kidney_v3_comp3_c0_seq1_reversed (mRNA) Phascolarctos cinereus

Feature Details
Name kidney_v3_comp3_c0_seq1_reversed
Unique Name kidney_v3_comp3_c0_seq1_reversed
Internal ID 1622101
Type mRNA
Organism Phascolarctos cinereus (koala)
Length 6784
Sequence
The sequence for this mRNA
AAAGGATTGTCTTCCAGGAGACTGGAGGACACCCGGACCAGGTTCCCTACATCATAGTTT
GGCAGGACCTCTCCAACAGCCCCCCCCCATGGGTGCCACCCTTAGCCAAGATCGCCGTTG
CCTCTGGTCAAGATAACGGGCGAAAGTCGGCGGGGGGGAGGCCGTCCGCTCCTTCCCGGC
TCCCCATCTACCCGGAGACGGACAGCCTGTTCCTCCTCTCAGAACCCCCGCCCTATCCAA
CGTCCCCTCCACCTCCCCCAGCCCCTCACGCGGCCAGACCAGCGCCAGGCCTAATGGCTG
AGGGACTCGGCTCTGAGGGACCGGCCGCTGGAACTAGGAGTCGCCGTCCCCGCAGTCCTA
CGGGTGACACTGGTCCTGACTCCACTGTGGCCCTGCCCCTCCGGGCCGTGGGACCCCCGG
CCGAACCAAACGGCTTAGTCCCCTTGCAATATTGGCCTTTCTCCTCAGCAGATCTCTATA
ATTGGAAATCTAATCATCCTTCTTTTTCCGAGAATCCTACAGGACTCACGGGACTCCTTG
AGTCCCTCATGTTTTCCCACCAGCCTACTTGGGACGATTGCCAGCAGCTCCTGCAAGTCC
TCTTTACCACCGAGGAAAGAGAAAGGATTCTTTTGGAGGCTCGCAAGAACGTCCTTGGAG
TTAACGGGGCCCCTACACAACTCGAGAACCTCATTAATGAGGCCTTCCCCCTTAATCGAC
CTCAGTGGGATCACAACACGGCTGAAGGTAGGGAGCGTCTCCTGGTCTACCGCCGGACTC
TAGTGGCGGGTCTCAAAGGGGCAGCAAGGCGCCCCACCAATTTGGCCAAGGTAAGAGAAG
TCTTGCAGGGACCAACAGAACCCCCGTCCGTTTTTCTAGAACGTCTAATGGAGGCTTATA
GGAGATATACCCCATTTGATCCCTCTTCTGAGGGACAAAAGGCGGCGGTGGCCATGTCCT
TTATCGGACAGTCTGCCCCGGATATTAAAAAGAAATTACAAAGACTGGAAGGACTCCAGG
ACCATTCCTTGCAGGATCTCATAAAGGAGGCAGAGAAGGTATATCATAAGAGAGAGACAG
AGGAAGAAAAGCAAGAAAGAGAGAAAAAGGAGACAGAGGAAAGAGAGAGACGGCGTGACA
GGCGCCAGGAGAAAAACTTGACCAAAATCTTGGCCGCGGTAGTAAGTGAGAAAGGGTCCA
GAGGAAGACAGGCAGGGAATCTGAGCAACAGGGCAATGAGGGCACCTAGGGAAGGAAGAC
CGCCTCTGGACAAAGATCAGTGCGCATACTGTAAAGAAAGGGGCCATTGGGCAAGGGAGT
GCCCCCGGAAGAAGAACGCCAGGGAAACCAATGTCCTGACCCTGGGTGACTAGGGGAGTC
GGGGTTCGGACCCCCTCCCCGAGCCCAGGGTAACGTTAACTGTGGAGGGGATCCCCACTG
AGTTTTTGGTTGATACCGGGGCCGAACATTCAGTATTGACCAAGCCTATGGGAAAGATGG
GACCCAAACGGACAGTCGTGGCTGGGGCGACGGGCAGCAAAGTTTACCCTTGGACCACCA
