Silkworm Genome Informatics Database

Gene

KWMTBOMO14572

Pre Gene Modal

BGIBMGA008796

Annotation

putative_zinc_finger_protein_91_[Danaus_plexippus]

Location

Bomo_Chr24(-):10520825-10565958 View in EpiBrowser

Full name

Zinc finger protein 208       + More
Zinc finger protein 91
Zinc finger protein 729
Zinc finger protein Xfin
Zinc finger protein 62 homolog
Zinc finger protein 850
Zinc finger protein 836
Zinc finger protein 845
Zinc finger protein 62
Zinc finger protein 721
Zinc finger protein 268
Zinc finger protein 99
Zinc finger protein 26
Zinc finger protein 546
Zinc finger protein 585B
Zinc finger protein 616
Zinc finger protein 43
Zinc finger protein 585A
Zinc finger protein 780B
Zinc finger protein 808
Zinc finger protein 605
Zinc finger protein 841
Zinc finger protein 11
Zinc finger protein 658B
Zinc finger protein 594
Zinc finger protein 569
Zinc finger protein 429
Zinc finger protein 226
Oocyte zinc finger protein XlCOF7.1
Zinc finger protein 27
Zinc finger protein 658
Zinc finger protein 227
Zinc finger protein 615
Zinc finger protein 555
Zinc finger protein 607
Gastrula zinc finger protein xFG20-1
Zinc finger protein 271
Zinc finger protein 347
Zinc finger protein 287
Zinc finger protein 41
Zinc finger protein 493
Zinc finger protein 728
Zinc finger protein 814
Zinc finger protein 60
Zinc finger protein 107
Zinc finger protein 629
Zinc finger protein 14

Alternative Name

Zinc finger protein 91-like
Zinc finger protein HPF7
Zinc finger protein HTF10
Xenopus fingers protein
ZT3
Zinc finger protein HZF3
Protein mKR3
Zinc finger protein 49
zinc finger protein 41-like protein
Zinc finger protein 39
Zinc finger protein HTF6
Zinc finger protein KOX27
Zinc finger protein 779
Zinc finger protein Krox-6.1A/6.1B+/6.1B-
Zinc finger protein HZF18
Mszf21
Zinc finger protein 74
Protein mKR4
XlCGF20.1
Zinc finger protein 35
Zinc finger protein 1111
Zinc finger protein with KRAB and SCAN domains 13
Zinc finger protein Mfg-3
Zinc finger protein 588
Zinc finger protein ZFD25
Zinc finger protein 65
Gonadotropin-inducible ovary transcription repressor 4
Zinc finger protein KOX6

