- Transcript 'Cisavi.CG.ENS81.R16....' >
- Clone 'ma331c07' >
- Transcript 'Moocul.CG.ELv1_2.S72...' >
- Clone 'cinc023f02' >
- Transcript 'Mooccu.CG.ELv1_2.S61...'
Transcript Model
Transcript Id
Mooccu.CG.ELv1_2.S610822.g37129.02.t
Possible name(s)
AP1G1; AP1G2; AP2A1
Gene model
Location
S610822 [43,978 / 60,647]
Amino acid sequence
Length: 845
>Mooccu.CG.ELv1_2.S610822.g37129.02.p
MPNSIRLRDLIRNIRSSKTAAEEREVINKECAEIRNGFRHSDSTFRCRNVAKVLYIHMLG
YPAHFAQLETLKLLPSQRFTDKRIGYLGAMLLLDENRDVQLLMTNSLKNDLENPSQYVQS
LALCTLGNVGSSEMVRDLTPDIEKLMKTSNSYVKKKAVLCACRVIRKVPELMENFMPLTK
SCLNDKNHGVVLATVSLITEMCRKSNSVLKSFKKLVPTLVRILKNLIMSGYSPEHDVSGI
SDPYLQVRIIRLLRILGRQDTESSEIMNDILAQVATNTETNKNVGNAILYETVITIMDIK
SESGLRVLAVNILGRFLLNNDKNIRYVALNSLLKTVGTDMNAVQRHRTTVLDCLKDPDPS
ILRRAMELCFALINSNNIRGTMRELLSFLGRCSPEFKSDCASGIFLVADKYSPNRKWHID
TMLKVLTTAGNLVRDDTVPSLIHLLSDTEKLHSYAVQSLYKEASTPENFSQQPLMQVAAW
CIGEYGDILLSGEVTDAEPLQVSESDVLNFLNNLLNSSLSSNSTKAYAINAIMKLSTRLQ
NVDGQIRQIMAMYGDSHSTEVQQRAVEYAAMFAKHDNLRPGVLEPMPKFEKLTLPEDQDE
NEVTEEPTQTANVPAPAPAPSSNVDLLLDLMPSDSVPAAVAPPSGTTNIHNLLDQMDNPA
PIHNGMPGGGSMDILGGMLDLGGPPPQQQPPMMQASNGLDSLLNLGGGMEQQSMTNQMPV
SGMVIPDVVAFDKIETGLKIMFSFDREQGSPTLNINLKASNSSSNAFNDFVFRAAVPKTL
QLQMLPPSGNVIAPNNGGFVQQTIRLNNPSKVALRMRLKITYTVNGQAVTETGEVNNFSP
MAWQ*
Nucleotide sequence
Length: 5,261
>Mooccu.CG.ELv1_2.S610822.g37129.02.t
GGAGAAATTCAGCCATGTGATATTCCTTACTGCAACGAAGCTAAAGAGCCAAGAGTTCTG
GCATACCATCCGGTGAAGAATGATTTTTTTCCATGTATCTTCCCGTTTGAATACGACGGA
AAAGAACATCATGCTTGCTATTTGCATCCATTATATCATTACAATACATGCCAAATATTC
AGTAAAGTTTCAACTATACCAGAAGATAACATGGGGATGTGTATTGGAAAATATCGAGGG
ACATGGTCTTCATGGAATGTATTGAAACCATCTTGTTCCAAAGTATGCGAAGGCGGCAAA
CTTATAAGAAGAAGAATTTGCAGATTTCCTCCTTGCAAAGGAAAAACAGAAGTATTAACG
AACGATTCATGCAACACAAAACGATGTGTTCCCCACGAGTGCTATGAAGTGGAAGATGGT
GGAATGAAATTCAATGCTGTTCAGTTTCATTCTGTTGATGGAGACGCATGTGTTGGTCAC
CGATATAAAGGAAAAGAAAATGGAAAAAAACCGCAGGACTATCCATCACTTTGTTACAAT
ACGAAGTCTATCAACATGCCTCGTCCATTTTGTATACTAAAGGATGTATTTGGTTACAAA
