| Tag |
Content |
| WERAM ID |
WERAM-Hos-0150 |
| Ensembl Protein ID |
ENSP00000386569.1 |
| Uniprot Accession |
Q86XI2; CNDG2_HUMAN; A4D228; Q7Z3J9; Q8WUG8; Q9BRX6; Q9H8S2; Q9H9K6
|
| Genbank Protein ID |
NP_001268861.1; NP_001268862.1; NP_060230.5; XP_011514658.1; XP_011514659.1
|
| Protein Name |
Condensin-2 complex subunit G2 |
| Genbank Nucleotide ID |
NM_001281932.1; NM_001281933.1; NM_017760.6; XM_011516356.1; XM_011516357.1
|
| Gene Name |
NCAPG2;LUZP5 |
| Ensembl Information |
|
| Details |
| Type |
Family |
Domain |
Substrates |
AA |
References (PMIDs) |
| Me_Reader |
Me_Reader_other |
HEAT |
H4K20me1 |
K |
20622854
|
|
| Status |
Reviewed |
| Classification |
| Type |
Family |
E-value |
Score |
Start |
End |
| Me_Reader |
Me_Reader_other |
0 |
2317 |
|
|
|
| Organism |
Homo sapiens |
| NCBI Taxa ID |
9606 |
Functional Description
(View)Functional Description
Regulatory subunit of the condensin-2 complex, a complex which establishes mitotic chromosome architecture and is involved in physical rigidity of the chromatid axis. |
Regulatory subunit of the condensin-2 complex, a complex which establishes mitotic chromosome architecture and is involved in physical rigidity of the chromatid axis.
|
| Domain Profile |
Me_Reader Me_Reader_other
Query: 1 MEKRETFVQAVSKELVGEFLQFVQLDKEASDPFSLNELLDELSRKQKEELWQRLKNLLTD 60
MEKRETFVQAVSKELVGEFLQFVQLDKEASDPFSLNELLDELSRKQKEELWQRLKNLLTD
Sbjct: 1 MEKRETFVQAVSKELVGEFLQFVQLDKEASDPFSLNELLDELSRKQKEELWQRLKNLLTD 60
Query: 61 VLLESPVDGWQVVEAQGEDNMETEHGSKMRKSIEIIYAITSVILASVSVINESENYEALL 120
VLLESPVDGWQVVEAQGEDNMETEHGSKMRKSIEIIYAITSVILASVSVINESENYEALL
Sbjct: 61 VLLESPVDGWQVVEAQGEDNMETEHGSKMRKSIEIIYAITSVILASVSVINESENYEALL 120
Query: 121 ECVIILNGILYALPESERKLQSSIQDLCVTWWEKGLPAKEDTGKTAFVMLLRRSLETKTG 180
ECVIILNGILYALPESERKLQSSIQDLCVTWWEKGLPAKEDTGKTAFVMLLRRSLETKTG
Sbjct: 121 ECVIILNGILYALPESERKLQSSIQDLCVTWWEKGLPAKEDTGKTAFVMLLRRSLETKTG 180
Query: 181 ADVCRLWRIHQALYCFDYDLEESGEIKDMLLECFININYIKKEEGRRFLSCLFNWNINFI 240
ADVCRLWRIHQALYCFDYDLEESGEIKDMLLECFININYIKKEEGRRFLSCLFNWNINFI
Sbjct: 181 ADVCRLWRIHQALYCFDYDLEESGEIKDMLLECFININYIKKEEGRRFLSCLFNWNINFI 240
Query: 241 KMIHGTIKNQLQGLQKSLMVYIAEIYFRAWKKASGKILEAIENDCIQDFMFHGIHLPRRS 300
