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General Information
Symbol
Dmel\Dscam1-RAD
Species
D. melanogaster
Annotation Symbol
CG17800-RAD
FlyBase ID
FBtr0111052
Feature type
Associated gene
Evidence Rank
Length (nt)
7702
Evidence Score
Genomic Location
cDNA Clones Consistent with the Transcript ( 45 )
cDNA Clones, Fully Sequenced
Exact Match
    Contained within the annotated transcript, internally consistent
    End(s) extend beyond the annotated transcript, internally consistent
      cDNA Clones, End Sequence Only (ESTs)
      End(s) extend beyond the annotated transcript, internally consistent
      Sequence
      AGAACCGGATTTCAGCGCTAGTCGGCGAATCGCGAGAGCGTGCGAGTATTTGTGTGTGCGTGTGAGCGTTTGTTTTGGGA
      CACCGATACGGATACGGGTACGGATAGACGGATATACGGCAGCGGTACGCGATTAGCAATCCGCCAACCGGTTGCAGCGG
      TGCTAGTGCACCACCCTACAAAAAAGTGAATAATAGTATGCAAAGTATCTGAAAGATAGTCAAGAGCAGAGCAAAGTATC
      TGTGTTTGTGTGTGCCGTGCTTTTGTGCGGAGTCGCCACCCCCGTGGATTAGTGGCACCCTGCTGCAAATAGCCCACCAC
      TCTCACAAGTGTGTGTGTGTGAGTGTTAACAATTAATCGCATTTAAAAAACAATTTGGCCAGCCGCAGTAACAATAACGA
      TAATTCGGACGTGCCAAGGGTGCTTTTCAGTGGATTTTTGCGTAAAATCGATAGTCAGATAGACCCGCTCTCTACTGCCA
      ACTTCACACAACCCGCTCAGCGGAAACACGGCATACGAAATGAATATGCCCAACGAACGCCTCAAATGGCTAATGCTGTT
      CGCAGCTGTTGCCCTCATTGCTTGTGGTAGTCAGACCCTAGCTGCCAATCCCCCAGATGCCGACCAAAAAGGACCCGTCT
      TCCTCAAGGAACCCACCAACCGCATTGACTTCTCCAACTCCACGGGCGCAGAGATCGAGTGCAAGGCCAGCGGCAATCCC
      ATGCCCGAGATTATTTGGATCAGGAGCGACGGTACCGCCGTGGGTGATGTGCCCGGATTGCGTCAGATCTCATCCGACGG
      CAAGCTGGTCTTCCCTCCATTCCGCGCCGAGGACTACCGCCAGGAGGTCCATGCCCAGGTGTACGCCTGCCTGGCCCGCA
      ACCAGTTCGGATCCATTATCTCCCGGGACGTCCATGTGCGAGCCGTTGTGAATCAGTTTTACGGCGCCGATATCCTGATG
      GAGTATGTCATCAGGGGAAATGCGGCGGTTTTGAAATGTTCCATTCCGTCGTTCGTGGCCGATTTTGTGCGTGTCGAGTC
      CTGGATAGATGAGGAAGGCACCGAACTGCGTCCCTCTGAGAACTATGATGGAAAGTACCTGGTATTGCCCTCTGGAGAGC
      TGCACATCCGTGAGGTTGGACCCGAGGACGGATACAAGAGCTACCAGTGCCGAACCAAACATCGTCTGACCGGAGAAACC
      CGATTAAGTGCCACAAAAGGACGATTGGTCATCACAGAACCTGTGGGCAGTGTTGCGCCTAAGATCAGCGTAGAAAATCG
      TCTGAAAAATGCAGAGGCTCGAATTGGTTCCACCTTCACCCTCTTTTGCCCTGGTCAAGCCTATCCAGTACCCTTCTTTA
      GATGGTACAAGTTCATCGAAGGAACAACCCGTAAACAAGCTGTGGTGCTAAATGACCGTGTGAAGCAGGTCTCTGGTACT
      CTCATTATTAAGGACGCAGTAGTCGAGGACTCCGGAAAATACCTGTGCGTGGTGAACAATTCCGTGGGAGGCGAAAGCGT
      TGAGACTGTGCTTACCGTCACTGCCCCCCTATCCGCTAAGATCGATCCTCCCACACAGACAGTTGACTTCGGACGCCCCG
