WERAM Information

Tag Content
WERAM ID WERAM-Mum-0126
Ensembl Protein ID ENSMUSP00000133922.1
Uniprot Accession Q3TKT4; SMCA4_MOUSE; Q3TUD7; Q6AXG8
Genbank Protein ID NP_001167549.1; NP_001167550.1; NP_035547.2; XP_006510180.2; XP_006510182.2; XP_006510183.2
Protein Name Transcription activator BRG1
Genbank Nucleotide ID NM_001174078.1; NM_001174079.1; NM_011417.3; XM_006510117.2; XM_006510119.2; XM_006510120.2
Gene Name SMARCA4;Baf190a;Brg1;Snf2b;Snf2l4
Ensembl Information
Ensembl Gene ID Ensembl Transcript ID Ensembl Protein ID
ENSMUSG00000032187.16 ENSMUST00000174008.7 ENSMUSP00000133922.1
ENSMUSG00000032187.16 ENSMUST00000034707.14 ENSMUSP00000034707.8
ENSMUSG00000032187.16 ENSMUST00000098948.9 ENSMUSP00000096547.3
Details
Type Family Domain Substrates AA References (PMIDs)
Ac_Reader Bromodomain Bromodomain K 25504753
Status Reviewed
Classification
Type Family E-value Score Start End
Ac_Reader Bromodomain 9.10e-18 65.6 1445 1512
Organism Mus musculus
NCBI Taxa ID 10090
Functional Description
(View)		 Transcriptional coactivator cooperating with nuclear hormone receptors to potentiate transcriptional activation. Component of the CREST-BRG1 complex, a multiprotein complex that regulates promoter activation by orchestrating a calcium-dependent release of a repressor complex and a recruitment of an activator complex. In resting neurons, transcription of the c-FOS promoter is inhibited by BRG1-dependent recruitment of a phospho-RB1-HDAC repressor complex. Upon calcium influx, RB1 is dephosphorylated by calcineurin, which leads to release of the repressor complex. At the same time, there is increased recruitment of CREBBP to the promoter by a CREST-dependent mechanism, which leads to transcriptional activation. The CREST-BRG1 complex also binds to the NR2B promoter, and activity-dependent induction of NR2B expression involves a release of HDAC1 and recruitment of CREBBP (By similarity). Belongs to the neural progenitors-specific chromatin remodeling complex (npBAF complex) and the neuron-specific chromatin remodeling complex (nBAF complex). During neural development a switch from a stem/progenitor to a post-mitotic chromatin remodeling mechanism occurs as neurons exit the cell cycle and become committed to their adult state. The transition from proliferating neural stem/progenitor cells to post-mitotic neurons requires a switch in subunit composition of the npBAF and nBAF complexes. As neural progenitors exit mitosis and differentiate into neurons, npBAF complexes which contain ACTL6A/BAF53A and PHF10/BAF45A, are exchanged for homologous alternative ACTL6B/BAF53B and DPF1/BAF45B or DPF3/BAF45C subunits in neuron-specific complexes (nBAF). The npBAF complex is essential for the self-renewal/proliferative capacity of the multipotent neural stem cells. The nBAF complex along with CREST plays a role regulating the activity of genes essential for dendrite growth. SMARCA4/BAF190A may promote neural stem cell self-renewal/proliferation by enhancing Notch-dependent proliferative signals, while concurrently making the neural stem cell insensitive to SHH-dependent differentiating cues. Acts as a corepressor of ZEB1 to regulate E-cadherin transcription and is required for induction of epithelial-mesenchymal transition (EMT) by ZEB1 (By similarity).