KMIHGTIKNQLQGLQKSLMVYIAEIYFRAWKKASGKILEAIENDCIQDFMFHGIHLPRRS
Sbjct: 241 KMIHGTIKNQLQGLQKSLMVYIAEIYFRAWKKASGKILEAIENDCIQDFMFHGIHLPRRS 300
Query: 301 PVHSKVREVLSYFHHQKKVRQGVEEMLYRLYKPILWRGLKARNSEVRSNAALLFVEAFPI 360
PVHSKVREVLSYFHHQKKVRQGVEEMLYRLYKPILWRGLKARNSEVRSNAALLFVEAFPI
Sbjct: 301 PVHSKVREVLSYFHHQKKVRQGVEEMLYRLYKPILWRGLKARNSEVRSNAALLFVEAFPI 360
Query: 361 RDPNLHAIEMDSEIQKQFEELYSLLEDPYPMVRSTGILGVCKITSKYWEMMPPTILIDLL 420
RDPNLHAIEMDSEIQKQFEELYSLLEDPYPMVRSTGILGVCKITSKYWEMMPPTILIDLL
Sbjct: 361 RDPNLHAIEMDSEIQKQFEELYSLLEDPYPMVRSTGILGVCKITSKYWEMMPPTILIDLL 420
Query: 421 KKVTGELAFDTSSADVRCSVFKCLPMILDNKLSHPLLEQLLPALRYSLHDNSEKVRVAFV 480
KKVTGELAFDTSSADVRCSVFKCLPMILDNKLSHPLLEQLLPALRYSLHDNSEKVRVAFV
Sbjct: 421 KKVTGELAFDTSSADVRCSVFKCLPMILDNKLSHPLLEQLLPALRYSLHDNSEKVRVAFV 480
Query: 481 DMLLKIKAVRAAKFWKICPMEHILVRLETDSRPVSRRLVSLIFNSFLPVNQPEEVWCERC 540
DMLLKIKAVRAAKFWKICPMEHILVRLETDSRPVSRRLVSLIFNSFLPVNQPEEVWCERC
Sbjct: 481 DMLLKIKAVRAAKFWKICPMEHILVRLETDSRPVSRRLVSLIFNSFLPVNQPEEVWCERC 540
Query: 541 VTLVQMNHAAARRFYQYAHEHTACTNIAKLIHVIRHCLNACIQRAVXXXXXXXXXXXXXX 600
VTLVQMNHAAARRFYQYAHEHTACTNIAKLIHVIRHCLNACIQRAV
Sbjct: 541 VTLVQMNHAAARRFYQYAHEHTACTNIAKLIHVIRHCLNACIQRAVREPPEDEEEEDGRE 600
Query: 601 XXNVTVLDKTLSVNDVACMAGLLEIIVILWKSIDRSMENNKEAKLYTINKFASVLPEYLK 660
NVTVLDKTLSVNDVACMAGLLEIIVILWKSIDRSMENNKEAKLYTINKFASVLPEYLK
Sbjct: 601 KENVTVLDKTLSVNDVACMAGLLEIIVILWKSIDRSMENNKEAKLYTINKFASVLPEYLK 660
Query: 661 VFKDDRCKIPLFMLMSFMPASAVPPFSCGVISTLRSREEGAVDKSYCTLLDCLCSWGQVG 720
VFKDDRCKIPLFMLMSFMPASAVPPFSCGVISTLRSREEGAVDKSYCTLLDCLCSWGQVG
Sbjct: 661 VFKDDRCKIPLFMLMSFMPASAVPPFSCGVISTLRSREEGAVDKSYCTLLDCLCSWGQVG 720
Query: 721 HILELVDNWLPTEHAQAKSNTASKGRVQIHDTRPVKPELALVYIEYLLTHPKNRECLLSA 780
HILELVDNWLPTEHAQAKSNTASKGRVQIHDTRPVKPELALVYIEYLLTHPKNRECLLSA
Sbjct: 721 HILELVDNWLPTEHAQAKSNTASKGRVQIHDTRPVKPELALVYIEYLLTHPKNRECLLSA 780
Query: 781 PRKKLNHLLKALETSKADLESLLQTPGGKPRGFSEAAAPRAFGLHCRLSIHLQHKFCSEG 840
PRKKLNHLLKALETSKADLESLLQTPGGKPRGFSEAAAPRAFGLHCRLSIHLQHKFCSEG
Sbjct: 781 PRKKLNHLLKALETSKADLESLLQTPGGKPRGFSEAAAPRAFGLHCRLSIHLQHKFCSEG 840
Query: 841 KVYLSMLEDTGFWLESKILSFIQDQEEDYLKLHRVIYQQIIQTYLTVCKDVVMVGLGDHQ 900
KVYLSMLEDTGFWLESKILSFIQDQEEDYLKLHRVIYQQIIQTYLTVCKDVVMVGLGDHQ