      CCGTATTCACTTGCCAGTACACTGGAAATCCCATCAAGACCGTTAGCTGGATGAAGGACGGCAAGGCTATCGGACACAGC
      GAACCCGTGCTGCGCATCGAATCCGTGAAGAAGGAGGACAAGGGCATGTACCAGTGCTTCGTAAGAAACGACCAGGAATC
      GGCGGAGGCGAGTGCTGAGCTGAAGCTCGGAGGCCGTTTCGATCCCCCCGTCATCCGACAGGCCTTCCAGGAAGAGACCA
      TGGAACCCGGACCAAGTGTATTCCTCAAGTGCGTCGCCGGCGGAAACCCCACGCCCGAAATTTCCTGGGAACTCGACGGC
      AAGAAAATCGCCAACAACGATCGCTATCAGGTCGGACAGTATGTGACGGTCAACGGAGATGTGGTTTCCTATCTGAACAT
      AACCTCGGTCCACGCCAACGATGGCGGTCTCTACAAGTGCATAGCCAAGAGCAAAGTGGGCGTGGCCGAACACTCGGCCA
      AGTTGAATGTATATGGACTGCCCTACATCCGGCAAATGGAGAAGAAGGCAATTGTTGCTGGAGAAACCCTGATTGTCACA
      TGTCCTGTAGCTGGATACCCCATCGATTCGATTGTCTGGGAGCGAGATAACCGTGCCCTGCCCATCAACCGCAAACAGAA
      GGTCTTCCCCAACGGAACGCTGATTATCGAGAATGTGGAACGGAACTCAGACCAAGCGACCTACACTTGCGTTGCCAAGA
      ATCAGGAAGGATACTCTGCTCGAGGATCTCTGGAAGTGCAAGTCATGGTGGCTCCGAAAATTGCCCCATTCGATTTCGGA
      GATGAGCCCTCGAACTTTGGTGAATCGGCTAGTGTTCAGTGCCTGGTCACCTCGGGTGACTTCCCGGTTAGCTTTGCGTG
      GCTCTTCAATGGACGTGAGATCAATGAGAACGTATACGATGTATCCATGGTTAAGTTGGGAAAGAAGATCAGCGCGTTGT
      CCATTGATATTGTCCGGGATCATCACGCTGGCAACTACACTTGTGTGGCAGTCAACCGGGCCACCTCCGTTAACTTTACC
      GCCGAACTGGTGGTGAATGTACCTCCCAGATGGATCCTCGAGCCCACCGATAAGGCCTTCGCCCAGGGATCCGATGCCAA
      GGTTGAATGCAAGGCTGATGGCTTCCCCAAACCCCAAGTTACATGGAAGAAAGCAGTTGGCGACACCCCCGGAGAGTACA
      AGGATCTAAAGAAGAGCGACAACATCCGCGTGGAAGAGGGCACTCTGCATGTCGACAACATCCAAAAGACCAACGAGGGC
      TACTATCTGTGCGAGGCTATCAATGGAATAGGCTCCGGCCTCTCGGCTGTGATTATGATCAGCGTTCAGGCCCCTCCAGA
      GTTCACGGAGAAGCTGCGCAACCAGACCGCCCGACGAGGAGAACCCGCCGTACTCCAGTGCGAGGCGAAGGGCGAGAAGC
      CCATTGGCATCTTGTGGAACATGAACAACATGCGACTGGACCCAAAGAACGACAATCGGTACACCATTCGTGAGGAGATC
      CTTTCCACCGGAGTTATGTCCAGTCTGTCGATCAAGCGCACCGAGAGATCCGACTCCGCCCTATTCACCTGTGTCGCCAC
      TAATGCCTTTGGATCCGATGACGCCAGCATAAATATGATTGTCCAGGAAGTTCCGGAGATGCCATATGCTTTGAAGGTAC
      TCGACAAATCCGGACGTTCCGTGCAGCTGAGCTGGGCGCAACCCTACGATGGCAACTCCCCTCTGGACAGGTACATCATT
      GAGTTTAAGCGTTCTCGTGCCTCCTGGAGCGAAATTGATCGCGTCATCGTGCCCGGACACACCACAGAAGCCCAAGTGCA
      GAAGCTCAGCCCCGCCACCACCTACAACATTCGCATCGTGGCCGAAAACGCCATCGGCACATCCCAATCCTCTGAAGCGG
      TCACTATCATCACAGCCGAAGAAGCACCCTCCGGCAAGCCCCAGAACATCAAGGTAGAACCCGTGAACCAGACCACCATG
      CGCGTCACCTGGAAGCCACCACCACGCACCGAGTGGAACGGAGAGATCCTGGGCTACTACGTCGGCTACAAGCTATCCAA
      CACTAACTCGTCCTACGTTTTCGAGACCATCAACTTCATCACCGAGGAGGGCAAGGAGCACAACCTGGAACTGCAGAACC
