Sequence of UHRF2_HUMAN

EC Number:2.3.2.27

2.3.2.27

RING-type E3 ubiquitin transferase

Q96PU4

Homo sapiens

802

89985

Swiss-Prot

Reaction

[E2 ubiquitin-conjugating enzyme]-S-ubiquitinyl-L-cysteine + [acceptor protein]-L-lysine = [E2 ubiquitin-conjugating enzyme]-L-cysteine + [acceptor protein]-N6-ubiquitinyl-L-lysine

Other sequences found for EC No. 2.3.2.27

General information:

Sequence

0 MWIQVRTIDG SKTCTIEDVS RKATIEELRE RVWALFDVRP ECQRLFYRGK QLENGYTLFD

60 YDVGLNDIIQ LLVRPDPDHL PGTSTQIEAK PCSNSPPKVK KAPRVGPSNQ PSTSARARLI

120 DPGFGIYKVN ELVDARDVGL GAWFEAHIHS VTRASDGQSR GKTPLKNGSS CKRTNGNIKH

180 KSKENTNKLD SVPSTSNSDC VAADEDVIYH IQYDEYPESG TLEMNVKDLR PRARTILKWN

240 ELNVGDVVMV NYNVESPGQR GFWFDAEITT LKTISRTKKE LRVKIFLGGS EGTLNDCKII

300 SVDEIFKIER PGAHPLSFAD GKFLRRNDPE CDLCGGDPEK KCHSCSCRVC GGKHEPNMQL

360 LCDECNVAYH IYCLNPPLDK VPEEEYWYCP SCKTDSSEVV KAGERLKMSK KKAKMPSAST

420 ESRRDWGRGM ACVGRTRECT IVPSNHYGPI PGIPVGSTWR FRVQVSEAGV HRPHVGGIHG

480 RSNDGAYSLV LAGGFADEVD RGDEFTYTGS GGKNLAGNKR IGAPSADQTL TNMNRALALN

540 CDAPLDDKIG AESRNWRAGK PVRVIRSFKG RKISKYAPEE GNRYDGIYKV VKYWPEISSS

600 HGFLVWRYLL RRDDVEPAPW TSEGIERSRR LCLRLQYPAG YPSDKEGKKP KGQSKKQPSG

660 TTKRPISDDD CPSASKVYKA SDSAEAIEAF QLTPQQQHLI REDCQNQKLW DEVLSHLVEG

720 PNFLKKLEQS FMCVCCQELV YQPVTTECFH NVCKDCLQRS FKAQVFSCPA CRHDLGQNYI

780 MIPNEILQTL LDLFFPGYSK GR

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Sequence related references

247245

Mori T.,Li Y.,Hata H.,Ono K.,Kochi H.

NIRF, a novel RING finger protein, is involved in cell-cycle regulation.

Biochem. Biophys. Res. Commun.