Sbjct: 841 KVYLSMLEDTGFWLESKILSFIQDQEEDYLKLHRVIYQQIIQTYLTVCKDVVMVGLGDHQ 900
Query: 901 FQMQLLQRSLGIMQTVKGFFYVSLLLDILKEITGSSLIQKTDSDEEVAMLLDTVQKVFQK 960
FQMQLLQRSLGIMQTVKGFFYVSLLLDILKEITGSSLIQKTDSDEEVAMLLDTVQKVFQK
Sbjct: 901 FQMQLLQRSLGIMQTVKGFFYVSLLLDILKEITGSSLIQKTDSDEEVAMLLDTVQKVFQK 960
Query: 961 MLECIARSFRKQPEEGLRLLYSVQRPLHEFITAVQSRHTDTPVHRGVLSTLIAGPVVEIS 1020
MLECIARSFRKQPEEGLRLLYSVQRPLHEFITAVQSRHTDTPVHRGVLSTLIAGPVVEIS
Sbjct: 961 MLECIARSFRKQPEEGLRLLYSVQRPLHEFITAVQSRHTDTPVHRGVLSTLIAGPVVEIS 1020
Query: 1021 HQLRKVSDVEELTPPEHLSDLPPFSRCLIGIIIKSSNVVRSFLDELKACVASNDIEGIVC 1080
HQLRKVSDVEELTPPEHLSDLPPFSRCLIGIIIKSSNVVRSFLDELKACVASNDIEGIVC
Sbjct: 1021 HQLRKVSDVEELTPPEHLSDLPPFSRCLIGIIIKSSNVVRSFLDELKACVASNDIEGIVC 1080
Query: 1081 LTAAVHIILVINAGKHKSSKVREVAATVHRKLKTFMEITLEEDSIERFLYESSSRTLGEL 1140
LTAAVHIILVINAGKHKSSKVREVAATVHRKLKTFMEITLEEDSIERFLYESSSRTLGEL
Sbjct: 1081 LTAAVHIILVINAGKHKSSKVREVAATVHRKLKTFMEITLEEDSIERFLYESSSRTLGEL 1140
Query: 1141 LNS 1143
LNS
Sbjct: 1141 LNS 1143
|
Protein Sequence
(Fasta) | MEKRETFVQA VSKELVGEFL QFVQLDKEAS DPFSLNELLD ELSRKQKEEL WQRLKNLLTD 60
VLLESPVDGW QVVEAQGEDN METEHGSKMR KSIEIIYAIT SVILASVSVI NESENYEALL 120
ECVIILNGIL YALPESERKL QSSIQDLCVT WWEKGLPAKE DTGKTAFVML LRRSLETKTG 180
ADVCRLWRIH QALYCFDYDL EESGEIKDML LECFININYI KKEEGRRFLS CLFNWNINFI 240
KMIHGTIKNQ LQGLQKSLMV YIAEIYFRAW KKASGKILEA IENDCIQDFM FHGIHLPRRS 300
PVHSKVREVL SYFHHQKKVR QGVEEMLYRL YKPILWRGLK ARNSEVRSNA ALLFVEAFPI 360
RDPNLHAIEM DSEIQKQFEE LYSLLEDPYP MVRSTGILGV CKITSKYWEM MPPTILIDLL 420
KKVTGELAFD TSSADVRCSV FKCLPMILDN KLSHPLLEQL LPALRYSLHD NSEKVRVAFV 480
DMLLKIKAVR AAKFWKICPM EHILVRLETD SRPVSRRLVS LIFNSFLPVN QPEEVWCERC 540
VTLVQMNHAA ARRFYQYAHE HTACTNIAKL IHVIRHCLNA CIQRAVREPP EDEEEEDGRE 600
KENVTVLDKT LSVNDVACMA GLLEIIVILW KSIDRSMENN KEAKLYTINK FASVLPEYLK 660
VFKDDRCKIP LFMLMSFMPA SAVPPFSCGV ISTLRSREEG AVDKSYCTLL DCLCSWGQVG 720
HILELVDNWL PTEHAQAKSN TASKGRVQIH DTRPVKPELA LVYIEYLLTH PKNRECLLSA 780
PRKKLNHLLK ALETSKADLE SLLQTPGGKP RGFSEAAAPR AFGLHCRLSI HLQHKFCSEG 840
KVYLSMLEDT GFWLESKILS FIQDQEEDYL KLHRVIYQQI IQTYLTVCKD VVMVGLGDHQ 900
FQMQLLQRSL GIMQTVKGFF YVSLLLDILK EITGSSLIQK TDSDEEVAML LDTVQKVFQK 960