AGAGACTTTTGAAAATCGGACAAAAGCAAGTGACCCACTCATTCTTGGTCATACCCGAAT
GCCCTGCTCCCCTGTTAGGCAGGGACCTCCTCACCAAGCTAAAAGCTCAAATCCAGTTTT
CCACAGAGGGCCCACAGGTAACATGGGAAGACCGCCCCGCCATGTGTTTAGTCCTGAACT
TGGAGGAGGAATACCGATTACACGAAAAGCCGGTCCCTCCTTCTATCGACCCGTCATGGC
TCCAACTCTTTCCCATGGTTTGGGCCGAGAAGGCAGGTATGGGACTGGCCAATCAAGTCC
CACCAGTGGTAGTGGAACTGAAGTCAGATGCCTCACCAGTGGCTGTTCGACAGTACCCAA
TGAGCAAGGAAGCCCGGGAGGGTATCAGGCCCCACATCCAAAGATTCTTGGATTTGGGGA
TTCTGGTACCTTGCCAGTCGCCCTGGAACACCCCTTTGTTACCTGTAAAAAAACCTGGAA
CCAATGACTATCGGCCAGTCCAAGATTTGAGGGAGGTCAACAAAAGAGTACAGGACATTC
ATCCCACAGTCCCGAACCCCTATAACCTACTCAGTTCCCTCCCGCCCAGCCACACCTGGT
ATTCAGTTTTAGACCTCAAAGATGCTTTCTTTTGCCTCAAGCTACACCCCAACAGCCAGC
CATTGTTCGCGTTTGAATGGAGAGATCCAGAAAAAGGCAATACTGGCCAGCTAACCTGGA
CTCGGCTACCGCAAGGATTCAAGAACTCTCCCACCCTCTTCGATGAGGCCCTCCACCGGG
ATCTGGCATCCTTCAGGGCTCTCAACCCCCAGGTAGTGATGCTCCAATATGTTGATGACC
TCCTGGTAGCGGCCCCAACGTACCGAGACTGCAAAGAAGGGACACGAAGGCTCTTACAGG
AACTAAGTAAGTTGGGATACCGAGTGTCGGCCAAAAAGGCCCAGCTTTGCCGGGAGGAAG
TTACGTATCTCGGGTATTTGCTAAAAGGGGGGAAGAGATGGCTGACCCCAGCCCGAAAGG
CCACTGTAATGAAGATCCCCACCCCTACAACCCCCAGACAAGTCCGTGAGTTTTTGGGCA
CTGCTGGATTCTGTAGGCTCTGGATCCCTGGTTTCGCTTCCCTGGCTGCACCCCTGTACC
CCCTGACGAGAGAAAAGGTTCCCTTTACCTGGACTGAGGCCCACCAGGAAGCCTTTGGCC
GTATAAAAGAGGCCCTGCTATCGGCCCCCGCCCTGGCCCTTCCGGACCTCACCAAGCCAT
TTGCTCTGTACGTGGATGAAAAAGAGGGTGTTGCCCGGGGGGTGCTTACTCAAACCCTAG
GACCATGGCGACGCCCGGTAGCTTACCTGTCAAAAAAATTAGATCCGGTGGCCAGTGGGT
GGCCAACTTGCCTAAAAGCAATTGCGGCCGTAGCACTCCTTCTCAAGGACGCTGATAAGT
TAACCCTAGGACAGAACGTGTTGGTGATTGCACCTCACAACCTGGAAAGTATTGTGAGAC
AGCCCCCCGACCGATGGATGACAAATGCCAGGATGACCCATTACCAAAGTCTGCTGCTGA
ATGAGAGGGTGTCTTTTGCGCCCCCGGCCATTCTGAATCCTGCCACCCTGCTCCCCGTAG
AGTCAGACGACACCCCAATACACATATGCTCAGAAATCCTTGCCGAGGAGACAGGAACCC
GACCTGATCTGAGAGATCAGCCGTTGCCCGGGGTACCCGCTTGGTATACGGATGGCAGCA
GTTTCATCATGGATGGCAGGCGACAAGCAGGTGCTGCCATTGTGGACAACAAGCGGACGG
