg cctggttctc tttggagctg tgatcgctgg 2340 agctgtggtc gctgctgtga tgtggaggag gaagagctca ggtggggaag ggatgaaggg 2400 tgggtctgag atttcttgtc tcactgaggg ttccaagacc caggtagaag tgtgccctgc 2460 ctcgttactg ggaagcacca tccacaatta tgagcctacc cagcctgggc cctgtgtgcc 2520 agcacttact cttttgtaaa gcacctgtta aaatgaagga cagatttatc accttgatta 2580 cggcggtgat gggacctgat cccagcagtc acaagtcaca ggggaaggtc cctgaggacc 2640 ttcaggaggg cggttggtcc aggacccaca cctgctttct tcatgtttcc tgatcccgcc 2700 ctgggtctgc agtcacacat ttctggaaac ttctctgagg tccaagactt ggaggttcct 2760 ctaggacctt aaggccctgg ctcctttctg gtatctcaca ggacattttc ttcccacaga 2820 tagaaaagga gggagctact ctcaggctgc aagtaagtat gaaggaggct gatgcctgag 2880 gtccttggga tattgtgttt gggagcccgt gggggagctc acccacccca caattcctcc 2940 tctagccaca tgttctgtgg gatctgacca ggttctgttt ttgtcctacc ccaggcagtg 3000 acagtgccca gggctctgat atgtctctca cagcttgtaa aggtgagagc ctggagggcc 3060 tgatgtgtgt tgggtgttgg gcggaacagt ggacgcagct gtgctatggg gtttctttgc 3120 attggatgta ttgagcatgc gatgggctgt ttaaagtgtg actcctcact gtgacagata 3180 cgaatttgtt catgaatatt tttttctata gtgtgagaca gctgccttgt gtgggactga 3240 gaggcaagat ttgttcctgc ccttcccttt gtgacttgaa gaaccctgac tttgtttctg 3300 caaaggcacc tgcatgtgtc tgtgttcttg taggcataat gtgaggaggt ggggagacca 3360 ccccaccccc atgtccacca tgaccctctt cccacgctga cctgtgctcc ctccccaatc 3420 atctttcctg ttccagagag gtggggctga ggtgtctcca tctctgcctc aacttcatgg 3480 tgcactgagc tgtaactttt tccttcccta ttaaaa 3516 //