General information for g1059.t1
Yuki Yoshida
22/1/2022
Gene loci information
Transcript annotation
- This transcript has been annotated as Dynein heavy chain, cytoplasmic.
Parent gene
- The parent gene g1059 is located on chr_3: 7905192..7918349 (+ strand)
Gene structure
- The exon-intron structure of all isoforms are indicated below. CDS regions are colored in green. TSS and TTs that were predicted with CTR-Seq data are indicated in solid circle and squares, respectively. More specific data are shown in the table below.
| Chromosome | Gene | Transcript | Category | ID | Start | End |
|---|---|---|---|---|---|---|
| chr_3 | g1059 | g1059.t1 | TSS | g1059.t1 | 7902016 | 7902016 |
| chr_3 | g1059 | g1059.t1 | isoform | g1059.t1 | 7902120 | 7918349 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon1 | 7902120 | 7902366 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS1 | 7902120 | 7902366 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon2 | 7902623 | 7904011 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS2 | 7902623 | 7904011 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon3 | 7904069 | 7904585 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS3 | 7904069 | 7904585 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon4 | 7904640 | 7904850 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS4 | 7904640 | 7904850 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon5 | 7905192 | 7905650 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS5 | 7905192 | 7905650 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon6 | 7905714 | 7908577 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS6 | 7905714 | 7908577 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon7 | 7908634 | 7908941 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS7 | 7908634 | 7908941 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon8 | 7909001 | 7909581 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS8 | 7909001 | 7909581 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon9 | 7909782 | 7910017 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS9 | 7909782 | 7910017 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon10 | 7910083 | 7911437 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS10 | 7910083 | 7911437 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon11 | 7911493 | 7912219 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS11 | 7911493 | 7912219 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon12 | 7912278 | 7913227 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS12 | 7912278 | 7913227 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon13 | 7913674 | 7913872 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS13 | 7913674 | 7913872 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon14 | 7914222 | 7914339 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS14 | 7914222 | 7914339 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon15 | 7914398 | 7915891 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS15 | 7914398 | 7915891 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon16 | 7915946 | 7916687 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS16 | 7915946 | 7916687 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon17 | 7916747 | 7917754 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS17 | 7916747 | 7917754 |
| chr_3 | g1059 | g1059.t1 | exon | g1059.t1.exon18 | 7917811 | 7918349 |