TGTGGGCGAGCAACCTGCCAGAGGGAACGTCAGCTCAGAAGGCCGAACTAATCGCCTTGA
CACAAGCATTACGCTTGGCCGAAGGAAAAAGCATCAACATCTACACGGACAGCAGGTACG
CTTTTGCCACCGCTCATGTTCACGGGGCTATATACAAACAAAGAGGACTGCTCACCTCCG
CTGGAAAAGACATCAAGAACAAAGAGGAGATTTTGGCCCTGCTAGAGGCCATCCATCTCC
CTAAGCGAGTCGCTATCATCCATTGCCCCGGCCACCAAAGAGGGACTGACCCTGTGGCTA
CCGGAAACCGAAAGGCCGATGAGGCCGCGAAACAAGCTGCCCAGTCAACCAGAATACTGA
CGGAGACCACGAAAAATCAAGAACACTTCGAGCCTACACGGGGGAAGATCAAGCCGAGAG
AGCTCACCCCTGACCAGGGAAGGGAATTCATTCAACGGCTGCATCAGCTCACGCACTTAG
GGCCAGACAAGCTTCTCCAGCTTGTAGGTCGCACCAGTTTTCACATCCCGAATCTCCAGT
CTGTAGTGCGTGAAATCACCAGCAAGTGTCAGGTTTGTGCTGTAACTAACGCAGTCACCA
CCTACCGAGAGTCTGGAAGGAGGCAAAGGGGAGATCGACCCGGCGTGTATTGGGAAGTAG
ACTTCACAGAGGTTAAGCCTGGCCGGTATGGTAATAGATATTTGCTAGTGTTTATCGATA
CATTTTCTGGGTGGGTAGAAGCTTTCCCTACAAAAACAGAGACAGCCCTGACCGTCTGCA
AGAAGATACTTGAGGAAATCCTACCTCGTTTCGGGATCCCTAAGGTACTCGGGTCCGACA
ATGGCCCTGCCTTCGTTGCTCAGGTAAGCCAGGGGTTGGCCACTCAACTGGGGATTGATT
GGAAATTACATTGTGCATATAGACCCCAGAGCTCAGGTCAGGTAGAAAGGATGAATAGGA
CAATTAAAGAGACCTTGACAAAATTGGCCTTAGAGACCGGTGGAAAAGACTGGGTGACCC
TCCTCCCTTTGGCGCTACTTAGGGCCCGGAATACCCCTGGCCAGTTTGGCCTGACTCCTT
ATGAGATTCTTCATGGGGGGCCGCCCCCTGTACTTGCGTCTGGGGAAGTCGTGGGTTCTA
ATGGTGATTTTTTTCCCGTTCTATTTACCCACTTGAAGGCTTTAGAGGTTGTGAGGACTC
AGATCTGGGACCAGATAAAAGAAGCCTACAGGCCTGGTACTGTGGCCATTCCCCACCCGT
TCCAGGTCGGTGACCGAGTGCTGGTTAGACGTCATCGGTCCGGCAGCCTTGAGCCTCGGT
GGAAAGGCCCATACCTGGTGCTACTGACCACCCCGACCGCGGTGAAGGTTGACGGTATTG
CTGCCTGGGTCCATGCTTCTCATCTCAAACCCGCGCCACCTGGGGCACCCGATGAGTCCT
GGGAACTGGAAAAGACTGATCATCCTCTTAAGTTGCGTGTTCGGCGGCGCCGAAATGAAT
CAACAGCATAACAACCCTCACCAACCCATGACTCTCACCTGGCAGGTACTGTCCCAGACG
GGAAGTGTCGTTTGGGAAAAGAAAGCAGTCGAGCCACCCTGGACGTGGTGGCCCTCTCTT
GAGCCTGATGTGTGCGCGCTGGTAGCCGGTCTCGAGTCCTGGGACATCCCGGAACTCACT
GCATCGGCCTCTCAACAGGCCAGGCCCCCTGATTCAAACTATGAACATGCTTATAATCAG
ATCACTTGGGGAACCCTGGGATGTAGCTATCCCCGGGCCAGAACAAGAATTGCTAGGTCC
