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Other DSCAM entries

IMGT RPI entry from gene to protein for Drosophila melanogaster DSCAM

Citing IMGT RPI entry for DSCAM

Duprat, E. et al. IMGT standardization for alleles and mutations of the V-LIKE-DOMAINs and C-LIKE-DOMAINs of the immunoglobulin superfamily, Recent Research Developments in Human Genetics, 2, 111-136 (2004) pdf with permission from Research Signpost

IMGT gene name and definition

Chromosomal localization

  • Chromosome: 21
  • Chromosomal localization: 21q22.2

Gene exon/intron organization

DSCAM Gene exon/intron organization

Legend:

Number of alleles: 1

IMGT reference alleles

Allele names Gene functionality IMGT reference sequences
Exons Accession numbers Molecule type
DSCAM*01 F EX1-2, 3.1, 4, 5.1, 6-7, 8.1, 9-15, 16.1, 17-23 AE013599 gDNA splicing 1
EX1-2, 3.1, 4, 5.2, 6-7, 8.2, 9-15, 16.2, 17-23 AE013599 gDNA splicing 2
EX1-2, 3.1, 4, 5.3, 6-7, 8.3, 9-15, 16.1, 17-23 AE013599 gDNA splicing 3
EX1-2, 3.1, 4, 5.4, 6-7, 8.3, 9-15, 16.1, 17-23 AE013599 gDNA splicing 4
EX1-2, 3.2, 4, 5.5, 6-7, 8.4, 9-15, 16.1, 17-23 AE013599 gDNA splicing 5
EX1-2, 3.3, 4, 5.6, 6-7, 8.5, 9-15, 16.2, 17-23 AE013599 gDNA splicing 6
EX1-2, 3.3, 4, 5.7, 6-7, 8.6, 9-15, 16.2, 17-23 AE013599 gDNA splicing 7
EX1-2, 3.3, 4, 5.8, 6-7, 8.7, 9-15, 16.1, 17-23 AE013599 gDNA splicing 8
EX1-2, 3.3, 4, 5.9, 6-7, 8.8, 9-15, 16.1, 17-23 AE013599 gDNA splicing 9
EX1-2, 3.4, 4, 5.10, 6-7, 8.9, 9-15, 16.2, 17-23 AE013599 gDNA splicing 10
EX1-2, 3.5, 4, 5.6, 6-7, 8.10, 9-15, 16.2, 17-23 AE013599 gDNA splicing 11
EX1-2, 3.5, 4, 5.11, 6-7, 8.2, 9-15, 16.2, 17-23 AE013599 gDNA splicing 12
EX1-2, 3.5, 4, 5.12, 6-7, 8.6, 9-15, 16.1, 17-23 AE013599 gDNA splicing 13
