FB2026_02 , released June 18, 2026
Transcript: Dmel\kkv-RD
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General Information
Symbol
Dmel\kkv-RD
Species
D. melanogaster
Annotation Symbol
CG2666-RD
FlyBase ID
FBtr0301398
Feature type
Associated gene
Evidence Rank
Length (nt)
5524
Evidence Score
Genomic Location
Genomic Maps
cDNA Clones Consistent with the Transcript ( 38 )
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
        TTCAGTTTAGCGAAGACAACGAACCCGAAAAGAGCTGCGCGGACGGCAGCGAAAAAGAGAGAGAAACGTCTTAAAAAACG
        CCGATCATTGGCCACCCACTCCAGGATTGGCGCTAGCACCAACCGTGGGAGATGTCTGCGATGCGGCATCGCCCGATGGC
        CCCTCCGGGCCAAGGACCAGGAGCGGGAACCGCTGGGGAGCACGTCGACAGCGATGACAACAACTTTACCGACGACGAGA
        GCTCGCCCCTCACCCACGACATTTACGGCGGCAGCCAACGCACCATACAAGAGACGAAGGGTTGGGATGTTTTCCGGGAT
        CCGCCAATCAAAATTGAGACCGGATCGACGGCGAACCAGGAATGCTTAGAATTAACCGTGAAGATCTTGAAGATCTTCGC
        CTATGTGATTACGTTTATAATAGTTTTAACCGGTGGCGTCATCGCCAAGGGCACAATGCTCTTCATGACTTCGCAGGTGC
        GCAAGGATAAGAAGATGGAGTACTGCAACAAAGACTTGGGTCGGGACAAAAGCTTCGTAGTCCGACTTCCGGAGGAGGAG
        CGAGTGGCCTGGATCTGGGCTCTGCTCATAGCATATGCCCTTCCCGAGATCGGAGCCTTGATCCGATCCGCCCGCATCTG
        CTTCTTCAAGACCTTTAAGGTGCCGAAGACGGGCCACTTCCTCTTCGTCTGGCTGATGGAGAGCTTGAGTGCCGTGGGCA
        TGGCGCTGCTGATGTTCGTGGTTCTGCCCCAGATCGACGCCATCCAGGGCGCCATGCTAACCAACTGCCTGTGCGTCGTG
        CCGGGCATCTTCGGCCTTCTATCGCGCACCTCCAAGGAGGGCAAGCGCTTTGTAAAGGTGATCATCGATCTGGCGGCGGT
        GGCGGCCCAGGTGACGGGCCTGGTGATCTGGCCGCTGCTGGAGAACCGCCGTGAGCTGTGGGTCATCCCGGTGGCCTGTG
        TCATGATCTCGTGCGGCTGGTGGGAGAATTACGTGTCGCCACAGTCCCCGCTCGGCCTGGTTCGAGCCCTGGGTCGCATC
        AAGGAGGAGATGAAGTACACTCGCTACTTCTGCCACATATTCCTATCCATCTGGAAGATCCTGCTTTTCTTCACCGTCAC
        ACTGCTCATCTACTGGGCGCAAGGCGAGGAACCCGGCAATCTGTTTGCCATGTACGGAGATGCCTTTGGACCCCACAAGA
        TCATAGTCTACGAACTGCCAGCGGGACTGGGCGGTGTGCTTCCAGATACCCTGGAATCGGCCAACATTGACACCGTGGAT
        GTGGATGCCGCCTACAATACGGTGGTGTATGTACTGCTTCTACAGATTTTCGGCGCCTACTTGTGCTACATCTTCGGAAA
        GTTCGCCTGCAAGATCCTCATCCAGGGATTCAGCTACGCGTTTCCCGTCAGTCTAACTGTTCCGCTCTCTGTTACGTTCC
        TGATCGCAGCCTGTGGAATCCGGATCGACGATCCCTGCTTCTTCCATGACACCATTCCGGACTATCTGTTCTTCACGAGC
        CCCTCGAACTTCCGGTTCAACAACTTTGTCACCGAGCAAATGGCGTGGGCCTGGATCCTTTGGCTCCTCAGTCAGACCTG
        GATAGCACTGCACATCTGGACTCCGAAGTGCGAGCGTCTGGCCACCACCGAGAAGTTGTTTGTCCAGCCCATGTACTCCT
        CTCTACTGATCGATCAGTCGATGGCCCTCAACCGAAGGCGCGATGACCAGGCAGATGTGAAAACAGAGGATCTCTCGGAG
        ATCGAAAAGGAAAAGGGCGATGAGTACTACGAGACCATTTCTGTGCACACGGATCGCTCCTCGGCACCCAACAAGCCATC