CAGTTCTACGTGTGCCCCCGGGATGGCCGTTCCCTGTCCGAGGCCCGGAGGTGCGGAGGA
CTTGAATCTTTGTACTGTAAAGAGTGGGGTTGTGAGACCGCGGGAACCGCCTACTGGCAA
CCCCGGTCCTCGTGGGACCTTATAACTGTAGGCCAGGGTCACCCTACAGGGACATGCGAG
CGCACCGGTTGGTGCAACCCACTCAAGATAGAGTTCACCGAGCCTGGCAAACGGTTCCGA
AACTGGCTACAGGGGCGAACCTGGGGTCTAAGGTTCTATGTGACTGGACACCCAGGCGTG
CAGTTGACCATACGACTAGTGATCACAAGTCCCCCACCGGTAGTAGTGGGCCCCGATCCT
GTCCTCGCAGAACAAGGACCTCCCAGAAAAATTCCCTTCCTCCCCAGAGTGCCGGTTCCT
ACCCTATCACCCCCAGCGTCCCCTATCCCCACGGTACAGGCTAGCCCCCCGGCCCCTAGT
ACTCCATCTCCCACCACGGGCGACCGGCTCTTTGGCCTCGTACAAGGGGCCTTTCTGGCC
TTGAATGCCACCAACCCGGAGGCCACGGAGTCTTGCTGGCTCTGTCTAGCCCTCGGCCCT
CCTTATTACGAAGGAATCGCAACTCCAGGGCAAGTCACTTATGCCTCCACAGATTCCCAA
TGTCGCTGGGGAGGAAAAGGGAAGCTCACCCTCACTGAAGTCTCTGGACTCGGGTTATGT
ATAGGGAAAGTACCTCCTACTCACCAACATCTCTGCAACCTGACTATACCCTTAAACGCC
TCACATACTCACAAGTACCTCCTCCCCTCCAACCACAGCTGGTGGGCTTGTAATTCTGGC
CTCACCCCCTGCCTCTCTACATCAGTCTTCAACCAGTCTAACGATTTCTGTATCCAGATC
CAGCTTGTCCCTCGCATCTACTATCACCCAGACGGTACCTTGCTACAGGCCTATGAGTCC
CCCCACCCTAGAAACAAGAGAGAGCCTGTCTCACTCACCCTGGCTGTCCTTCTCGGATTA
GGGGTCGCAGCAGGTATAGGTACCGGCTCGACCGCCCTAATAAAAGGGCCCATAGACCTC
CAACAAGGTTTGACTAGCCTCCAGATTGCCATGGATACAGACCTTAGGGCCCTTCAAGAC
TCCATAAGTAAACTAGAGGATTCCTTAACCTCCCTGTCTGAAGTAGTGCTCCAGAATAGG
AGAGGCCTTGATCTGCTATTTTTGAAGGAAGGGGGCCTTTGTGCAGCCCTAAAAGAGGAA
TGCTGTTTCTATGTTGACCACTCAGGCGCGGTGCGAGACTCCATGAGGAGACTCAAGGAA
AGGTTAGATAAGAGGCAGTTAGAGCACCAAAAGAATTTAAGTTGGTACGAGGGATGGTTC
AACCGTTCCCCCTGGCTTACTACTTTACTGTCTGCCCTTGCTGGTCCCCTGCTACTCCTC
CTTCTGTTACTCACCCTCGGGCCTTGTGTCATCAATAAGTTAGTGCAATTCATCAATGAT
AGGGTTAGTGCAGTAAGGATTCTGGTTCTCAGGCACAAGTACCAGACCCTAGACAACGAG
GATAACCTTTAATTCTGCTCTATGATTAGAGCTACCCTCAAAGAAAATGGGGGAATGAAG
GAGG
Analyses
This mRNA is derived from or has results from the following analyses
Analysis Name Date Performed
trinity assembly of QUT KoRV RNASeq data 2014-03-12
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