| Tag |
Content |
| WERAM ID |
WERAM-Hos-0193 |
| Ensembl Protein ID |
ENSP00000373354.3 |
| Uniprot Accession |
Q53H47; SETMR_HUMAN; B4DY74; E7EN68; Q13579; Q1G668; Q96F41
|
| Genbank Protein ID |
NP_001230652.1; NP_001263254.1; NP_001307606.1; NP_001307607.1; NP_006506.3
|
| Protein Name |
Histone-lysine N-methyltransferase SETMAR |
| Genbank Nucleotide ID |
NM_001243723.1; NM_001276325.1; NM_001320677.1; NM_001320678.1; NM_006515.3
|
| Gene Name |
SETMAR;Mar1;HsMar1;METNASE |
| Ensembl Information |
|
| Details |
| Type |
Family |
Domain |
Substrates |
AA |
References (PMIDs) |
| HMT |
SUV39 |
SET |
H3K36 |
K |
25537518
|
|
| Status |
Reviewed |
| Classification |
| Type |
Family |
E-value |
Score |
Start |
End |
| HMT |
SUV39 |
4.10e-34 |
120 |
140 |
262 |
|
| Organism |
Homo sapiens |
| NCBI Taxa ID |
9606 |
Functional Description
(View)Functional Description
Protein derived from the fusion of a methylase with the transposase of an Hsmar1 transposon that plays a role in DNA double-strand break repair, stalled replication fork restart and DNA integration. DNA-binding protein, it is indirectly recruited to sites of DNA damage through protein-protein interactions. Has also kept a sequence-specific DNA-binding activity recognizing the 19-mer core of the 5'-terminal inverted repeats (TIRs) of the Hsmar1 element and displays a DNA nicking and end joining activity (PubMed:16332963, PubMed:16672366, PubMed:17877369, PubMed:17403897, PubMed:18263876, PubMed:22231448, PubMed:24573677, PubMed:20521842). In parallel, has a histone methyltransferase activity and methylates 'Lys-4' and 'Lys-36' of histone H3. Specifically mediates dimethylation of H3 'Lys-36' at sites of DNA double-strand break and may recruit proteins required for efficient DSB repair through non-homologous end-joining (PubMed:16332963, PubMed:21187428, PubMed:22231448). Also regulates replication fork processing, promoting replication fork restart and regulating DNA decatenation through stimulation of the topoisomerase activity of TOP2A (PubMed:18790802, PubMed:20457750). |
Protein derived from the fusion of a methylase with the transposase of an Hsmar1 transposon that plays a role in DNA double-strand break repair, stalled replication fork restart and DNA integration. DNA-binding protein, it is indirectly recruited to sites of DNA damage through protein-protein interactions. Has also kept a sequence-specific DNA-binding activity recognizing the 19-mer core of the 5'-terminal inverted repeats (TIRs) of the Hsmar1 element and displays a DNA nicking and end joining activity (PubMed:16332963, PubMed:16672366, PubMed:17877369, PubMed:17403897, PubMed:18263876, PubMed:22231448, PubMed:24573677, PubMed:20521842). In parallel, has a histone methyltransferase activity and methylates 'Lys-4' and 'Lys-36' of histone H3. Specifically mediates dimethylation of H3 'Lys-36' at sites of DNA double-strand break and may recruit proteins required for efficient DSB repair through non-homologous end-joining (PubMed:16332963, PubMed:21187428, PubMed:22231448). Also regulates replication fork processing, promoting replication fork restart and regulating DNA decatenation through stimulation of the topoisomerase activity of TOP2A (PubMed:18790802, PubMed:20457750).