      TGCGCGTGTACACCCAGTACTCCGTGGTGATCCAGGCCTTCAACAAGATCGGAGCTGGTCCACTGAGCGAAGAGGAGAAA
      CAATTCACGGCCGAGGGAACGCCCAGCCAGCCACCCAGTGACACCGCCTGCACCACCTTAACTTCGCAGACCATTCGCGT
      CGGATGGGTGAGCCCACCCCTGGAATCCGCCAACGGAGTGATCAAGACCTATAAGGTTGTCTATGCCCCCAGTGACGAGT
      GGTATGACGAGACCAAGCGACACTATAAGAAGACGGCCTCCTCCGACACAGTCCTCCATGGCTTAAAGAAGTACACCAAC
      TACACAATGCAGGTCCTGGCCACAACAGCCGGAGGCGATGGCGTCCGCAGCGTTCCCATCCACTGCCAAACCGAACCCGA
      TGTTCCCGAAGCACCCACTGATGTAAAGGCTCTTGTTATGGGTAACGCCGCTATCCTGGTATCCTGGCGCCCACCAGCAC
      AGCCAAACGGCATTATCACCCAGTACACCGTGTACTCCAAGGCCGAAGGCGCTGAGACTGAGACAAAGACCCAGAAGGTT
      CCCCACTACCAGATGAGTTTCGAGGCCACCGAACTGGAGAAGAACAAGCCCTACGAGTTCTGGGTGACAGCTAGCACCAC
      CATTGGCGAAGGCCAGCAGTCTAAGAGCATAGTGGCCATGCCCAGCGACCAGGTGCCCGCCAAGATCGCCTCCTTCGACG
      ACACCTTCACTGCCACCTTCAAGGAGGACGCCAAGATGCCCTGCCTGGCCGTTGGAGCCCCCCAACCCGAGATCACATGG
      AAGATCAAGGGCGTCGAATTCAGTGCCAACGATCGCATGCGCGTCCTCCCCGACGGATCGCTGCTGATCAAGTCGGTAAA
      TCGCCAGGATGCCGGAGACTACTCCTGCCACGCCGAGAACTCGATTGCTAAGGACTCCATCACGCACAAACTGATTGTTC
      TGGCACCACCACAATCGCCCCACGTCACCCTCTCGGCAACCACCACTGATGCCCTGACTGTAAAGTTGAAGCCCCATGAG
      GGAGACACTGCTCCTCTGCATGGATACACCCTGCACTACAAGCCAGAATTCGGAGAATGGGAAACATCGGAAGTGTCTGT
      CGACTCACAGAAGCACAACATCGAAGGTCTCTTGTGCGGCTCCCGCTATCAGGTCTATGCCACAGGATTCAATAACATTG
      GAGCTGGCGAAGCTTCTGACATTTTGAACACCCGGACCAAGGGACAGAAGCCCAAGCTGCCCGAGAAACCTCGCTTCATT
      GAAGTGTCGTCCAACTCGGTGTCCCTGCACTTCAAGGCCTGGAAAGATGGAGGATGCCCCATGTCGCACTTTGTGGTGGA
      GAGCAAGAAGCGCGATCAAATTGAGTGGAACCAAATTTCGAACAACGTGAAGCCCGATAACAACTACGTGGTTTTGGACC
      TGGAACCCGCCACCTGGTACAACCTCCGCATCACTGCCCACAACTCGGCTGGCTTCACTGTGGCCGAATACGACTTTGCC
      ACCTTAACCGTTACCGGAGGCACTATCGCACCCTCGCGAGATTTACCCGAGTTAAGCGCCGAGGACACGATCCGCATTAT
      CCTCTCGAACCTAAACTTAGTTGTGCCCGTCGTGGCGGCTCTGCTCGTCATAATCATAGCGATAATTGTTATTTGTATAC
      TGCGTAGCAAGGGCAATCACCACAAAGACGATGTAGTTTACAATCAGACAATGGGACCCGGCGCCACCCTGGACAAGCGT
      CGTCCGGACCTGCGGGATGAGCTCGGATACATCGCCCCGCCCAACCGGAAGCTGCCCCCCGTTCCCGGATCCAACTATAA
      TACCTGTGACCGGATTAAGCGAGGCCGCGGTGGCCTCCGGTCCAACCACTCGACCTGGGACCCTCGACGCAATCCCAACC
      TGTACGAGGAGCTGAAGGCCCCGCCAGTGCCGATGCACGGCAACCATTACGGCCACGCCCACGGCAATGCCGAGTGCCAC
      TACAGGCATCCAGGCATGGAAGATGAAATCTGCCCCTATGCCACGTTCCACCTGCTCGGATTCCGCGAGGAAATGGACCC
      TACCAAGGCCATGAACTTCCAGACCTTCCCCCACCAGAACGGACACGCCGGCCCAGTTCCCGGACACGCGGGCACTATGC
      TTCCACCAGGACATCCAGGACACGTGCACTCCCGCTCCGGATCGCAATCGATGCCTCGGGCCAATCGATACCAGCGAAAG
