- Transcript 'KH2012:KH.C11.22.v1....' >
- Transcript 'Haaura.CG.MTP2014.S8...'
Transcript Model
Transcript Id
Haaura.CG.MTP2014.S881.g06988.01.t
Possible name(s)
SALL1; SALL3
Gene model
Location
S881 [26,042 / 31,981]
>Haaura.CG.MTP2014.S881.g06988.01.p
ENSKNIENQKDHQNIDEEDEDQKGGSVLLESLNGTRIAMAQTFSNQEEANGEYPGPISSP
GPEEDLPTNHQQMDEEVPQPTLEGDNYDDNIDRNQRHADKGDANKSVENLKKDILAAEAM
AHAIQNMAAFARQQNRGDTEDAETVSQAKPEVSAIRNQVRMIQQQQAYQVQMLSFLQWQL
TLVSGKPQESVSSASNPFDSKNSAIPPHLLMAAGLRPEVGNMAGGVLMPQMMAAMAMNSL
QNGPMAEQANIGMTDLAKARIMMSMQQNSGPNSQALRGLFSRTLMDQESTTKAEQEQRYQ
LKENREPEEEDTKEAGRVSRDDPNLVNSPEEISGGSTVEKVERISKSDSGYDDDVRSASI
NNCNNNADDTTSSNDSQEDGELRESALNATAEEQRHRCRFCHKVFGSDSALQIHIRSHTG
ERPFKCNICGNRFTTKGNLKVHFLRHQAKYPHIPMNSQPVPEYLDTVPTPNGVPYGMSIL
PEKAVLERPRLHGNPSIHIRPHEANSLGQRDATPAQQGINNLFLPPMNALHIAGGNPDSP
PSNNSRSELSLPNGGMMPNDMASAIQAQLLHRRRAEFFESYWKGDESKTSARRADPTDIN
DSKPTMSMLQAAMLPFLPGLAAQGQIENIPPHLRYFLPQHLQSMRGMQMAPFQGGNENHN
NLTGRLLSGSEDRNPLSCHKRGDARRSDDMIMDDNGLGGDIDKASAALSHQRRLVAASSE
TSKLQRLVENIDRGHVLQKNECHICHRVLSCQSALKLHYRTHTGERPYKCDLCSRAFTTR
GNLRTHYSSVHRQQMRTIPQGNAHLNQAPPPGSLPCPLCPMRFRQADEFQHHMQMHALAQ
AQQQQQQHSSGLPRLCENKRESSPSSAVDLSTKVDEFPDREEDNKLNYENENSRDDDDPV
MDDASSNGFHEEEESRDDIADKKDEDDGDRSKQYELTHSPKENGVKNRPESPIEEMHQRR
STDSSDSTKESSPMNLSSPLEEDSSDARSRAPYDFDRSKMPLSSLHANPLDSLAALSNLS
ASTLMSQHTGLGFDHQLAALNRARAGRLTVCEICEKPFSCQSALEIHLRTHTNERPFICK
ICPRTFSTKGNLKQHLLTHNIVDIPDDMLEPVLSPDDMNSASNSPSSSPNPCSSGPSGVK
RLHDGMDMSAPSSKRSYPRHWCHICQKQFSSASSLQIHNRTHTGEKPFGCSVCGRAFTTK
GNLKVHMGTHVWGAGGSRRGRRISMDNPLISPWMKNMRPRASQPAAILPNPGHVADPTAL
YQQYAAIANGLLNAKQDVPRLMMPLSNGHPVNGHNSAPSPASSSGSPLPANEVTSPQNRV
HGTSLSSSAVNAATEWFLKAYQRTQEQVHSFMFTKVINETKPSVN*
>Haaura.CG.MTP2014.S881.g06988.01.t
GAAAACTCGAAAAATATCGAAAACCAGAAGGATCATCAAAACATCGATGAAGAAGATGAA
GATCAAAAGGGAGGAAGCGTCCTACTTGAATCTCTCAATGGGACTCGTATAGCTATGGCT
CAAACCTTCTCTAATCAAGAAGAGGCGAATGGTGAATATCCAGGACCAATTTCGAGCCCT
GGGCCGGAGGAAGACTTGCCCACAAATCACCAGCAAATGGATGAAGAGGTACCTCAACCA
ACTTTGGAAGGTGATAATTATGATGACAACATTGATCGCAACCAACGGCACGCGGATAAG
GGCGATGCCAATAAATCCGTAGAAAATCTGAAAAAGGATATTTTGGCGGCGGAAGCAATG
GCTCACGCCATTCAAAACATGGCGGCGTTCGCCAGGCAGCAGAACCGCGGAGATACAGAA
GACGCGGAAACTGTAAGCCAAGCAAAGCCCGAAGTTTCAGCTATCCGCAATCAGGTTCGT
ATGATTCAGCAGCAGCAAGCTTATCAGGTTCAAATGCTCAGTTTTCTGCAATGGCAACTG
ACATTGGTTTCGGGCAAGCCTCAAGAATCTGTCTCCAGCGCTTCGAATCCATTCGATTCG
AAGAACTCTGCGATACCTCCGCATCTACTGATGGCTGCCGGCCTCCGCCCAGAAGTTGGC
AACATGGCTGGCGGTGTACTCATGCCACAGATGATGGCAGCCATGGCCATGAACAGTTTA
