Dbfetch

ID   LK021976; SV 2; linear; genomic DNA; STD; HUM; 2697 BP.
XX
AC   LK021976;
XX
DT   19-MAY-2014 (Rel. 120, Created)
DT   02-OCT-2017 (Rel. 134, Last updated, Version 2)
XX
DE   Homo sapiens partial HLA-A gene for MHC class I antigen, isolate
DE   DKMS-LSL-A-158, allele HLA-A*03:266N, exons 2-8
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]
RP   1-2697
RA   Albrecht V.;
RT   ;
RL   Submitted (17-APR-2014) to the INSDC.
RL   Albrecht V., Research and Development, DKMS LIFE SCIENCE LAB, Fiedler Str.
RL   34, Saxony, 01307 Dresden, GERMANY.
XX
RN   [2]
RA   Albrecht V., Boehme I., Schmidt A.H.;
RT   "Characterisation and Confirmation of new HLA-Alleles found by DKMS Life
RT   Science Lab";
RL   Unpublished.
XX
DR   MD5; 7ff6e47c5fdfb8e9ebe1acaa2b4cf15b.
XX
FH   Key             Location/Qualifiers
FH
FT   source          1..2697
FT                   /organism="Homo sapiens"
FT                   /chromosome="6"
FT                   /isolate="DKMS-LSL-A-158"
FT                   /mol_type="genomic DNA"
FT                   /cell_type="mouth mucosa cells"
FT                   /db_xref="taxon:9606"
FT   CDS             join(<1..270,512..784,1363..1638,1741..1857,2300..2332,
FT                   2475..2522,2692..2697)
FT                   /codon_start=3
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /note="MHC class I antigen null allele"
FT                   /db_xref="PSEUDO:CDQ51657.1"
FT                   /pseudogene="allelic"
FT   exon            1..270
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=2
FT   intron          271..511
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=2
FT   exon            512..785
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=3
FT   intron          786..1363
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=3
FT   exon            1364..1639
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=4
FT   intron          1640..1741
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=4
FT   exon            1742..1858
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=5
FT   intron          1859..2300
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=5
FT   exon            2301..2333
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=6
FT   intron          2334..2475
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=6
FT   exon            2476..2523
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=7
FT   intron          2524..2692
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=7
FT   exon            2693..2697
FT                   /gene="HLA-A"
FT                   /allele="HLA-A*03:266N"
FT                   /number=8
XX
SQ   Sequence 2697 BP; 529 A; 757 C; 828 G; 583 T; 0 other;
     gctcccactc catgaggtat ttcttcacat ccgtgtcccg gcccggccgc ggggagcccc        60
     gcttcatcgc cgtgggctac gtggacgaca cgcagttcgt gcggttcgac agcgacgccg       120
     cgagccagag gatggagccg cgggcgccgt ggatagagca ggaggggccg gagtattggg       180
     accaggagac acggaatgtg aaggcccagt cacagactga ccgagtggac ctggggaccc       240
     tgcgcggcta ctacaaccag agcgaggccg gtgagtgacc ccggccgggg gcgcaggtca       300
     ggacccctca tcccccacgg acgggccagg tcgcccacag tctccgggtc cgagatccac       360
     cccgaagccg cgggaccccg agacccttgc cccgggagag gcccaggcgc ctttacccgg       420
     tttcattttc agtttaggcc aaaaatcccc ccgggttggt cggggctggg cggggctcgg       480
     gggactgggc tgaccgcggg gtcggggcca ggttctcaca ccatccagat aatgtatggc       540
     tgcgacgtgg ggtcggacgg gcgcttcctc cgcgggtacc ggcaggacgc ctacgacggc       600
     aaggattaca tcgccctgaa cgaggacctg cgctcttgga ccgcggcgga catggcggct       660
     cagatcacca agcgcaagtg ggaggcggcc catgaggcgg agcagttgag cctacctgga       720
     tggcacgtgc gtggagtggc tccgcagata cctggagaac gggaaggaga cgctgcagcg       780
     cacgggtacc aggggccacg gggcgcctcc ctgatcgcct gtagatctcc cgggctggcc       840
     tcccacaagg aggggagaca attgggacca acactagaat atcaccctcc ctctggtcct       900
     gagggagagg aatcctcctg ggttccagat cctgtaccag agagtgactc tgaggttccg       960
     ccctgctctc tgacacaatt aagggataaa atctctgaag gagtgacggg aagacgatcc      1020
     ctcgaatact gatgagtggt tccctttgac accggcagca gccttgggcc cgtgactttt      1080
     cctctcaggc cttgttctct gcttcacact caatgtgtgt gggggtctga gtccagcact      1140
     tctgagtccc tcagcctcca ctcaggtcag gaccagaagt cgctgttccc ttctcaggga      1200
     atagaagatt atcccaggtg cctgtgtcca ggctggtgtc tgggttctgt gctctcttcc      1260
     ccatcccggg tgtcctgtcc attctcaaga tggccacatg cgtgctggtg gagtgtccca      1320
     tgacagatgc aaaatgcctg aattttctga ctcttcccgt cagacccccc caagacacat      1380
     atgacccacc accccatctc tgaccatgag gccaccctga ggtgctgggc cctgggcttc      1440
     taccctgcgg agatcacact gacctggcag cgggatgggg aggaccagac ccaggacacg      1500
     gagctcgtgg agaccaggcc tgcaggggat ggaaccttcc agaagtgggc ggctgtggtg      1560
     gtgccttctg gagaggagca gagatacacc tgccatgtgc agcatgaggg tctgcccaag      1620
     cccctcaccc tgagatgggg taaggaggga gatgggggtg tcatgtctct tagggaaagc      1680
     aggagcctct ctggagacct ttagcagggt cagggcccct caccttcccc tcttttccca      1740
     gagctgtctt cccagcccac catccccatc gtgggcatca ttgctggcct ggttctcctt      1800
     ggagctgtga tcactggagc tgtggtcgct gccgtgatgt ggaggaggaa gagctcaggt      1860
     ggagaagggg tgaagggtgg ggtctgagat ttcttgtctc actgagggtt ccaagcccca      1920
     gctagaaatg tgccctgtct cattactggg aagcaccgtc cacaatcatg ggcctaccca      1980
     gtctgggccc tgtgtgccag cacttactct tttgtaaagc acctgttaaa atgaaggaca      2040
     gatttatcac cttgattacg gcggtgatgg gacctgatcc cagcagtcac aagtcacagg      2100
     ggaaggtccc tgaggacaga cctcaggagg gctattggtc caggacccac acctgctttc      2160
     ttcatgtttc ctgatcccgc cctgggtctg cagtcacaca tttctggaaa cttctctggg      2220
     gtccaagact aggaggttcc tctaggacct taaggccctg gctcctttct ggtatctcac      2280
     aggacatttt cttctcacag atagaaaagg agggagttac actcaggctg caagtaagta      2340
     tgaaggaggc tgatgcctga ggtccttggg atattgtgtt tgggagccca tgggggagcc      2400
     cacccacctc acaattcctc ctctagccac atcttctgtg ggatctgacc aggttctgtt      2460
     tttgttctac cccaggcagt gacagtgccc agggctctga tgtgtccctc acagcttgta      2520
     aaggtgagag cttggaggac ctaatgtgtg ttgggtgttg ggcggaacag tggacacagc      2580
     tgtgctatgg ggtttctttg cattggatgt attgagcatg cgatgggctg tttaaggtgt      2640
     gacccctcac tgtgatggat atgaatttgt tcatgaatat ttttttctat agtgtga         2697
//