EX1-2, 3.5, 4, 5.13, 6-7, 8.11, 9-15, 16.1, 17-23 AE013599 gDNA splicing 14
EX1-2, 3.5, 4, 5.14, 6-7, 8.3, 9-15, 16.2, 17-23 AE013599 gDNA splicing 15
EX1-2, 3.5, 4, 5.15, 6-7, 8.5, 9-15, 16.2, 17-23 AE013599 gDNA splicing 16
EX1-2, 3.6, 4, 5.7, 6-7, 8.12, 9-15, 16.1, 17-23 AE013599 gDNA splicing 17
EX1-2, 3.6, 4, 5.16, 6-7, 8.13, 9-15, 16.1, 17-23 AE013599 gDNA splicing 18
EX1-2, 3.6, 4, 5.17, 6-7, 8.2, 9-15, 16.2, 17-23 AE013599 gDNA splicing 19
EX1-2, 3.6, 4, 5.13, 6-7, 8.14, 9-15, 16.2, 17-23 AE013599 gDNA splicing 20
EX1-2, 3.6, 4, 5.2, 6-7, 8.15, 9-15, 16.1, 17-23 AE013599 gDNA splicing 21
EX1-2, 3.6, 4, 5.18, 6-7, 8.16, 9-15, 16.1, 17-23 AE013599 gDNA splicing 22
EX1-2, 3.6, 4, 5.4, 6-7, 8.17, 9-15, 16.1, 17-23 AE013599 gDNA splicing 23
EX1-2, 3.6, 4, 5.14, 6-7, 8.15, 9-15, 16.2, 17-23 AE013599 gDNA splicing 24
EX1-2, 3.6, 4, 5.19, 6-7, 8.4, 9-15, 16.1, 17-23 AE013599 gDNA splicing 25
EX1-2, 3.7, 4, 5.8, 6-7, 8.18, 9-15, 16.2, 17-23 AE013599 gDNA splicing 26
EX1-2, 3.7, 4, 5.20, 6-7, 8.3, 9-15, 16.1, 17-23 AE013599 gDNA splicing 27
EX1-2, 3.7, 4, 5.21, 6-7, 8.19, 9-15, 16.1, 17-23 AE013599 gDNA splicing 28
EX1-2, 3.7, 4, 5.12, 6-7, 8.20, 9-15, 16.2, 17-23 AE013599 gDNA splicing 29
EX1-2, 3.7, 4, 5.22, 6-7, 8.3, 9-15, 16.2, 17-23 AE013599 gDNA splicing 30
EX1-2, 3.7, 4, 5.13, 6-7, 8.21, 9-15, 16.1, 17-23 AE013599 gDNA splicing 31
EX1-2, 3.8, 4, 5.23, 6-7, 8.22, 9-15, 16.1, 17-23 AE013599 gDNA splicing 32
EX1-2, 3.8, 4, 5.24, 6-7, 8.8, 9-15, 16.2, 17-23 AE013599 gDNA splicing 33
EX1-2, 3.8, 4, 5.25, 6-7, 8.9, 9-15, 16.1, 17-23 AE013599 gDNA splicing 34
EX1-2, 3.8, 4, 5.14, 6-7, 8.12, 9-15, 16.2, 17-23 AE013599 gDNA splicing 35
EX1-2, 3.9, 4, 5.26, 6-7, 8.12, 9-15, 16.1, 17-23 AE013599 gDNA splicing 36