| chr_3 | g1059 | g1059.t1 | cds | g1059.t1.CDS18 | 7917811 | 7918349 |
| chr_3 | g1059 | g1059.t1 | TTS | g1059.t1 | 7918469 | 7918469 |
Sequences
>g1059.t1 Gene=g1059 Length=13944
ATGGGAGATTCTTTGGAAAACATCGATCAACCGATTGAAAGTCAGCAGAATGTATCAATC
GTTGATCAAAAAGCATTTAACAACTATTTGCGAAAATGTGTTAATCTTTTCTTTGATGAC
GAGGAATTTAATTCTACAAAGTTAGAAGAAGCTCTAGATGAGAATAGAGCTAATCAAGAA
TGCATTAAAAAGTTTCTTTCTGATCCTCAAGTGCAAACTCTATACATCCAGAAGTCTTCT
AGTAAGGATGATGAAGGCGATCAAGCTCAAGAGGGTGAAGAAGAAAAAGAATCTTCTCAA
TATTACATCAGCAATGAGGTTCATTTTACTAATCCTCGTTATCAATCACTTGTTTGTGTA
AAGAGAGGAACTGTAATTGAAGCTGACAAGTCTATTCATTCGCAATTGAGACTCATTAAT
TTCTCGGAGGGATCGCCTTATGAAACGCTTCATTCGTACATAAGCAAAACACTTGCACCA
TACTTCAAGAGCTATGTCAAAGAATCAGGTAGAGCAGATCGAGATGGAGATAAAATGGCA
CCTTCTGTCGAAAAGAAATTGGCTGAGTTAGAAATGGGCTTACTCCATCTTCAACAAAAT
ATTGACATTCCTGAAATAACTTTACCAATTCATCCAACTGTTCAGTCTATCATTAAACGC
TGTGCTGATGAAGGACGTAAAGCGAAAGTTGGCGATTTTGGAGATAGAGTTGATGATTCT
TCTTTTTTAAATCAACTGCAGAATGGTGTGAATCGTTGGATTAAAGAAATTCAAAAAGTC
ACCAAACTTGATCGTGATCCATCATCTGGAACTGCATTGCAAGAAGTTTCATTCTGGCTC
AATCTCGAGCGTGCTCTTTATCGTATTCAAGAGAAACGTGAATCTTTGGAAGTTGCATTA
ACTCTGGATATCTTAAAACATGGCAAAAGATTTCAAGCTACTGTCGCTTTCGATACTGAT
ACTGGACTTAAGCAAGCACTTTCAATGGTCGCCGATTATAATCCGCTAATGAAAGATTTT
CCTATCAATGACTTGCTTTCTGCTACTGAATTGGATCGCATTCGTTCTGCTGTTCAATTA
ATTTTCTCTCATTTGAGGAAAATTCGTAACACTAAATATCCGATTCAACGAGCTTTGCGA
TTGATTGAAGCAATTTCTCGTGATTTGAGTCAACAATTGTTGAAAGTTCTTGGCACTCGT
CGTTTAATGCATATTCCATTTGATGAATTTGAACGTGTGATGAATCAATGTTTCGAAATA
TTTTGCTGCTGGGATGATGAATATGAGAAATTGCAAGGATTGTTGAGAGATATCGTTAAG
AAGAAGCGTGATGAGCATTTAAAAATGGTTTGGCGAGTAAATCCAGCTCATAAGAAGCTT
CAACAAAGAATGGAACATATGCGTAAATTCAGACGTCAGCATGAACAATTGCGCACTGTT
ATTGTGAGAGTTTTAAGACCAACTCGTCAACAATCAAATCAGCCAGCTGATATACCAATC
GATTCTAAACCATCATTAGAAGCAGCTGATGCAAATGCAATTGAAGAAGTTAATTTGGCT
TATGAGAATGTTAAGGAAGTTGAATGTTTGGACATTTCTAAAGAAGGCTCTGAAGCTTAT
GATGCTGCTGTTAAACGCTATGAAGAGCGTATTGATAGAGTTGAAGCAAGAATTACTGCA
CATTTGCGTGATCAACTTGGAACAGCAAAGAATGCCAACGAAATGTTTAGAATTTTTTCT
CGATTCAATGCTCTATTTGTTCGTCCTCATATTCGTGGTGCAATTCGAGAATATCAAACA
CAATTAATTCAGCGTGTAAAAGATGATATAGAAGGACTTCATGAGAAATTCAAGGTTCAA
TATCCACAAAGTAAAAGTTGTCGATTGTCAGTCGTTCGCGATTTGCCACCTGTTGCTGGC
TCAATAATATGGGCAAGACAAATTGATAATCAATTGACAATGTACTTGAAACGTGTTGAG
GATGTTTTGGGAAAAGGCTGGGAATCGCATATTGATGGTCAGAAACTGAAAAATGATGGA
GATAGTTTCCGTGCAAAATTATCAACTAACGAATTGTTCATGGATTGGGCAAGAAAAGTC
CAAGAAAGAAATCTTGGGATTACTGGTCGTATTTTCTTGATTGAAACTGCAAGATCCCGC
ACACGAAGTGGAAATACTTTGAAGCTCAAAGTAAATTTTCTTCCTGAAATCATTACTCTT
TACAAGGAAGTTAGAAATTTAAAGAGCTTAGGCTTTCGTGTTCCATTGGCAATTGTTAAT
AAGGCGCATCAAGCTAATCAAATTTATCCATTTGCTATTTCATTGATTGAATCCAATCGC
ACTTATGAAAGAACTTTAGATAAGATTGAAGATCGTGCAAGTATTGTTCCATTAGTTGCA
CAATTGCGCAAGGATGTTCTTAATTTGGTGTCTGAAGGAATTGCTCTTGTATGGGAAAGC
TACAAACTTGACACTTATGTACAACGTTTATCTGAAGCAGTAACTCAATTTCAAGAAAAA
GTTGAAGATCTTTTGGTTGTTGAAGAGCAATTGGATGTTGATATTCGTTCTTTGGAAACA
TGTCCTTATAGTGCTGCGACATTTGCTGATATTTTGTCAAAGATTCAACATGCTGTCGAT
GATTTGTCATTGCGTCAATATTCAAATTTGCATGTTTGGGTTCAACGTTTGGATGAAGAA
GTTGAAAAGAAACTAGCTGCTCGCTTGCAAGCTGGTATTCAAGCATGGACAGATGCATTG
ACTGGAAATAAGAAAGATGTTGATTTATCAATGGACACTGATGCACCAGTGCAACCAACA
ATTAAACCTGGCGGTGATCCACAAATTCAAAATGCGATCCATGAAATCAGAATCACAAAT
CAACAAATGTATCTCTTCCCTTCGATCGAAGAAGCTCGATTCCAAATTATGCAACAGCTA
TTTGCTTGGCAAGCAATTGTTACATCACAAACTCGTTTGCAAAGTTCTCGCTATCAAGTT
GGTTTGGATAAGCCAGTATCGCAGACTTATAGAAATTTGTTGACGAAATTGCCGGGTGGT
TCTGAACCATTGGAGGCTGGATATGCAGCAATTGATAGCAAAATGTCTGAAATTCGTGCA
TATGTTGATGAATGGCTTCGTTATCAGTCATTGTGGGACTTGCAACCTGATGTTCTTTAT
GGTCGTTTAGGTGAAGACATTAATTTGTGGATTAAGTGCTTGAATGATATCAAGAAATCA