Transcription factor

zf-C2H2

Location in the cell

Nuclear Reliability : 3.61

CDS

ATGATGGAGTTTGACGATATTGTGGTGAAGGAGAATCCCGGCCTTTGCCGGTGCTGTCTTTCTGAAGGGTGCTACAAAGATTTAGGTTCTGAGTACACTTGGATGAATGAAAATGAAGTTTACGCGGATATGCTGTTGGAATGCTTTGATATTAGTATATCACAAATAAATGAGGGACCGAACGGTCCGAATAGACTGATCTGCGAGGTTTGCATCACAAGACTCCGAGATGCATGTAACTTCAAGAAACAAGTGTTTGAATGCGAAAAAAAATTCATTGACATGGTTGCAAGAGGAGAATTTAGGAAAGTATTAATTTACCAAGCACACATGAAATCTGAAGAAGTTGGCCCCGAAGACGAAATACCAGCTGATGAATCTGAGTATCTAGAAGAGGATCCCGACTTCGGAGACGACGAGCCATTGAAACGAGAGGAGCCTCAACCAACGGTATCTGCTGAGCCCTTACAGATCAAAGGGAAACGTGGCCGACCAAAGAAACAACCAGATGCCAAGCCTGAGAAAAAGAAATCAAATACGGACGACAAGAAAACTAAACCTGTAGCAAAAGATGTTAAAACGAGAAAATACAAGGGGTGCGAATCGTCATCGATGCGCCGAAGGAGAAACTTTGAGATCTTGTTCAACAACACGACCATAATACCGTTCAAATGGCGTGGCAAGTATCTGTGCTTCTATTGCAGCAAAGACATCGCCGAGTACAATGAATTGAGGAAGCACACGAAGTCCCACGGCGATTGCTCGATTAAGGACCATTCGCTGAAAGTCCTCAAAGGAGGTCACAATATGGAAATCAAGATCGATGTCTCTGACGTCGCCTGTGAGATCTGCGGGGAGCCGTTTCCATCGCTCGAGGAAATCATCAATCATCTATACGTTAAACACAAACTGGAATATGATAGGGGCGTGGAAATGTCCATAGAGGAGTACAGGCTGGTCGATATGGGCTGTTTGGTGTGCGGCGAAAAGTTTGCGTTTTTCGGTTATCTAGTCTCGCACGTGAACAATATTCACCCGAAGAACTGCTTGCTCTGCGACAAGTGCAACCAGAAATTCAACAAAAAGAGAGATCTATTTTCCCACATGAAGAATTACCATCGCGAAGGTGGATACCAGTGCGAAGTGTGCCCGCAGAGTTTTAGCTCGCTAAACATCCTACGTAAGCACAAAATAAATCGCCACTTGACCCGCTGCAGCGTATGCCACTTGAAGCTTCCATCGGCGTCTCTGAAGCAGAAGCACATGGACTTGGAACATCCGGACGATGGATCGCTGCAGTGCGACAACTGCGATAAACAGTTCCACACGAAACAAGGACTCCGGATGCACTCGAGGAAGTGTAAAGGACTCGAGGAATTCCTCGAAATCGCCTACAAAAAAGAGGACGCCGCCGCCATGGATCTGGACCAGAATTACGAAGAACGATCGAAGCGGCCCAGCGTTAAGCAGATTAGGGAAAACATAGTCATAGTCATTAACATGTCAACGGCGATACCTTTCAATTTCTACAAGAATAAATTTAACTGTTTTTATTGCTCCAAAGACTTCGCGGATTCGGACGCGATGCGGGAACATACTGTAGTCGAACACCCGGTTTGCGACGTTAAAGAGAAATGCATCAGAAAATGTAGAGAATCGGTGGCCTGCGTTAAAATCGACATTTCTACATTGGCCTGTAAAATCTGCTTCGAATCGATGATCAACTTGGACAGCCTTATCGATCATTTGATAGTTAAACATGAAGCGAACTATGATAAGTCGATCACGACTTGCCTACAGCCGTACAGGCTGGTCAAAGACCACATGGCCTGCCCGAACTGTCCCGGCGAAGTGTTCCGCTTCTTCGGCACGCTACTAAAGCACATGAACAAGAAGCACACGAACAACAACATTATATGCGTGTATTGCGGCGAGACGTTTCGGCGCGACCAGAACCTTCGCGTTCACGTTTGGCGGCACCACAGAGACGGTCGCTTCAAGTGCAACATTTGCGGGGCGGAGTGCAATATCCCGTCGAGGCTGTACATGCACATGGCGAAGGCGCACGGCGTCCGGGCTTCGAAGTGCCCCAAGTGCCCGGAAAGCTTTGCGACCCAGTACCTACGCCAGAAGCATCTGATCGACGCCCACGATTCGGGCCACAAGTGCACGTACTGCGGGAAGCTGTTCACGAGGAACTCTTTCATGCGGGATCACGTCCGTAGGACGCACCTCAAAGAGAAAAACGTCGAGTGCTCGATTTGTAACATGAAGTTCTTTAACAACATCCTCTTGAGGCGGCACATGGTCAAGCACAGTGGCGAGAAGAACTTCCACTGCGAGATCTGCGGGGAAAGGAGAAAGAATCTAATCATTTTGTTCAACAACACAACATTGATTCCGTTCAAATGGCGCATGAAATACATGTGCTTTTATTGCGGCCGATCTTTAGATGATTATAGCGAACTGAGAGAACATACGATTGATCACGGTATCTGTACGGAAAACGATCGTGCCATAAGACTAGTCAAGGCGCCGGATAGTGAAGTTAAAATTGATGTTTCAGATGTAACATGTAGATTATGCGATAAGATGTTGTCGAATATGGACGATATTATAGATCATTTGGTGTCTAATCACAGGAAAAGCTACGACAGGGAGGTGCAATTGGCCATTGCTCCCTACAGCTTGAGAGACTTGAAATGTTTATCTTGTAGCGAGAATTTCAGGCATTTTCGGGCTCTAGTCGTTCACGTTAATCGCGCACACCCTAATAATTGTTTCGTTTGTCGCGATTGTGAACTAAAATTCAACAAAAAGAGGGATTTGGATCGCCACTATAGGGTGCATCACAGGAAAAGGTTTAAATGCTCCAAATGTTTGGACGACTTCAGCACTTACGCGGATTATCAGCGCCACCGTAGTAACGCTCATATATCGACTTGTAACATATGTTTTAAAGCTTTCTCCACGAGCACCAAAAGATTGGTGCACATGAAAATGGATCACGATCTAGACTTAGCCGAATGCGGGTTTTGTAAGAAAATTATGACGACTAGGCAAGGTTTTCTTAGACACGCGACGCAGTGTACAGCGAAATACGAGTTAAAGTCGCCTCAGGTGGTTGTGGTGGACGACGACAAAAAGCCGTCGATCAAAGAAATACGCAAGGAGATTGCCAACATATTTAATATGTCGACAGCTATGCCTTTCAAGTTTTTCATGACAAAATTTCGATGTTTCTATTGTTCGGAGGACTTTCAGAAATGTGACTTGCTAAAGAAACATACCCTCGCCGAGCATCCGTACTGTGACGTGTCTATAAAATCGATGAGACTACGCCACAGATATGAGGGCTTACAGATTAAGGTGGACACTTCGGCTCTGGCTTGCAAACTTTGCTTTGAGCCCGTAGACAGTATGAGCTCTTTATTCGATCATTTGAAATCGGAGCACAAGAGTTCGTGTGACGAATCCGTGGCCGCTCACATTCAGGGCTTCAAATTGATGGAAGACAACTACGTTTGTCCGTATTGTGATGAAGTCTTCAGGTATTTCAGTGTGCTCTTGAAGCACGTCAGCGTCCGTCACACTGACAACAAATACATATGTGTTTACTGCGGGAAGTCGTTTAGAACGAATCCGAATTTGAGATCACACGTGATCGGTCGCCATGACAACCCGAGCCGTGAGAAGTGTGAGAAGTGCGGGCTAGTGTTGAAGAGCAAAAACACCCTCAGACTTCACACGAGAAAAGTGCACTGTAACAAGCGGGTGGAGTGTACGGAATGCCAGGAGACGTTCATCACGAATTATTCAATGTACGTACACAAGCGCGACGTGCACGGTATCGGTCATAAATGTGATTATTGCTTAAAAATTTTCGCTAAGAATTCGGCCATGGTGAATCATATGCGACGGGCGCATCTAAAGGAGAAGAACGTGCAGTGCTCGGTGTGTTTCGAGAGTTTCTTTGACGTGCAACGTCTTAAAACGCACATGGTCAAGCATGCTGGCAAGCGTAACTACCAGTGCGACGTTTGCGATAAAAACTCGCCGTTCGAGCCGAGTACCGAACCGCCCGCGCCAGGCGTTTTCCTGGGCTGTACCTCTGAGCGACGACGGAAAAACTTGAAAATAATCTTCAATTGCACAACGATAATTCCGTTTAAATGGCGCGGAAGGTATTTGTGCTTTTACTGTGGCAAGCCTTACGCTGAATACGCTGAATTAAAGAGTCATACTCAGTCGCACGCCCCTTGTACCACGAAGGATTACGCTCTGAGAATCATAAGAGGCAGTCACGTCGAGATCAAGATAGACGTTTCAGAGATTGTGTGCAAAATTTGCTACGAACCTTTTGATAGTTTCGAGGAAATCGTGAATCATTTAATCGGTAAACATAAATTAAGTTACGAAAAGCAAATTGGCACTCCATACCAAGAGTACAGATTGAGTGATTGCGGCTGTACCCGCTGTGGGGAGCGATTTGCTTATTTTACTAATCTGGTCAAACACGTGAACACCGCACATCCACAGAACCGCTTCATATGCGATAAATGCGAAATGCCCTTCAACAAGAAACGCGATTTGGCAGTACACTTTAGGAATTATCACGGCGAAGAGAACTACAATTGTGTGCAATGCTCGCAGAATTTTAAATCCTTGGTCACGTTACGCCGCCACCAAAATGACATACATTTTAGGCAGTGCAAAATTTGTGGTAGTCGCTTCGAATCCGTTGCGGTTTTGCGTAAGCACGAGGTATCCGAACATCCTGACGACGGCAATTACAAATGTCGGTATTGCTGCAAGGAACTACACAGTGCGCCGGGTCTGAGGTTGCATTACGGGAAATGTAAGGTTCGAGCCATCGCCTCAATCGACCCTAAATGTCCGTTAATATCCGGAGAAATTCGCAGGCGTAAACTGAAAAACAATTTGAAAGCAATAAGGAATAATATTCAATGCGTCTTAAACATGTCCACTGCGATACCTTTTAAGTACTTCGCCAAGTATTCATGTTTTTATTGTACACTAAAGTTTGTTGAGTTTGAAGATCTGCGACAGCATACCATGTTAGAACATCCTGTATGTGACGTTAAAGAGAAATACATGAGGCAGTGTAAGGGTGATAGGGTTTGCGTTAAAATTGATATATCTTCTCTCAAATGTAAGCTGTGCTGTATGCCAATGGGGGACCTTGATTTGCTGATCGATCACTTAATATCGGAACACAAAGCTGGTTATGATAAGTCAATAAAAGGTTGTCTCGATCCTTATCGCATAATCAAAGATAGCATTCCTTGTCCTCTATGCGAAACCGTTTTTCGTTACTTCAGCACCCTGCAGCGTCATATCAACTCCGATCATAGCAACAACAACGCGATCTGCGATTTCTGCGGGAAGAGCTTCAACAAGCTCAGTAATTTGGTCGTGCACATTGGGCTCGCGCACATGGGTGCGACCCAGTGTGGAATCTGCGGCGCGAACTTCAAGAACAACTGGTGCTTATCCCGACATAGGGCGAAACATCACGGCGTCAAAGATTACAAGTGCACGAAATGCCCCGAGCTTTTCATATCTTCGTATCAAATGCAGAAGCACCTAATTAAAGTGCACAACGAGGGACACAAATGCGTTCATTGCGGTGCCAGATTCAGTACAGTCGAAGACAAACATAAGAGAATGGAACTGGCACGTAAACTGTTCATAAAACGGAGGAACGTGGAATACGTGTTGCAATACAGCAACGCTACGCCCTTCATGTGGCACAAGGGCAAATACAAATGCTTCTTTTGCAACGAAACTATGAAAGATCCGACCGTGTTGCGTGATCACACAGCCTCGGCACATCAGTTTGCCAATTTAGAGCTGGTCGTTTACGATCGCACGAAAAATAATAGGAATAGGGATGCCGCTATCAAGATTGACGTAACCGATATCGCTTGCAAGCTCTGCACTCAAACGGTAAATAACTTGGAAGAGCTGATACACCATCTGATTATAGCTCACGATGCCGAATACGATATGAGCGTACCCAACTGTTTGTTGCCCTTCAAATTGGACAAGGATCAGCCCACGTGTCCGACTTGCGATATGAAATTCGTTTTCTTCGAATATTTGTTACGTCACGCAAATAAGCATCATCTCTCGCACCATTATATCTGTGACGTTTGCGGCACGAGTTTCCAAGGGGAGAATCATTTGAAAATGCATTATAGGTACTATCATAGAGAAGGCGGATACACCTGTGAGTACTGCGGTATTAGTCTGGCGACGTTGTCCAAGAAAATTCTACACGAAAAAAATGTTCATTTGGTTAACTTATTGACGTGCCCGCACTGTCCCGAAACGTTTAAAAGTCCATATTTAAAGAAGTTACATTTGGCGAATGTTCACGGCGTCGAAGAGCTTAAAATTAAGTGTCCTTACTGTCCCAAAGTATATCCCCAAGAGAGCATAATGTCGCGGCATATGAGGCGAGTACATCTAAGGGAAAAGAACGTTGAATGCGAGATATGCGGAGACAGATTTTTCGGGCCATATGACGTAAAACTTCACATGGTCAAACACAACGGCGAAAAGAAGTTTGTTTGCACGGTGTGCGGAAAGAAATTCTCAAAAAAGAGTAACTTGAATTCTCATTCGGTTCTACATACTGGCCAGAAGCTGTATATATGTAGTTTCTGTAATAAAGCGTTCACGCATCACACAAACATGAAGATGCACATAAGGAATAGACACGAGTCGTACGTTGTTGATTCGCATCAGGTTGAAGATATTGGTCTCGATAACCCTGAGATATTGCAGATGGAAATAATACAGAACGACACTGACGAAGGGATAGTGGCCGAAGAGATAATTTTCGCACGAACTGTTTTCCTTACAGGAGAACTTAGTGCTTGCAATAGACAGATAAAGGATCGAGAAGCTGTACCTGACCCAATGCGGAGGACAGGCCCCACGAGGAAAGAACAACGTCAGAGACTTAGGAACAACGTTATACAAGTGCTGATTAATTCGACCGTGATACCGTTCCGTTGGCTGAAAAGCTCGTATCGCTGCTTCTACTGTTACGATATCTTCGAAGAGTCCTCCGATCTAAAAGCTCACCAAATCGCTCACGCGGACGACGAAATTAAACATCGAACGATGAATAACTACTGGGAACCGGTTGTGTATGTTGACGTTTCCGAATTGTCGTGTCGCCTCTGTCCGGAAATGCTCAGTGATTTTTACGAATTGATCGACCATCTAGTTTCTAAGCACGACATCGATTATAACACGGAAGTCGGCAGCTGCATGGTGCCTTTCAAGATCGACGATCTAACGCTGAGTTGCCTTATTTGTGGGGCGAATTTTTTCACGTTCGGCCCTTTGCTGCAGCACACGAACAAGGACCACAAAGGCACTTCGCGCATCCTATGCGAGATCTGCGGTCAGAACTTTAAAGACGGCGTAATGTTGAAGGCGCACGTGAAAGTCGCTCACGAGAACGCGGGACTGCTGTGCACGGAATGCGGCGAGAAATTCGAAACGAAATGCAAACTGAAAACGCACCAGAAACACCAGCACGATATCGAAAAGAAATACGTGTGCTTGGTCTGTCCGTTGAGTTTCCAAAGTCATTACAAACGGTCTAGGCATATGGCGACGGAGCACGACAACCGGGAAGTAATAAACTGCCCTCACTGCCCTAAGACGTTCGTGTTCAGATGCTTCTACTGCTACGAAATATTCAAGGAGCCGAGAGATTTGAAGGCACACCAAACGACGCACCAAGATCCGGAGATAATTAAAAAGACAATGAACAAATACTGGGAGTCGGTTATTTACGTTGACGTCTCGAACATAGGATGTCGTCTCTGTTCCGAACAAATAAACGATTTGGATTCACTAATTGACCATTCGATAAGGAAACACAAAATGTCGTTCAATACTGACGTAGGACGATCGCGTAACTTTGACAAGGAATCGGCGTCCATTGTCGACGCGGAACTAGTCGAAGCCAAAAAATCATGGAGGGTGTTAGCAACGGTTCTAGAAAATTCGACAGCCATGCCGTTTAAAAGGCACGGCAATTGGCACAAATGCTTCTTCTGCGGCAAACGATTTCAGAGCGTTCTGCATTTGAGGGCCCACAACACCGAGCAGCACAGCGCAGAATCGACAAACGAATTGAAAGAACTAATAACGGATCCATTCATAAATCTTGATATAACGAGTTTAAGATGCAGGCTCTGCGACGCAGCGGCTGACAGTTTGGGGGATTTCATCTACCACATTCGCGAAAAACACGAGTTGAATCAGATCACATTTGTGCCTCGAAACATCTTGTGTTTCAAATTAACGGACACCGATTTTTCGTGTTTGAACTGCGGCCGAAAATTTAAACTGTTCGGCACTTTACTGTCGCACATCATAACAGAGCACAACCGCTTGGCGAGCTCCAACGAAATCATCCCTTACAAGAACGAGCTCGATGACTCTTTACAAATCAGGAAACACGAATGTACATTTTGCCGTAAGAGGTTCTTAAGTAGGCGTCGGAAAGAGCTGCACGTGCGACTCGTGCATGAATCGAAAACCAACTGCCCCTATTGCGCGGAAACATTTCGCAGCACCAAAGACAAGGACGGACACATTTACACGGTCCATTCCGATGAGATAAGCTGGCAGAGCTGCGACAAGTGCCCTGCGAAATTTCGATTGCACGAGCAGCTACACAAGCACACGCGTCGGGTGCATTTGAAGGAGAAGAACGTGACGTGCGAGGTTTGTGGCATGAGGTTCTTCAACAACGGGATACTGAACATGCACAAAGTGAGACACAGCGACGCCAAACCGTTTCAGTGCTCGATATGCCATAAGCACTTCGCCAGGAAAGCCGCGATGAAGCTACACATGCGAATCCATACAAACGAGAGGCGATATATTTGTAAATTGTGCGGTAAAGCCTTCGTTCAGTGGTCCAGTCTCCAGCTACATTTGCCGAGGCACAGCGACGAGAGGAAGTTTCGATGTATGGTCTGCGGTAAAGCTTTCAAAACGAAAAACAACTTGAAAAAGCACAGTTCTAATGTGCACGACGTCAAATATCAAGTGAAGCAGAAGAGAACCTCGAATTTTAAAAGAGATAGCGTCAGATCTGAAATGAAAAGCTTCATGAGTTGCGCCTTAGAGCTCACCACAGTGATGCCGTTCAAGTGGTATCTGAGCCGATATATGTGCTTCTATTGTGAACAAACGTTCGTCGATAGCTTAAAACTGAAACAGCACACGAAACAAGCGCATCGCGAGATCAAAATTAACAAAGTGATGAAGAGAATCGGCCCCATAAAAAGGATAAAGTGGGACATCACGGAGATTAAGTGCAAGAAATGCGAAGAACAAATGTCGAATATAGAAGAGTTTATCATTCACGCGCGAAAGCACAATTTGTTTTTCGATTCGGATGTTGTTATGGAGAATCTGTACGTGTTCAGATTGTCAGATGATGGGATGTTTTGTGTGCACTGCGGGGAGGGTTTTAAATTCTTCACGCCGTTACTACGCCACACGAATAAATACCATAACAAGTCCGAGAAGTTTATCTGCGATATCTGTAAAGAAAGTTTCGTTTTGAAAGGTACACTGCGGAGTCACATTGAGAACGTTCATTCAGATATGCCCTATAGATGTCGGTTGTGCCCAAACTGGTTCCCGACACGGCGAGCGTACTCCAATCACACCGAAACATCCCACAGGACTGGCAAATTCAGTTGCCCACACTGCACAGAGACTTTAAGTAGTAGATATTTGAGGAACATGCATTTAGCCACGAAGCACGATCTGAAAACTAAACAGTTTGGTTGTGATGTGTGCGCGAAAGTGTTTTTCAGGAAGAGCTCTTTGATTGGGCACAAGGCGAGGGCGCATTTGAAGGAGAGATCGGCTACATGTCACGTTTGCGGGTTAAAAGCGTTTGATGTACACGCTTTGAAGCTACATATGGCGGTGCACGACAATGCGCGGCCTTTGTTTAGCTGCGTGCACTGCGGGAAAGTATTCAAATGGAAAAGGTTGCTTTGCGTCGCGATCGATACATCGACGATACGACCGTTCCGCTGGTTCAACAACAAGTTCATGTGCTTCTACTGCTGCATTCCGTTCGTGCACAGTTCGAAGCTGAAGGAGCACATGGCGGAAGAGCACGCCGACGTCAAAGTAACGAACGCGATTCGTAGGGTGTTGAACACGGCCCGCGTGAAACTGGACATTTCGGATCTGAGCTGCAAGATATGCGCGGAGGGATTTTCGAGATTCGACTTGTTCTTGGAACACGCTACCGATACACACAAATTACGCCTCAATAGAGAGGTCGGGAAGTGTCTGTTCGTGTTCAAATTGGACGATTACGTGATGTCGTGTTGCGACTGCGGCGAGAGCTTCAGGTTCTTCGGTTCGCTTCTGAAGCACGCTCACAAGTTCCACAATAAGGACAGCGTTTTCCTGTGCGAGACTTGCGGCGAAGGATTCGTGAACAAAGCGAACCTAGAGAGCCACGTCCGAAACGTGCACCACTCGAACCACAAGTGCACCGAATGCGAGAAGGTGTACAAGAATCACACGGCCCTAAAGAACCACATCGACAAGGACCACAAGAATCTGTTCAAATGCCCGAAATGCCCCGAAGTTTTGGGCAGTAGGTACTTGAAATTGCGACATTTGGCGCTCGTGCACGACGAAAAGATGCTCCAGTTGAAATGTGATCATTGTCCGCAAGTGTTCACTACGAATCGCGTTTTAGTTCAGCATACATTGCGCGTTCACATGAAAGAGAAGACGGTCACCTGCGACCTCTGCGGCTTTAAAATGTTCGATAAAGAGGCTCTGGTCAGGCACATGATGTACCGGAAGTTGACACTTTTCGTACAAATACCGAACGTCCCCCTCGAAGAGATGTCTGAGCTCCGGAGGAAGCACGAACTGTCCAACCTGCTGACCGTCGTGATCGAGAACTCAAGAGCGATCCCGTTTCGGTGGTTCGCTAACAAGTTCACCTGCTTCTTCTGCAGGAGCCGGTTTGACGAGAGCTCCCAGCTGAAGGTCCACATGGCCGAGGAGCACGAAGACGCCAAGGTCACTAAAATCCTGCGCTCCCTCCTCGGAAGCTGTCGCTTGAAGCTCGACGTCTCAGACGTGTCTTGTAAACTGTGCCCGAAGCGGATCGAAGGCTTCGAAAATTTCTTAGAGCACGCGACGACCGTCCACAAGTTGACTTTCAACAAGGAGATGCGCCGCGGCGTTTTAACCTTCAAATTATCGGACGTGATGAATTGCGAAGAGTGCGGTGCGAAATTCAAGTTCTTCGGCACGTTCCTAAAGCACACCCTCAAATATCACAGTTCGTCGAGCAGCTTCCTGTGCGAGATCTGCGGCCAGGGCTTTGTAGCGAAGAAGCACGTCGACTATCATGTGAAGACCGTGCACAACGACGGTCAGATCGATTGCCCGAAATGCGACAAGACGTTCGCGAGCAAGAAGGCGATGAAGTACCACGACGAGGTCGCCCACAGGAACCCGGAGCTAAAGTGCACGAAATGCCTCGAAGTATTCACAAGTAAATACACCAGGAACAGGCATTTGGCTATCGTGCACGACGTGAAGACTCTGCAGTTCCGTTGCGACCAATGCCCGCAGGTGTTTATCAAGCATGGCTGCCTCGTCGAGCACAAATCCAGGGTGCACCTAAAGGAGAAGACGGTCACGTGCCAAGTCTGCGGCCTGAAACTATTCAACGACAGGGCCCTGCAGCTGCACATGGTGAAGCACAGCGATGCGAGACCCTTCGAATGTGAGTACTGCAAAAAGACATTCCAGAGGAAGACCACGTTGAAAATGCATAGGCGAATACACACGAACGATAAGAGGTGTGTGTGCAAGGAGTGCGGCAAGGCGTTCGTGCAGACCGCCAGTTTGAAGCTGCATTTGAGGGTGCACCATCCCGGCGCTGAAGGGAGATAG