Domain Profile
  Ac_Reader Bromodomain
             BROMO.txt    3 hevsepF.repvdpqleipdYydiikePmdLstikerleegnYsspeefvkDvrlifnNakaynenkssv 71  
                            +++se+F + p+++  e+p+Yy++i++P+d+++iker+++++Y+s++++ kDv l+++Na+++n ++s +
  ENSMUSP00000133922.1 1445 RQLSEVFiQLPSRK--ELPEYYELIRKPVDFKKIKERIRNHKYRSLNDLEKDVMLLCQNAQTFNLEGSLI 1512
                            789****7777777..9***********************************************988766 PP
Protein Sequence
(Fasta)		MSTPDPPLGG TPRPGPSPGP GPSPGAMLGP SPGPSPGSAH SMMGPSPGPP SAGHPMPTQG 60
PGGYPQDNMH QMHKPMESMH EKGMPDDPRY NQMKGMGMRS GAHTGMAPPP SPMDQHSQGY 120
PSPLGGSEHA SSPVPASGPS SGPQMSSGPG GAPLDGSDPQ ALGQQNRGPT PFNQNQLHQL 180
RAQIMAYKML ARGQPLPDHL QMAVQGKRPM PGMQQQMPTL PPPSVSATGP GPGPGPGPGP 240
GPGPAPPNYS RPHGMGGPNM PPPGPSGVPP GMPGQPPGGP PKPWPEGPMA NAAAPTSTPQ 300
KLIPPQPTGR PSPAPPAVPP AASPVMPPQT QSPGQPAQPA PLVPLHQKQS RITPIQKPRG 360
LDPVEILQER EYRLQARIAH RIQELENLPG SLAGDLRTKA TIELKALRLL NFQRQLRQEV 420
VVCMRRDTAL ETALNAKAYK RSKRQSLREA RITEKLEKQQ KIEQERKRRQ KHQEYLNSIL 480
QHAKDFREYH RSVTGKLQKL TKAVATYHAN TEREQKKENE RIEKERMRRL MAEDEEGYRK 540
LIDQKKDKRL AYLLQQTDEY VANLTELVRQ HKAAQVAKEK KKKKKKKKAE NAEGQTPAIG 600
PDGEPLDETS QMSDLPVKVI HVESGKILTG TDAPKAGQLE AWLEMNPGYE VAPRSDSEES 660
GSEEEEEEEE EEQPQPAQPP TLPVEEKKKI PDPDSDDVSE VDARHIIENA KQDVDDEYGV 720
SQALARGLQS YYAVAHAVTE RVDKQSALMV NGVLKQYQIK GLEWLVSLYN NNLNGILADE 780
MGLGKTIQTI ALITYLMEHK RINGPFLIIV PLSTLSNWAY EFDKWAPSVV KVSYKGSPAA 840
RRAFVPQLRS GKFNVLLTTY EYIIKDKHIL AKIRWKYMIV DEGHRMKNHH CKLTQVLNTH 900
YVAPRRLLLT GTPLQNKLPE LWALLNFLLP TIFKSCSTFE QWFNAPFAMT GEKVDLNEEE 960
TILIIRRLHK VLRPFLLRRL KKEVEAQLPE KVEYVIKCDM SALQRVLYRH MQAKGVLLTD 1020
GSEKDKKGKG GTKTLMNTIM QLRKICNHPY MFQHIEESFS EHLGFTGGIV QGLDLYRASG 1080
KFELLDRILP KLRATNHKVL LFCQMTSLMT IMEDYFAYRG FKYLRLDGTT KAEDRGMLLK 1140
TFNEPGSEYF IFLLSTRAGG LGLNLQSADT VIIFDSDWNP HQDLQAQDRA HRIGQQNEVR 1200
VLRLCTVNSV EEKILAAAKY KLNVDQKVIQ AGMFDQKSSS HERRAFLQAI LEHEEQDEEE 1260
DEVPDDETVN QMIARHEEEF DLFMRMDLDR RREEARNPKR KPRLMEEDEL PSWIIKDDAE 1320
VERLTCEEEE EKMFGRGSRH RKEVDYSDSL TEKQWLKAIE EGTLEEIEEE VRQKKSSRKR 1380
KRDSEAGSST PTTSTRSRDK DEESKKQKKR GRPPAEKLSP NPPNLTKKMK KIVDAVIKYK 1440
DSSGRQLSEV FIQLPSRKEL PEYYELIRKP VDFKKIKERI RNHKYRSLND LEKDVMLLCQ 1500
NAQTFNLEGS LIYEDSIVLQ SVFTSVRQKI EKEDDSEGEE SEEEEEGEEE GSESESRSVK 1560
VKIKLGRKEK AQDRLKGGRR RPSRGSRAKP VVSDDDSEEE QEEDRSGSGS EED 1613
Nucleotide Sequence
(Fasta)		AGGCTTTCCC ACTCGCTTGG CAGCGGCGGA GACGGCTTCT TTGTTTCCTG AGGAGAAGCG 60
AGACGCCCAC TCTGTCCCCG ACCCCTCGTG GAGGGTTGGG GGCGGCGCCA GGAAGGTTAC 120
GGCGCCGTTA CCTCCAGGAG ACCAGTGCCT GTAGCTCCAG TAAAGATGTC TACTCCAGAC 180
CCACCCTTGG GTGGGACTCC TCGGCCTGGT CCTTCCCCAG GCCCTGGTCC TTCACCTGGT 240
GCAATGCTGG GTCCTAGCCC TGGCCCCTCA CCAGGTTCTG CCCACAGCAT GATGGGGCCA 300
AGCCCAGGAC CTCCTTCAGC AGGACATCCC ATGCCCACCC AGGGGCCTGG AGGGTACCCC 360
CAGGACAACA TGCATCAGAT GCACAAGCCT ATGGAGTCCA TGCACGAGAA GGGCATGCCT 420
GATGACCCAC GATACAACCA GATGAAAGGG ATGGGCATGC GGTCAGGGGC CCACACAGGC 480
ATGGCACCTC CACCTAGTCC CATGGACCAG CATTCTCAAG GTTACCCCTC ACCCCTCGGC 540