AGAACAACTTTCGATACAAGCGATACACGTCGTGCTTATGGACCAATTATCATTGACTAT
GCAAAAGTTCAAGCTAAAGTTACATTGAAATACGATTCATGGCATAAAGAAGCATTGAGC
AAATTTGGACAACTTTTGAGTAATGAAATGAGTACTTTCCATACTAAAGTTTCAAAATCT
CGTACTGATTTAGAGCAGCAATCGATTGAGGCAGCAAGTACATCTGATGCTGTAACTTTC
ATTACTTATGTTCAATCGCTGAAGAAAGAAATGCTTGTATGGGATAAACAGGTTGAAGTT
TATCGTGAAGCTCAAAGAATTTTAGAACGTCAGAGATTCCAGTTTCCAAATAATTGGCTT
CATGTTGATAATATCGAAGGAGAATGGTCAGCATTCAATGAAATTATGAAACGCAAAGAT
TCTGCTATTCAAACACAAGTTGCAAGTCTTCAATCAAAAATTGTTGCTGAAGATAAAGCT
GTTGAGACAAGAACAGTTGAATTCCTCAATGATTGGGAAAAGAACAAACCAACAGCTGGT
CGAACTCGTCCTGATGAAGCTCTTCAACAATTGCAAATTTTCGAGACAAAATTCTCTCGA
TTGAAGGAGGAACGAGATAATGTTGCAAAAGCAAAGGAAGCACTTGAACTTCAAGAGTCC
GCTATTCCAAATAATAGCTCTGAGCGCATGAGTGTTGTTTTAGAAGAATTGCAAGATTTG
AGAGGTGTATGGAGTGAATTGGCAAAGATTTGGCAACAAATTGATGAAACTCGTGAAAAG
CCTTGGTTATCTGTTCAACCTCGTAAATTGCGTCAAAGCTTGGAAGCTATGATGAGTCAA
TTGAAAGAATTGCCAGCACGTTTGCGAATGTATGAATCATTTGAATATGTCAAGAAGCTT
TTGCAAAGCTACATCAAAGTTAATTTGTTGATTGTTGAACTTAAATCTGATGCTTTGAAG
GAACGTCATTGGAAACAATTGACAAAACAGTTGCGTGTAAGCTGGAATTTGTCTGATTTA
ACCCTTGGACAAGTTTGGGATGTCAATTTGTTGAAGAATGAAAGTATTGTGAAAGACATA
ATTTTGGTCGCACAAGGTGAAATGGCATTAGAAGAGTTCTTGAAACAAGTTCGTGAATCG
TGGCAAAACTATGAGCTCGATTTAATCAATTATCAAAATAAATGTCGAATTATTCGTGGA
TGGGATGATTTGTTCAATAAAATCAAAGAACACATTAATTCTGTTGCTGCTATGAAACTT
TCACCATATTACAAAGTTTTTGAAGAAGAAGCATTGACATGGGAAGAGAAATTAAATCGT
ATTAACTCGTTATTCGATGTCTGGATTGATGTTCAAAGGCGTTGGGTTTATCTTGAAGGA
ATTTTTAGTGGTTCAGCTGATATTAAGACACTCTTGCCTGTTGAAACAAGTCGTTTCCAG
AGTATTAGTTCTGAATTTTTGGGATTGATGAAGAAAGTAGCAAAATCACCGAAAGTTATG
GATGTCTTAAATATCCCAGCTGTTCAAAGATCACTTGAACGTTTAGCTGATTTACTTGGA
AAAATTCAAAAAGCTCTTGGTGAATATTTAGAACGTGAAAGAACATCATTCCCAAGATTC
TATTTTGTTGGTGACGAAGATTTGTTGGAAATTATTGGTAACAGCAAAAACGTTGCTCGC
TTGCAAAAGCATTTCAAGAAAATGTTTGCTGGAATTGCTTCAATTATTTTGAATGAAGAT
AACACAATTATTCTTGGAATCGCATCACGTGAAGGAGAAGAAGTCAGTTTCATTCGTCCA
GTTTCAACTGTTGAACATCCAAAAATCAATGAATGGCTTACACTTGTTGAAAAAGAAATG
AGATTTACACTTGCTTCTTATTTAGCTCAAGCTGTTCAAGATATTAAGCAATTCAAAGAT
GGTCCAATTGATTCGCAAAAGTTCATGGAATGGTGCGATAAATATCAAGCACAGATTGTA
GTTCTTGCTGCACAAATCTTGTGGTCTGAAGATGTAGAAAGTGCATTGCAGCAAGCTCAA
GATAATCCAGGAAAAAATCCGTTAAATCGTGTGTTGTCATCCGTTGAATCGACATTGAAT
GTCTTAGCAGATTCAGTTTTGCAAGAACAACCACCATTGCGACGAAAGAAACTAGAGCAT
TTAATTAATGAATTTGTGCATAAAAGAACTGTCACAAGACGTTTACTGAATGCTGGTGTT
AATAATCCAAAATCATTCCATTGGCTTACTGAAATGCGTTTCTACTTTGATCCTCGTCAA
ACTGAAGTTTTAGAACAATTGACAATTCATATGGCAAATGCAAGATTCTATTATGGATTC
GAATATTTGGGAGTTCAAGATCGTCTTGTTCAAACACCTTTGACTGATCGTTGCTATCTT
ACAATGACACAAGCTTTGGAAGCCAGATTAGGTGGTTCACCATTTGGCCCTGCCGGCACA
GGCAAAACAGAGAGTGTGAAAGCACTTGGAAATCAACTCGGTCGTTTCGTTCTCGTTTTC
AATTGTGATGAGACTTTTGACTTCCAAGCAATGGGAAGAATTTTTGTTGGTTTATGTCAA
GTCGGGGCATGGGGATGTTTTGATGAATTCAATCGATTGGAAGAGAGAATGCTTTCTGCT
GTTTCTCAGCAAATTCAAACAATTCAAGAAGCACTCAAATCTCAAAGCGATTCAAAAACT
ACAATCAGTGTAGAATTAGTTGGAAAACAAGTTCGTGTGAGCACTGATATGGCGATTTTC
ATTACTATGAATCCTGGTTATGCTGGACGTTCAAATCTTCCTGATAATTTGAAGAAACTC
TTCCGATCACTTGCAATGACAACACCTGATCGTCAATTGATTGCTGAAGTTATGTTATTC
TCTCAAGGATTTAGAACAGCAGAGAAACTCGCATGTAAAATTGTTCCATTCTTCAAATTG
TGCGATGAACAATTGAGCAATCAATCACATTACGATTTCGGTTTGAGAGCATTGAAATCA
GTTCTTGTATCAGCTGGTAATGTGAAACGTGATCGAATTATGAGAATAAAAGACAACATG
AGACAAGCTGGTGAAGAAAATATTGATGAAGGCACAATTGCTGAAAATCTACCAGAGCAA
GAAATTCTCATTCAGTCTGTTTGTGAAACAATGGTTCCAAAACTTGTTGCTGAAGATATT
CCATTACTTTTCTCACTCTTGAATGATGTATTCCCGAATGTTGGCTATACTCGTGCAGAA
ATGAAAGGACTTAAGGATGAAATCAAGAAAGTTTGTGCTGAAGAATATCTCGTTACTGGC
GAAGGTGATGAACAAGGAGCAGCTTGGATGGAAAAGGTTCTTCAACTTTATCAAGTATCA
ATCATTTCTCATGGTTTAATGATGGTTGGACCTTCAGGATCTGGTAAATCGACAGCATGG