MLECIARSFR KQPEEGLRLL YSVQRPLHEF ITAVQSRHTD TPVHRGVLST LIAGPVVEIS 1020
HQLRKVSDVE ELTPPEHLSD LPPFSRCLIG IIIKSSNVVR SFLDELKACV ASNDIEGIVC 1080
LTAAVHIILV INAGKHKSSK VREVAATVHR KLKTFMEITL EEDSIERFLY ESSSRTLGEL 1140
LNS 1143Protein Fasta Sequence
>ENSP00000386569.1|NCAPG2;LUZP5|Homo sapiens
MEKRETFVQAVSKELVGEFLQFVQLDKEASDPFSLNELLDELSRKQKEELWQRLKNLLTDVLLESPVDGWQVVEAQGEDNMETEHGSKMRKSIEIIYAITSVILASVSVINESENYEALLECVIILNGILYALPESERKLQSSIQDLCVTWWEKGLPAKEDTGKTAFVMLLRRSLETKTGADVCRLWRIHQALYCFDYDLEESGEIKDMLLECFININYIKKEEGRRFLSCLFNWNINFIKMIHGTIKNQLQGLQKSLMVYIAEIYFRAWKKASGKILEAIENDCIQDFMFHGIHLPRRSPVHSKVREVLSYFHHQKKVRQGVEEMLYRLYKPILWRGLKARNSEVRSNAALLFVEAFPIRDPNLHAIEMDSEIQKQFEELYSLLEDPYPMVRSTGILGVCKITSKYWEMMPPTILIDLLKKVTGELAFDTSSADVRCSVFKCLPMILDNKLSHPLLEQLLPALRYSLHDNSEKVRVAFVDMLLKIKAVRAAKFWKICPMEHILVRLETDSRPVSRRLVSLIFNSFLPVNQPEEVWCERCVTLVQMNHAAARRFYQYAHEHTACTNIAKLIHVIRHCLNACIQRAVREPPEDEEEEDGREKENVTVLDKTLSVNDVACMAGLLEIIVILWKSIDRSMENNKEAKLYTINKFASVLPEYLKVFKDDRCKIPLFMLMSFMPASAVPPFSCGVISTLRSREEGAVDKSYCTLLDCLCSWGQVGHILELVDNWLPTEHAQAKSNTASKGRVQIHDTRPVKPELALVYIEYLLTHPKNRECLLSAPRKKLNHLLKALETSKADLESLLQTPGGKPRGFSEAAAPRAFGLHCRLSIHLQHKFCSEGKVYLSMLEDTGFWLESKILSFIQDQEEDYLKLHRVIYQQIIQTYLTVCKDVVMVGLGDHQFQMQLLQRSLGIMQTVKGFFYVSLLLDILKEITGSSLIQKTDSDEEVAMLLDTVQKVFQKMLECIARSFRKQPEEGLRLLYSVQRPLHEFITAVQSRHTDTPVHRGVLSTLIAGPVVEISHQLRKVSDVEELTPPEHLSDLPPFSRCLIGIIIKSSNVVRSFLDELKACVASNDIEGIVCLTAAVHIILVINAGKHKSSKVREVAATVHRKLKTFMEITLEEDSIERFLYESSSRTLGELLNS |
Nucleotide Sequence
(Fasta) | GAGGGCGGGG CCCGTCTGGG GCGCCGGCGG GTGCGTTTGA ATCTGGTCCG AGCGCGGGAA 60
ACGGCGGGTC CCCGAGCCCA GTACCAGACC TCCTGTGCGA AGAGTAACCT GCTCTTCGGA 120
CTGATAACTG GATGGGTTAC AAAATAAATG CCATTTGAAC AGTGCCATCT GTCATGGAAA 180
AACGTGAGAC GTTTGTACAA GCCGTGTCTA AGGAGCTGGT TGGAGAGTTT TTGCAATTTG 240
TTCAACTTGA TAAAGAGGCC TCTGATCCTT TCAGCCTAAA TGAATTACTA GATGAATTAT 300
CAAGGAAACA GAAAGAAGAA TTATGGCAAA GGCTGAAGAA TTTATTGACA GATGTGTTGT 360
TAGAAAGCCC AGTGGATGGG TGGCAGGTAG TGGAAGCCCA GGGTGAAGAC AATATGGAAA 420
CCGAACATGG CTCAAAAATG AGAAAAAGCA TAGAAATAAT TTATGCAATT ACATCTGTGA 480
TTCTTGCTTC TGTGTCTGTA ATAAATGAAA GTGAGAACTA CGAAGCCCTA CTGGAATGTG 540
TTATTATATT AAATGGTATT TTATATGCAT TACCTGAGTC TGAACGAAAA CTACAGAGTT 600