Protein

MMEFDDIVVKENPGLCRCCLSEGCYKDLGSEYTWMNENEVYADMLLECFDISISQINEGPNGPNRLICEVCITRLRDACNFKKQVFECEKKFIDMVARGEFRKVLIYQAHMKSEEVGPEDEIPADESEYLEEDPDFGDDEPLKREEPQPTVSAEPLQIKGKRGRPKKQPDAKPEKKKSNTDDKKTKPVAKDVKTRKYKGCESSSMRRRRNFEILFNNTTIIPFKWRGKYLCFYCSKDIAEYNELRKHTKSHGDCSIKDHSLKVLKGGHNMEIKIDVSDVACEICGEPFPSLEEIINHLYVKHKLEYDRGVEMSIEEYRLVDMGCLVCGEKFAFFGYLVSHVNNIHPKNCLLCDKCNQKFNKKRDLFSHMKNYHREGGYQCEVCPQSFSSLNILRKHKINRHLTRCSVCHLKLPSASLKQKHMDLEHPDDGSLQCDNCDKQFHTKQGLRMHSRKCKGLEEFLEIAYKKEDAAAMDLDQNYEERSKRPSVKQIRENIVIVINMSTAIPFNFYKNKFNCFYCSKDFADSDAMREHTVVEHPVCDVKEKCIRKCRESVACVKIDISTLACKICFESMINLDSLIDHLIVKHEANYDKSITTCLQPYRLVKDHMACPNCPGEVFRFFGTLLKHMNKKHTNNNIICVYCGETFRRDQNLRVHVWRHHRDGRFKCNICGAECNIPSRLYMHMAKAHGVRASKCPKCPESFATQYLRQKHLIDAHDSGHKCTYCGKLFTRNSFMRDHVRRTHLKEKNVECSICNMKFFNNILLRRHMVKHSGEKNFHCEICGERRKNLIILFNNTTLIPFKWRMKYMCFYCGRSLDDYSELREHTIDHGICTENDRAIRLVKAPDSEVKIDVSDVTCRLCDKMLSNMDDIIDHLVSNHRKSYDREVQLAIAPYSLRDLKCLSCSENFRHFRALVVHVNRAHPNNCFVCRDCELKFNKKRDLDRHYRVHHRKRFKCSKCLDDFSTYADYQRHRSNAHISTCNICFKAFSTSTKRLVHMKMDHDLDLAECGFCKKIMTTRQGFLRHATQCTAKYELKSPQVVVVDDDKKPSIKEIRKEIANIFNMSTAMPFKFFMTKFRCFYCSEDFQKCDLLKKHTLAEHPYCDVSIKSMRLRHRYEGLQIKVDTSALACKLCFEPVDSMSSLFDHLKSEHKSSCDESVAAHIQGFKLMEDNYVCPYCDEVFRYFSVLLKHVSVRHTDNKYICVYCGKSFRTNPNLRSHVIGRHDNPSREKCEKCGLVLKSKNTLRLHTRKVHCNKRVECTECQETFITNYSMYVHKRDVHGIGHKCDYCLKIFAKNSAMVNHMRRAHLKEKNVQCSVCFESFFDVQRLKTHMVKHAGKRNYQCDVCDKNSPFEPSTEPPAPGVFLGCTSERRRKNLKIIFNCTTIIPFKWRGRYLCFYCGKPYAEYAELKSHTQSHAPCTTKDYALRIIRGSHVEIKIDVSEIVCKICYEPFDSFEEIVNHLIGKHKLSYEKQIGTPYQEYRLSDCGCTRCGERFAYFTNLVKHVNTAHPQNRFICDKCEMPFNKKRDLAVHFRNYHGEENYNCVQCSQNFKSLVTLRRHQNDIHFRQCKICGSRFESVAVLRKHEVSEHPDDGNYKCRYCCKELHSAPGLRLHYGKCKVRAIASIDPKCPLISGEIRRRKLKNNLKAIRNNIQCVLNMSTAIPFKYFAKYSCFYCTLKFVEFEDLRQHTMLEHPVCDVKEKYMRQCKGDRVCVKIDISSLKCKLCCMPMGDLDLLIDHLISEHKAGYDKSIKGCLDPYRIIKDSIPCPLCETVFRYFSTLQRHINSDHSNNNAICDFCGKSFNKLSNLVVHIGLAHMGATQCGICGANFKNNWCLSRHRAKHHGVKDYKCTKCPELFISSYQMQKHLIKVHNEGHKCVHCGARFSTVEDKHKRMELARKLFIKRRNVEYVLQYSNATPFMWHKGKYKCFFCNETMKDPTVLRDHTASAHQFANLELVVYDRTKNNRNRDAAIKIDVTDIACKLCTQTVNNLEELIHHLIIAHDAEYDMSVPNCLLPFKLDKDQPTCPTCDMKFVFFEYLLRHANKHHLSHHYICDVCGTSFQGENHLKMHYRYYHREGGYTCEYCGISLATLSKKILHEKNVHLVNLLTCPHCPETFKSPYLKKLHLANVHGVEELKIKCPYCPKVYPQESIMSRHMRRVHLREKNVECEICGDRFFGPYDVKLHMVKHNGEKKFVCTVCGKKFSKKSNLNSHSVLHTGQKLYICSFCNKAFTHHTNMKMHIRNRHESYVVDSHQVEDIGLDNPEILQMEIIQNDTDEGIVAEEIIFARTVFLTGELSACNRQIKDREAVPDPMRRTGPTRKEQRQRLRNNVIQVLINSTVIPFRWLKSSYRCFYCYDIFEESSDLKAHQIAHADDEIKHRTMNNYWEPVVYVDVSELSCRLCPEMLSDFYELIDHLVSKHDIDYNTEVGSCMVPFKIDDLTLSCLICGANFFTFGPLLQHTNKDHKGTSRILCEICGQNFKDGVMLKAHVKVAHENAGLLCTECGEKFETKCKLKTHQKHQHDIEKKYVCLVCPLSFQSHYKRSRHMATEHDNREVINCPHCPKTFVFRCFYCYEIFKEPRDLKAHQTTHQDPEIIKKTMNKYWESVIYVDVSNIGCRLCSEQINDLDSLIDHSIRKHKMSFNTDVGRSRNFDKESASIVDAELVEAKKSWRVLATVLENSTAMPFKRHGNWHKCFFCGKRFQSVLHLRAHNTEQHSAESTNELKELITDPFINLDITSLRCRLCDAAADSLGDFIYHIREKHELNQITFVPRNILCFKLTDTDFSCLNCGRKFKLFGTLLSHIITEHNRLASSNEIIPYKNELDDSLQIRKHECTFCRKRFLSRRRKELHVRLVHESKTNCPYCAETFRSTKDKDGHIYTVHSDEISWQSCDKCPAKFRLHEQLHKHTRRVHLKEKNVTCEVCGMRFFNNGILNMHKVRHSDAKPFQCSICHKHFARKAAMKLHMRIHTNERRYICKLCGKAFVQWSSLQLHLPRHSDERKFRCMVCGKAFKTKNNLKKHSSNVHDVKYQVKQKRTSNFKRDSVRSEMKSFMSCALELTTVMPFKWYLSRYMCFYCEQTFVDSLKLKQHTKQAHREIKINKVMKRIGPIKRIKWDITEIKCKKCEEQMSNIEEFIIHARKHNLFFDSDVVMENLYVFRLSDDGMFCVHCGEGFKFFTPLLRHTNKYHNKSEKFICDICKESFVLKGTLRSHIENVHSDMPYRCRLCPNWFPTRRAYSNHTETSHRTGKFSCPHCTETLSSRYLRNMHLATKHDLKTKQFGCDVCAKVFFRKSSLIGHKARAHLKERSATCHVCGLKAFDVHALKLHMAVHDNARPLFSCVHCGKVFKWKRLLCVAIDTSTIRPFRWFNNKFMCFYCCIPFVHSSKLKEHMAEEHADVKVTNAIRRVLNTARVKLDISDLSCKICAEGFSRFDLFLEHATDTHKLRLNREVGKCLFVFKLDDYVMSCCDCGESFRFFGSLLKHAHKFHNKDSVFLCETCGEGFVNKANLESHVRNVHHSNHKCTECEKVYKNHTALKNHIDKDHKNLFKCPKCPEVLGSRYLKLRHLALVHDEKMLQLKCDHCPQVFTTNRVLVQHTLRVHMKEKTVTCDLCGFKMFDKEALVRHMMYRKLTLFVQIPNVPLEEMSELRRKHELSNLLTVVIENSRAIPFRWFANKFTCFFCRSRFDESSQLKVHMAEEHEDAKVTKILRSLLGSCRLKLDVSDVSCKLCPKRIEGFENFLEHATTVHKLTFNKEMRRGVLTFKLSDVMNCEECGAKFKFFGTFLKHTLKYHSSSSSFLCEICGQGFVAKKHVDYHVKTVHNDGQIDCPKCDKTFASKKAMKYHDEVAHRNPELKCTKCLEVFTSKYTRNRHLAIVHDVKTLQFRCDQCPQVFIKHGCLVEHKSRVHLKEKTVTCQVCGLKLFNDRALQLHMVKHSDARPFECEYCKKTFQRKTTLKMHRRIHTNDKRCVCKECGKAFVQTASLKLHLRVHHPGAEGR