        GATTAAGTCCTCCGACAACATCACACGAATCTACTCCTGCGCGACCATGTGGCATGAGACGAAGGACGAGATGATAGAGT
        TCTTGAAGAGCATCATGCGAATGGACGAGGACCAGTGTGCTCGTCGCGTGGCTCAAAAGTATCTGAGGGTTCTCGATCCG
        GACTATTATGAATTTGAGACCCACATCTTCTTCGATGACGCCTTCGAAATCTCCGATCACAGCGACGATGATATCCAGTG
        CAATCGATTCGTCAAGCTCTTGATAGCCACCATGGACGAGGCTGCCTCCGAGATCCATCAGACCACGATCAGACTGCGTC
        CGCCCAAGAAGTATCCCACTCCGTACGGAGGCCGCCTGGTGTGGACCCTTCCAGGGAAGACCAAATTCATTACGCACTTA
        AAGGACAAGGACCGCATTCGTCACAGGAAGCGTTGGTCTCAGGTCATGTACATGTATTACCTGCTGGGACATCGTCTAAT
        GGAGCTGCCCATTTCGGTGGATCGCAAGGATGCAATTGCGGAGAACACCTACCTTTTGACCCTGGACGGAGATATTGACT
        TCAAGCCGAATGCGGTGACTCTACTGGTGGATCTGATGAAGAAGAACAAGAACCTGGGTGCTGCCTGCGGTCGCATTCAT
        CCCGTGGGATCGGGACCCATGGTGTGGTACCAACTTTTCGAATACGCCATCGGCCATTGGCTGCAAAAGGCCACGGAGCA
        CATGATTGGCTGCGTGCTCTGTTCACCTGGATGCTTCTCCCTGTTCAGGGGCAAGGCCCTCATGGATGACAATGTGATGA
        AGAAATACACGACACGGTCGGATGAGGCTCGTCACTACGTGCAGTACGATCAGGGCGAGGATCGTTGGCTGTGCACATTG
        CTCCTCCAGAGGGGATACCGCGTGGAGTACTCGGCTGCCAGTGATGCGTACACCCACTGCCCCGAGGGATTCAATGAGTT
        CTACAACCAGCGGCGCAGATGGGTGCCCTCGACCATAGCCAACATCATGGATCTTCTGGCGGATGCGAAGCGCACGATCA
        AGATCAATGACAACATTTCGCTTCTGTACATCTTCTACCAGATGATGTTGATGGGCGGCACCATCCTGGGACCCGGAACC
        ATTTTCCTTATGTTGGTGGGTGCATTCGTGGCAGCCTTTCGCATTGACAACTGGACCTCCTTCCACTACAACATCGTGCC
        GATCCTGGCCTTCATGTTTATCTGCTTCACCTGTAAGTCGAACATCCAGTTGTTCGTGGCCCAAGTCCTTTCGACGGCAT
        ATGCCCTGATCATGATGGCGGTGATTGTGGGTACGGCCTTGCAGTTGGGAGAGGACGGAATAGGCTCCCCTTCGGCCATT
        TTCCTGATATCCATGGTGGGCTCATTCTTCATAGCCGCATGTTTGCATCCACAAGAGTTCTGGTGCATTACATGCGGCCT
        AATCTATTTGCTGTCCATCCCGTCCATGTACCTGCTGCTCATCTTGTACTCTATCATCAACCTAAACGTCGTCTCCTGGG
        GCACCCGCGAGGTGGTGGCTAAGAAGACCAAGAAAGAACTGGAGGCGGAGAAGAAGGCCGCCGAGGAGGCCAAAAAGAGG
        GTGAAGCAGAAGAGCATGCTGAGCTTCCTTCAGAGTGGAATCGGGGACAATGGCGACGAGGAGGGCTCCGTGGAGTTCTC
        TCTCGCTGGACTCTTCCGCTGCATATTCTGCACCCACGGAAAAACATCCGACGAGAAGCAGCAGCTGACCTCCATCGCCG
        AATCGCTGGACACGATCAAACATCGAATGGACACCATCGAGAGTGCTGTGGATCCCCATGGTCACCATGCCTCCCGACAT
        GGCAGGAGGAGAACCACATCCAGTGGCTCCAAGGATCACCACCTGCTGACCTCGGTGGCGGAGAAGTCTGGCGATGAATC
        GGACGAGTCGGACTCAGACACTTCGGCGGAACCAAAGCAGGAGCGAGACTTTCTAACCAATCCCTACTGGATCGAGGACC
        CCGATGTACGCAAGGGCGAGGTCGATTTTCTCTCCAGCACCGAGATCCAGTTCTGGAAGGATCTCATCGACCAGTATCTC
        TATCCCATCGACAATGATCCCGTGGAGCAGGCCCGCATTGCCTCCGACCTGATTGAGCTGCGGAACAAGTCGGTCTTTGC