AAAGTGTTATTAAAAGCTCTCGAAAGATATGAAGGTGTTGAAGGAGTTGCTCATGTAATT
GATCCTAAAGCAATTTCTAAAGAAACACTTTATGGTGTTCTTGATCCAAATACAAGAGAA
TGGACTGATGGTCTTTTTACTCACATTTTGAGAAAAATTATTGACAACGTTCGTGGTGAA
ATCAATAAACGTCAGTGGATTATTTTTGATGGTGATGTAGATCCAGAATGGGTTGAAAAT
CTTAACTCTGTACTTGATGATAACAAATTGCTTACATTACCCAATGGTGAACGTCTTTCA
TTGCCACCAAATGTTCGTATTATGTTTGAAGTTCAAGATTTGAAGTATGCAACATTGGCT
ACTGTTTCTCGTTGCGGTATGGTTTGGTTCAATGAAGATGTATTAAGTACTGAAATGGTG
TTTGAAAATTACTTTGCTCGCATCAAGAGTATTCCATTGGAAGAAGGAGAAGACGACAGT
TTCCTTCAGCCAGCTGCAAAAGCCAATAAAGAGAAGGAAGAAGAATTGTCACCAGCTCTT
CAAACACAAAGAGAAATTGCAGCTTTTCTTCAACCATATTTCTCAGCTGATGGTATTGTT
GTTCGCTGTTTAGAATATGCACTAACACAAGAGCACATTATGGATTTCACTCGATTACGT
GCATTAGGATCATTATTCTCTATGTTAAATCAAGGAATCAGAAATGTATTAGCTTATAAT
CAACTTCATCCTGATTTCCCACTTGCTTCTGAAAAACTTGAACAATATATTCCTCGACAT
TTAGTTTATTCAATCTTATGGTCATTTGCTGGTGATGCAAAATTGAAAGCTCGTATTGAT
TTGGGTGATTTTATTAGATCAATCACAACAATTCCACTTCCATCTCAAAGTGGTGCACCA
ATCATAGATTACGAAGTTACAATTCAAGGAGAGTGGCTTCCATGGTCAAATAAAGTTCCA
GTCATTGAAGTTGAAACCCATAAAGTTGCTGCTCCAGATATTGTGGTACCCACACTTGAT
ACAGTTCGTCATGAATCACTTCTTTACACTTGGCTTGCTGAACATAAACCATTGGTTTTA
TGTGGTCCACCAGGCAGTGGTAAAACTATGACACTCTTCTCGGCTTTGCGTGCTTTGCCT
GATATGGAAGTCGTTGGTCTTAACTTTTCATCAGCTACAACACCAGAACTTTTGTTGAAA
ACATTTGATCATTATTGTGAATATCGAAAAACACCAAATGGTGTAGTTCTTGCACCAGTT
CAAATCGGAAAATGGCTTGTTCTTTTCTGTGATGAAATCAACTTACCGGACATGGACGCT
TATGGGACACAGAGAGTCATTTCATTCTTGCGACAACTTGTTGAACACAAAGGATTTTAT
CGTGCATCTGATCAGAGCTTTGTTATGCTTGAAAGAATTCAATTTGTTGGTGCTTGTAAT
CCACCTACTGATCCTGGGCGAAAACCACTTTCTCATCGCTTCTTACGTCATGTTCCAATT
ATTTATGTCGATTATCCTGGTGAAACATCATTAAAGCAAATTTATGGAACATTTTCACGA
GCAATGTTGAGAATGATGCCGAGCTTGAGAGGATATGCTGAACCATTGACAAATGCTATG
GTTGAATTTTATTTAGCATCACAAGATCGCTTTACTCAAGATATGCAGCCGCATTATGTT
TACTCACCTCGTGAAATGACAAGATGGGTGAGAGGAATTTGTGAAGCAATTCGACCACTT
GACAATTTGCCGATTGAAGGATTAGTTCGATTATGGGCACATGAAGCTTTGAGATTGTTC
CAAGATCGACTTGTTGAAGAATCAGAAAGACGTTGGACAAATGAGAATATTGATGTTGTA
GCAATGAAGCATTTCCCATCAATTGACAGAGAGAAAGCTCTTGAGCGTCCAATTTTGTAT
TCGAACTGGTTATCAAAAGATTATGTTCCAGTTAATCGTCAAGAATTGCGTGATTATACT
AAAGCAAGATTGAAAGTTTTCTATGAAGAAGAATTGGATGTTCCACTTGTACTTTTCGAT
GAAGTTTTGGAACATGTATTGAGAATCGATCGTATATTTAGACAACCACAAGGGCATTTA
CTCTTAATTGGAGTTTCAGGAGCAGGAAAAACAACTTTGAGTAAATTTGTTGCATGGATG
AATGGATTGAGTATTTTCCAAATTAAAGTTCATAATAAATATAGTGGTAATGATTTCGAT
GAAGATTTAAGAACTGTTTTACGTCGATCGGGATGCAAAGATGAAAAGATTTGTTTCATT
CTTGATGAGTCTAATGTTTTAGAGTCTGGATTTTTGGAAAGAATGAATACACTCTTAGCC
AACGGAGAAGTTCCTGGATTGTTTGAAGGCGATGAATTTACAACACTCATGACTCAATGT
AAAGAAGGAGCACAACGTGAAGGTTTAATGCTTGATTCAGTTGATGAACTTTACAAATGG
TTTACACAACAAGTAATGAAGAATTTGCATGTTGTATTTACAATGAATCCAAGTACTGAT
GGTTTGAAAGATCGTGCAGCAACATCACCTGCTTTGTTTAATCGTTGTGTTCTCAATTGG
TTTGGTGATTGGTCTGATTCAGCATTGTTCCAAGTTGGCAAAGAATTTACAATTCGTATG
GATTTGGAGAGATCAAATTGGATTGCACCAGATTTCTTCCCATCAGCATGTCCCAATATT
CCGGCATCACCATCACATCGAGATGCAGTTATCAATGCTACAGTTTATGTCCATCAAACT
CTTCATCGTGCAAACTCACGTTTAGCTAAGAGAGGATCTCGAACAATGGCAATTACACCT
CGACATTTTCTCGATTTTATTCATCACTTTGTCAAGTTGTATGGTGAAAAGAGAAGCGAT
TTGGAAGAACAACAGCTTCATCTTAATGTCGGTTTAAATAAAATTGCTGAGACTGTAGAG
CAAGTTGAAGAATTACAAAAATCTTTGGCTGTCAAAAAAGAAGAACTTCAACAAAAGAAC
GACGCTGCCAACTCAAAATTGAAGCAAATGTTTAAAGATCAACAAGAAGCTGAGAAGAAG
AAGGTTCAATCTCAAGAGATTCAACAACAACTTGCTGAACAAACAATCAAGATTGAAGAA
AAGAGAAAAGATGTCATGGCAGATTTAGCTTTGGTAGAACCAGCAGTTATAGAAGCACAG
CAAGCTGTGAAATCGATTAAAAAACAGCATCTCGTCGAAGTTCGTTCTATGGCAAATCCA
CCAGCTATTGTGAAATTAGCACTTGAGTCCATCTGTCTGCTGTTGGGCGAAAACGCTTCT
GATTGGAAATCTATTCGCGCTGTCATTATGCGAGAAAATTTCATTAACTCTATTGTATCT
AACTTTAGCACAGAAGATATCACCGATGACGTGAGAGAAAAGATGAAGAACAGATATTTG