CTATTCAGGA TTTGTGTGTT ACCTGGTGGG AGAAAGGCCT GCCTGCCAAG GAAGACACAG 660
GAAAGACAGC CTTTGTCATG TTACTAAGGA GGAGTCTGGA GACTAAGACA GGTGCAGACG 720
TATGTCGGCT TTGGCGTATC CATCAAGCTT TATATTGCTT TGATTATGAT TTGGAGGAAA 780
GTGGAGAAAT TAAAGATATG TTACTTGAGT GCTTCATAAA TATTAATTAT ATCAAGAAAG 840
AAGAGGGAAG AAGATTTCTT AGTTGTCTCT TCAACTGGAA TATCAACTTC ATCAAAATGA 900
TCCACGGGAC CATTAAAAAC CAGTTACAGG GATTACAAAA GTCTTTGATG GTATACATTG 960
CAGAAATTTA TTTCAGAGCT TGGAAAAAGG CTTCAGGGAA AATACTGGAG GCGATTGAAA 1020
ATGATTGCAT CCAGGACTTC ATGTTCCACG GGATACACCT TCCGAGGAGG TCTCCAGTGC 1080
ATTCCAAAGT GCGGGAGGTT CTGAGTTACT TTCACCATCA AAAGAAAGTT CGGCAGGGAG 1140
TGGAAGAGAT GCTTTATAGA TTATATAAGC CCATCCTTTG GAGAGGATTA AAGGCCAGAA 1200
ACTCTGAAGT TCGATCAAAT GCTGCATTGT TGTTTGTTGA AGCATTTCCT ATTAGGGATC 1260
CAAACCTTCA TGCTATTGAA ATGGATAGTG AAATCCAGAA ACAGTTTGAA GAGCTCTATA 1320
GCCTTTTAGA AGATCCTTAC CCGATGGTCC GTTCCACAGG GATCCTTGGT GTTTGTAAAA 1380
TAACTTCTAA GTACTGGGAA ATGATGCCCC CGACCATTCT TATTGACCTC CTGAAGAAGG 1440
TGACTGGGGA ACTGGCATTT GACACGAGCT CAGCTGATGT TCGTTGTTCT GTCTTTAAGT 1500
GTCTGCCAAT GATTTTGGAC AACAAACTGA GCCACCCATT GTTAGAGCAG CTCCTTCCAG 1560
CTCTCAGATA CAGTCTCCAC GACAATTCGG AGAAAGTGAG GGTAGCTTTT GTGGACATGC 1620
TGTTGAAGAT CAAAGCTGTG AGGGCTGCTA AGTTTTGGAA AATATGTCCC ATGGAGCACA 1680
TTCTGGTTCG TCTGGAAACT GATTCTCGAC CTGTGTCTCG GCGCCTGGTG AGCCTCATCT 1740
TTAATTCTTT CCTGCCTGTG AATCAGCCGG AGGAGGTCTG GTGCGAGCGC TGTGTCACCC 1800
TGGTGCAGAT GAACCACGCC GCTGCCAGGA GGTTCTATCA GTACGCCCAC GAACACACCG 1860
CCTGCACCAA CATAGCAAAG CTGATTCACG TTATTCGTCA TTGCTTAAAT GCCTGTATCC 1920
AGAGGGCAGT GAGAGAGCCT CCAGAGGACG AGGAGGAAGA GGACGGAAGG GAGAAGGAGA 1980
ATGTGACTGT TCTGGACAAA ACACTGTCAG TAAACGATGT TGCATGCATG GCAGGTTTAC 2040
TAGAAATCAT TGTGATTCTC TGGAAAAGTA TTGACAGAAG TATGGAAAAT AATAAAGAGG 2100
CCAAACTTTA CACGATTAAC AAGTTTGCCT CTGTGCTTCC AGAGTATCTG AAAGTATTTA 2160
AGGATGATCG CTGCAAGATC CCTTTATTCA TGCTAATGTC CTTTATGCCG GCCTCTGCTG 2220
TCCCCCCATT CAGCTGTGGT GTGATTTCCA CGCTGAGAAG CCGGGAGGAG GGCGCTGTGG 2280
ACAAGAGCTA CTGCACTTTG TTGGATTGCC TCTGCTCCTG GGGGCAGGTG GGGCACATTC 2340
TGGAGCTTGT TGACAACTGG CTGCCCACAG AGCATGCCCA GGCCAAGAGC AACACAGCTT 2400
CTAAAGGTAG GGTGCAGATC CATGACACAC GCCCAGTCAA ACCTGAATTG GCATTGGTCT 2460