        GTTTTTCATGGCCAACGCCCTGTTCGTGCTGATTGTCTTCTTGTTGCAACTGAACAAGGACAAGCTACACATTATTTGGC
        CGTTGGGCGTCAAAACCAACATTACCTATATCGAAGAGACATCCGAGGTGCACATCTCCAAGGAGTACCTTCAGCTGGAG
        CCCATCGGATTGGTGTTCGTATTCTTCTTTGCTCTTATTTTGATAATCCAGTTCACGGCCATGCTGTTCCATCGATTTGG
        AACCATTTCGCACATCCTGGCCTCGACTGAACTCAACTTCTGCAAGAAGAAGTCTGAGGATCTGACACAGGACCAACTAA
        TAGATAAGCATGCTGTGGAGATCGTCAAGAACTTGCAGAGGCTGCAGGGAATCGATGGCGACTACGACAATGACTCCGGT
        TCCGGGCCAGATCGCATAGCCAGGCGGAAGACCATTCAAAATCTGGAGAAGGCGCGACAGCCACGTCGCCAGATCGGCAC
        CCTGGATGTGGCGTTCAAGAAGCGCTTCCTGAAACTCACCGCCGATGCGGAGAACAATCCGGCCACGCCCATTCTCACCC
        GCCGCCTGACAATGCGGGCGGAGACCATCCGGGCACTGGAGGTGCGTAAGAATTCGGTGATGGCCGAAAGGCGGAAGTCC
        GCGATGCAAACTCTGGGAGCAAAGAACGAGTACGGAATCACAACTGGAGCACCGATTAACAACAATGGAGCTCTGCCGAA
        TCAGCGAAGCGGACGTGTCTCGAATGCAGGCATCAGCATCAAGGATGTATTCAATGTGAACGGTGGTGGTGCCGAGCAGA
        TTTACGGCTCGAATGGGGGCGGCACTATCAACCAGGGTTACGAGCATGTGATCGACGAGGACGGCGACGGCAACTCCCTG
        CGGCTGACCACCAGGAATCCCCATCCCCACCCGCACCACCAGGTCTCCTGGGGCCAGAACACCAACGGCGGCGGCGGTAA
        TGGCACAGGTCGCCTGTGAAGGACCCGCCCATCCTAGACGTAGAGCTAAGTTAGACCTAGGTAACTTGTTAACGAATTCC
        GCCTCTTTCCATCAACTGCCTAAACTTAAGACTAAGCCAATACCTAGAATTGTAGTCAGAAGGAAGGATTGTGTTGTATA
        GTATGTATAGGGACGCGAGTGAGAGCCAGGACACTCTGGCTCAGAAGGATCAGGTCGTTCATAAGGCTTCATGGCAACAG
        AACGAACATTATGCTTAGCTAATCACACTGCCAGTGTCGATGTGTGCCAATAATTGGGTGGCTGATCGCCCACTGTGGCA
        GCAACATTCATGCGATGTACTATACTATCATTTGTTAGGTTATCTTTAAGTCAATACCCGCGTGGATCATCCGAAACACG
        CGGCCAGTGCATGCTGACACAAAATACTCAACGTGGAGCTGAACCGCAGTGGCCTATTTGTACACTCGACGACATATCGA
        GGATAGTTCTTTTTAAATGAATAATCATTGATGATTTGATGGATTGTAAAACTTTTTAAAACAATAAATAGAAGCATCAA
        ACAG
        
        Other Products of this Gene
        Other Transcripts
        Name
        FlyBase ID
        Length (nt)
        FBtr0078798
        5457
        FBtr0078800
        5524
        Polypeptides
        Derived from THIS transcript
        Name
        FlyBase ID
        Length (aa)
        FBpp0290640
        1615
        Derived from OTHER transcripts
        Name
        FlyBase ID
        Length (aa)
        FBpp0078442
        1615
        FBpp0089164
        1615
        Comments

        Transcript terminates at site supported by polyadenylated cDNA.

        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 (1)
        Reported As
        Symbol Synonym
        kkv-RD
        Secondary FlyBase IDs
          References (0)