GCGCAATGGTGTCCAATAGAACCATGCACTTTTAGAAACTCAAAAACTATTATGCCATTC
AAAGTGGTTACTCAACTGAATGATATCAAGGAATTTTGCTTGTTCCCATTTACGTACAAA
GGTGTGAAACATTTTGGATGTACAAACAAACCACTTCCTGGCCCTACAACACACTCTTAT
AAGCCTGGCGCTTACTGGTGTGGTACAAATTATAACATGGACACACCCCCTGGAAATAAA
GACAGAGATAAGTTTTATGCAAATGGATTAAAGAAGCCTGTGGAAGTATTTTGGGGTTTT
TGTCCACTTGAATACAAAGGAACTTGGACTGAATGGATGGATAGAATGGATAAATGTATA
CAGGATTGCTTTGTAGTCAAAAAACGTATATGTCTCTTTGAGCCATGTGAAGGCCTTGCA
GACGATGTAACTATGGAGTATTGCACCAATGGTTTTTGTCAACTGTCAGTGTGGGGACAA
TGGACTAAGTGGTCACTCTGCAAAAATTGTGAAACTGCTTCGATCCGCGTGCGTAGTTGC
TTTGTTGGAAAAGTTGAAAGACATTTATGTTCAGGGGCTGATCAAGAATTGAAATCTTGT
GAATATACCGAACAAGAAGCAGCCTTATGTGCATCGACTTATTCATCCAAGCATGTCGAC
AACAAAAAGCTGACAGAACATTTGTTGGCTTACTACAGAACATTTGATCCAAACGCAGAG
TTCTTTATAAACACGCCAAACTTTGAGGGAAGCATTGAATATCTATCAAATTCATCATTC
GATTTCTTCTCTAGTGGATCTGAATTCTTTTCATATAACACATCACATATTTTCACAAGC
ACATCAGAATTCTTTACAGACACTATTCCAGATTTTTTCACTGGGTCAACTACTTCAGAA
TATAACTCAAATACAACCTCGAATATTTTCTCCAACACTTCAGATTTCTTTACAGATGCT
GATTCTGTTGGTTCTACAAGAGGTCTTTCCATTTGTTGGTTGCAGTTAACTTTGTTTTAT
TTTATTTTTACATTATTTGTGGTTTAAGTTTTATCTTAGAGTATTTATTTTATATTATGT
TCACACTTTCATTCAATAAAGTATCACATCCATTCACTTCAGTGAATCTCCCTGCTGAGA
CTAGCTTGCTAAACAATAAAAAAAGATCACTTCATGTGTAGTAATCTTATCATAGCAAGT
GATCTTATTCACCCATGGCCTTGATTTAGCACAGCATAACAATCTTACTGATCTGCTGAG
GACTTGGGTGTGAAATTTGTTCATCTGTGACGAACTCTGTCCAGATTTTAGTGTCTTCGA
AAGGACCGATGATAAATCAGAAACGCAGGCAAAAATCGTACAATTTTGCATTAGTTTTTC
TATTGGTTTTTCAGCTGAAGTAAAAATGATTCAGTGTATATAGAAGAAGAATTTAAGTAT
AAAATATCAAATAGAAACAAGATGCCGAATTCAATAAGGCTTAGAGATCTTATAAGAAAT
ATACGAAGCTCGAAAACTGCGGCTGAAGAACGGGAAGTTATCAACAAGGAATGTGCCGAA
ATACGAAATGGATTTCGTCATAGCGATTCAACTTTTAGATGCAGAAATGTTGCCAAAGTT
CTTTATATTCATATGCTTGGTTATCCTGCCCATTTTGCCCAGCTGGAAACACTGAAGCTG
TTACCAAGCCAACGCTTTACCGACAAACGTATCGGTTATTTGGGTGCTATGCTTCTGCTC
GATGAAAATCGTGATGTTCAACTACTAATGACGAACTCATTAAAAAATGATTTGGAAAAT
CCATCTCAATATGTTCAAAGTCTTGCATTGTGTACTTTGGGAAATGTCGGTTCAAGCGAA