296

530-536

2002

12176013

247247

Humphray S.J.,Oliver K.,Hunt A.R.,Plumb R.W.,Loveland J.E.,Howe K.L.,Andrews T.D.,Searle S.,Hunt S.E.,Scott C.E.,Jones M.C.,Ainscough R.,Almeida J.P.,Ambrose K.D.,Ashwell R.I.S.,Babbage A.K.,Babbage S.,Bagguley C.L.,Bailey J.,Banerjee R.,Barker D.J.,Barlow K.F.,Bates K.,Beasley H.,Beasley O.,Bird C.P.,Bray-Allen S.,Brown A.J.,Brown J.Y.,Burford D.,Burrill W.,Burton J.,Carder C.,Carter N.P.,Chapman J.C.,Chen Y.,Clarke G.,Clark S.Y.,Clee C.M.,Clegg S.,Collier R.E.,Corby N.,Crosier M.,Cummings A.T.,Davies J.,Dhami P.,Dunn M.,Dutta I.,Dyer L.W.,Earthrowl M.E.,Faulkner L.,Fleming C.J.,Frankish A.,Frankland J.A.,French L.,Fricker D.G.,Garner P.,Garnett J.,Ghori J.,Gilbert J.G.R.,Glison C.,Grafham D.V.,Gribble S.,Griffiths C.,Griffiths-Jones S.,Grocock R.,Guy J.,Hall R.E.,Hammond S.,Harley J.L.,Harrison E.S.I.,Hart E.A.,Heath P.D.,Henderson C.D.,Hopkins B.L.,Howard P.J.,Howden P.J.,Huckle E.,Johnson C.,Johnson D.,Joy A.A.,Kay M.,Keenan S.,Kershaw J.K.,Kimberley A.M.,King A.,Knights A.,Laird G.K.,Langford C.,Lawlor S.,Leongamornlert D.A.,Leversha M.,Lloyd C.,Lloyd D.M.,Lovell J.,Martin S.,Mashreghi-Mohammadi M.,Matthews L.,McLaren S.,McLay K.E.,McMurray A.,Milne S.,Nickerson T.,Nisbett J.,Nordsiek G.,Pearce A.V.,Peck A.I.,Porter K.M.,Pandian R.,Pelan S.,Phillimore B.,Povey S.,Ramsey Y.,Rand V.,Scharfe M.,Sehra H.K.,Shownkeen R.,Sims S.K.,Skuce C.D.,Smith M.,Steward C.A.,Swarbreck D.,Sycamore N.,Tester J.,Thorpe A.,Tracey A.,Tromans A.,Thomas D.W.,Wall M.,Wallis J.M.,West A.P.,Whitehead S.L.,Willey D.L.,Williams S.A.,Wilming L.,Wray P.W.,Young L.,Ashurst J.L.,Coulson A.,Blocker H.,Durbin R.M.,Sulston J.E.,Hubbard T.,Jackson M.J.,Bentley D.R.,Beck S.,Rogers J.,Dunham I.

DNA sequence and analysis of human chromosome 9.

Nature

429

369-374

2004

15164053

247248

The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).

Genome Res.

2121-2127

2004

15489334

247249

Bechtel S.,Rosenfelder H.,Duda A.,Schmidt C.P.,Ernst U.,Wellenreuther R.,Mehrle A.,Schuster C.,Bahr A.,Bloecker H.,Heubner D.,Hoerlein A.,Michel G.,Wedler H.,Koehrer K.,Ottenwaelder B.,Poustka A.,Wiemann S.,Schupp I.

The full-ORF clone resource of the German cDNA consortium.

BMC Genomics

399-399

2007

17974005

247250

Li Y.,Mori T.,Hata H.,Homma Y.,Kochi H.

NIRF induces G1 arrest and associates with Cdk2.

Biochem. Biophys. Res. Commun.

319

464-468

2004

15178429

247251

Mori T.,Li Y.,Hata H.,Kochi H.

NIRF is a ubiquitin ligase that is capable of ubiquitinating PCNP, a PEST-containing nuclear protein.

FEBS Lett.

557

209-214

2004

14741369

247252

Unoki M.,Nishidate T.,Nakamura Y.

ICBP90, an E2F-1 target, recruits HDAC1 and binds to methyl-CpG through its SRA domain.

Oncogene

7601-7610

2004

15361834

247253

Dephoure N.,Zhou C.,Villen J.,Beausoleil S.A.,Bakalarski C.E.,Elledge S.J.,Gygi S.P.

A quantitative atlas of mitotic phosphorylation.

Proc. Natl. Acad. Sci. U.S.A.

105

10762-10767

2008

18669648

247254

Burkard T.R.,Planyavsky M.,Kaupe I.,Breitwieser F.P.,Buerckstuemmer T.,Bennett K.L.,Superti-Furga G.,Colinge J.

Initial characterization of the human central proteome.

BMC Syst. Biol.