|
| Domain Profile |
HMT SUV39
SUV39.txt 2 rLqvfktenkGwGvrclddiakgsFvciyaGeiltddeaekegl...eegdeyladldskesvenlkegyesdvplssdssntrqekdkees 90
++qvfkt++kGwG+r+l+ i+kg+Fvc+yaGe+l +e++++ + +++++y++++++ + ++++
ENSP00000373354.3 140 HFQVFKTHKKGWGLRTLEFIPKGRFVCEYAGEVLGFSEVQRRIHlqtKSDSNYIIAIRE-------------------------HVYNGQVM 206
79**************************************9933344666667666665.........................45888999 PP
SUV39.txt 91 eyiidakkegnvgrflnHscspNlfvqnvfvdthdlrfprvafFaskrikagtELtwdY 149
e ++d ++ gn+grflnHsc+pNl++ +v + d+++p++a+Fa+k+i +++EL++dY
ENSP00000373354.3 207 ETFVDPTYIGNIGRFLNHSCEPNLLMIPVRI---DSMVPKLALFAAKDIVPEEELSYDY 262
9****************************99...679********************** PP
|
Protein Sequence
(Fasta) | MFAEAAKTTR PCGMAEFKEK PEAPTEQLDV ACGQENLPVG AWPPGAAPAP FQYTPDHVVG 60
PGADIDPTQI TFPGCICVKT PCLPGTCSCL RHGENYDDNS CLRDIGSGGK YAEPVFECNV 120
LCRCSDHCRN RVVQKGLQFH FQVFKTHKKG WGLRTLEFIP KGRFVCEYAG EVLGFSEVQR 180
RIHLQTKSDS NYIIAIREHV YNGQVMETFV DPTYIGNIGR FLNHSCEPNL LMIPVRIDSM 240
VPKLALFAAK DIVPEEELSY DYSGRYLNLT VSEDKERLDH GKLRKPCYCG AKSCTAFLPF 300
DSSLYCPVEK SNISCGNEKE PSMCGSAPSV FPSCKRLTLE TMKMMLDKKQ IRAIFLFEFK 360
MGRKAAETTR NINNAFGPGT ANERTVQWWF KKFCKGDESL EDEERSGRPS EVDNDQLRAI 420
IEADPLTTTR EVAEELNVNH STVVRHLKQI GKVKKLDKWV PHELTENQKN RRFEVSSSLI 480
LRNHNEPFLD RIVTCDEKWI LYDNRRRSAQ WLDQEEAPKH FPKPILHPKK VMVTIWWSAA 540
GLIHYSFLNP GETITSEKYA QEIDEMNQKL QRLQLALVNR KGPILLHDNA RPHVAQPTLQ 600
KLNELGYEVL PHPPYSPDLL PTNYHVFKHL NNFLQGKRFH NQQDAENAFQ EFVESQSTDF 660
YATGINQLIS RWQKCVDCNG SYFD 684Protein Fasta Sequence
>ENSP00000373354.3|SETMAR;Mar1;HsMar1;METNASE|Homo sapiens
MFAEAAKTTRPCGMAEFKEKPEAPTEQLDVACGQENLPVGAWPPGAAPAPFQYTPDHVVGPGADIDPTQITFPGCICVKTPCLPGTCSCLRHGENYDDNSCLRDIGSGGKYAEPVFECNVLCRCSDHCRNRVVQKGLQFHFQVFKTHKKGWGLRTLEFIPKGRFVCEYAGEVLGFSEVQRRIHLQTKSDSNYIIAIREHVYNGQVMETFVDPTYIGNIGRFLNHSCEPNLLMIPVRIDSMVPKLALFAAKDIVPEEELSYDYSGRYLNLTVSEDKERLDHGKLRKPCYCGAKSCTAFLPFDSSLYCPVEKSNISCGNEKEPSMCGSAPSVFPSCKRLTLETMKMMLDKKQIRAIFLFEFKMGRKAAETTRNINNAFGPGTANERTVQWWFKKFCKGDESLEDEERSGRPSEVDNDQLRAIIEADPLTTTREVAEELNVNHSTVVRHLKQIGKVKKLDKWVPHELTENQKNRRFEVSSSLILRNHNEPFLDRIVTCDEKWILYDNRRRSAQWLDQEEAPKHFPKPILHPKKVMVTIWWSAAGLIHYSFLNPGETITSEKYAQEIDEMNQKLQRLQLALVNRKGPILLHDNARPHVAQPTLQKLNELGYEVLPHPPYSPDLLPTNYHVFKHLNNFLQGKRFHNQQDAENAFQEFVESQSTDFYATGINQLISRWQKCVDCNGSYFD |
Nucleotide Sequence
(Fasta) | ACAAGTCCCA GCATCCACCG CGCGGCCCAG GACTGTCAGG GTAGTGGGCG TTGCGTGAGG 60
CGGGTAAATG TTCGCGGAAG CGGCAAAGAC GACACGGCCT TGTGGGATGG CGGAGTTTAA 120