GGCTCTGAAC ATGCCTCCAG TCCTGTCCCA GCCAGTGGCC CATCTTCAGG CCCCCAGATG 600
TCCTCTGGGC CAGGAGGGGC CCCACTAGAT GGTTCTGATC CCCAGGCCTT GGGACAGCAA 660
AACAGAGGCC CAACCCCATT TAACCAGAAC CAGCTGCATC AACTCAGAGC TCAGATAATG 720
GCCTACAAGA TGTTGGCCAG GGGCCAGCCA TTGCCCGACC ACCTGCAGAT GGCCGTGCAA 780
GGCAAGCGGC CGATGCCTGG AATGCAGCAA CAGATGCCAA CACTACCTCC ACCCTCAGTG 840
TCCGCCACAG GACCCGGACC TGGACCCGGC CCTGGCCCTG GCCCTGGCCC AGGACCAGCC 900
CCTCCAAATT ACAGTAGACC CCATGGTATG GGAGGGCCCA ACATGCCTCC CCCAGGACCC 960
TCAGGTGTGC CCCCCGGGAT GCCTGGTCAG CCGCCTGGAG GGCCTCCCAA GCCATGGCCT 1020
GAAGGACCCA TGGCCAATGC TGCTGCCCCC ACAAGCACCC CACAGAAGCT GATTCCTCCG 1080
CAACCAACAG GCCGTCCTTC ACCTGCACCT CCTGCTGTCC CGCCTGCTGC CTCACCTGTA 1140
ATGCCACCAC AAACACAGTC CCCAGGGCAG CCAGCCCAGC CTGCTCCATT GGTGCCACTG 1200
CACCAGAAGC AGAGCCGAAT CACCCCCATC CAGAAGCCCC GAGGCCTTGA CCCTGTGGAG 1260
ATCCTACAAG AGCGGGAGTA CAGGCTTCAG GCTCGAATCG CACACAGAAT TCAGGAACTT 1320
GAAAACCTCC CTGGGTCCCT GGCTGGGGAC CTTCGAACCA AAGCAACCAT CGAACTCAAG 1380
GCCCTTAGGT TGCTGAACTT CCAGAGGCAG CTGCGCCAGG AGGTGGTGGT GTGCATGCGA 1440
AGAGACACAG CCCTGGAGAC AGCCCTCAAT GCCAAGGCCT ACAAGCGCAG CAAACGTCAG 1500
TCACTACGGG AGGCCCGCAT CACTGAGAAG TTGGAGAAGC AGCAGAAGAT TGAACAGGAG 1560
CGCAAGCGCC GCCAGAAGCA CCAGGAGTAC CTCAACAGCA TTCTGCAGCA TGCCAAGGAC 1620
TTCAGGGAGT ATCACAGATC AGTCACAGGC AAACTCCAGA AACTCACCAA GGCTGTGGCC 1680
ACCTACCATG CCAACACTGA GCGGGAGCAG AAGAAAGAAA ATGAGCGCAT TGAGAAGGAG 1740
CGAATGCGGA GGCTTATGGC TGAAGATGAG GAGGGCTACC GCAAACTCAT TGACCAGAAG 1800
AAGGACAAGC GCCTGGCCTA CCTTCTGCAG CAGACAGATG AGTATGTGGC CAACCTCACA 1860
GAGCTGGTGC GGCAGCACAA AGCTGCCCAG GTTGCCAAGG AGAAGAAGAA GAAAAAGAAA 1920
AAGAAGAAGG CAGAAAATGC TGAAGGACAG ACACCTGCTA TTGGACCAGA TGGTGAGCCT 1980
CTGGATGAGA CCAGCCAGAT GAGTGACCTC CCTGTGAAGG TGATCCACGT GGAGAGTGGC 2040
AAGATCCTCA CTGGCACAGA TGCCCCAAAA GCCGGGCAGC TGGAAGCCTG GCTTGAAATG 2100
AACCCAGGGT ATGAAGTAGC CCCCAGGTCA GACAGTGAAG AAAGTGGCTC TGAAGAGGAG 2160
GAGGAGGAGG AGGAAGAGGA GCAGCCTCAG CCCGCACAGC CCCCTACACT GCCTGTGGAA 2220
GAAAAGAAGA AGATTCCAGA CCCAGACAGC GATGATGTCT CTGAGGTGGA CGCCCGACAC 2280
ATTATTGAGA ACGCCAAGCA AGATGTGGAC GATGAGTACG GTGTGTCCCA GGCCCTTGCT 2340
CGTGGCCTGC AGTCTTACTA TGCTGTGGCC CATGCAGTCA CAGAGAGAGT AGATAAGCAG 2400
TCCGCCCTCA TGGTCAACGG TGTCCTCAAA CAGTACCAGA TCAAGGGTTT GGAGTGGCTG 2460
GTGTCCCTGT ACAACAACAA CCTGAATGGC ATCCTGGCTG ATGAGATGGG GCTGGGGAAG 2520
ACCATCCAGA CCATCGCGCT CATCACATAC CTCATGGAGC ACAAGCGCAT CAACGGGCCT 2580
TTCCTCATCA TCGTGCCTCT CTCGACACTG TCAAACTGGG CGTATGAATT TGACAAGTGG 2640
GCCCCCTCTG TGGTGAAGGT TTCTTACAAG GGCTCTCCAG CTGCAAGGCG AGCTTTTGTC 2700
CCACAGCTTC GCAGTGGGAA GTTCAACGTC TTACTGACCA CCTATGAATA TATCATCAAA 2760
GACAAGCATA TCCTAGCCAA GATCCGCTGG AAGTACATGA TTGTGGATGA AGGCCACCGC 2820
ATGAAAAACC ACCACTGCAA GTTGACGCAG GTCCTTAACA CACACTACGT GGCCCCTCGG 2880
CGCCTGCTTC TTACAGGCAC ACCACTGCAG AACAAGCTAC CGGAGCTCTG GGCCCTGCTT 2940
AACTTCCTGC TCCCCACTAT CTTCAAGAGC TGCAGCACCT TCGAACAGTG GTTCAATGCA 3000
CCCTTTGCCA TGACTGGAGA AAAGGTGGAC CTGAATGAAG AGGAGACTAT CCTCATTATT 3060
CGTCGCCTAC ACAAAGTTCT GCGGCCCTTC CTGCTGCGGC GGCTCAAGAA GGAAGTTGAA 3120