CAGAACGGTCCTATGGCCGAGCAGGCAAATATCGGTATGACTGATTTAGCAAAGGCACGT
ATCATGATGAGTATGCAACAGAACTCGGGCCCCAACAGTCAGGCATTGAGAGGTTTATTT
TCAAGAACCCTGATGGACCAGGAATCTACAACCAAAGCGGAACAGGAGCAAAGATATCAA
CTGAAAGAAAATAGGGAGCCCGAGGAGGAGGACACCAAAGAAGCTGGACGAGTATCCAGG
GATGACCCCAATTTGGTCAATAGTCCTGAAGAAATTAGCGGTGGATCGACTGTCGAGAAA
GTCGAACGTATTTCGAAATCCGATTCGGGTTACGACGATGACGTGAGATCTGCATCAATC
AACAATTGTAACAACAACGCCGATGATACAACCTCTTCGAACGATTCGCAGGAAGATGGT
GAACTCAGAGAAAGCGCTTTGAATGCCACGGCGGAAGAACAACGTCATCGCTGTCGTTTC
TGCCACAAAGTGTTCGGGAGCGACAGCGCCTTGCAGATTCACATTCGTTCGCATACGGGA
GAGCGTCCGTTCAAATGTAACATCTGCGGTAATCGGTTCACCACGAAAGGCAATCTCAAA
GTTCATTTCCTGCGTCATCAGGCAAAGTATCCTCACATCCCCATGAATTCTCAACCGGTA
CCCGAGTACCTAGACACCGTACCCACTCCAAACGGCGTCCCCTACGGGATGTCTATTCTT
CCGGAGAAAGCTGTTCTTGAGCGCCCGCGCTTGCATGGAAATCCAAGCATTCACATCCGC
CCGCATGAGGCGAATAGCTTGGGCCAACGAGATGCGACGCCTGCCCAACAAGGGATTAAT
AATTTGTTTCTCCCACCCATGAATGCACTGCACATCGCCGGTGGCAATCCCGATTCCCCT
CCTAGTAATAATAGTAGATCTGAATTGTCTTTGCCGAATGGCGGTATGATGCCCAACGAC
ATGGCATCCGCCATTCAAGCGCAGCTCCTTCATCGGCGACGAGCAGAATTTTTCGAATCT
TACTGGAAAGGAGACGAATCAAAAACATCCGCGCGACGCGCGGACCCCACGGATATTAAC
GATTCCAAGCCGACTATGTCGATGTTGCAGGCGGCCATGTTACCGTTTCTTCCCGGTCTA
GCCGCACAGGGTCAAATCGAGAACATACCTCCGCATCTGCGCTACTTCCTACCCCAGCAT
TTACAGTCGATGAGAGGGATGCAAATGGCGCCTTTCCAAGGAGGCAACGAGAACCATAAT
AATTTGACTGGAAGACTACTGAGTGGAAGCGAGGATCGAAATCCTTTATCCTGCCACAAA
CGAGGCGATGCCCGACGTAGTGATGATATGATAATGGACGACAACGGCCTTGGCGGTGAT
ATCGATAAAGCGTCCGCTGCTTTGTCGCATCAACGTCGACTGGTGGCCGCCTCATCTGAA
ACTAGCAAGCTCCAGAGACTAGTGGAGAACATCGATCGCGGGCATGTTTTGCAGAAAAAC
GAATGTCACATATGCCACAGAGTCCTCAGCTGCCAAAGTGCACTGAAGCTCCACTACCGT
ACGCATACTGGCGAACGACCATACAAGTGCGACCTGTGCTCCAGAGCATTCACAACACGC
GGTAATTTGCGAACACATTACAGTAGTGTGCATCGACAGCAAATGAGAACCATACCACAA
GGCAACGCCCATCTGAACCAAGCCCCGCCTCCAGGATCCTTGCCGTGTCCTTTATGCCCA
ATGCGCTTCCGTCAAGCTGACGAGTTTCAGCATCACATGCAAATGCATGCACTCGCACAG
GCTCAACAACAACAACAACAGCACAGTTCAGGGCTTCCACGATTATGCGAGAACAAACGA
GAGAGCAGTCCATCTTCAGCCGTCGATCTATCGACGAAAGTCGACGAATTTCCCGACCGA
GAGGAAGACAACAAGCTCAATTACGAAAACGAAAATTCAAGAGACGACGACGACCCCGTT
ATGGATGACGCATCCAGCAACGGATTTCATGAAGAGGAGGAATCTCGTGACGACATAGCC
GACAAGAAAGATGAAGACGACGGTGATCGCAGTAAGCAGTACGAACTAACGCATTCGCCG
AAGGAAAACGGTGTAAAGAATCGTCCTGAAAGTCCTATCGAAGAGATGCATCAACGTCGC
TCGACTGATTCCTCCGATTCGACGAAAGAATCTTCGCCGATGAATCTTTCATCGCCGCTG
GAAGAAGATTCTTCCGATGCCAGATCGCGGGCACCGTATGATTTCGACCGGTCGAAAATG
CCTCTGTCATCTTTACATGCGAATCCACTAGATTCGCTTGCGGCACTCTCCAATCTCAGC