GGAGAAGCCT GAGGCCCCGA CTGAGCAGCT GGATGTCGCG TGCGGCCAGG AAAACTTGCC 180
GGTGGGCGCG TGGCCCCCGG GGGCCGCGCC GGCGCCCTTC CAGTACACTC CTGATCATGT 240
AGTTGGACCT GGAGCAGACA TTGATCCCAC TCAAATAACC TTTCCCGGAT GCATTTGTGT 300
CAAAACTCCC TGCCTCCCTG GCACTTGCTC CTGTCTCCGC CATGGAGAGA ACTATGATGA 360
TAACTCATGC CTTAGAGATA TAGGATCTGG AGGAAAGTAT GCAGAGCCTG TTTTTGAATG 420
CAATGTCCTG TGCCGATGCA GTGACCACTG CAGAAACAGA GTGGTCCAGA AAGGTCTACA 480
GTTCCACTTC CAAGTGTTCA AGACGCATAA AAAAGGCTGG GGACTTCGTA CCTTGGAATT 540
TATACCGAAA GGAAGGTTTG TCTGTGAATA TGCTGGTGAG GTTTTAGGAT TCTCTGAAGT 600
TCAGAGAAGA ATTCACTTAC AAACAAAATC CGACTCCAAT TACATTATAG CCATCAGGGA 660
ACATGTTTAT AATGGGCAGG TAATGGAAAC ATTTGTTGAC CCTACTTATA TAGGAAATAT 720
TGGAAGATTC CTTAATCATT CTTGTGAGCC AAACCTTTTG ATGATTCCTG TCCGAATTGA 780
CTCAATGGTA CCTAAGTTGG CACTTTTTGC AGCCAAAGAT ATTGTGCCAG AAGAAGAACT 840
CTCTTATGAT TATTCAGGAA GATATCTTAA TCTAACAGTC AGTGAAGACA AAGAAAGGCT 900
AGATCATGGG AAACTAAGGA AACCTTGTTA CTGTGGTGCC AAATCATGTA CTGCTTTCCT 960
GCCTTTTGAC AGTTCTCTGT ACTGCCCCGT AGAAAAGTCG AACATCAGTT GTGGAAATGA 1020
GAAGGAACCC AGCATGTGTG GCTCAGCCCC TTCTGTGTTC CCCTCCTGCA AGCGATTGAC 1080
CCTTGAGACT ATGAAAATGA TGTTAGACAA AAAGCAAATT CGAGCAATTT TCTTATTCGA 1140
GTTCAAAATG GGTCGTAAAG CAGCAGAAAC AACTCGCAAC ATCAACAATG CATTTGGCCC 1200
AGGAACTGCT AACGAACGTA CAGTGCAGTG GTGGTTCAAG AAGTTTTGCA AAGGAGATGA 1260
GAGCCTTGAA GATGAGGAGC GTAGTGGCCG GCCATCAGAA GTTGACAACG ACCAGTTGAG 1320
AGCAATCATC GAAGCTGATC CCCTTACAAC TACACGAGAA GTTGCTGAAG AACTCAATGT 1380
CAACCATTCT ACGGTCGTTC GACATTTGAA GCAAATTGGA AAGGTGAAAA AGCTCGATAA 1440
GTGGGTGCCT CATGAGCTGA CTGAAAATCA AAAAAATCGT CGTTTTGAAG TGTCATCTTC 1500
TCTTATTCTA CGCAACCACA ACGAACCATT TCTCGATCGG ATTGTGACGT GTGATGAAAA 1560
GTGGATTTTA TATGACAACC GGCGACGATC AGCTCAGTGG TTGGATCAAG AAGAAGCTCC 1620
AAAGCACTTC CCAAAGCCAA TCTTGCACCC AAAAAAGGTC ATGGTCACTA TTTGGTGGTC 1680
TGCTGCTGGT CTGATCCACT ACAGCTTTCT GAATCCCGGT GAAACCATTA CATCTGAGAA 1740
GTATGCTCAG GAAATCGATG AGATGAACCA AAAACTGCAA CGCCTGCAGC TGGCATTGGT 1800
CAACAGAAAG GGCCCAATTC TTCTCCACGA CAATGCCCGA CCGCATGTTG CACAACCCAC 1860
ACTTCAAAAG TTGAATGAAT TGGGCTATGA AGTTTTGCCT CATCCACCGT ATTCACCTGA 1920
CCTCTTGCCA ACCAACTACC ACGTCTTTAA GCATCTCAAC AACTTTTTGC AGGGAAAACG 1980
CTTCCACAAC CAGCAGGATG CAGAAAATGC TTTCCAAGAG TTCGTCGAAT CCCAAAGCAC 2040
GGATTTTTAC GCTACAGGAA TAAACCAACT TATTTCTCGT TGGCAAAAAT GTGTTGATTG 2100
TAATGGTTCC TATTTTGATT AATAAAAATG CGTTGAGCCT AGTTATAATG ATTTAAAATT 2160
CACAGTCCAA AACCGCAGTT AGTTTTGCAC CAACCCAATA TCTTCATAGA TTGAAATATA 2220