GCCCAGCTCC CTGAGAAGGT AGAGTATGTC ATCAAATGCG ACATGTCAGC CCTGCAGCGT 3180
GTGCTGTACC GTCACATGCA GGCCAAAGGT GTGCTGCTGA CTGACGGCTC CGAGAAGGAC 3240
AAGAAGGGCA AAGGTGGCAC CAAGACACTG ATGAACACTA TTATGCAACT GCGTAAGATC 3300
TGCAACCACC CCTACATGTT CCAGCACATC GAGGAGTCCT TTTCTGAGCA CTTGGGGTTC 3360
ACCGGCGGCA TCGTGCAAGG ATTGGACCTT TACCGTGCCT CAGGGAAATT TGAACTTCTT 3420
GATAGAATTC TACCCAAACT CCGTGCAACG AACCATAAAG TGCTCCTCTT TTGCCAAATG 3480
ACCTCCCTCA TGACCATCAT GGAAGACTAC TTTGCATACC GTGGCTTCAA ATACCTCAGG 3540
CTTGATGGAA CCACAAAAGC AGAAGACCGG GGCATGCTGT TGAAAACCTT TAATGAACCT 3600
GGCTCTGAGT ATTTCATTTT CCTGCTCAGT ACCCGTGCTG GGGGGCTGGG CCTGAATCTG 3660
CAGTCAGCTG ACACTGTGAT CATCTTTGAC AGTGACTGGA ATCCCCACCA GGACCTGCAA 3720
GCACAGGATC GAGCCCATCG CATTGGACAG CAGAATGAGG TGCGTGTTCT TCGCCTGTGC 3780
ACGGTCAACA GTGTGGAAGA GAAGATACTG GCTGCTGCCA AATACAAACT CAATGTGGAT 3840
CAGAAGGTGA TCCAGGCAGG CATGTTCGAC CAGAAGTCGT CCAGCCATGA GAGGCGTGCC 3900
TTCCTGCAGG CCATCCTGGA GCACGAGGAG CAGGATGAGG AGGAAGATGA GGTGCCTGAT 3960
GATGAGACCG TCAACCAGAT GATTGCCCGG CACGAAGAAG AGTTTGACCT CTTCATGCGC 4020
ATGGACTTGG ACCGCCGGCG TGAAGAAGCC CGCAACCCCA AGCGGAAGCC ACGCCTGATG 4080
GAAGAGGATG AGCTCCCATC CTGGATCATC AAGGATGATG CCGAGGTGGA GCGGCTGACA 4140
TGTGAAGAGG AAGAGGAGAA GATGTTCGGC CGTGGTTCTC GCCACCGCAA GGAGGTAGAC 4200
TACAGCGACT CACTGACAGA GAAGCAGTGG CTCAAGGCTA TCGAGGAGGG CACGCTGGAG 4260
GAGATCGAAG AGGAGGTCCG GCAGAAGAAA TCTTCACGTA AGCGTAAGCG AGACAGCGAG 4320
GCCGGCTCCT CCACCCCGAC CACCAGCACC CGCAGCCGTG ACAAGGATGA GGAGAGCAAG 4380
AAGCAGAAGA AACGTGGGCG GCCACCTGCT GAGAAGCTGT CCCCAAACCC ACCTAACCTC 4440
ACCAAGAAGA TGAAGAAGAT CGTGGATGCT GTGATCAAGT ACAAAGACAG CAGTGGACGT 4500
CAGCTCAGCG AGGTGTTCAT CCAGCTCCCC TCTCGCAAGG AGCTTCCTGA GTACTATGAG 4560
CTCATCCGAA AGCCTGTGGA CTTCAAGAAG ATCAAGGAAC GCATCCGAAA CCACAAGTAC 4620
CGCAGCCTCA ATGACCTGGA GAAGGATGTG ATGCTGCTGT GCCAGAACGC TCAGACGTTC 4680
AACCTCGAGG GTTCCCTGAT CTATGAGGAC TCCATCGTCC TGCAGTCTGT CTTCACCAGC 4740
GTACGGCAGA AGATTGAGAA GGAGGACGAC AGTGAAGGCG AGGAAAGCGA GGAGGAGGAG 4800
GAGGGCGAGG AGGAAGGCTC CGAGTCTGAG TCCCGCTCCG TCAAGGTGAA GATCAAGCTG 4860
GGCCGCAAGG AGAAGGCCCA GGACCGACTC AAGGGGGGCC GCCGGCGGCC AAGCCGGGGA 4920
TCCCGGGCCA AGCCGGTTGT GAGTGACGAT GACAGTGAGG AGGAGCAGGA GGAGGACCGC 4980
TCAGGAAGTG GCAGTGAGGA AGACTGAACC AGACATTCCT GAGTCCTGAC CCCGAGGCGC 5040
TCGTCCCAGC CAAGATGGAG TAGCCCTTAG CAGTGATGGG TAGCACCAGA TGTAGTTTCG 5100
AACTTGGAGA ACTGTACACA TGCAATCTTC CACATTTTTA GGCAGAGAAG TATAGGCCTG 5160
TCTGTCGGCC CTGGCCTGGC CTCGAGTCTC TACCAGCATT AACTGTCTAG AGAGGGGACC 5220
TCCTGGGAGC ACCATCCACC TCCCCAGGCC CCAGTCACTG TAGCTCAGTG GATGCATGCG 5280
CGTGCCGGCC GCTCCTTGTA CTGTATCTTA CTGGACAGGG CCAGCTCTCC AGGAGGCTCA 5340
CAGGCCCAGC GGGTATGTCA GTGTCACTGG AGTCAGACAG TAATAAATTA AAGCAATGAC 5400
AAGCC 5406
Sequence Source Ensembl
Keyword

KW-0007--Acetylation
KW-0010--Activator
KW-0025--Alternative splicing
KW-0067--ATP-binding
KW-0103--Bromodomain
KW-0156--Chromatin regulator
KW-0181--Complete proteome
KW-0347--Helicase
KW-0378--Hydrolase
KW-0524--Neurogenesis
KW-0547--Nucleotide-binding