ATGGTGCGAGATTTGACACCAGACATCGAAAAGTTAATGAAAACATCAAATTCTTATGTA
AAGAAAAAGGCTGTTTTATGTGCTTGCCGAGTTATAAGAAAAGTGCCAGAATTAATGGAA
AATTTTATGCCGCTAACAAAATCATGTTTGAACGATAAAAATCATGGTGTTGTTCTTGCA
ACTGTTTCGTTAATCACTGAAATGTGTCGTAAAAGCAACAGCGTATTGAAATCTTTTAAA
AAGCTTGTACCAACGCTTGTTCGAATCCTCAAAAACCTCATCATGTCCGGATACTCACCA
GAGCATGACGTCTCCGGAATCAGTGACCCGTATCTCCAGGTTCGAATCATTCGTCTGTTG
AGGATCCTCGGACGTCAGGATACAGAATCAAGCGAAATCATGAACGATATTCTCGCACAA
GTTGCCACGAACACAGAAACAAACAAAAATGTTGGAAACGCAATCTTATACGAGACTGTC
ATCACAATCATGGATATTAAATCTGAAAGTGGTCTAAGGGTATTAGCAGTGAACATACTT
GGTCGATTTTTGCTCAACAATGATAAGAACATTCGATATGTGGCACTGAACTCGCTATTG
AAGACTGTTGGAACCGATATGAACGCAGTTCAACGGCACAGAACAACCGTTCTCGATTGC
CTCAAAGATCCCGATCCTTCCATTTTAAGACGAGCAATGGAGCTTTGTTTTGCTTTAATA
AACAGCAACAACATTCGCGGTACAATGAGAGAATTGCTGTCGTTCTTAGGAAGATGCTCA
CCTGAATTTAAATCTGATTGTGCTTCCGGAATATTCCTTGTAGCTGACAAATATTCTCCC
AACCGCAAATGGCACATTGATACTATGCTCAAAGTGCTCACAACAGCCGGCAATTTGGTT
CGTGATGACACAGTTCCGAGTCTGATCCATCTTTTATCGGACACAGAGAAGTTGCATTCG
TACGCGGTACAAAGTTTATACAAAGAAGCGAGCACACCAGAGAACTTCTCACAACAACCA
CTGATGCAAGTGGCTGCGTGGTGCATCGGCGAATACGGAGATATATTGCTCAGTGGTGAA
GTCACTGATGCAGAACCACTGCAGGTGTCGGAAAGTGACGTTTTAAATTTCCTCAATAAT
CTCCTCAACTCATCGTTATCAAGCAACAGTACGAAAGCATATGCCATAAACGCGATCATG
AAGCTAAGCACAAGACTGCAGAATGTTGATGGTCAAATACGTCAGATTATGGCAATGTAT
GGCGACTCTCACAGTACAGAAGTTCAACAACGAGCTGTTGAGTACGCAGCCATGTTTGCC
AAACACGACAACTTGAGACCAGGAGTCCTTGAACCGATGCCCAAGTTTGAAAAGTTGACA
CTTCCAGAAGATCAAGATGAAAATGAAGTCACAGAAGAACCAACACAAACTGCAAATGTT
CCTGCTCCTGCACCAGCACCTTCTAGTAATGTTGATTTGCTGTTGGATTTGATGCCAAGT
GATTCAGTGCCTGCAGCAGTGGCACCACCAAGTGGTACCACTAACATTCACAATTTACTT
GACCAAATGGACAACCCTGCTCCGATTCACAACGGAATGCCGGGTGGTGGCTCAATGGAC
ATACTTGGAGGAATGTTGGATCTTGGTGGACCTCCTCCTCAGCAGCAACCTCCGATGATG
CAGGCTTCAAATGGATTGGATTCTTTGTTGAATTTAGGAGGTGGAATGGAACAACAATCT
ATGACCAACCAAATGCCAGTAAGTGGAATGGTCATTCCAGACGTTGTAGCATTCGATAAG
ATCGAGACAGGATTGAAGATAATGTTCTCATTCGATCGAGAGCAAGGATCTCCAACGCTG