GCAAGCACCCTCATGTCTCAACACACCGGATTAGGATTTGATCATCAGTTGGCAGCTTTG
AATCGAGCACGGGCTGGAAGACTTACCGTGTGCGAAATATGCGAGAAACCGTTTTCATGT
CAAAGTGCTCTAGAGATTCATTTGAGAACTCACACCAACGAACGACCATTCATTTGCAAG
ATATGCCCGCGTACGTTCTCGACGAAGGGAAATTTAAAGCAGCACTTGCTAACGCACAAC
ATCGTTGATATCCCGGATGATATGCTTGAGCCCGTGCTTAGTCCAGATGATATGAATAGT
GCTTCCAACAGTCCGTCATCTTCTCCCAATCCTTGCTCATCTGGGCCATCAGGTGTTAAG
CGACTCCATGACGGAATGGATATGTCAGCACCTTCGTCCAAGCGTTCTTACCCTCGCCAT
TGGTGTCACATATGCCAGAAACAATTTTCATCAGCTAGCTCCTTACAGATTCATAATCGT
ACGCATACTGGGGAGAAGCCCTTCGGCTGCAGCGTGTGCGGCCGAGCGTTCACGACGAAA
GGAAACCTTAAAGTTCACATGGGTACTCACGTTTGGGGTGCCGGAGGATCACGTCGTGGT
CGTCGGATATCAATGGACAACCCACTTATCTCACCATGGATGAAGAATATGCGTCCGAGA
GCTTCCCAGCCTGCTGCAATTCTGCCCAATCCCGGGCACGTTGCCGATCCGACAGCTCTA
TATCAACAGTATGCGGCTATTGCAAATGGACTCCTCAACGCCAAACAAGACGTACCGAGA
CTTATGATGCCCTTGAGTAATGGCCATCCTGTAAATGGACACAACTCTGCGCCCTCCCCA
GCGTCATCTAGCGGATCTCCATTGCCTGCAAATGAAGTGACTAGCCCGCAAAACCGCGTG
CATGGAACAAGTTTAAGCAGTTCGGCTGTGAACGCTGCGACCGAGTGGTTTTTAAAAGCT
TATCAACGTACTCAAGAACAGGTACATTCATTCATGTTTACCAAAGTTATAAACGAAACA
AAACCATCTGTAAATTAACAAGCTGAGCAACTACTAGCACTTGTCGATTGAATGCTACCA
GCTGGATTGCGTTGGTCACTGGTTGATGGTTGTATTCGACGCCACTGTGCGTCGACTGAA
TTGGTGCGTGGTTTGAAAAACATTCTACTGCGTTATTAAATACATAACGCCTTCGTCTGT
TTTGAGGATGTATTTATTTTTGTGCAAAATTTCGTTCTTTCAATGTACATATATAAATTT
CCGCAAAGCAGCTGCTCGTACATAGAACCATAACGACGGTGGTGCTACGTTCAATTCTGT
ACTAAAACGATCATTAATTTTTTATCATATAAGCTGCTTATCTACTTTTTCTGCTACTAC
TATATGTGAATCCTTGTACAGCAAGAGAAACAGC
SUPERFAMILY |
Znf_C2H2_sf (IPR036236) - T[392-442] 9.72E-15 - T[741-787] 2.0E-12 - T[1049-1099] 3.59E-15 - T[1160-1210] 5.44E-16 |
SMART |
Znf_C2H2_type (IPR013087) - T[396-418] 0.0028 - T[424-446] 9.5E-4 - T[740-762] 5.4 - T[768-791] 3.4E-4 - T[814-836] 6.5E-4 - T[1049-1071] 0.063 - T[1077-1099] 1.2E-4 - T[1160-1182] 0.69 - T[1188-1210] 7.7E-4 |
ProSiteProfiles |
Znf_C2H2_type (IPR013087) - T[396-423] 14.565 - T[424-451] 12.092 - T[740-767] 13.152 - T[768-796] 11.946 - T[814-841] 8.642 - T[1049-1076] 13.838 - T[1077-1099] 10.533 - T[1160-1187] 14.96 - T[1188-1210] 11.51 |
ProSitePatterns |
Znf_C2H2_type (IPR013087) - T[398-418] . - T[426-446] . - T[742-762] . - T[770-791] . - T[816-836] . - T[1051-1071] . - T[1079-1099] . - T[1162-1182] . - T[1190-1210] . |
Protein Name | Identity | Bit Score | e-value |
---|---|---|---|
SALL1_HUMAN | 38.889 % | 334 | 6.72E-95 |
SALL3_HUMAN | 43.396 % | 205 | 2.03E-53 |
SALL2_HUMAN | 76.667 % | 164 | 5.31E-41 |