      AACAGCCAGGGCGGACAGTCCTCAATCTACACGCCAGCTCCCGAATACGATGATCCCGCCAACTGTGCCGAAGAGGACCA
      ATATCGTCGATACACCCGCGTCAACTCGCAAGGCGGTAGCCTGTACTCCGGACCCGGACCCGAATACGACGATCCCGCCA
      ACTGCGCACCCGAAGAGGATCAGTACGGCTCCCAGTACGGAGGACCCTATGGACAGCCCTATGATCACTACGGTTCCCGG
      GGATCCATGGGACGTCGTAGCATCGGCTCTGCTCGCAATCCTGGCAATGGATCACCCGAGCCTCCACCACCACCACCACG
      CAACCACGACATGAGCAACTCCTCATTCAACGACTCCAAGGAGAGTAATGAGATCTCAGAGGCAGAGTGCGATCGTGACC
      ACGGACCACGCGGAAACTACGGAGCAGTGAAGCGATCTCCACAACCGAAAGATCAGCGCACCACCGAAGAAATGCGCAAA
      CTGATAGAAAGAAACGAAACCGGCCCAAAACAACTCCAACTCCAACAAGCAAATGGCGCAGGATTCACAGCCTACGATAC
      TATGGCAGTGTAATTTGTAAGCGCCCTCTGCGGCGGTGGGCGTGGCATTTTAGCTTAGTGTTTTAGGTGCATGAAGTGCG
      TGGGAGTTGAATGACACTTAGAGACACAGGACACAGATACACACAGACAGATCATCAGGACACAAGGAAAGAGATAGAGA
      AAGAGAGGGAGTTATATACCGAATATACACGTAAAATATTCAACTACTTCGAGTAATTATAGCGAAGGAATGCAAGTTTC
      AAGAAACATATTTATATTGTCTATGCAAGCAGCAAACCAAACTTACATAAAGTATATAAGTACATTCAATGGATAACTAC
      TATAAGAGAGTGCTGGAGACACTGAAGGAAATTACTCAAGTTATTCGAGAGGAACAGAAAACGAAATCTCAAGATCAAGA
      TCATACTTACGTATTCGAACTAATTTTCAATAATGTACTTTAGTTTTAAGCGGTGTCTACCGAAATATCAGAGCAACAGC
      AACTGAGATGGATTCTTGTGTGTAAGAGGAGATGATTCGAAATCTGTTTGTGTAAACTTTTGCCATCTATGCCAGGAGCA
      GAAAACTCATCCTTTGCCTAGCCTAAGTCAAAGTCATAATATTAACTCGTCTAATTGATATATTTAGTCGTAACATATGC
      GTAATATGTATGATTTCTTCCTATGCATTTTATAATTCGTATGGACAGCGCACATTTGGAGTTTTGTTTGCGTTTTGCGT
      TGACTTGTGATGATTGTTAATTTACAGAGCTTTGTGAGTGAGTACTTACGATTGTGCTCATTACTCGCTTTGTTCTTTAT
      TTACAGACAAGTGATTGTCCTATCTTAGTTCGCCCTTATTTTTAATTCAAAAATGCGCTTCCAACAGAACAAATCGAAAC
      TGTTCAATGCACAAATCGCAGCCACAACAATTGAATGTATTATACAAGATCCCCAGGACACCGAAAAACCAAAACCCCTA
      ACCCGAAACACAGATACACTCAAGCACGATTTATTAAACCAATTCTGATATAGACCGTTCTGAACATGAGTTATACGCAT
      TTGAAGCTTTAAGAGAACCTGAAATTGTTTATTTCACTTCATTTGATCTATCCTAAGTTATTAGTTCATAAGTTGCTAAA
      TATATGATTTTGATTTTATTTT
      
      Other Products of this Gene
      Other Transcripts
      Name
      FlyBase ID
      Length (nt)
      FBtr0089016
      7699
      FBtr0111049
      7699
      FBtr0111050
      7744
      FBtr0111051
      7744
      FBtr0111053
      7699
      FBtr0111054
      7744
      FBtr0111055
      7747
      FBtr0111056
      7699
      FBtr0111057
      7702
      FBtr0111058
      7741
      FBtr0111059
      7747
      FBtr0111060
      7699
      FBtr0111061
      7702