Description

Transcription factor specifically required to repress SINE-VNTR-Alu (SVA) retrotransposons: recognizes and binds SVA sequences and represses their expression by recruiting a repressive complex containing TRIM28/KAP1 (PubMed:25274305). May also bind the promoter of the FCGR2B gene, leading to repress its expression; however, additional evidence is required to confirm this result in vivo (PubMed:11470777).
May play a role in differentiating skeletal muscle.
May be involved in transcriptional regulation.
Mediates transcriptional repression in response to zinc. Represses several genes, including SLC30A5, SLC30A10 and CBWD1, by binding to the zinc transcriptional regulatory element (ZTRE) (5'-C[AC]C[TAG]CC[TC]-N(0-50)-[GA]G[ATC]G[TG]G-3') found in the promoter region. May play a role in the control of ribosome biogenesis, regulating predominantly rRNA levels, as well as those of several ribosomal proteins, thus coordinating this highly zinc-demanding process with the available zinc supply.

Subunit

Interacts (via the KRAB domain) with TRIM28 (via the RBCC domain); the interaction increases ZNF268 nuclear localization activity. Isoform 2 interacts with CHUK and IKBKB; the interaction is further increased in a TNF-alpha-dependent manner.

Miscellaneous

ZNF91 is only present in primates and emerged in the last common ancestor of humans and Old-World monkeys. It underwent structural changes between 8-12 Million years ago, probably to improve the protein's ability to bind and repress SINE-VNTR-Alu (SVA) retrotransposons elements (PubMed:25274305).

Similarity

Belongs to the krueppel C2H2-type zinc-finger protein family.

Keywords

Alternative splicing Complete proteome DNA-binding Metal-binding Nucleus Polymorphism Reference proteome Repeat Transcription Transcription regulation Zinc Zinc-finger Repressor 3D-structure Cytoplasm Phosphoprotein RNA-binding Isopeptide bond Ubl conjugation Differentiation Ribosome biogenesis Activator Developmental protein Spermatogenesis Chromosomal rearrangement

Feature

chain  Zinc finger protein 208
splice variant  In isoform 2.
sequence variant  In dbSNP:rs2007506.

Uniprot

O43345.2 Q05481.2 A6NN14.4 P08045.1 Q8NB50.3 A8MQ14.2 + More
Q6ZNA1.2 Q96IR2.3 Q8C827.1 Q8TF20.2 Q14587.2 A8MXY4.3 P10076.2 Q86UE3.2 Q52M93.1 Q08AN1.2 P17038.4 Q6P3V2.2 Q9Y6R6.1 Q8N4W9.2 Q86T29.1 Q6ZN19.1 P10751.2 Q4V348.1 Q96JF6.3 Q80W31.2 Q86V71.2 Q9NYT6.2 P18751.1 P10077.2 Q5TYW1.2 A0JNB1.1 Q5MCW4.1 Q5R4K8.2 Q8NEP9.4 Q96SK3.3 Q5RB30.1 P18714.2 P15620.1 Q8N8J6.2 Q96SE7.2 Q9HBT7.1 P51814.2 Q5R5U3.1 Q6ZR52.3 Q6P5C7.1 Q14591.4 B7Z6K7.2 P16374.2 Q9UII5.1 Q9UEG4.2 Q5R9F0.1 P17017.3

Pubmed

9724325 15057824 8467795 14702039 2023909 7479878 + More
11470777 16606703 23665872 25274305 17974005 2826129 1782138 8398678 7692399 2506074 2503871 15372022 15489334 25218447 25772364 25755297 28112733 16141072 8808410 21183079 15815621 11853319 11311945 12200376 16865230 18949428 16541075 7865130 12822888 15547661 16787922 16735226 18774934 18375384 18677094 23091055 22235304 23946776 3143103 16959974 1711675 2288909 2452975 15164053 11347906 12168954 19468303 9630514 12743021 2503827 2509712 25582195 16793018 1505991 8001572 2104800 2249852 16625196 10449920 15772651 2037297 14628291 23871722 8674531 2512579 10673043 9205841 1946370 20068231 23186163 24275569