EX1-2, 3.9, 4, 5.7, 6-7, 8.23, 9-15, 16.1, 17-23 AE013599 gDNA splicing 37
EX1-2, 3.9, 4, 5.12, 6-7, 8.24, 9-15, 16.2, 17-23 AE013599 gDNA splicing 38
EX1-2, 3.10, 4, 5.27, 6-7, 8.13, 9-15, 16.2, 17-23 AE013599 gDNA splicing 39
EX1-2, 3.10, 4, 5.8, 6-7, 8.22, 9-15, 16.2, 17-23 AE013599 gDNA splicing 40
EX1-2, 3.10, 4, 5.28, 6-7, 8.19, 9-15, 16.1, 17-23 AE013599 gDNA splicing 41
EX1-2, 3.10, 4, 5.29, 6-7, 8.23, 9-15, 16.2, 17-23 AE013599 gDNA splicing 42
EX1-2, 3.11, 4, 5.8, 6-7, 8.16, 9-15, 16.1, 17-23 AE013599 gDNA splicing 43
EX1-2, 3.11, 4, 5.11, 6-7, 8.2, 9-15, 16.2, 17-23 AE013599 gDNA splicing 44
EX1-2, 3.11, 4, 5.30, 6-7, 8.12, 9-15, 16.2, 17-23 AE013599 gDNA splicing 45
EX1-2, 3.11, 4, 5.2, 6-7, 8.16, 9-15, 16.1, 17-23 AE013599 gDNA splicing 46
EX1-2, 3.12, 4, 5.31, 6-7, 8.25, 9-15, 16.2, 17-23 AE013599 gDNA splicing 47
EX1-2, 3.12, 4, 5.32, 6-7, 8.25, 9-15, 16.2, 17-23 AE013599 gDNA splicing 48
EX1-2, 3.12, 4, 5.11, 6-7, 8.2, 9-15, 16.2, 17-23 AE013599 gDNA splicing 49
AE013599 gDNA splicing 50
EX1-2, 3.12, 4, 5.33, 6-7, 8.9, 9-15, 16.1, 17-23 AE013599 gDNA splicing 51
EX1-2, 3.12, 4, 5.34, 6-7, 8.26, 9-15, 16.2, 17-23 AE013599 gDNA splicing 52
EX1-2, 3.12, 4, 5.35, 6-7, 8.15, 9-15, 16.1, 17-23 AE013599 gDNA splicing 53
EX1-2, 3.12, 4, 5.36, 6-7, 8.7, 9-15, 16.1, 17-23 AE013599 gDNA splicing 54
EX1-2, 3.10, 4, 5.16, 6-7, 24 AE013599 gDNA splicing 55
EX1-2, 3.10, 4, 5.3, 6-7, 24 AE013599 gDNA splicing 56
EX1-2, 3.10, 4, 5.29, 6-7, 24 AE013599 gDNA splicing 57
EX1-2, 3.11, 4, 5.27, 6-7, 24 AE013599 gDNA splicing 58
EX1-2, 3.11, 4, 5.37, 6-7, 24 AE013599 gDNA splicing 59
EX1-2, 3.11, 4, 5.15, 6-7, 24 AE013599 gDNA splicing 60
EX1-2, 3.10, 4, 5.27, 6, 25 BT001877 cDNA splicing 61
EX1-2, 3.11, 4, 5.35, 6-7, 8.17, 9-12 BT025950 cDNA splicing 62 partial