AATTAAAATT GCATTTGAAG TAGATTCCAC GGACTTTATT AAGAATGTAG AAATGTGGCC 2280
TGGCATGGTG GCTTACAACT GTAATCCCAG CACTTTGGGA GGCCCAGGCG GGCAGATCAC 2340
TTGAGTCCAA TTGTTCAGGA CCAGCCTGGG CAACATAGTG AGACCCTGAC TCTAATAAAA 2400
TAATTTTTTA AAAAAAGATT AAAACATGTA CCTTGAAAAG CAT
2444Nucleotide Fasta Sequence
>ENSP00000373354.3|SUV39|Homo sapiens
ACAAGTCCCAGCATCCACCGCGCGGCCCAGGACTGTCAGGGTAGTGGGCGTTGCGTGAGGCGGGTAAATGTTCGCGGAAGCGGCAAAGACGACACGGCCTTGTGGGATGGCGGAGTTTAAGGAGAAGCCTGAGGCCCCGACTGAGCAGCTGGATGTCGCGTGCGGCCAGGAAAACTTGCCGGTGGGCGCGTGGCCCCCGGGGGCCGCGCCGGCGCCCTTCCAGTACACTCCTGATCATGTAGTTGGACCTGGAGCAGACATTGATCCCACTCAAATAACCTTTCCCGGATGCATTTGTGTCAAAACTCCCTGCCTCCCTGGCACTTGCTCCTGTCTCCGCCATGGAGAGAACTATGATGATAACTCATGCCTTAGAGATATAGGATCTGGAGGAAAGTATGCAGAGCCTGTTTTTGAATGCAATGTCCTGTGCCGATGCAGTGACCACTGCAGAAACAGAGTGGTCCAGAAAGGTCTACAGTTCCACTTCCAAGTGTTCAAGACGCATAAAAAAGGCTGGGGACTTCGTACCTTGGAATTTATACCGAAAGGAAGGTTTGTCTGTGAATATGCTGGTGAGGTTTTAGGATTCTCTGAAGTTCAGAGAAGAATTCACTTACAAACAAAATCCGACTCCAATTACATTATAGCCATCAGGGAACATGTTTATAATGGGCAGGTAATGGAAACATTTGTTGACCCTACTTATATAGGAAATATTGGAAGATTCCTTAATCATTCTTGTGAGCCAAACCTTTTGATGATTCCTGTCCGAATTGACTCAATGGTACCTAAGTTGGCACTTTTTGCAGCCAAAGATATTGTGCCAGAAGAAGAACTCTCTTATGATTATTCAGGAAGATATCTTAATCTAACAGTCAGTGAAGACAAAGAAAGGCTAGATCATGGGAAACTAAGGAAACCTTGTTACTGTGGTGCCAAATCATGTACTGCTTTCCTGCCTTTTGACAGTTCTCTGTACTGCCCCGTAGAAAAGTCGAACATCAGTTGTGGAAATGAGAAGGAACCCAGCATGTGTGGCTCAGCCCCTTCTGTGTTCCCCTCCTGCAAGCGATTGACCCTTGAGACTATGAAAATGATGTTAGACAAAAAGCAAATTCGAGCAATTTTCTTATTCGAGTTCAAAATGGGTCGTAAAGCAGCAGAAACAACTCGCAACATCAACAATGCATTTGGCCCAGGAACTGCTAACGAACGTACAGTGCAGTGGTGGTTCAAGAAGTTTTGCAAAGGAGATGAGAGCCTTGAAGATGAGGAGCGTAGTGGCCGGCCATCAGAAGTTGACAACGACCAGTTGAGAGCAATCATCGAAGCTGATCCCCTTACAACTACACGAGAAGTTGCTGAAGAACTCAATGTCAACCATTCTACGGTCGTTCGACATTTGAAGCAAATTGGAAAGGTGAAAAAGCTCGATAAGTGGGTGCCTCATGAGCTGACTGAAAATCAAAAAAATCGTCGTTTTGAAGTGTCATCTTCTCTTATTCTACGCAACCACAACGAACCATTTCTCGATCGGATTGTGACGTGTGATGAAAAGTGGATTTTATATGACAACCGGCGACGATCAGCTCAGTGGTTGGATCAAGAAGAAGCTCCAAAGCACTTCCCAAAGCCAATCTTGCACCCAAAAAAGGTCATGGTCACTATTTGGTGGTCTGCTGCTGGTCTGATCCACTACAGCTTTCTGAATCCCGGTGAAACCATTACATCTGAGAAGTATGCTCAGGAAATCGATGAGATGAACCAAAAACTGCAACGCCTGCAGCTGGCATTGGTCAACAGAAAGGGCCCAATTCTTCTCCACGACAATGCCCGACCGCATGTTGCACAACCCACACTTCAAAAGTTGAATGAATTGGGCTATGAAGTTTTGCCTCATCCACCGTATTCACCTGACCTCTTGCCAACCAACTACCACGTCTTTAAGCATCTCAACAACTTTTTGCAGGGAAAACGCTTCCACAACCAGCAGGATGCAGAAAATGCTTTCCAAGAGTTCGTCGAATCCCAAAGCACGGATTTTTACGCTACAGGAATAAACCAACTTATTTCTCGTTGGCAAAAATGTGTTGATTGTAATGGTTCCTATTTTGATTAATAAAAATGCGTTGAGCCTAGTTATAATGATTTAAAATTCACAGTCCAAAACCGCAGTTAGTTTTGCACCAACCCAATATCTTCATAGATTGAAATATAAATTAAAATTGCATTTGAAGTAGATTCCACGGACTTTATTAAGAATGTAGAAATGTGGCCTGGCATGGTGGCTTACAACTGTAATCCCAGCACTTTGGGAGGCCCAGGCGGGCAGATCACTTGAGTCCAATTGTTCAGGACCAGCCTGGGCAACATAGTGAGACCCTGACTCTAATAAAATAATTTTTTAAAAAAAGATTAAAACATGTACCTTGAAAAGCAT