EMBL

AC003973 L11672 AK300294 AK291256 AC010300 AC016628 + More
AC022409 AC093058 M61871 AC011494 AC073539 BX956721 X06021 AK091550 AK295714 AK303450 DA323041 AC022413 AL832408 BC140761 BC171780 AC020928 AC010320 AC011468 AK131308 AK295079 AC010467 BC007307 AK028351 AK048619 AK088060 AK154767 BC022935 BC065692 L36315 Z67747 AL834155 AC092574 DA309597 AB075862 AF317549 AF385187 AF432217 AC026785 DQ057356 DQ057357 DQ057358 DQ057359 DQ057360 X78926 AC008626 AK141740 AK220539 M36514 X12592 AK292528 CH471126 BC045649 AY147015 BC093625 AK027834 AK092266 BC033199 BC125099 AL832969 X59244 BT009756 AK291353 CR933640 AC010617 AC092364 CH471106 BC006528 M61869 X52358 AK056389 AK074345 AC012309 BC063820 AC007842 BC136960 CR749856 AC022150 CH471135 BC033230 BC130351 BC130353 AK122878 AL832191 AL832623 AC073911 AC127070 CH471218 AK093512 AK129938 AK131334 AK131409 BC136254 AK032872 AK085077 BC058553 BC094590 BC139312 BC139315 M20755 M20756 M20757 AK095694 BX248098 AB058774 AY500358 AC149283 BC050048 AB010334 AC010615 AY269786 AF325191 BM996292 AF228418 AK023091 AC074331 AC138470 BC017786 BC024197 M25866 AK028500 AK135293 AK147732 BC059037 M36515 X12593 AK022636 AK057375 BX664608 AL353770 BC031626 AL110217 BC126592 AY835704 AK056615 AK289987 AC008806 BC117219 M88363 CR859597 CR860164 CR861238 AK093163 AK292954 BX647423 AC006130 BC022022 AK131557 AK131559 AK027708 AC093227 BC014850 CR858827 X82643 X17617 M36146 M36145 AK128361 AK131494 CR936612 AC011460 BC105100 BC105102 BC143429 AY029765 AK096623 AC010328 AC092070 BC136255 AL713691 AF217227 CR457194 AC127540 BC101487 BC113363 X60155 AJ010017 AJ010018 AJ010019 AJ010020 AJ010021 AJ010022 AJ010023 AK290021 AK294858 AL590223 AL590283 CH471164 BC015023 M92443 CR860760 AK095616 AK127476 AK128494 AB209086 BX648842 BC006408 AC159264 AC163667 BC062958 AK300483 AC010326 U48721 M28515 AB027251 BC047243 AB002324 M88374 CR859439 AB021644 AC011458 BC136323 X52337

Proteomes

UP000005640 UP000000589 UP000009136 UP000001595

PRIDE

O43345 Q05481 A6NN14 Q8NB50 A8MQ14 Q6ZNA1 + More
Q96IR2 Q8C827 Q8TF20 Q14587 A8MXY4 P10076 Q86UE3 Q52M93 Q08AN1 P17038 Q6P3V2 Q9Y6R6 Q8N4W9 Q86T29 Q6ZN19 P10751 Q4V348 Q96JF6 Q80W31 Q86V71 Q9NYT6 P18751 P10077 Q5TYW1 A0JNB1 Q5MCW4 Q8NEP9 Q96SK3 Q5RB30 P15620 Q8N8J6 Q96SE7 Q9HBT7 P51814 Q6ZR52 Q6P5C7 B7Z6K7 P16374 Q9UII5 Q9UEG4 P17017

Pfam

PF00096   zf-C2H2        + More
PF01352   KRAB
PF16622   zf-C2H2_11
PF02023   SCAN

Interpro

IPR001909   KRAB        + More
IPR036236   Znf_C2H2_sf
IPR036051   KRAB_dom_sf
IPR013087   Znf_C2H2_type
IPR041697   Znf-C2H2_11
IPR017125   Znf_PRDM5-like
IPR003309   SCAN_dom
IPR038269   SCAN_sf

SUPFAM

SSF109640 SSF109640 + More
SSF57667 SSF57667

Gene 3D

1.10.4020.10

CDD

cd07765 KRAB_A-box
cd07936 SCAN

ProteinModelPortal

O43345.2 Q05481.2 A6NN14.4 P08045.1 Q8NB50.3 A8MQ14.2 + More
Q6ZNA1.2 Q96IR2.3 Q8C827.1 Q8TF20.2 Q14587.2 A8MXY4.3 P10076.2 Q86UE3.2 Q52M93.1 Q08AN1.2 P17038.4 Q6P3V2.2 Q9Y6R6.1 Q8N4W9.2 Q86T29.1 Q6ZN19.1 P10751.2 Q4V348.1 Q96JF6.3 Q80W31.2 Q86V71.2 Q9NYT6.2 P18751.1 P10077.2 Q5TYW1.2 A0JNB1.1 Q5MCW4.1 Q5R4K8.2 Q8NEP9.4 Q96SK3.3 Q5RB30.1 P18714.2 P15620.1 Q8N8J6.2 Q96SE7.2 Q9HBT7.1 P51814.2 Q5R5U3.1 Q6ZR52.3 Q6P5C7.1 Q14591.4 B7Z6K7.2 P16374.2 Q9UII5.1 Q9UEG4.2 Q5R9F0.1 P17017.3

PDB

5V3J E-value=2.6983e-19, Score=244

KEGG

101739684 K09228 KRAB domain-containing zinc finger protein | (RefSeq) zinc finger protein 729-like

GO

GO:0008270 GO:0005634 GO:0000981 GO:0003677 GO:0070895 GO:0003700 GO:0045892 GO:0046872 GO:0003723 GO:0006355 GO:0005737 GO:0003676 GO:0000122 GO:0090073 GO:0071157 GO:0030335 GO:0001934 GO:0071356 GO:0045944 GO:0043497 GO:0045597 GO:0008285 GO:0030154 GO:0015629 GO:0043065 GO:0045732 GO:0005829 GO:0043066 GO:0008284 GO:1901224 GO:0007346 GO:0000976 GO:0005654 GO:0042254 GO:0071294 GO:0002829 GO:0007275 GO:0002437 GO:0045629 GO:0007283 GO:0042035 GO:0045893 GO:0006101 GO:0003824 GO:0008152 GO:0016491 GO:0015930

Subcellular location

Nucleus
Cytoplasm

Length:

4002

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.00358

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00010

outside

1 - 4002

Pi

257.818137

Theta

203.831443

Tajima's D

0.577218

CLR

0.386871

CSRT

0.535673216339183

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics