Xenopus laevis (African clawed frog): 108701340
Help
Entry
108701340 CDS
T01010
Symbol
baz2b.L
Name
(RefSeq) bromodomain adjacent to zinc finger domain protein 2B isoform X4
KO
K26167
bromodomain adjacent to zinc finger domain protein 2B
Organism
xla
Xenopus laevis (African clawed frog)
Pathway
xla03082
ATP-dependent chromatin remodeling
Brite
KEGG Orthology (KO) [BR:
xla00001
]
09120 Genetic Information Processing
09126 Chromosome
03082 ATP-dependent chromatin remodeling
108701340 (baz2b.L)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03036 Chromosome and associated proteins [BR:
xla03036
]
108701340 (baz2b.L)
Chromosome and associated proteins [BR:
xla03036
]
Eukaryotic type
Chromatin remodeling factors
BRF complex
108701340 (baz2b.L)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Bromodomain
MBD
WSD
PHD
DDT
Na_trans_assoc
WHIM1
Motif
Other DBs
NCBI-GeneID:
108701340
NCBI-ProteinID:
XP_018091297
Xenbase:
XB-GENE-17336562
UniProt:
A0A8J0TW34
LinkDB
All DBs
Position
9_10L:complement(71062112..71221858)
Genome browser
AA seq
2220 aa
AA seq
DB search
MESAERLTTSTPSSATPSSPSTPSIAVSKGGLSAGVTPLSSTITACGHLFRTSGDQPFNL
SSAFPMVSHPIFGLHAASSGHLEFGGLGTLGTPTALAAHPQLAPFPGAEWWRTTDAHTRA
AFFPPLLGIPPLFTPPTPNHDSSFHLRNSVKNGRSVPEKGMNGSMNGSSPTLVTSNCTSI
LSTTSASTVGQTKSAASGATGRLSKEDQSKSDGRSEKTKDKLLSKAEQQKQRKKAAESSS
SSDSGSSSETSSDGVSSSDSDDLEEEEDQSIEESDDDDSDSESEAQTKIKNKVLLHNLKT
DGHKPDKSQEKRTHQQIPLISDSQTRLPFQSQQKHPPVLSQHLPFAFPSSQAKEETVNKH
TSVIQCTGLVSNVKPLTLLNKSKDNCLKLGTSSTDGLKAGTKNTSEESAPSDLRIKRDQH
KETFSAHISKPRESSKHQKKSFAGLQVSNSASSSLGPHSSSIANKHSNPFLTNALLGNHH
PNGVLPNVIQDVPLALTTKTKSQGKINDSSASSPGSQFSSPINLSSSMRKNSSSQLSLGP
TSPPVLQSICKDKPLGKPNSPAIKTSHRVSAAKSLLDKFRGADSDIPSSKDSDDSNEEED
EEDDDEDDEEEDEDDEEDDSDSQSESDSNSESDSDGSEEDDDKDQDDSDSDTEGEKTPLK
RNKTAPSMNSTTNSITAHSTPLNLQVIKNPGSAPASLCPEAQTQDFLASSSALSPSTPCG
SGKRRRVTDERNLGIPLEHGWQRETKIKNLSGRLQGEVTYYAPCGKKFRQYPEVMKYLSR
NGIMDISRDNFSFSAKIRVGDFYEARDGPQGMQWYLLKEEEIVPRIRAMEGRRGRPPNPD
KQLAREESRMRRRKGRPPNVGSADFVVNDDAKLLRKLQAQEIARQAAQIKLLRKLQRQEQ
ARAAKEAKKQQAIMAAEEKRKQKEQIKILKQQEKIKRIEQVRMEKELRTQQILEAKKKKK
EDAAIAKIMEAKKRIKAKEMRRQQAVLLKHQELERHRLDMVWERERRRQHVMLLKAVEAR
KKAEERERLKQEKQDEKRLHKERKLEQRRLELELAKELKKPIEDMCLADHRPFPELPRMP
GLVLSGSTFSNCLMVVQFLRNFGKVLDFDSHKEIPTLSVLQEGLLNMGDSMGEVQDLLVR
LLSVAVCDPGVPPGYKAKTALGEHILNIGINRDNVSEVLQIFMEAHCGQTDLTESLQTKA
FQAHTPEQKSSILAFLVNELACSKSVVSEIDKNIDHMSNLRRDKWMVEGKLRKLRMIHAK
KTGKKDSITGSEGSEEQQSLGTPTQGRKRRRKGADSDYDDDDDDDSDDPAEDEDDEDEDK
KMKKVETCDDEDDGDQTATVEELEKQIDKLLKQQNQYRKKLFESSHCLRSMMFGQDRYRR
RYWILPQCGGIFVEGMESGEGPEELAKERERQRAAENIQIKEEMLENYEEKVNSLNSGNK
EQKEKDSTNLFLQKPGSFSKLSKLLEVAKMPPEMDGLTQKANVSPNVCSLPYTKNCRATP
NNLQPSTSQGNTEKTDSSSFTPPVSGSGKFYNSPVIPNEQLLKTLTDKNRQWFSLLPRTP
CDDTSLTYIESSPAVTSTAQSRLPSQPSSPLPSPVSNQSPVTNTLGINPFTLSPLQMKPG
LQLMGLQFCSWPSPVVPANLPFSSPVPGMVLTPSEGNSHSFLTPTTQPSKSESPIPQSDK
SICTPPSVVEVPKQVDFPTPRPIPEEMQFGWWRVTDPEDLKSLLKVLHLRGIREKSLQKQ
IQKHFEYITQTCMKTKDVTIIEMNDPEECQLTQGIVENWSIEDQEMEVDLAILQQIEDIE
RRVTSASLQVKGWMYPEPASEREDLVYYEHKSVSKRHKEHGGERTTDEGGSSNAIKRKSD
NPLDIAVTRLTDLERNIERRYLKSPLSTTIQIKLDNVGTVTVPAPAPSINGDGDGTEDDI
APGLKVWRRALSEARSAAQMSLCIQQLQKSIAWEKSIMKVVEHQETACLNYKGIKVTGLS
SVRLQYCQICRKGDNEELLLLCDGCDKGCHTYCHRPKITTIPEGDWFCPACIAKASGHTL
KMKKSNLKGKKSVDLKKGKKSPGDTGEEDSAGTGTPGKKGSKDSKKRKGEENNLSPSKQE
SSPSSKKARSAKDELKDLALCSVILSEMESHEDAWPFLLPVNLKLVPGYKKVIKKPMDFA
TIRDKLSNGQYPNFEAFVLDVRLVFNNCETFNEDDSEIGRAGHKMRVHFEKRWTELFNMS
NT seq
6663 nt
NT seq
+upstream
nt +downstream
nt
atggaatctgcagagaggttaacaacatcaaccccatcatcagcaactccgtcctcgcct
tcgactccatctattgctgtttctaaaggaggcctttctgctggagttacacctctgagc
tccacaatcactgcttgcggacacttgttcagaacatctggagatcagccgtttaatctg
tcgagtgcctttccgatggtcagccaccccattttcggccttcatgcagccagctcaggg
catttggaatttggtggtttggggacactgggtacacccaccgccttagctgcacaccct
caacttgcaccttttccaggtgcagaatggtggcgtacaactgatgcacacactcgtgct
gcttttttccctccgctgctggggattcctcctctgttcactccaccaaccccaaaccac
gattcttctttccacctgcgcaactctgtgaagaatgggcgcagcgtcccagagaaaggc
atgaacggatccatgaatggaagcagccctacattagtaaccagtaactgcacatccata
ctatcaactacaagcgccagtactgttgggcaaacaaagagtgcagcctctggtgcaaca
gggaggctttctaaggaggatcaaagcaagtcagatggcagaagtgaaaaaactaaagac
aagttactatccaaagctgagcagcagaagcaaaggaaaaaagcagcagaaagctccagc
tccagtgattctggttcatcttctgagacatcaagcgatggtgttagtagcagcgattcc
gatgatttggaggaggaagaagaccaaagcatcgaagaaagcgatgatgatgattcagat
tctgagagtgaagcacaaactaaaattaagaataaggtgctattacataacctgaaaact
gatgggcacaaacctgacaagtcccaggagaaaagaactcaccagcagatacctcttatt
tcagactcccagactcgcttaccattccagtcccagcaaaaacatcctccagttttgtcc
cagcatcttccctttgctttcccaagctctcaggccaaggaggagactgtgaacaaacac
acaagtgtcatacagtgtacaggactggtctcaaatgtgaagcctttgactctgctaaat
aagagtaaggataactgtttaaagcttggaacttcttccactgatggattgaaagcaggg
actaaaaatacctctgaagaatctgcacccagtgacttgaggataaaaagggatcaacac
aaggaaacattctcagcgcatataagcaagccacgggagagctccaagcaccagaaaaag
tcatttgcaggtctgcaagtgtccaactctgcctctagttctttaggtccccattcatca
tccatagcaaataaacattcaaatccattcttgacaaatgcactgttaggaaaccatcac
cccaatggggtcttaccaaacgttatacaagatgttccccttgcacttaccaccaaaaca
aagagtcaaggtaaaataaatgacagttctgcatcatctcctggctcccagttttcctca
ccaataaatctgagttcttctatgagaaagaattcttccagccagctttcacttgggcct
accagccctccagttctacaaagtatctgtaaagataaacccctgggaaaacctaattca
ccagcaataaaaacttcccatcgtgtcagtgctgcaaagtcattattagacaaattccga
ggggcggactctgacattcctagcagcaaggattctgatgattctaatgaggaggaggat
gaggaagatgatgacgaggatgatgaagaagaggatgaagatgatgaagaagatgattct
gatagtcagtcagagtctgacagtaattctgaatctgattcagatggatcagaagaagat
gatgataaggatcaagatgactcagacagcgacacagaaggggaaaaaaccccactaaaa
cgtaacaaaaccgctccatccatgaatagcacaaccaacagtattactgcacactccact
cccctaaacctgcaggtcataaagaaccctggatctgctcctgcatccctgtgtcctgaa
gctcagacccaagactttcttgcttcatcttcagctcttagcccaagtacaccatgtggt
tctggcaaaagaagaagagtaactgatgaacggaacctgggcattcctttagaacatggc
tggcagcgtgaaacaaaaataaagaacttgagcggccgtcttcaaggggaagtgacctat
tacgctccatgtggcaagaaattccgacagtatcctgaagtaatgaagtatctcagcaga
aatggaataatggatatctcaagggacaatttcagcttcagtgcaaaaataagagtgggt
gacttctatgaagccagagatggaccacagggaatgcagtggtatcttttgaaagaggaa
gaaatagtgccacggatccgggccatggaaggacgtcggggccggcctcccaacccagat
aagcagctggctagggaggaatcgaggatgagaagaaggaaagggcgcccgcctaatgta
ggaagtgctgattttgttgtcaatgatgatgccaagttgttaagaaaactgcaggcacaa
gaaatcgcaagacaagctgcacaaataaagcttctccgcaagctacaaaggcaggaacag
gcacgagctgccaaggaagcaaagaaacagcaagctatcatggctgcagaggagaaaagg
aagcagaaggagcaaattaaaatcctgaaacaacaggaaaaaataaaacggatcgaacaa
gtcagaatggaaaaagaacttcgtactcaacaaatcctagaggctaaaaagaaaaagaag
gaagatgcagcaattgccaaaataatggaggccaagaaacgtataaaggcaaaggaaatg
aggcggcagcaggcagtgctactgaaacaccaggagttggagaggcatagactagatatg
gtatgggaacgagagaggaggaggcaacatgtcatgctacttaaagctgtggaagccaga
aaaaaagctgaagaaagggaacgtttaaagcaagaaaaacaggatgagaaaaggttacat
aaagaacgtaagcttgaacaacggaggctggagttggagctggcaaaggagctaaagaag
ccgattgaagatatgtgtcttgcagaccacaggccttttccagaactgcctcgtatgcct
ggacttgttctgtctggcagcacattctccaattgcctcatggttgtacagtttctccgg
aactttggcaaagtgttggacttcgattcacacaaagagattcctacactaagtgttctc
caagaaggcttattaaatatgggagacagcatgggagaagtgcaggacttgcttgtgaga
ctgctatctgttgctgtttgtgacccaggagtcccaccaggatataaggccaaaacagct
cttggggaacatatactgaatattggcattaaccgggacaacgtttctgaggtgcttcag
atattcatggaagctcactgtgggcagacggaccttacagaaagcctccagaccaaagct
tttcaggcgcacactccagaacagaaatcctcaattcttgctttcctggttaacgaacta
gcatgtagtaaaagtgttgtcagtgaaattgataaaaatatagaccacatgtctaatcta
agaagagataagtggatggtcgaaggcaaacttcgcaagcttagaatgatccatgctaaa
aagactgggaaaaaagactccataactgggagtgaaggcagcgaggagcagcaatcttta
ggaacacctactcaagggcgcaagcggaggcggaagggagcagacagtgactatgatgat
gacgatgatgatgatagcgatgatccagcagaagatgaagatgacgaagatgaggataaa
aagatgaaaaaagtggaaacttgtgacgatgaggatgatggcgatcaaacggccaccgtg
gaggaactagaaaagcagattgacaaattgcttaagcaacaaaatcagtacaggaagaag
ctgtttgagtcttcccattgccttcggtcaatgatgtttggtcaggatcggtacaggaga
aggtactggatccttcctcagtgcggtggaatttttgtggaaggcatggaaagtggtgaa
ggtccagaagaactggcaaaggaaagagagaggcaaagagcagcggaaaatatccagata
aaagaagagatgcttgaaaactatgaggagaaagtaaacagtttaaattctggtaacaag
gagcaaaaggaaaaagacagcacaaatttgttccttcaaaaaccaggttccttctcaaag
ctgagcaaattgctggaagtggccaaaatgcccccagaaatggatggtttaacccaaaaa
gctaatgtttcaccaaatgtatgttccttaccatacacaaaaaactgtagggccactccc
aacaacctacagccaagtacatcccagggcaatactgagaagacagattcgagttctttt
acaccacctgtaagtggttcaggaaaattttataactcaccagtgattcccaatgagcag
ctgctaaaaactctcacggacaaaaacaggcagtggttcagtctccttcctaggacaccg
tgtgatgacacatcattgacttacattgaatcatcaccagctgttacttccacagcacaa
agcaggctcccatcccagccatcctcacctcttccatctcctgtctccaaccagtctcct
gtaacgaatacactggggattaatccattcacattatctccacttcagatgaagccaggt
ttgcaactaatgggactgcagttttgcagttggccgtcaccagtcgttccagcaaatctt
ccgttttcatctccagtacctggtatggtattaacgccatcagaagggaattcacattct
ttcctgacacctaccacccagcccagtaaaagtgaatctcctataccccaaagtgataaa
tctatctgcacacctccatctgttgttgaggtccccaagcaagtagatttcccaacccca
aggccaatcccagaagaaatgcagttcggctggtggagagtaactgatccagaagacctg
aaatccttgctgaaggttcttcatctcagaggaatacgggagaaatctctgcagaagcaa
atacagaaacactttgaatatattacccagacctgcatgaaaactaaagatgttaccatc
atagaaatgaatgaccctgaggaatgtcagttgacacagggcattgtggaaaattggtct
atagaagatcaggaaatggaggtagacttggccatcctgcagcagattgaagacattgaa
agaagagtgacatctgctagcttgcaagtgaagggctggatgtatccagagccggcctct
gaaagagaagacttggtatattatgagcataagtcagtttccaaaaggcataaggaacat
ggtggagagcgcacaacagatgaaggaggcagctccaatgctataaagcggaaaagcgac
aaccctctagatatagcagtaaccaggctgactgatttggagaggaacattgagagaagg
tatctgaagagccctttaagtaccaccattcagatcaaactggataatgtgggcacagtt
actgtgcctgctcctgcaccatctattaatggtgatggtgacgggacagaggatgacatt
gccccggggctgaaagtatggaggagggcgctgtcagaggcacggagtgcagcacaaatg
tcactgtgcatccagcaactgcagaaatctattgcatgggaaaagtccatcatgaaagtt
gtggaacatcaggaaactgcctgtttgaactataaagggattaaagtcactggcttgtct
tctgttcgtttacagtactgccagatatgtcgtaaaggagataatgaggaactgctgctt
ctctgtgatggctgcgacaaaggctgtcatacatactgtcatagacctaaaatcaccacc
atacctgaaggtgactggttctgccctgcttgcattgccaaggcaagtggacacaccttg
aaaatgaaaaaatcaaacttgaaagggaagaaaagtgtggatctaaagaaaggcaaaaag
tccccaggggacacaggagaggaggattctgcaggaactggaactccagggaaaaaaggg
agcaaagattccaaaaaaaggaaaggggaggaaaacaaccttagcccttccaagcaggag
agctccccctcttccaagaaagcaagatcagcaaaggatgaattaaaagacctagctctg
tgcagtgtaatcttgtcggaaatggagtcgcatgaggatgcctggcctttccttcttcct
gtaaacttaaaactcgttcccggctataaaaaggtcattaagaaaccaatggattttgct
acaatacgagacaagctgagcaatggacagtacccaaacttcgaagctttcgttctagat
gtcagacttgtcttcaacaactgtgaaacatttaatgaagatgactctgaaataggcaga
gctggacacaaaatgagagtacattttgagaaacgatggacagaactttttaacatgagc
tga
DBGET
integrated database retrieval system