AACATCAATTTAAAAGCATCTAATTCTTCGTCAAATGCATTCAATGATTTTGTATTCAGA
GCTGCGGTACCTAAGACACTCCAATTACAAATGCTTCCACCTAGTGGTAATGTGATCGCA
CCAAACAACGGAGGGTTTGTGCAGCAGACCATTCGACTGAACAATCCTTCCAAAGTTGCG
CTACGAATGCGGTTGAAAATAACATACACAGTCAACGGTCAAGCAGTCACTGAAACTGGC
GAAGTCAATAACTTTTCACCGATGGCATGGCAATAACAAATATCTTCTAGAATAATCAGT
CATCAAGCCAATAGAAAGTAGTTGCTGGCCGAAAAGCTTCACAAACCCTTCTGTACCATT
CGGCTGGTTGCATAAGCTTAAATTCAAAAATATCAATTGAATATATTGGCAAACTTTTTT
AATATTTATATATTAATTTTACGGTAGTTATTTCATATTAAAGCTATGTTATTCAGAGGA
GACCTACTAACTTATATATCATGGAATTGTGTTTTCTTAACTGCTTTTCTCTTCGCTCCT
GTACCGTACGTACCATCACATTTAGTGCTTGGTGTTATTTATTTGCTTGAAGCCTTGTGC
AATTTTCACGACAGCTCAAAGTTTCAACACATCATTCCAGACTCCGCACAACATTGGTTT
TGTTCTGTCTGTTGTACATATGCAAATACAACGACCTAAAATATCATTGACTGCAACTTA
ACCACTTCTTAAACTGTTTTATGGAGCCAAGAAGCTGTTCAATCAACATTCTCCGCTATA
TTCGTCCGTTGGTAGCTAAATGAAGAGTTTGTATATTTCCAAAAGTGTGTTCCTATATTA
TTATTATCTATTATGCTTAGTTAATGGCTATTGTGAATTAAAGTGCGTTTCCTTACTTTT
TAATCAAATGCTATATTACCAATACATAATTTAAGAAAATG
| Gene3D |
FN_type2_sf (IPR036943) - T[223-302] 1.3E-6 |
| SUPERFAMILY |
Kringle-like (IPR013806) - T[225-275] 1.48E-5 |
| ProSiteProfiles |
FN_type2_dom (IPR000562) - T[228-303] 11.846 |
| Pfam |
FN_type2_dom (IPR000562) - T[233-275] 1.7E-5 |
| Gene3D |
ARM-like (IPR011989) - T[675-1277] 1.2E-240 |
| SUPERFAMILY |
ARM-type_fold (IPR016024) - T[709-1291] 7.79E-106 |
| Pfam |
Clathrin/coatomer_adapt-like_N (IPR002553) - T[710-1261] 1.5E-138 |
| SUPERFAMILY |
Clathrin_app_Ig-like_sf (IPR013041) - T[1357-1378] 3.45E-35 - T[1415-1530] 3.45E-35 |
| SMART |
Clathrin_a/b/g-adaptin_app_Ig (IPR008152) - T[1407-1526] 4.2E-33 |
| ProSiteProfiles |
GAE_dom (IPR008153) - T[1410-1526] 43.92 |
| Pfam |
Clathrin_a/b/g-adaptin_app_Ig (IPR008152) - T[1423-1526] 8.2E-27 |
| Protein Name | Identity | Bit Score | e-value |
|---|---|---|---|
| AP2A1_HUMAN | 29.489 % | 253 | 2.07E-71 |
| AP1G1_HUMAN | 57.442 % | 976 | 0 |
| AP1G2_HUMAN | 48.104 % | 790 | 0 |