|
| Sequence Source |
Ensembl |
| Keyword |
KW-0002--3D-structure
KW-0025--Alternative splicing
KW-0156--Chromatin regulator
KW-0158--Chromosome
KW-0181--Complete proteome
KW-0227--DNA damage
KW-0234--DNA repair
KW-0238--DNA-binding
KW-0255--Endonuclease
KW-0378--Hydrolase
KW-0460--Magnesium
KW-0479--Metal-binding
KW-0488--Methylation
KW-0489--Methyltransferase
KW-0511--Multifunctional enzyme
KW-0540--Nuclease
KW-0539--Nucleus
KW-0597--Phosphoprotein
KW-1185--Reference proteome
KW-0949--S-adenosyl-L-methionine
KW-0808--Transferase
KW-0862--Zinc
--
|
| Interpro |
IPR003616--Post-SET_dom
IPR007728--Pre-SET_dom
IPR001214--SET_dom
IPR001888--Transposase_1
|
| PROSITE |
PS50868--POST_SET
PS50867--PRE_SET
PS50280--SET
|
| Pfam |
PF05033--Pre-SET
PF00856--SET
PF01359--Transposase_1
|
| Gene Ontology |
GO:0005634--C:nucleus
GO:0035861--C:site of double-strand break
GO:0044547--F:DNA topoisomerase binding
GO:0003690--F:double-stranded DNA binding
GO:0004519--F:endonuclease activity
GO:0046975--F:histone methyltransferase activity (H3-K36 specific)
GO:0042800--F:histone methyltransferase activity (H3-K4 specific)
GO:0042803--F:protein homodimerization activity
GO:0003697--F:single-stranded DNA binding
GO:0000014--F:single-stranded DNA endodeoxyribonuclease activity
GO:0043566--F:structure-specific DNA binding
GO:0008270--F:zinc ion binding
GO:0008283--P:cell proliferation
GO:0000737--P:DNA catabolic process, endonucleolytic
GO:0000729--P:DNA double-strand break processing
GO:0015074--P:DNA integration
GO:0006303--P:double-strand break repair via nonhomologous end joining
GO:0097676--P:histone H3-K36 dimethylation
GO:0010452--P:histone H3-K36 methylation
GO:0051568--P:histone H3-K4 methylation
GO:0044774--P:mitotic DNA integrity checkpoint
GO:0071157--P:negative regulation of cell cycle arrest
GO:2001251--P:negative regulation of chromosome organization
GO:0090305--P:nucleic acid phosphodiester bond hydrolysis
GO:2000373--P:positive regulation of DNA topoisomerase (ATP-hydrolyzing) activity
GO:2001034--P:positive regulation of double-strand break repair via nonhomologous end joining
GO:0031297--P:replication fork processing
|
| Orthology |
|
| Created Date |
25-Jun-2016 |