KW-0539--Nucleus
KW-0597--Phosphoprotein
KW-1185--Reference proteome
KW-0678--Repressor
KW-0804--Transcription
KW-0805--Transcription regulation
--
Interpro

IPR030100--BRG1
IPR006576--BRK_domain
IPR001487--Bromodomain
IPR018359--Bromodomain_CS
IPR014978--Gln-Leu-Gln_QLQ
IPR014001--Helicase_ATP-bd
IPR001650--Helicase_C
IPR014012--HSA_dom
IPR027417--P-loop_NTPase
IPR029295--SnAC
IPR000330--SNF2_N
PROSITE

PS00633--BROMODOMAIN_1
PS50014--BROMODOMAIN_2
PS51192--HELICASE_ATP_BIND_1
PS51194--HELICASE_CTER
PS51204--HSA
PS51666--QLQ
Pfam

PF07533--BRK
PF00439--Bromodomain
PF00271--Helicase_C
PF07529--HSA
PF08880--QLQ
PF14619--SnAC
PF00176--SNF2_N
Gene Ontology

GO:0090544--C:BAF-type complex
GO:0005615--C:extracellular space
GO:0000792--C:heterochromatin
GO:0016020--C:membrane
GO:0071565--C:nBAF complex
GO:0071564--C:npBAF complex
GO:0000790--C:nuclear chromatin
GO:0005719--C:nuclear euchromatin
GO:0005634--C:nucleus
GO:0005726--C:perichromatin fibrils
GO:0043234--C:protein complex
GO:0016514--C:SWI/SNF complex
GO:0050681--F:androgen receptor binding
GO:0005524--F:ATP binding
GO:0016887--F:ATPase activity
GO:0003682--F:chromatin binding
GO:0070182--F:DNA polymerase binding
GO:0008094--F:DNA-dependent ATPase activity
GO:0004386--F:helicase activity
GO:0070577--F:lysine-acetylated histone binding
GO:0002039--F:p53 binding
GO:0047485--F:protein N-terminus binding
GO:0001164--F:RNA polymerase I CORE element sequence-specific DNA binding
GO:0000978--F:RNA polymerase II core promoter proximal region sequence-specific DNA binding
GO:0000977--F:RNA polymerase II regulatory region sequence-specific DNA binding
GO:0001105--F:RNA polymerase II transcription coactivator activity
GO:0030957--F:Tat protein binding
GO:0003713--F:transcription coactivator activity
GO:0003714--F:transcription corepressor activity
GO:0008134--F:transcription factor binding
GO:0035904--P:aorta development
GO:0035887--P:aortic smooth muscle cell differentiation
GO:0043044--P:ATP-dependent chromatin remodeling
GO:0001832--P:blastocyst growth
GO:0001835--P:blastocyst hatching
GO:0001568--P:blood vessel development
GO:0000902--P:cell morphogenesis
GO:0006338--P:chromatin remodeling
GO:0060976--P:coronary vasculature development
GO:0060318--P:definitive erythrocyte differentiation
GO:0010424--P:DNA methylation on cytosine within a CG sequence
GO:0035116--P:embryonic hindlimb morphogenesis
GO:0048562--P:embryonic organ morphogenesis
GO:0048730--P:epidermis morphogenesis
GO:0030198--P:extracellular matrix organization
GO:0030900--P:forebrain development
GO:0007403--P:glial cell fate determination
GO:0007507--P:heart development
GO:0060347--P:heart trabecula formation
GO:0030902--P:hindbrain development
GO:0043966--P:histone H3 acetylation
GO:0001701--P:in utero embryonic development
GO:0030216--P:keratinocyte differentiation
GO:0070307--P:lens fiber cell development
GO:0001889--P:liver development
GO:0006346--P:methylation-dependent chromatin silencing
GO:0060766--P:negative regulation of androgen receptor signaling pathway