AGTAATCCTGATTACAACTTCGAGAAGGTTAACAGAGCGTCAATGGCATGTGGACCAATG
GTTAAATGGGCGATTGCACAGGTTGAATATGCTGACATGTTGAAACGAGTTGAACCATTG
CGTGATGAACTTAGTTCACTCGAAAAGCAAGCTGAATCTAATGTTAAGCATGGAAAGGAA
GTTAAAGAACTCATTGCACAATTAGAGCAATCGATTGCAGCCTATAAAGAAGAATATGCT
CAACTTATCTCTCAAGCTCAAGCCATCAAAGCAGATTTGGAGAATGTACAAGCTAAAGTC
GATCGTTCTATTGCATTACTTAAGAGCTTGGTTATTGAAAGAGAGCGATGGGAAGCAACA
AGTGAAACGTTTAAATCACAAATGTCTACAATCATTGGTGACACATTGTTATCAGCGGCT
TTCATCGCATACGGTGGTTATTTTGATCAACATTATCGTAGCAATCTCTTCTTAACTTGG
AGTCAACACTTAACATCAGCCAACATTCAATTCAGACCTGATATTGCACGAACTGAATAT
CTTTCTAATCCAGATGAAAGACTTCGTTGGCAAGCAAATGCATTACCTACAGATGAGTTA
TGCACTGAAAATGCAATTATGTTGAAACGCTTCAATAGATATCCGTTGATTATCGATCCA
TCTGGGCAAGCAACAGACTTTATCATGAACGAATTCAAAGACCGCAAAATCACAAAGACA
AGCTTCCTTGACGATTCATTCCGTAAGAATCTTGAATCAGCACTTCGATTCGGTAATCCA
TTGCTCGTGCAAGATGTTGAAAATTATGATCCAATTTTGAATCCAGTGCTTAATCGTGAA
TTGAGAAGAACAGGTGGTCGTGTGCTTATAACATTGGGAGATCAAGATATTGATTTGTCA
CCATCATTTGTCATTTTCTTGTCTACACGAGATCCAACTGTAGAATTTCCGCCAGATATC
TGCTCACGTGTTACTTTTGTCAACTTTACTGTCACTAGAAGTTCATTACAATCACAATGT
TTGAATCAAGTATTGAAGGCAGAACGACCAGATATCGATCAAAAGAGATCAGATTTGATG
AAATTGCAAGGAGAATTCAGATTGCGATTGAGACAACTTGAAAAGAGTTTATTGCAAGCA
CTCAATGATGCTAAAGGAAAGATTTTGGATGATGATTCAGTAATTACAACATTAGAAACA
TTGAAACGTGAAGCTGCAGATATTGAGCAGAAAGTTCAAGAGACAGACAAAGTTATTGCA
GAAATTGAAACAGTTTCACAACAATACATGCCACTTTCACAAGCATGCAGCAACATCTAC
TTTACTATGGACTCACTCAATCAAATTCACTTTTTGTATCAATATTCTCTCAAAATGTTC
TTGGACATTTTCTCAACTGTTCTTTACAACAACAGTCGTTTGGAAGGGAAAACTGATTTT
GCTGAACGTTTGTCTATTATTACAAATCATCTATTCTCAGTTTGTTATGAACGAGTTGCA
CGTGGTATGCTTCACAATGATCGTTTGACATTTGCTATTTTGTTATGCCGCATTCATCTA
AAAGGAACTTCTGAGCCAAATTTGGATCAAGAATTCAATTTCTTCTTACGCAACAAAGAA
GGACTTGTTTCATCATCTGATGGACAACATATTGATGGTGTTTCAAGTGAACAACTTGAA
TCAATTACACGCCTTTCAACACGATTACCAATCTTCAGAAAATTGATTGAAAAGATTAAA
AGCATGCCAGAATTGACAGCATGGCTTCAACAAGGATCACCAGAACTTAATGTTCCGCAA
TTATGGGACGAAAGCAAAGCTCTTTCTCCGATTTCAGCAGCGCTGCATCAACTCTTATTG
ATACAAGCATTTAGACCTGATCGTGTTATTGCTGCTTCTCAAGTATTCGTATCAACTGTA
ATGGGAAGTGATTTTATGCCACTTGCTGAACAAGAATTAGATTTTGCTTCCTGTGTCGAG
CAGCAATTAAATGCAAATACACCTGCATTACTTTGCAGTGTCACTGGTTTTGATGCTAGC
GGTAGAGTTGATGATTTAGCGGCTGAATTGAATAAACAAATATCGAGCATTGCAATTGGA
TCAGCTGAAGGTTTCAATCAAGCTGATCGTGCAATCAATATGGCATGTAAAACTGGCAAA
TGGGTTATGCTAAAGAATGTTCATCTTGCACCACAATGGCTTGTTCAATTGGAGAAAAAA
TTACACTCGCTCACTACTCATCCTGGCTTCCGTTTGTTCTTGACAATGGAAATTAATCCT
AAAGTTCCAGTCAACTTGCTTCGCTATGGTCGCATCTTTGTATTTGAGCCTCCACCTGGT
ATTCGTGCTAATTTATTGAGAACATTCTCAACTGTGCCAGCATCAAGAATGATGAAAGCA
CCAAGCGAAAGAGCTCGTCTCTATTTCCTTCTTGCTTGGTTCCATGCCATTGTGCAAGAG
AGATTACGTTATGTTCCACTTGGTTGGGCAAAGAAATACGAATTCAATGAATCAGATTTG
CGTGTTGCATGTGATACGCTCGATACTTGGATTGATGCTACTGCAATGGGACGAACAAAT
TTACCACCAGAAAAAGTTCCATGGGATGCTCTTGTTACTTTACTTTCGCAATCAATTTAT
GGTGGAAAAATTGACAATGATTTTGATCAACGTCTGCTGGGATCATTCTTGTCGAAACTT
TTTACAGCTCATAGTTTTGAAGCTGATTTTGCTCTTGTCGCAAATGTTGATGCAGTCAAT
GGACAGCGACACATTACCATGCCTGATGGTACACGTCGCGATCATTTCTTGAAATGGATT
GAAGGACTTGCTGATAGACAAACACCAAGTTGGCTTGGATTACCAAATAATGCTGAAAAA
GTTCTATTGACTACTCGTGGAACTGATTTGATAAGCAAATTGTTAAAAATGCAACAACTT
GAAGATGATGATGAACTTGCTTATACGTCCCAAGATGACATAATTGATAAATCAGGTGCA
AGCTCATTGAAACAGCAAGAAGATGGAAGACCATCATGGATGAAAGTTTTACATAATAGC
GCACTCACTTGGCTTGAACTTTTGCCAAAGAGTTTGAATACGCTTAAACGTACTGTTGAA
AACATTAAAGATCCACTTTATCGCTACTTTGAGAGAGAAGTTTCATCTGGCGCAAAATTG
CTTCAAACTGTTGTCAGTGATTTACAAGATGTTTTGCTAATTTGTCAAGGCGAAAAGAAA
CAGACCAATTATCATCGTCAAATGCTGAGTGAGCTCGTTCGTGGAATTTTGCCAAAAAGT
TGGCGTCGGTATACAGTACCACTTGGTTGTACTGTAATTCAATGGATAACTGATTTTTCA
CAACGTGTTCAGCAATTGCAGAAAATTTCAAGTTTAGTTTCACAAGCTGGTGCAAAAGAG
TTACAAAGTTTCCCAGTTTGGCTTGGTGGATTGTTCAATCCTGAAGCTTATATAACAGCA
ACACGACAATGTATTGCACAAGCAAATAGTTGGCCACTTGAAGAACTGATGCTTGATGTC
ACAATAACAACTGATACTGATGGAGGACAGTATAAAGATAGTAGTTTTGGTGTTGTTGGT
TTGAAATTACAAGGAGCTCAATGCAAAAATAATCAATTGCTTTTAACTTCTACAATTATG
ATGGACTTGCCTCTTACTTTAATGAGATGGATTCGCATAACTGCTGACAGTGCTAAACAT
GGAAAACTTACATTACCAGTTTATTTGAACTCAACACGATCAGAGTTGCTCTTTACTGTT
GATTTAGCTATTTGCCCAGGTCAAGATCCTCATAGTTTCTATGAACGCGGTGTTGCTGTA
CTCACTTCAACAGCACTTAATTAA
>g1059.t1 Gene=g1059 Length=4647
MGDSLENIDQPIESQQNVSIVDQKAFNNYLRKCVNLFFDDEEFNSTKLEEALDENRANQE
CIKKFLSDPQVQTLYIQKSSSKDDEGDQAQEGEEEKESSQYYISNEVHFTNPRYQSLVCV
KRGTVIEADKSIHSQLRLINFSEGSPYETLHSYISKTLAPYFKSYVKESGRADRDGDKMA
PSVEKKLAELEMGLLHLQQNIDIPEITLPIHPTVQSIIKRCADEGRKAKVGDFGDRVDDS
SFLNQLQNGVNRWIKEIQKVTKLDRDPSSGTALQEVSFWLNLERALYRIQEKRESLEVAL
TLDILKHGKRFQATVAFDTDTGLKQALSMVADYNPLMKDFPINDLLSATELDRIRSAVQL
IFSHLRKIRNTKYPIQRALRLIEAISRDLSQQLLKVLGTRRLMHIPFDEFERVMNQCFEI
FCCWDDEYEKLQGLLRDIVKKKRDEHLKMVWRVNPAHKKLQQRMEHMRKFRRQHEQLRTV
IVRVLRPTRQQSNQPADIPIDSKPSLEAADANAIEEVNLAYENVKEVECLDISKEGSEAY
DAAVKRYEERIDRVEARITAHLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQT
QLIQRVKDDIEGLHEKFKVQYPQSKSCRLSVVRDLPPVAGSIIWARQIDNQLTMYLKRVE
DVLGKGWESHIDGQKLKNDGDSFRAKLSTNELFMDWARKVQERNLGITGRIFLIETARSR
TRSGNTLKLKVNFLPEIITLYKEVRNLKSLGFRVPLAIVNKAHQANQIYPFAISLIESNR
TYERTLDKIEDRASIVPLVAQLRKDVLNLVSEGIALVWESYKLDTYVQRLSEAVTQFQEK
VEDLLVVEEQLDVDIRSLETCPYSAATFADILSKIQHAVDDLSLRQYSNLHVWVQRLDEE
VEKKLAARLQAGIQAWTDALTGNKKDVDLSMDTDAPVQPTIKPGGDPQIQNAIHEIRITN
QQMYLFPSIEEARFQIMQQLFAWQAIVTSQTRLQSSRYQVGLDKPVSQTYRNLLTKLPGG
SEPLEAGYAAIDSKMSEIRAYVDEWLRYQSLWDLQPDVLYGRLGEDINLWIKCLNDIKKS
RTTFDTSDTRRAYGPIIIDYAKVQAKVTLKYDSWHKEALSKFGQLLSNEMSTFHTKVSKS
RTDLEQQSIEAASTSDAVTFITYVQSLKKEMLVWDKQVEVYREAQRILERQRFQFPNNWL
HVDNIEGEWSAFNEIMKRKDSAIQTQVASLQSKIVAEDKAVETRTVEFLNDWEKNKPTAG
RTRPDEALQQLQIFETKFSRLKEERDNVAKAKEALELQESAIPNNSSERMSVVLEELQDL
RGVWSELAKIWQQIDETREKPWLSVQPRKLRQSLEAMMSQLKELPARLRMYESFEYVKKL
LQSYIKVNLLIVELKSDALKERHWKQLTKQLRVSWNLSDLTLGQVWDVNLLKNESIVKDI
ILVAQGEMALEEFLKQVRESWQNYELDLINYQNKCRIIRGWDDLFNKIKEHINSVAAMKL
SPYYKVFEEEALTWEEKLNRINSLFDVWIDVQRRWVYLEGIFSGSADIKTLLPVETSRFQ
SISSEFLGLMKKVAKSPKVMDVLNIPAVQRSLERLADLLGKIQKALGEYLERERTSFPRF
YFVGDEDLLEIIGNSKNVARLQKHFKKMFAGIASIILNEDNTIILGIASREGEEVSFIRP
VSTVEHPKINEWLTLVEKEMRFTLASYLAQAVQDIKQFKDGPIDSQKFMEWCDKYQAQIV
VLAAQILWSEDVESALQQAQDNPGKNPLNRVLSSVESTLNVLADSVLQEQPPLRRKKLEH
LINEFVHKRTVTRRLLNAGVNNPKSFHWLTEMRFYFDPRQTEVLEQLTIHMANARFYYGF
EYLGVQDRLVQTPLTDRCYLTMTQALEARLGGSPFGPAGTGKTESVKALGNQLGRFVLVF
NCDETFDFQAMGRIFVGLCQVGAWGCFDEFNRLEERMLSAVSQQIQTIQEALKSQSDSKT
TISVELVGKQVRVSTDMAIFITMNPGYAGRSNLPDNLKKLFRSLAMTTPDRQLIAEVMLF
SQGFRTAEKLACKIVPFFKLCDEQLSNQSHYDFGLRALKSVLVSAGNVKRDRIMRIKDNM
RQAGEENIDEGTIAENLPEQEILIQSVCETMVPKLVAEDIPLLFSLLNDVFPNVGYTRAE
MKGLKDEIKKVCAEEYLVTGEGDEQGAAWMEKVLQLYQVSIISHGLMMVGPSGSGKSTAW
KVLLKALERYEGVEGVAHVIDPKAISKETLYGVLDPNTREWTDGLFTHILRKIIDNVRGE
INKRQWIIFDGDVDPEWVENLNSVLDDNKLLTLPNGERLSLPPNVRIMFEVQDLKYATLA
TVSRCGMVWFNEDVLSTEMVFENYFARIKSIPLEEGEDDSFLQPAAKANKEKEEELSPAL
QTQREIAAFLQPYFSADGIVVRCLEYALTQEHIMDFTRLRALGSLFSMLNQGIRNVLAYN
QLHPDFPLASEKLEQYIPRHLVYSILWSFAGDAKLKARIDLGDFIRSITTIPLPSQSGAP
IIDYEVTIQGEWLPWSNKVPVIEVETHKVAAPDIVVPTLDTVRHESLLYTWLAEHKPLVL
CGPPGSGKTMTLFSALRALPDMEVVGLNFSSATTPELLLKTFDHYCEYRKTPNGVVLAPV
QIGKWLVLFCDEINLPDMDAYGTQRVISFLRQLVEHKGFYRASDQSFVMLERIQFVGACN
PPTDPGRKPLSHRFLRHVPIIYVDYPGETSLKQIYGTFSRAMLRMMPSLRGYAEPLTNAM
VEFYLASQDRFTQDMQPHYVYSPREMTRWVRGICEAIRPLDNLPIEGLVRLWAHEALRLF
QDRLVEESERRWTNENIDVVAMKHFPSIDREKALERPILYSNWLSKDYVPVNRQELRDYT
KARLKVFYEEELDVPLVLFDEVLEHVLRIDRIFRQPQGHLLLIGVSGAGKTTLSKFVAWM
NGLSIFQIKVHNKYSGNDFDEDLRTVLRRSGCKDEKICFILDESNVLESGFLERMNTLLA
NGEVPGLFEGDEFTTLMTQCKEGAQREGLMLDSVDELYKWFTQQVMKNLHVVFTMNPSTD
GLKDRAATSPALFNRCVLNWFGDWSDSALFQVGKEFTIRMDLERSNWIAPDFFPSACPNI
PASPSHRDAVINATVYVHQTLHRANSRLAKRGSRTMAITPRHFLDFIHHFVKLYGEKRSD
LEEQQLHLNVGLNKIAETVEQVEELQKSLAVKKEELQQKNDAANSKLKQMFKDQQEAEKK
KVQSQEIQQQLAEQTIKIEEKRKDVMADLALVEPAVIEAQQAVKSIKKQHLVEVRSMANP
PAIVKLALESICLLLGENASDWKSIRAVIMRENFINSIVSNFSTEDITDDVREKMKNRYL
SNPDYNFEKVNRASMACGPMVKWAIAQVEYADMLKRVEPLRDELSSLEKQAESNVKHGKE
VKELIAQLEQSIAAYKEEYAQLISQAQAIKADLENVQAKVDRSIALLKSLVIERERWEAT
SETFKSQMSTIIGDTLLSAAFIAYGGYFDQHYRSNLFLTWSQHLTSANIQFRPDIARTEY
LSNPDERLRWQANALPTDELCTENAIMLKRFNRYPLIIDPSGQATDFIMNEFKDRKITKT
SFLDDSFRKNLESALRFGNPLLVQDVENYDPILNPVLNRELRRTGGRVLITLGDQDIDLS
PSFVIFLSTRDPTVEFPPDICSRVTFVNFTVTRSSLQSQCLNQVLKAERPDIDQKRSDLM
KLQGEFRLRLRQLEKSLLQALNDAKGKILDDDSVITTLETLKREAADIEQKVQETDKVIA
EIETVSQQYMPLSQACSNIYFTMDSLNQIHFLYQYSLKMFLDIFSTVLYNNSRLEGKTDF
AERLSIITNHLFSVCYERVARGMLHNDRLTFAILLCRIHLKGTSEPNLDQEFNFFLRNKE
GLVSSSDGQHIDGVSSEQLESITRLSTRLPIFRKLIEKIKSMPELTAWLQQGSPELNVPQ
LWDESKALSPISAALHQLLLIQAFRPDRVIAASQVFVSTVMGSDFMPLAEQELDFASCVE
QQLNANTPALLCSVTGFDASGRVDDLAAELNKQISSIAIGSAEGFNQADRAINMACKTGK
WVMLKNVHLAPQWLVQLEKKLHSLTTHPGFRLFLTMEINPKVPVNLLRYGRIFVFEPPPG
IRANLLRTFSTVPASRMMKAPSERARLYFLLAWFHAIVQERLRYVPLGWAKKYEFNESDL
RVACDTLDTWIDATAMGRTNLPPEKVPWDALVTLLSQSIYGGKIDNDFDQRLLGSFLSKL
FTAHSFEADFALVANVDAVNGQRHITMPDGTRRDHFLKWIEGLADRQTPSWLGLPNNAEK
VLLTTRGTDLISKLLKMQQLEDDDELAYTSQDDIIDKSGASSLKQQEDGRPSWMKVLHNS
ALTWLELLPKSLNTLKRTVENIKDPLYRYFEREVSSGAKLLQTVVSDLQDVLLICQGEKK
QTNYHRQMLSELVRGILPKSWRRYTVPLGCTVIQWITDFSQRVQQLQKISSLVSQAGAKE
LQSFPVWLGGLFNPEAYITATRQCIAQANSWPLEELMLDVTITTDTDGGQYKDSSFGVVG
LKLQGAQCKNNQLLLTSTIMMDLPLTLMRWIRITADSAKHGKLTLPVYLNSTRSELLFTV
DLAICPGQDPHSFYERGVAVLTSTALN
Protein features from InterProScan
| Transcript | Database | ID | Name | Start | End | E.value | |
|---|---|---|---|---|---|---|---|
| 44 | g1059.t1 | CDD | cd00009 | AAA | 1876 | 1977 | 0.00851782 |
| 45 | g1059.t1 | CDD | cd00009 | AAA | 2557 | 2720 | 1.25111E-11 |
| 46 | g1059.t1 | CDD | cd00009 | AAA | 2904 | 3018 | 8.13444E-7 |
| 38 | g1059.t1 | Coils | Coil | Coil | 537 | 564 | - |
| 43 | g1059.t1 | Coils | Coil | Coil | 1278 | 1301 | - |
| 37 | g1059.t1 | Coils | Coil | Coil | 3195 | 3240 | - |
| 36 | g1059.t1 | Coils | Coil | Coil | 3244 | 3264 | - |
| 39 | g1059.t1 | Coils | Coil | Coil | 3390 | 3410 | - |
| 40 | g1059.t1 | Coils | Coil | Coil | 3418 | 3459 | - |
| 41 | g1059.t1 | Coils | Coil | Coil | 3758 | 3778 | - |
| 42 | g1059.t1 | Coils | Coil | Coil | 4646 | 4647 | - |
| 19 | g1059.t1 | Gene3D | G3DSA:1.20.140.100 | - | 1449 | 1615 | 5.5E-64 |
| 20 | g1059.t1 | Gene3D | G3DSA:3.20.180.20 | - | 1616 | 1712 | 8.0E-30 |
| 35 | g1059.t1 | Gene3D | G3DSA:1.20.58.1120 | - | 1713 | 1872 | 1.2E-61 |
| 28 | g1059.t1 | Gene3D | G3DSA:3.40.50.300 | - | 1873 | 2027 | 1.2E-68 |
| 27 | g1059.t1 | Gene3D | G3DSA:1.10.8.710 | - | 2028 | 2159 | 5.5E-47 |
| 29 | g1059.t1 | Gene3D | G3DSA:3.40.50.300 | - | 2187 | 2719 | 1.1E-231 |
| 26 | g1059.t1 | Gene3D | G3DSA:1.10.472.130 | - | 2396 | 2558 | 1.1E-231 |
| 22 | g1059.t1 | Gene3D | G3DSA:1.20.920.30 | - | 2724 | 2872 | 1.2E-54 |
| 32 | g1059.t1 | Gene3D | G3DSA:3.40.50.300 | - | 2873 | 3081 | 8.4E-81 |
| 24 | g1059.t1 | Gene3D | G3DSA:1.20.920.20 | - | 3082 | 3526 | 2.0E-164 |
| 25 | g1059.t1 | Gene3D | G3DSA:1.20.920.20 | - | 3160 | 3501 | 2.0E-164 |
| 30 | g1059.t1 | Gene3D | G3DSA:3.40.50.300 | - | 3571 | 3688 | 1.4E-44 |
| 23 | g1059.t1 | Gene3D | G3DSA:1.20.920.20 | - | 3693 | 3785 | 1.9E-19 |
| 34 | g1059.t1 | Gene3D | G3DSA:1.10.8.1220 | - | 3789 | 3883 | 5.9E-36 |
| 31 | g1059.t1 | Gene3D | G3DSA:3.40.50.300 | - | 4010 | 4135 | 1.6E-39 |
| 33 | g1059.t1 | Gene3D | G3DSA:1.10.8.720 | - | 4136 | 4315 | 2.7E-61 |
| 21 | g1059.t1 | Gene3D | G3DSA:1.20.1270.280 | - | 4318 | 4513 | 4.4E-73 |
| 18 | g1059.t1 | Gene3D | G3DSA:3.10.490.20 | - | 4514 | 4645 | 2.5E-41 |
| 51 | g1059.t1 | MobiDBLite | mobidb-lite | consensus disorder prediction | 76 | 101 | - |
| 12 | g1059.t1 | PANTHER | PTHR45703 | DYNEIN HEAVY CHAIN | 184 | 4321 | 0.0 |
| 13 | g1059.t1 | PANTHER | PTHR45703:SF8 | DYNEIN HEAVY CHAIN | 184 | 4321 | 0.0 |
| 11 | g1059.t1 | Pfam | PF08385 | Dynein heavy chain, N-terminal region 1 | 243 | 826 | 2.3E-124 |
| 5 | g1059.t1 | Pfam | PF08393 | Dynein heavy chain, N-terminal region 2 | 1312 | 1711 | 9.7E-115 |
| 3 | g1059.t1 | Pfam | PF12774 | Hydrolytic ATP binding site of dynein motor region | 1858 | 2217 | 7.9E-128 |
| 8 | g1059.t1 | Pfam | PF17852 | Dynein heavy chain AAA lid domain | 2418 | 2536 | 1.6E-15 |
| 7 | g1059.t1 | Pfam | PF12775 | P-loop containing dynein motor region | 2548 | 2724 | 8.7E-37 |
| 2 | g1059.t1 | Pfam | PF12780 | P-loop containing dynein motor region D4 | 2895 | 3173 | 1.4E-66 |
| 1 | g1059.t1 | Pfam | PF12777 | Microtubule-binding stalk of dynein motor | 3188 | 3517 | 6.2E-39 |
| 4 | g1059.t1 | Pfam | PF12781 | ATP-binding dynein motor region | 3549 | 3768 | 1.9E-73 |
| 10 | g1059.t1 | Pfam | PF03028 | Dynein heavy chain region D6 P-loop domain | 4025 | 4131 | 1.5E-27 |
| 9 | g1059.t1 | Pfam | PF18198 | Dynein heavy chain AAA lid domain | 4149 | 4318 | 1.3E-42 |
| 6 | g1059.t1 | Pfam | PF18199 | Dynein heavy chain C-terminal domain | 4326 | 4641 | 4.3E-52 |
| 47 | g1059.t1 | SMART | SM00382 | AAA_5 | 1891 | 2039 | 0.059 |
| 50 | g1059.t1 | SMART | SM00382 | AAA_5 | 2202 | 2353 | 3.2 |
| 48 | g1059.t1 | SMART | SM00382 | AAA_5 | 2574 | 2724 | 7.8E-6 |
| 49 | g1059.t1 | SMART | SM00382 | AAA_5 | 2916 | 3082 | 1.7E-4 |
| 15 | g1059.t1 | SUPERFAMILY | SSF52540 | P-loop containing nucleoside triphosphate hydrolases | 1874 | 2092 | 1.54E-22 |
| 14 | g1059.t1 | SUPERFAMILY | SSF52540 | P-loop containing nucleoside triphosphate hydrolases | 2132 | 2352 | 3.33E-16 |
| 17 | g1059.t1 | SUPERFAMILY | SSF52540 | P-loop containing nucleoside triphosphate hydrolases | 2568 | 2835 | 1.06E-27 |
| 16 | g1059.t1 | SUPERFAMILY | SSF52540 | P-loop containing nucleoside triphosphate hydrolases | 2888 | 3188 | 2.45E-29 |
Transmembrane regions from TMHMM
Disordered region
IUPRED3 score over 0.5 is predictive of a disordered region.
GO terms from InterProScan
| GOID | TERM | ONTOLOGY |
|---|---|---|
| GO:0007018 | microtubule-based movement | BP |
| GO:0030286 | dynein complex | CC |
| GO:0005524 | ATP binding | MF |
| GO:0008569 | minus-end-directed microtubule motor activity | MF |
KEGG
Orthology
- This transcript has been annotated with K10413 (dynein cytoplasmic 1 heavy chain)
Pathway
- This transcript belongs to the following pathways
Expression
Transcript expression in Pv11 cells
TPM values are indicated as average +/- STDEV. 
Differential expression
Differentially expressed genes were identified with DESeq2 using the ‘run_DE_analysis.pl’ script from Trinity. Transcripts were determined as differentially expressed when (1) FDR < 0.05 (2) fold change > 2 (TPM calculated by RSEM). DE information and fold change between conditions are indicated in the plot below.