17-17

2011

21269460

247255

Mori T.,Ikeda D.D.,Fukushima T.,Takenoshita S.,Kochi H.

NIRF constitutes a nodal point in the cell cycle network and is a candidate tumor suppressor.

Cell Cycle

3284-3299

2011

21952639

247256

Oh Y.,Chung K.C.

UHRF2, a ubiquitin E3 ligase, acts as a small ubiquitin-like modifier E3 ligase for zinc finger protein 131.

J. Biol. Chem.

288

9102-9111

2013

23404503

247257

Zhou H.,Di Palma S.,Preisinger C.,Peng M.,Polat A.N.,Heck A.J.,Mohammed S.

Toward a comprehensive characterization of a human cancer cell phosphoproteome.

J. Proteome Res.

260-271

2013

23186163

247258

Liu Y.,Zhang B.,Kuang H.,Korakavi G.,Lu L.Y.,Yu X.

Zinc Finger Protein 618 Regulates the Function of UHRF2 (Ubiquitin-like with PHD and Ring Finger Domains 2) as a Specific 5-Hydroxymethylcytosine Reader.

J. Biol. Chem.

291

13679-13688

2016

27129234

247259

Zeng S.,Wang Y.,Zhang T.,Bai L.,Wang Y.,Duan C.

E3 ligase UHRF2 stabilizes the acetyltransferase TIP60 and regulates H3K9ac and H3K14ac via RING finger domain.

Protein Cell

202-218

2017

27743347

247260

Vaughan R.M.,Dickson B.M.,Cornett E.M.,Harrison J.S.,Kuhlman B.,Rothbart S.B.

Comparative biochemical analysis of UHRF proteins reveals molecular mechanisms that uncouple UHRF2 from DNA methylation maintenance.

Nucleic Acids Res.

4405-4416

2018

29506131

247261

Wang Y.,Yan X.,Zeng S.,Zhang T.,Cheng F.,Chen R.,Duan C.

UHRF2 promotes DNA damage response by decreasing p21 via RING finger domain.

Biotechnol. Lett.

1181-1188

2018

29923055

247262

Motnenko A.,Liang C.C.,Yang D.,Lopez-Martinez D.,Yoshikawa Y.,Zhan B.,Ward K.E.,Tian J.,Haas W.,Spingardi P.,Kessler B.M.,Kriaucionis S.,Gygi S.P.,Cohn M.A.

Identification of UHRF2 as a novel DNA interstrand crosslink sensor protein.

PLoS Genet.

0-0

2018

30335751

247263

Hanaki S.,Habara M.,Shimada M.

UV-induced activation of ATR is mediated by UHRF2.

Genes Cells

447-454

2021

33848395

247267

Zhou T.,Xiong J.,Wang M.,Yang N.,Wong J.,Zhu B.,Xu R.M.

Structural basis for hydroxymethylcytosine recognition by the SRA domain of UHRF2.

Mol. Cell

879-886

2014

24813944

247268

Chen W.,Wu M.,Hang T.,Wang C.,Zhang X.,Zang J.

Structure insights into the molecular mechanism of the interaction between UHRF2 and PCNA.

Biochem. Biophys. Res. Commun.

494

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2017

28951215

247269

Sjoeblom T.,Jones S.,Wood L.D.,Parsons D.W.,Lin J.,Barber T.D.,Mandelker D.,Leary R.J.,Ptak J.,Silliman N.,Szabo S.,Buckhaults P.,Farrell C.,Meeh P.,Markowitz S.D.,Willis J.,Dawson D.,Willson J.K.V.,Gazdar A.F.,Hartigan J.,Wu L.,Liu C.,Parmigiani G.,Park B.H.,Bachman K.E.,Papadopoulos N.,Vogelstein B.,Kinzler K.W.,Velculescu V.E.

The consensus coding sequences of human breast and colorectal cancers.

Science

314

268-274

2006

16959974