GO:0043066--P:negative regulation of apoptotic process
GO:0030308--P:negative regulation of cell growth
GO:0000122--P:negative regulation of transcription from RNA polymerase II promoter
GO:0045892--P:negative regulation of transcription, DNA-templated
GO:0007399--P:nervous system development
GO:0022008--P:neurogenesis
GO:0006334--P:nucleosome assembly
GO:0006337--P:nucleosome disassembly
GO:0003151--P:outflow tract morphogenesis
GO:0061626--P:pharyngeal arch artery morphogenesis
GO:0043923--P:positive regulation by host of viral transcription
GO:0045597--P:positive regulation of cell differentiation
GO:0008284--P:positive regulation of cell proliferation
GO:0043388--P:positive regulation of DNA binding
GO:1902661--P:positive regulation of glucose mediated signaling pathway
GO:1902895--P:positive regulation of pri-miRNA transcription from RNA polymerase II promoter
GO:0051091--P:positive regulation of sequence-specific DNA binding transcription factor activity
GO:0045944--P:positive regulation of transcription from RNA polymerase II promoter
GO:1901838--P:positive regulation of transcription of nuclear large rRNA transcript from RNA polymerase I promoter
GO:0045893--P:positive regulation of transcription, DNA-templated
GO:0030177--P:positive regulation of Wnt signaling pathway
GO:0030334--P:regulation of cell migration
GO:0019827--P:stem cell population maintenance
GO:0001570--P:vasculogenesis
GO:0003281--P:ventricular septum development
Orthology
WERAM ID Ensembl Protein ID Species Identity E-value Score
WERAM-Ran-0060 ENSRNOP00000013166.6 Rattus norvegicus 100 0.0 2367
WERAM-Caf-0188 ENSCAFP00000025953.4 Canis familiaris 99 0.0 2349
WERAM-Myl-0048 ENSMLUP00000004094.2 Myotis lucifugus 99 0.0 2347
WERAM-Mup-0065 ENSMPUP00000005664.1 Mustela putorius furo 99 0.0 2347
WERAM-Ict-0078 ENSSTOP00000007144.2 Ictidomys tridecemlineatus 99 0.0 2344
WERAM-Loa-0018 ENSLAFP00000001199.3 Loxodonta africana 99 0.0 2342
WERAM-Caj-0065 ENSCJAP00000011400.2 Callithrix jacchus 99 0.0 2341
WERAM-Poa-0083 ENSPPYP00000010731.2 Pongo abelii 97 0.0 2329
WERAM-Hos-0113 ENSP00000395654.1 Homo sapiens 97 0.0 2328
WERAM-Bot-0169 ENSBTAP00000025598.5 Bos taurus 98 0.0 2326
WERAM-Fec-0053 ENSFCAP00000004524.3 Felis catus 99 0.0 2321
WERAM-Ova-0181 ENSOARP00000018738.1 Ovis aries 98 0.0 2317
WERAM-Eqc-0047 ENSECAP00000007899.1 Equus caballus 96 0.0 2317
WERAM-Cap-0169 ENSCPOP00000014021.2 Cavia porcellus 94 0.0 2316
WERAM-Gog-0115 ENSGGOP00000009668.2 Gorilla gorilla 95 0.0 2314
WERAM-Aim-0122 ENSAMEP00000011554.1 Ailuropoda melanoleuca 94 0.0 2305
WERAM-Mod-0055 ENSMODP00000007805.3 Monodelphis domestica 96 0.0 2293
WERAM-Sah-0018 ENSSHAP00000001842.1 Sarcophilus harrisii 94 0.0 2289
WERAM-Tut-0108 ENSTTRP00000009020.1 Tursiops truncatus 94 0.0 2282
WERAM-Nol-0138 ENSNLEP00000015131.1 Nomascus leucogenys 97 0.0 2228
WERAM-Orn-0091 ENSONIP00000010318.1 Oreochromis niloticus 87 0.0 2101
WERAM-Dar-0177 ENSDARP00000120295.1 Danio rerio 87 0.0 2089
WERAM-Tar-0015 ENSTRUP00000003171.1 Takifugu rubripes 83 0.0 2037
WERAM-Gaa-0068 ENSGACP00000008866.1 Gasterosteus aculeatus 85 0.0 2032
WERAM-Xim-0079 ENSXMAP00000007115.1 Xiphophorus maculatus 84 0.0 2019
WERAM-Dan-0204 ENSDNOP00000025579.1 Dasypus novemcinctus 91 0.0 1994
WERAM-Fia-0060 ENSFALP00000004414.1 Ficedula albicollis 98 0.0 1972
WERAM-Pes-0037 ENSPSIP00000006080.1 Pelodiscus sinensis 94 0.0 1966
WERAM-Orla-0040 ENSORLP00000004948.1 Oryzias latipes 86 0.0 1964
WERAM-Xet-0063 ENSXETP00000020621.3 Xenopus tropicalis 88 0.0 1903
WERAM-Pof-0091 ENSPFOP00000008144.2 Poecilia formosa 89 0.0 1893
WERAM-Ten-0053 ENSTNIP00000007185.1 Tetraodon nigroviridis 86 0.0 1872
WERAM-Leo-0074 ENSLOCP00000009505.1 Lepisosteus oculatus 93 0.0 1865
WERAM-Tag-0080 ENSTGUP00000005661.1 Taeniopygia guttata 83 0.0 1769
WERAM-Orc-0059 ENSOCUP00000016214.2 Oryctolagus cuniculus 83 0.0 1766
WERAM-Gaga-0103 ENSGALP00000016509.3 Gallus gallus 80 0.0 1766
WERAM-Otg-0178 ENSOGAP00000015276.2 Otolemur garnettii 84 0.0 1763
WERAM-Mam-0101 ENSMMUP00000015797.2 Macaca mulatta 98 0.0 1759
WERAM-Anc-0020 ENSACAP00000002825.3 Anolis carolinensis 81 0.0 1755
WERAM-Chs-0102 ENSCSAP00000004907.1 Chlorocebus sabaeus 84 0.0 1720
WERAM-Anp-0144 ENSAPLP00000015434.1 Anas platyrhynchos 96 0.0 1691
WERAM-Pem-0051 ENSPMAP00000006008.1 Petromyzon marinus 79 0.0 1675
WERAM-Gam-0154 ENSGMOP00000015257.1 Gadus morhua 80 0.0 1669
WERAM-Sus-0035 ENSSSCP00000005624.2 Sus scrofa 80 0.0 1665
WERAM-Ocp-0119 ENSOPRP00000012321.1 Ochotona princeps 78 0.0 1619
WERAM-Mae-0090 ENSMEUP00000008983.1 Macropus eugenii 78 0.0 1545
WERAM-Ptv-0007 ENSPVAP00000000854.1 Pteropus vampyrus 86 0.0 1543
WERAM-Ect-0091 ENSETEP00000010838.1 Echinops telfairi 90 0.0 1531
WERAM-Vip-0011 ENSVPAP00000001111.1 Vicugna pacos 76 0.0 1505
WERAM-Asm-0116 ENSAMXP00000011579.1 Astyanax mexicanus 77 0.0 1480
WERAM-Paa-0203 ENSPANP00000019261.1 Papio anubis 81 0.0 1376
WERAM-Prc-0143 ENSPCAP00000013247.1 Procavia capensis 86 0.0 1332
WERAM-Drm-0001 FBpp0075281 Drosophila melanogaster 62 0.0 1306
WERAM-Cis-0043 ENSCSAVP00000009441.1 Ciona savignyi 63 0.0 1296
WERAM-Mim-0096 ENSMICP00000008960.1 Microcebus murinus 94 0.0 1226
WERAM-Soa-0125 ENSSARP00000012172.1 Sorex araneus 94 0.0 1101
WERAM-Cae-0016 F01G4.1 Caenorhabditis elegans 55 0.0 1085
WERAM-Chh-0034 ENSCHOP00000003837.1 Choloepus hoffmanni 77 0.0 1080
WERAM-Tas-0036 ENSTSYP00000003569.1 Tarsius syrichta 86 0.0 885
WERAM-Tum-0012 CAZ81450 Tuber melanosporum 52 0.0 783
WERAM-Scj-0039 EEB09542 Schizosaccharomyces japonicus 52 0.0 779
WERAM-Asni-0035 CADANGAP00013288 Aspergillus niger 51 0.0 776
WERAM-Trr-0022 EGR50940 Trichoderma reesei 50 0.0 773
WERAM-Ved-0024 EGY15057 Verticillium dahliae 50 0.0 772
WERAM-Ast-0030 CADATEAP00008674 Aspergillus terreus 50 0.0 772
WERAM-Asn-0034 CADANIAP00008970 Aspergillus nidulans 51 0.0 769
WERAM-Yal-0010 CAG81384 Yarrowia lipolytica 50 0.0 768
WERAM-Scp-0003 SPAC1250.01.1:pep Schizosaccharomyces pombe 51 0.0 767
WERAM-Zyt-0031 Mycgr3P74992 Zymoseptoria tritici 50 0.0 760