ACATTGAGTA TCTGCTGACT CATCCAAAGA ACCGCGAGTG CTTGCTCTCT GCTCCTCGGA 2520
AGAAACTTAA CCATCTTTTG AAAGCCCTTG AAACGTCAAA GGCAGATCTG GAGTCACTTC 2580
TGCAGACACC GGGTGGGAAG CCTCGTGGCT TCAGTGAAGC AGCTGCCCCG CGAGCCTTTG 2640
GTCTCCACTG TCGCCTGAGC ATCCATCTTC AGCACAAGTT CTGCTCAGAA GGAAAGGTGT 2700
ATTTGTCCAT GTTGGAAGAC ACTGGCTTTT GGTTAGAAAG CAAAATTTTA TCTTTTATTC 2760
AAGATCAAGA AGAAGACTAC CTGAAGCTTC ATAGGGTCAT TTATCAGCAA ATTATCCAGA 2820
CCTACCTGAC TGTGTGTAAA GATGTTGTTA TGGTAGGCCT TGGTGACCAT CAGTTTCAGA 2880
TGCAACTCTT ACAGCGGAGT CTTGGAATCA TGCAAACAGT GAAGGGATTT TTTTATGTTT 2940
CATTACTTCT TGACATTCTG AAAGAGATAA CTGGAAGTTC CTTGATTCAG AAAACAGATT 3000
CAGATGAAGA AGTTGCAATG CTGTTGGACA CAGTCCAGAA AGTATTTCAG AAAATGTTGG 3060
AATGTATTGC ACGGAGCTTC AGGAAGCAGC CGGAAGAAGG CCTGCGGCTG CTTTATTCTG 3120
TTCAGAGGCC TCTTCATGAG TTCATTACTG CTGTTCAGTC TCGGCACACA GACACCCCTG 3180
TGCACCGGGG TGTACTTTCT ACTCTGATCG CTGGGCCTGT GGTTGAGATA AGTCACCAGC 3240
TACGGAAGGT TTCTGACGTA GAAGAGCTTA CCCCTCCAGA GCATCTTTCT GATCTTCCAC 3300
CATTTTCAAG GTGTTTAATA GGAATAATAA TAAAGTCTTC GAATGTGGTC AGGTCATTTT 3360
TGGATGAATT AAAGGCATGT GTGGCTTCTA ATGATATTGA AGGCATTGTG TGCCTCACGG 3420
CTGCTGTGCA TATTATCCTG GTTATTAATG CAGGTAAACA TAAAAGCTCA AAAGTGAGGG 3480
AGGTTGCAGC CACTGTTCAC AGAAAACTAA AGACATTCAT GGAAATTACT TTGGAAGAGG 3540
ATAGCATTGA AAGATTTCTC TATGAATCAT CATCAAGAAC TCTGGGAGAA CTTTTGAATT 3600
CATAACCAAG CCAACATCTC CAGACATGTA AAAATAGGGA AAAGTGATTC AAATTGAAAT 3660
GCCTGTGTAT TTTCCTATTG TTTTTAATGT TAATAACCCA TATAATAGGG AAAGGGTGGG 3720
ATTTTTTTGT GGGAATGTGG GAAGGTGGGG GTTATGGAGG AGATAACTCA AAACTTCTTC 3780
AATTTTGCCT AGTGCCTGCG TAAATAATAT ATTTAATATA AAGGACTCCA GGTATGAATG 3840
GTGTAGAAAT CCATGATTCC AAGAAAAAAC ACTTTTCTAG CAAACCTGGT TGTTTTTAAA 3900
ATGACTTTTA TATATGTAAT ATTGCTTGGA AACTATGAGT AATAAAGCAA TGACAAC
3958Nucleotide Fasta Sequence
>ENSP00000386569.1|Me_Reader_other|Homo sapiens
GAGGGCGGGGCCCGTCTGGGGCGCCGGCGGGTGCGTTTGAATCTGGTCCGAGCGCGGGAAACGGCGGGTCCCCGAGCCCAGTACCAGACCTCCTGTGCGAAGAGTAACCTGCTCTTCGGACTGATAACTGGATGGGTTACAAAATAAATGCCATTTGAACAGTGCCATCTGTCATGGAAAAACGTGAGACGTTTGTACAAGCCGTGTCTAAGGAGCTGGTTGGAGAGTTTTTGCAATTTGTTCAACTTGATAAAGAGGCCTCTGATCCTTTCAGCCTAAATGAATTACTAGATGAATTATCAAGGAAACAGAAAGAAGAATTATGGCAAAGGCTGAAGAATTTATTGACAGATGTGTTGTTAGAAAGCCCAGTGGATGGGTGGCAGGTAGTGGAAGCCCAGGGTGAAGACAATATGGAAACCGAACATGGCTCAAAAATGAGAAAAAGCATAGAAATAATTTATGCAATTACATCTGTGATTCTTGCTTCTGTGTCTGTAATAAATGAAAGTGAGAACTACGAAGCCCTACTGGAATGTGTTATTATATTAAATGGTATTTTATATGCATTACCTGAGTCTGAACGAAAACTACAGAGTTCTATTCAGGATTTGTGTGTTACCTGGTGGGAGAAAGGCCTGCCTGCCAAGGAAGACACAGGAAAGACAGCCTTTGTCATGTTACTAAGGAGGAGTCTGGAGACTAAGACAGGTGCAGACGTATGTCGGCTTTGGCGTATCCATCAAGCTTTATATTGCTTTGATTATGATTTGGAGGAAAGTGGAGAAATTAAAGATATGTTACTTGAGTGCTTCATAAATATTAATTATATCAAGAAAGAAGAGGGAAGAAGATTTCTTAGTTGTCTCTTCAACTGGAATATCAACTTCATCAAAATGATCCACGGGACCATTAAAAACCAGTTACAGGGATTACAAAAGTCTTTGATGGTATACATTGCAGAAATTTATTTCAGAGCTTGGAAAAAGGCTTCAGGGAAAATACTGGAGGCGATTGAAAATGATTGCATCCAGGACTTCATGTTCCACGGGATACACCTTCCGAGGAGGTCTCCAGTGCATTCCAAAGTGCGGGAGGTTCTGAGTTACTTTCACCATCAAAAGAAAGTTCGGCAGGGAGTGGAAGAGATGCTTTATAGATTATATAAGCCCATCCTTTGGAGAGGATTAAAGGCCAGAAACTCTGAAGTTCGATCAAATGCTGCATTGTTGTTTGTTGAAGCATTTCCTATTAGGGATCCAAACCTTCATGCTATTGAAATGGATAGTGAAATCCAGAAACAGTTTGAAGAGCTCTATAGCCTTTTAGAAGATCCTTACCCGATGGTCCGTTCCACAGGGATCCTTGGTGTTTGTAAAATAACTTCTAAGTACTGGGAAATGATGCCCCCGACCATTCTTATTGACCTCCTGAAGAAGGTGACTGGGGAACTGGCATTTGACACGAGCTCAGCTGATGTTCGTTGTTCTGTCTTTAAGTGTCTGCCAATGATTTTGGACAACAAACTGAGCCACCCATTGTTAGAGCAGCTCCTTCCAGCTCTCAGATACAGTCTCCACGACAATTCGGAGAAAGTGAGGGTAGCTTTTGTGGACATGCTGTTGAAGATCAAAGCTGTGAGGGCTGCTAAGTTTTGGAAAATATGTCCCATGGAGCACATTCTGGTTCGTCTGGAAACTGATTCTCGACCTGTGTCTCGGCGCCTGGTGAGCCTCATCTTTAATTCTTTCCTGCCTGTGAATCAGCCGGAGGAGGTCTGGTGCGAGCGCTGTGTCACCCTGGTGCAGATGAACCACGCCGCTGCCAGGAGGTTCTATCAGTACGCCCACGAACACACCGCCTGCACCAACATAGCAAAGCTGATTCACGTTATTCGTCATTGCTTAAATGCCTGTATCCAGAGGGCAGTGAGAGAGCCTCCAGAGGACGAGGAGGAAGAGGACGGAAGGGAGAAGGAGAATGTGACTGTTCTGGACAAAACACTGTCAGTAAACGATGTTGCATGCATGGCAGGTTTACTAGAAATCATTGTGATTCTCTGGAAAAGTATTGACAGAAGTATGGAAAATAATAAAGAGGCCAAACTTTACACGATTAACAAGTTTGCCTCTGTGCTTCCAGAGTATCTGAAAGTATTTAAGGATGATCGCTGCAAGATCCCTTTATTCATGCTAATGTCCTTTATGCCGGCCTCTGCTGTCCCCCCATTCAGCTGTGGTGTGATTTCCACGCTGAGAAGCCGGGAGGAGGGCGCTGTGGACAAGAGCTACTGCACTTTGTTGGATTGCCTCTGCTCCTGGGGGCAGGTGGGGCACATTCTGGAGCTTGTTGACAACTGGCTGCCCACAGAGCATGCCCAGGCCAAGAGCAACACAGCTTCTAAAGGTAGGGTGCAGATCCATGACACACGCCCAGTCAAACCTGAATTGGCATTGGTCTACATTGAGTATCTGCTGACTCATCCAAAGAACCGCGAGTGCTTGCTCTCTGCTCCTCGGAAGAAACTTAACCATCTTTTGAAAGCCCTTGAAACGTCAAAGGCAGATCTGGAGTCACTTCTGCAGACACCGGGTGGGAAGCCTCGTGGCTTCAGTGAAGCAGCTGCCCCGCGAGCCTTTGGTCTCCACTGTCGCCTGAGCATCCATCTTCAGCACAAGTTCTGCTCAGAAGGAAAGGTGTATTTGTCCATGTTGGAAGACACTGGCTTTTGGTTAGAAAGCAAAATTTTATCTTTTATTCAAGATCAAGAAGAAGACTACCTGAAGCTTCATAGGGTCATTTATCAGCAAATTATCCAGACCTACCTGACTGTGTGTAAAGATGTTGTTATGGTAGGCCTTGGTGACCATCAGTTTCAGATGCAACTCTTACAGCGGAGTCTTGGAATCATGCAAACAGTGAAGGGATTTTTTTATGTTTCATTACTTCTTGACATTCTGAAAGAGATAACTGGAAGTTCCTTGATTCAGAAAACAGATTCAGATGAAGAAGTTGCAATGCTGTTGGACACAGTCCAGAAAGTATTTCAGAAAATGTTGGAATGTATTGCACGGAGCTTCAGGAAGCAGCCGGAAGAAGGCCTGCGGCTGCTTTATTCTGTTCAGAGGCCTCTTCATGAGTTCATTACTGCTGTTCAGTCTCGGCACACAGACACCCCTGTGCACCGGGGTGTACTTTCTACTCTGATCGCTGGGCCTGTGGTTGAGATAAGTCACCAGCTACGGAAGGTTTCTGACGTAGAAGAGCTTACCCCTCCAGAGCATCTTTCTGATCTTCCACCATTTTCAAGGTGTTTAATAGGAATAATAATAAAGTCTTCGAATGTGGTCAGGTCATTTTTGGATGAATTAAAGGCATGTGTGGCTTCTAATGATATTGAAGGCATTGTGTGCCTCACGGCTGCTGTGCATATTATCCTGGTTATTAATGCAGGTAAACATAAAAGCTCAAAAGTGAGGGAGGTTGCAGCCACTGTTCACAGAAAACTAAAGACATTCATGGAAATTACTTTGGAAGAGGATAGCATTGAAAGATTTCTCTATGAATCATCATCAAGAACTCTGGGAGAACTTTTGAATTCATAACCAAGCCAACATCTCCAGACATGTAAAAATAGGGAAAAGTGATTCAAATTGAAATGCCTGTGTATTTTCCTATTGTTTTTAATGTTAATAACCCATATAATAGGGAAAGGGTGGGATTTTTTTGTGGGAATGTGGGAAGGTGGGGGTTATGGAGGAGATAACTCAAAACTTCTTCAATTTTGCCTAGTGCCTGCGTAAATAATATATTTAATATAAAGGACTCCAGGTATGAATGGTGTAGAAATCCATGATTCCAAGAAAAAACACTTTTCTAGCAAACCTGGTTGTTTTTAAAATGACTTTTATATATGTAATATTGCTTGGAAACTATGAGTAATAAAGCAATGACAAC
|
| Sequence Source |
Ensembl |
| Keyword |
KW-0025--Alternative splicing
KW-0131--Cell cycle
KW-0132--Cell division
KW-0181--Complete proteome
KW-0226--DNA condensation
KW-0498--Mitosis
KW-0539--Nucleus
KW-0597--Phosphoprotein
KW-0621--Polymorphism
KW-1185--Reference proteome
--
|
| Interpro |
IPR011989--ARM-like
IPR016024--ARM-type_fold
IPR024741--Condensin2_G2
|
| PROSITE |
|
| Pfam |
PF12422--Condensin2nSMC
|
| Gene Ontology |
GO:0016020--C:membrane
GO:0005654--C:nucleoplasm
GO:0035064--F:methylated histone binding
GO:0051301--P:cell division
GO:0030261--P:chromosome condensation
GO:0001833--P:inner cell mass cell proliferation
GO:0007067--P:mitotic nuclear division
|
| Orthology |
|
| Created Date |
25-Jun-2016 |