IMGT reference sequences (in FASTA format) for the allele(s): DSCAM*01

Corresponding protein database accession numbers

IMGT notes:
  1. (1) Drosophila melanogaster DSCAM gene has 62 alternative splice forms. It has 23 exons. These splice transcripts are the combination of variable exons, EX3 (with 12 variant types), EX5 (with 37 variant types), EX8 (with 26 variant types) and EX16 (with 2 variant types).

Genomic sequence

Coding region sequence

The coding region (CODING-REGION) sequence starts from INIT-CODON (or its encoded amino acid) to STOP-CODON (not included).
The nucleotide sequence is extracted from cDNA (c) sequences and/or is built by artificial exon joining from genomic DNA (g) sequences. The amino acid sequence is the translation of the nucleotide sequence.

DSCAM*01: AE013599(g)

Nucleotide sequence

1        atgaatatgc ccaacgaacg cctcaaatgg ctaatgctgt tcgcagctgt tgccctcatt

61       gcttgtggta gtcagaccct agctgccaat cccccagatg ccgaccaaaa aggacccgtc

121      ttcctcaagg aacccaccaa ccgcattgac ttctccaact ccacgggcgc agagatcgag

181      tgcaaggcca gcggcaatcc catgcccgag attatttgga tcaggagcga cggtaccgcc

241      gtgggtgatg tgcccggatt gcgtcagatc tcatccgacg gcaagctggt cttccctcca

301      ttccgcgccg aggactaccg ccaggaggtc catgcccagg tgtacgcctg cctggcccgc

361      aaccagttcg gatccattat ctcccgggac gtccatgtgc gagccgtcgt ttcacagttc

421      tacataaccg aggccgagaa tgagtacgta attaaaggga acgcggcggt ggtcaagtgt

481      aagatcccat ccttcgtggc cgatttcgtg caggttgagg cctgggtgga cgaggagggc

541      atggagttgt ggcgcaacaa tgccaccgac gcctatgatg gaaagtacct ggtattgccc

601      tctggagagc tgcacatccg tgaggttgga cccgaggacg gatacaagag ctaccagtgc

661      cgaaccaaac atcgtctgac cggagaaacc cgattaagtg ccacaaaagg acgattggtc

721      atcacagagc ccgttagcag tagtccgccc aaaatcaatg ctctgaccta taagcccaat

781      attgtggagt ccatggcgtc caccgcaata ctttgtcccg cccaaggcta tccagctcct

841      agttttagat ggtacaagtt catcgaagga acaacccgta aacaagctgt ggtgctaaat

901      gaccgtgtga agcaggtctc tggtactctc attattaagg acgcagtagt cgaggactcc

961      ggaaaatacc tgtgcgtggt gaacaattcc gtgggaggcg aaagcgttga gactgtgctt

1021     accgtcactg cccccctatc cgctaagatc gatcctccca cacagacagt tgacttcgga

1081     cgccccgccg tattcacttg ccagtacact ggaaatccca tcaagaccgt tagctggatg

1141     aaggacggca aggctatcgg acacagcgaa cccgtgctgc gcatcgaatc cgtgaagaag

1201     gaggacaagg gcatgtacca gtgcttcgta agaaacgacc aggaatcggc ggaggcgagt

1261     gctgagctga agctcggagg ccgtttcgat ccccccgtca tccgacaggc cttccaggaa

1321     gagaccatgg aacccggacc aagtgtattc ctcaagtgcg tcgccggcgg aaaccccacg

1381     cccgaaattt cctgggaact cgacggcaag aaaatcgcca acaacgatcg ctatcaggtc

1441     ggacagtatg tgacggtcaa cggagatgtg gtttcctatc tgaacataac ctcggtccac

1501     gccaacgatg gcggtctcta caagtgcata gccaagagca aagtgggcgt ggccgaacac

1561     tcggccaagt tgaatgtata tggactgccc tacatccggc aaatggagaa gaaggcaatt

1621     gttgctggag aaaccctgat tgtcacatgt cctgtagctg gataccccat cgattcgatt

1681     gtctgggagc gagataaccg tgccctgccc atcaaccgca aacagaaggt cttccccaac

1741     ggaacgctga ttatcgagaa tgtggaacgg aactcagacc aagcgaccta cacttgcgtt

1801     gccaagaatc aggaaggata ctctgctcga ggatctctgg aagtgcaagt catggtgccg

1861     ccccaggttt tgccctttag tttcggtgaa tccgccgccg atgtcggcga tattgccagt

1921     gccaactgtg tggtgcccaa gggagatctg cccctggaga ttcgctggtc cctcaactct

1981     gctccaatcg taaacggcga aaatgggttt accctggtgc gtctgaataa gcgcacgagt

2041     ctgttaaaca ttgattctct aaatgctttt catcgcggtg tctacaagtg catagccaca

2101     aatccggctg ggaccagtga atatgtagct gaattacaag ttaatgtacc tcccagatgg

2161     atcctcgagc ccaccgataa ggccttcgcc cagggatccg atgccaaggt tgaatgcaag

2221     gctgatggct tccccaaacc ccaagttaca tggaagaaag cagttggcga cacccccgga

2281     gagtacaagg atctaaagaa gagcgacaac atccgcgtgg aagagggcac tctgcatgtc

2341     gacaacatcc aaaagaccaa cgagggctac tatctgtgcg aggctatcaa tggaataggc

2401     tccggcctct cggctgtgat tatgatcagc gttcaggccc ctccagagtt cacggagaag

2461     ctgcgcaacc agaccgcccg acgaggagaa cccgccgtac tccagtgcga ggcgaagggc

2521     gagaagccca ttggcatctt gtggaacatg aacaacatgc gactggaccc aaagaacgac

2581     aatcggtaca ccattcgtga ggagatcctt tccaccggag ttatgtccag tctgtcgatc

2641     aagcgcaccg agagatccga ctccgcccta ttcacctgtg tcgccactaa tgcctttgga

2701     tccgatgacg ccagcataaa tatgattgtc caggaagttc cggagatgcc atatgctttg

2761     aaggtactcg acaaatccgg acgttccgtg cagctgagct gggcgcaacc ctacgatggc

2821     aactcccctc tggacaggta catcattgag tttaagcgtt ctcgtgcctc ctggagcgaa

2881     attgatcgcg tcatcgtgcc cggacacacc acagaagccc aagtgcagaa gctcagcccc

2941     gccaccacct acaacattcg catcgtggcc gaaaacgcca tcggcacatc ccaatcctct

3001     gaagcggtca ctatcatcac agccgaagaa gcaccctccg gcaagcccca gaacatcaag

3061     gtagaacccg tgaaccagac caccatgcgc gtcacctgga agccaccacc acgcaccgag

3121     tggaacggag agatcctggg ctactacgtc ggctacaagc tatccaacac taactcgtcc

3181     tacgttttcg agaccatcaa cttcatcacc gaggagggca aggagcacaa cctggaactg

3241     cagaacctgc gcgtgtacac ccagtactcc gtggtgatcc aggccttcaa caagatcgga

3301     gctggtccac tgagcgaaga ggagaaacaa ttcacggccg agggaacgcc cagccagcca

3361     cccagtgaca ccgcctgcac caccttaact tcgcagacca ttcgcgtcgg atgggtgagc

3421     ccacccctgg aatccgccaa cggagtgatc aagacctata aggttgtcta tgcccccagt

3481     gacgagtggt atgacgagac caagcgacac tataagaaga cggcctcctc cgacacagtc

3541     ctccatggct taaagaagta caccaactac acaatgcagg tcctggccac aacagccgga

3601     ggcgatggcg tccgcagcgt tcccatccac tgccaaaccg aacccgatgt tcccgaagca

3661     cccactgatg taaaggctct tgttatgggt aacgccgcta tcctggtatc ctggcgccca

3721     ccagcacagc caaacggcat tatcacccag tacaccgtgt actccaaggc cgaaggcgct

3781     gagactgaga caaagaccca gaaggttccc cactaccaga tgagtttcga ggccaccgaa