WERAM-Pytr-0005 EDU40575 Pyrenophora triticirepentis 50 0.0 758
WERAM-Pyt-0040 EFQ85893 Pyrenophora teres 50 0.0 758
WERAM-Lem-0011 CBY00787 Leptosphaeria maculans 50 0.0 749
WERAM-Asfu-0028 CADAFUAP00006226 Aspergillus fumigatus 58 0.0 734
WERAM-Coi-0026 EAS30564 Coccidioides immitis 59 0.0 730
WERAM-Trv-0020 EHK16775 Trichoderma virens 59 0.0 729
WERAM-Aso-0019 CADAORAP00003972 Aspergillus oryzae 59 0.0 729
WERAM-Scs-0025 EDO04534 Sclerotinia sclerotiorum 59 0.0 726
WERAM-Crn-0040 AAW46162 Cryptococcus neoformans 49 0.0 726
WERAM-Asc-0004 CADACLAP00000822 Aspergillus clavatus 59 0.0 725
WERAM-Kop-0019 CAY69798 Komagataella pastoris 49 0.0 718
WERAM-Asf-0030 CADAFLAP00010870 Aspergillus flavus 59 0.0 718
WERAM-Spr-0003 CBQ70591 Sporisorium reilianum 58 0.0 718
WERAM-Usm-0006 UM01183P0 Ustilago maydis 56 0.0 717
WERAM-Nec-0028 EFNCRP00000006203 Neurospora crassa 58 0.0 716
WERAM-Mao-0021 MGG_06388T0 Magnaporthe oryzae 59 0.0 714
WERAM-Map-0027 MAPG_07994T0 Magnaporthe poae 59 0.0 711
WERAM-Gag-0023 GGTG_08193T0 Gaeumannomyces graminis 59 0.0 710
WERAM-Sac-0044 YOR290C Saccharomyces cerevisiae 56 0.0 708
WERAM-Phn-0020 SNOT_09308 Phaeosphaeria nodorum 49 0.0 706
WERAM-Caa-0009 KGT71213 Candida albicans 57 0.0 704
WERAM-Cag-0033 CAG62532 Candida glabrata 57 0.0 704
WERAM-Asg-0027 AAS53933 Ashbya gossypii 56 0.0 696
WERAM-Miv-0005 MVLG_00286T0 Microbotryum violaceum 56 0.0 693
WERAM-Kll-0025 CAG97992 Kluyveromyces lactis 57 0.0 691
WERAM-Pug-0020 EFP83552 Puccinia graminis 58 0.0 686
WERAM-Mel-0020 EGG12815 Melampsora laricipopulina 56 0.0 670
WERAM-Cii-0048 ENSCINP00000018744.3 Ciona intestinalis 66 4e-175 613
WERAM-Put-0005 PTTG_03431P0 Puccinia triticina 51 7e-164 576
WERAM-Lac-0007 ENSLACP00000000983.1 Latimeria chalumnae 69 7e-154 543
WERAM-Dio-0151 ENSDORP00000013957.1 Dipodomys ordii 72 2e-149 528
WERAM-Mua-0150 GSMUA_AchrUn_randomP07690_001 Musa acuminata 46 9e-128 456
WERAM-Php-0027 PP1S158_37V6.1 Physcomitrella patens 44 6e-127 453
WERAM-Amt-0015 ERM94966 Amborella trichopoda 43 2e-126 451
WERAM-Pot-0141 POPTR_0014s08230.1 Populus trichocarpa 45 1e-125 449
WERAM-Sem-0124 EFJ30636 Selaginella moellendorffii 43 9e-125 446
WERAM-Met-0151 AES80217 Medicago truncatula 44 2e-124 444
WERAM-Viv-0096 VIT_15s0046g02290.t01 Vitis vinifera 44 3e-124 444
WERAM-Thc-0016 EOX95924 Theobroma cacao 43 2e-123 442
WERAM-Arl-0079 fgenesh2_kg.4__ 2806__ AT2G46020.1 Arabidopsis lyrata 44 2e-123 442
WERAM-Art-0059 AT2G46020.2 Arabidopsis thaliana 44 2e-123 442
WERAM-Sol-0014 Solyc01g094800.2.1 Solanum lycopersicum 43 3e-122 438
WERAM-Glm-0017 GLYMA02G45000.1 Glycine max 44 6e-121 433
WERAM-Brr-0186 Bra037208.1-P Brassica rapa 45 2e-118 425
WERAM-Bro-0171 Bo9g022450.1 Brassica oleracea 45 2e-118 425
WERAM-Sob-0039 Sb02g041910.1 Sorghum bicolor 45 3e-117 421
WERAM-Pat-0057 ENSPTRP00000012779.4 Pan troglodytes 46 1e-113 409
WERAM-Meg-0097 ENSMGAP00000009319.2 Meleagris gallopavo 45 9e-113 406
WERAM-Ora-0044 ENSOANP00000006945.1 Ornithorhynchus anatinus 45 5e-112 404
Created Date 25-Jun-2016