      FBtr0111102
      7762
      FBtr0111062
      7747
      FBtr0111063
      7717
      FBtr0111064
      7711
      FBtr0111101
      7753
      FBtr0111065
      7753
      FBtr0111066
      7705
      FBtr0111067
      7705
      FBtr0111068
      7753
      FBtr0111069
      7753
      FBtr0111070
      7708
      FBtr0111071
      7705
      FBtr0111072
      7756
      FBtr0111073
      7756
      FBtr0111074
      7711
      FBtr0111075
      7741
      FBtr0111076
      7741
      FBtr0111077
      7744
      FBtr0111078
      7744
      FBtr0111079
      7744
      FBtr0111080
      7756
      FBtr0306773
      7741
      FBtr0306774
      7750
      FBtr0306775
      7756
      FBtr0306776
      7708
      FBtr0306777
      7735
      FBtr0306778
      7759
      FBtr0306779
      7708
      FBtr0306780
      7708
      FBtr0306781
      7762
      FBtr0306782
      7747
      FBtr0306783
      7699
      FBtr0306784
      7699
      FBtr0306785
      7753
      FBtr0306786
      7759
      FBtr0306787
      7699
      FBtr0306767
      7764
      FBtr0306768
      7710
      FBtr0306769
      7755
      FBtr0089018
      7699
      FBtr0306770
      7755
      FBtr0306771
      7710
      FBtr0306772
      7755
      FBtr0334801
      9145
      FBtr0089019
      7708
      FBtr0089020
      7717
      FBtr0111081
      7744
      FBtr0111082
      7747
      FBtr0111083
      7702
      FBtr0111084
      7702
      FBtr0111085
      7699
      FBtr0111087
      7744
      FBtr0111088
      7702
      FBtr0111089
      7744
      FBtr0111092
      7690
      FBtr0111094
      7747
      FBtr0111096
      7699
      FBtr0111097
      7708
      FBtr0111098
      7744
      FBtr0111099
      7756
      FBtr0111100
      7702
      Polypeptides
      Derived from THIS transcript
      Name
      FlyBase ID
      Length (aa)
      FBpp0110344
      2017
      Derived from OTHER transcripts
      Name
      FlyBase ID
      Length (aa)
      FBpp0088088
      2016
      FBpp0110341
      2016
      FBpp0110342
      2031
      FBpp0110343
      2031
      FBpp0110345
      2016
      FBpp0110346
      2031
      FBpp0110347
      2032
      FBpp0110348
      2016
      FBpp0110349
      2017
      FBpp0110350
      2030
      FBpp0110351
      2032
      FBpp0110352
      2016
      FBpp0110353
      2017
      FBpp0110354
      2037
      FBpp0110355
      2032
      FBpp0110356
      2022
      FBpp0110357
      2020
      FBpp0110358
      2034
      FBpp0110359
      2034
      FBpp0110360
      2018
      FBpp0110361
      2018
      FBpp0110362
      2034
      FBpp0110363
      2034
      FBpp0110364
      2019
      FBpp0110365
      2018
      FBpp0110366
      2035
      FBpp0110367
      2035
      FBpp0110368
      2020
      FBpp0110369
      2030
      FBpp0110370
      2030
      FBpp0110371
      2031
      FBpp0110372
      2031
      FBpp0110373
      2031
      FBpp0110374
      2035
      FBpp0297689
      2030
      FBpp0297690
      2033
      FBpp0297691
      2035
      FBpp0297692
      2019
      FBpp0297693
      2028
      FBpp0297694
      2036
      FBpp0297695
      2019
      FBpp0297696
      2019
      FBpp0297697
      2037
      FBpp0297698
      2032
      FBpp0297699
      2016
      FBpp0297700
      2016
      FBpp0297701
      2034
      FBpp0297702
      2036
      FBpp0297703
      2016
      FBpp0297683
      2038
      FBpp0297684
      2020
      FBpp0297685
      2035
      FBpp0088090
      2016
      FBpp0297686
      2035
      FBpp0297687
      2020
      FBpp0297688
      2035
      FBpp0306847
      1947
      FBpp0088091
      2019
      FBpp0089327
      2022
      FBpp0110375
      2031
      FBpp0110376
      2032
      FBpp0110377
      2017
      FBpp0110378
      2017
      FBpp0110379
      2016
      FBpp0110381
      2031
      FBpp0110382
      2017
      FBpp0110384
      2031
      FBpp0110387
      2013
      FBpp0110389
      2032
      FBpp0110391
      2016
      FBpp0110392
      2019
      FBpp0110393
      2031
      FBpp0110394
      2035
      FBpp0110395
      2017
      Comments
      Transcript terminates at site supported by polyadenylated cDNA.
      Transcript structure (identity of variable exons 4,6, and 9) supported by FBrf0128634 (cDNA 26). The identity of alternative exon 17 was not characterized.
      External Crossreferences and Linkouts ( 1 )
      Crossreferences
      RefSeq - A comprehensive, integrated, non-redundant, well-annotated set of reference sequences including genomic, transcript, and protein.
      Synonyms and Secondary IDs (2)
      Reported As
      Symbol Synonym
      Dscam-RAD
      Dscam1-RAD
      Secondary FlyBase IDs
        References (0)