3841     ctggagaaga acaagcccta cgagttctgg gtgacagcta gcaccaccat tggcgaaggc

3901     cagcagtcta agagcatagt ggccatgccc agcgaccagg tgcccgccaa gatcgcctcc

3961     ttcgacgaca ccttcactgc caccttcaag gaggacgcca agatgccctg cctggccgtt

4021     ggagcccccc aacccgagat cacatggaag atcaagggcg tcgaattcag tgccaacgat

4081     cgcatgcgcg tcctccccga cggatcgctg ctgatcaagt cggtaaatcg ccaggatgcc

4141     ggagactact cctgccacgc cgagaactcg attgctaagg actccatcac gcacaaactg

4201     attgttctgg caccaccaca atcgccccac gtcaccctct cggcaaccac cactgatgcc

4261     ctgactgtaa agttgaagcc ccatgaggga gacactgctc ctctgcatgg atacaccctg

4321     cactacaagc cagaattcgg agaatgggaa acatcggaag tgtctgtcga ctcacagaag

4381     cacaacatcg aaggtctctt gtgcggctcc cgctatcagg tctatgccac aggattcaat

4441     aacattggag ctggcgaagc ttctgacatt ttgaacaccc ggaccaaggg acagaagccc

4501     aagctgcccg agaaacctcg cttcattgaa gtgtcgtcca actcggtgtc cctgcacttc

4561     aaggcctgga aagatggagg atgccccatg tcgcactttg tggtggagag caagaagcgc

4621     gatcaaattg agtggaacca aatttcgaac aacgtgaagc ccgataacaa ctacgtggtt

4681     ttggacctgg aacccgccac ctggtacaac ctccgcatca ctgcccacaa ctcggctggc

4741     ttcactgtgg ccgaatacga ctttgccacc ttaaccgtta ccggaggcac tatcgcaccc

4801     tcgcgagatt tacccgagtt aagcgccgag gacacgatcc gcattatcct ctcgaaccta

4861     aacttagttg tgcccgtcgt ggcggctctg ctcgtcataa tcatagcgat aattgttatt

4921     tgtatactgc gtagcaaggg caatcaccac aaagacgatg tagtttacaa tcagacaatg

4981     ggacccggcg ccaccctgga caagcgtcgt ccggacctgc gggatgagct cggatacatc

5041     gccccgccca accggaagct gccccccgtt cccggatcca actataatac ctgtgaccgg

5101     attaagcgag gccgcggtgg cctccggtcc aaccactcga cctgggaccc tcgacgcaat

5161     cccaacctgt acgaggagct gaaggccccg ccagtgccga tgcacggcaa ccattacggc

5221     cacgcccacg gcaatgccga gtgccactac aggcatccag gcatggaaga tgaaatctgc

5281     ccctatgcca cgttccacct gctcggattc cgcgaggaaa tggaccctac caaggccatg

5341     aacttccaga ccttccccca ccagaacgga cacgccggcc cagttcccgg acacgcgggc

5401     actatgcttc caccaggaca tccaggacac gtgcactccc gctccggatc gcaatcgatg

5461     cctcgggcca atcgatacca gcgaaagaac agccagggcg gacagtcctc aatctacacg

5521     ccagctcccg aatacgatga tcccgccaac tgtgccgaag aggaccaata tcgtcgatac

5581     acccgcgtca actcgcaagg cggtagcctg tactccggac ccggacccga atacgacgat

5641     cccgccaact gcgcacccga agaggatcag tacggctccc agtacggagg accctatgga

5701     cagccctatg atcactacgg ttcccgggga tccatgggac gtcgtagcat cggctctgct

5761     cgcaatcctg gcaatggatc acccgagcct ccaccaccac caccacgcaa ccacgacatg

5821     agcaactcct cattcaacga ctccaaggag agtaatgaga tctcagaggc agagtgcgat

5881     cgtgaccacg gaccacgcgg aaactacgga gcagtgaagc gatctccaca accgaaagat

5941     cagcgcacca ccgaagaaat gcgcaaactg atagaaagaa acgaaaccgg cccaaaacaa

6001     ctccaactcc aacaagcaaa tggcgcagga ttcacagcct acgatactat ggcagtgtaa
Nucleotide sequence in FASTA format (without gaps) DSCAM*01

Amino acid sequence

1        MNMPNERLKW LMLFAAVALI ACGSQTLAAN PPDADQKGPV FLKEPTNRID FSNSTGAEIE

61       CKASGNPMPE IIWIRSDGTA VGDVPGLRQI SSDGKLVFPP FRAEDYRQEV HAQVYACLAR

121      NQFGSIISRD VHVRAVVSQF YITEAENEYV IKGNAAVVKC KIPSFVADFV QVEAWVDEEG

181      MELWRNNATD AYDGKYLVLP SGELHIREVG PEDGYKSYQC RTKHRLTGET RLSATKGRLV

241      ITEPVSSSPP KINALTYKPN IVESMASTAI LCPAQGYPAP SFRWYKFIEG TTRKQAVVLN

301      DRVKQVSGTL IIKDAVVEDS GKYLCVVNNS VGGESVETVL TVTAPLSAKI DPPTQTVDFG

361      RPAVFTCQYT GNPIKTVSWM KDGKAIGHSE PVLRIESVKK EDKGMYQCFV RNDQESAEAS

421      AELKLGGRFD PPVIRQAFQE ETMEPGPSVF LKCVAGGNPT PEISWELDGK KIANNDRYQV

481      GQYVTVNGDV VSYLNITSVH ANDGGLYKCI AKSKVGVAEH SAKLNVYGLP YIRQMEKKAI

541      VAGETLIVTC PVAGYPIDSI VWERDNRALP INRKQKVFPN GTLIIENVER NSDQATYTCV

601      AKNQEGYSAR GSLEVQVMVP PQVLPFSFGE SAADVGDIAS ANCVVPKGDL PLEIRWSLNS

661      APIVNGENGF TLVRLNKRTS LLNIDSLNAF HRGVYKCIAT NPAGTSEYVA ELQVNVPPRW

721      ILEPTDKAFA QGSDAKVECK ADGFPKPQVT WKKAVGDTPG EYKDLKKSDN IRVEEGTLHV

781      DNIQKTNEGY YLCEAINGIG SGLSAVIMIS VQAPPEFTEK LRNQTARRGE PAVLQCEAKG

841      EKPIGILWNM NNMRLDPKND NRYTIREEIL STGVMSSLSI KRTERSDSAL FTCVATNAFG

901      SDDASINMIV QEVPEMPYAL KVLDKSGRSV QLSWAQPYDG NSPLDRYIIE FKRSRASWSE

961      IDRVIVPGHT TEAQVQKLSP ATTYNIRIVA ENAIGTSQSS EAVTIITAEE APSGKPQNIK

1021     VEPVNQTTMR VTWKPPPRTE WNGEILGYYV GYKLSNTNSS YVFETINFIT EEGKEHNLEL

1081     QNLRVYTQYS VVIQAFNKIG AGPLSEEEKQ FTAEGTPSQP PSDTACTTLT SQTIRVGWVS

1141     PPLESANGVI KTYKVVYAPS DEWYDETKRH YKKTASSDTV LHGLKKYTNY TMQVLATTAG

1201     GDGVRSVPIH CQTEPDVPEA PTDVKALVMG NAAILVSWRP PAQPNGIITQ YTVYSKAEGA

1261     ETETKTQKVP HYQMSFEATE LEKNKPYEFW VTASTTIGEG QQSKSIVAMP SDQVPAKIAS

1321     FDDTFTATFK EDAKMPCLAV GAPQPEITWK IKGVEFSAND RMRVLPDGSL LIKSVNRQDA

1381     GDYSCHAENS IAKDSITHKL IVLAPPQSPH VTLSATTTDA LTVKLKPHEG DTAPLHGYTL

1441     HYKPEFGEWE TSEVSVDSQK HNIEGLLCGS RYQVYATGFN NIGAGEASDI LNTRTKGQKP

1501     KLPEKPRFIE VSSNSVSLHF KAWKDGGCPM SHFVVESKKR DQIEWNQISN NVKPDNNYVV

1561     LDLEPATWYN LRITAHNSAG FTVAEYDFAT LTVTGGTIAP SRDLPELSAE DTIRIILSNL

1621     NLVVPVVAAL LVIIIAIIVI CILRSKGNHH KDDVVYNQTM GPGATLDKRR PDLRDELGYI

1681     APPNRKLPPV PGSNYNTCDR IKRGRGGLRS NHSTWDPRRN PNLYEELKAP PVPMHGNHYG

1741     HAHGNAECHY RHPGMEDEIC PYATFHLLGF REEMDPTKAM NFQTFPHQNG HAGPVPGHAG

1801     TMLPPGHPGH VHSRSGSQSM PRANRYQRKN SQGGQSSIYT PAPEYDDPAN CAEEDQYRRY

1861     TRVNSQGGSL YSGPGPEYDD PANCAPEEDQ YGSQYGGPYG QPYDHYGSRG SMGRRSIGSA

1921     RNPGNGSPEP PPPPPRNHDM SNSSFNDSKE SNEISEAECD RDHGPRGNYG AVKRSPQPKD

1981     QRTTEEMRKL IERNETGPKQ LQLQQANGAG FTAYDTMAV*
Amino acid sequence in FASTA format (without gap) DSCAM*01

Legend: