Sequence of SAC2_HUMAN
EC Number:3.1.3.25
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
Reaction
myo-inositol phosphate + H2O = myo-inositol + phosphate
Other sequences found for EC No. 3.1.3.25
General information:
Sequence
0 MELFQAKDHY ILQQGERALW CSRRDGGLQL RPATDLLLAW NPICLGLVEG VIGKIQLHSD
60 LPWWLILIRQ KALVGKLPGD HEVCKVTKIA VLSLSEMEPQ DLELELCKKH HFGINKPEKI
120 IPSPDDSKFL LKTFTHIKSN VSAPNKKKVK ESKEKEKLER RLLEELLKMF MDSESFYYSL
180 TYDLTNSVQR QSTGERDGRP LWQKVDDRFF WNKYMIQDLT EIGTPDVDFW IIPMIQGFVQ
240 IEELVVNYTE SSDDEKSSPE TPPQESTCVD DIHPRFLVAL ISRRSRHRAG MRYKRRGVDK
300 NGNVANYVET EQLIHVHNHT LSFVQTRGSV PVFWSQVGYR YNPRPRLDRS EKETVAYFCA
360 HFEEQLNIYK KQVIINLVDQ AGREKIIGDA YLKQVLLFNN SHLTYVSFDF HEHCRGMKFE
420 NVQTLTDAIY DIILDMKWCW VDEAGVICKQ EGIFRVNCMD CLDRTNVVQA AIARVVMEQQ
480 LKKLGVMPPE QPLPVKCNRI YQIMWANNGD SISRQYAGTA ALKGDFTRTG ERKLAGVMKD
540 GVNSANRYYL NRFKDAYRQA VIDLMQGIPV TEDLYSIFTK EKEHEALHKE NQRSHQELIS
600 QLLQSYMKLL LPDDEKFHGG WALIDCDPSL IDATHRDVDV LLLLSNSAYY VAYYDDEVDK
660 VNQYQRLSLE NLEKIEIGPE PTLFGKPKFS CMRLHYRYKE ASGYFHTLRA VMRNPEEDGK
720 DTLQCIAEML QITKQAMGSD LPIIEKKLER KSSKPHEDII GIRSQNQGSL AQGKNFLMSK
780 FSSLNQKVKQ TKSNVNIGNL RKLGNFTKPE MKVNFLKPNL KVNLWKSDSS LETMENTGVM
840 DKVQAESDGD MSSDNDSYHS DEFLTNSKSD EDRQLANSLE SVGPIDYVLP SCGIIASAPR
900 LGSRSQSLSS TDSSVHAPSE ITVAHGSGLG KGQESPLKKS PSAGDVHILT GFAKPMDIYC
960 HRFVQDAQNK VTHLSETRSV SQQASQERNQ MTNQVSNETQ SESTEQTPSR PSQLDVSLSA
1020 TGPQFLSVEP AHSVASQKTP TSASSMLELE TGLHVTPSPS ESSSSRAVSP FAKIRSSMVQ
1080 VASITQAGLT HGINFAVSKV QKSPPEPEII NQVQQNELKK MFIQCQTRII QI
Download this sequence
Download all sequences for 3.1.3.25
Sequence related references
Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
228667
Minagawa T.,Ijuin T.,Mochizuki Y.,Takenawa T.
Identification and characterization of a sac domain-containing phosphoinositide 5-phosphatase.
J. Biol. Chem.
276
22011-22015
2001
228668
Nagase T.,Ishikawa K.,Suyama M.,Kikuno R.,Hirosawa M.,Miyajima N.,Tanaka A.,Kotani H.,Nomura N.,Ohara O.
Prediction of the coding sequences of unidentified human genes. XIII. The complete sequences of 100 new cDNA clones from brain which code for large proteins in vitro.
DNA Res.
6
63-70
1999
228669
Ota T.,Suzuki Y.,Nishikawa T.,Otsuki T.,Sugiyama T.,Irie R.,Wakamatsu A.,Hayashi K.,Sato H.,Nagai K.,Kimura K.,Makita H.,Sekine M.,Obayashi M.,Nishi T.,Shibahara T.,Tanaka T.,Ishii S.,Yamamoto J.,Saito K.,Kawai Y.,Isono Y.,Nakamura Y.,Nagahari K.,Murakami K.,Yasuda T.,Iwayanagi T.,Wagatsuma M.,Shiratori A.,Sudo H.,Hosoiri T.,Kaku Y.,Kodaira H.,Kondo H.,Sugawara M.,Takahashi M.,Kanda K.,Yokoi T.,Furuya T.,Kikkawa E.,Omura Y.,Abe K.,Kamihara K.,Katsuta N.,Sato K.,Tanikawa M.,Yamazaki M.,Ninomiya K.,Ishibashi T.,Yamashita H.,Murakawa K.,Fujimori K.,Tanai H.,Kimata M.,Watanabe M.,Hiraoka S.,Chiba Y.,Ishida S.,Ono Y.,Takiguchi S.,Watanabe S.,Yosida M.,Hotuta T.,Kusano J.,Kanehori K.,Takahashi-Fujii A.,Hara H.,Tanase T.-O.,Nomura Y.,Togiya S.,Komai F.,Hara R.,Takeuchi K.,Arita M.,Imose N.,Musashino K.,Yuuki H.,Oshima A.,Sasaki N.,Aotsuka S.,Yoshikawa Y.,Matsunawa H.,Ichihara T.,Shiohata N.,Sano S.,Moriya S.,Momiyama H.,Satoh N.,Takami S.,Terashima Y.,Suzuki O.,Nakagawa S.,Senoh A.,Mizoguchi H.,Goto Y.,Shimizu F.,Wakebe H.,Hishigaki H.,Watanabe T.,Sugiyama A.,Takemoto M.,Kawakami B.,Yamazaki M.,Watanabe K.,Kumagai A.,Itakura S.,Fukuzumi Y.,Fujimori Y.,Komiyama M.,Tashiro H.,Tanigami A.,Fujiwara T.,Ono T.,Yamada K.,Fujii Y.,Ozaki K.,Hirao M.,Ohmori Y.,Kawabata A.,Hikiji T.,Kobatake N.,Inagaki H.,Ikema Y.,Okamoto S.,Okitani R.,Kawakami T.,Noguchi S.,Itoh T.,Shigeta K.,Senba T.,Matsumura K.,Nakajima Y.,Mizuno T.,Morinaga M.,Sasaki M.,Togashi T.,Oyama M.,Hata H.,Watanabe M.,Komatsu T.,Mizushima-Sugano J.,Satoh T.,Shirai Y.,Takahashi Y.,Nakagawa K.,Okumura K.,Nagase T.,Nomura N.,Kikuchi H.,Masuho Y.,Yamashita R.,Nakai K.,Yada T.,Nakamura Y.,Ohara O.,Isogai T.,Sugano S.
Complete sequencing and characterization of 21,243 full-length human cDNAs.
Nat. Genet.
36
40-45
2004
228670
Deloukas P.,Earthrowl M.E.,Grafham D.V.,Rubenfield M.,French L.,Steward C.A.,Sims S.K.,Jones M.C.,Searle S.,Scott C.,Howe K.,Hunt S.E.,Andrews T.D.,Gilbert J.G.R.,Swarbreck D.,Ashurst J.L.,Taylor A.,Battles J.,Bird C.P.,Ainscough R.,Almeida J.P.,Ashwell R.I.S.,Ambrose K.D.,Babbage A.K.,Bagguley C.L.,Bailey J.,Banerjee R.,Bates K.,Beasley H.,Bray-Allen S.,Brown A.J.,Brown J.Y.,Burford D.C.,Burrill W.,Burton J.,Cahill P.,Camire D.,Carter N.P.,Chapman J.C.,Clark S.Y.,Clarke G.,Clee C.M.,Clegg S.,Corby N.,Coulson A.,Dhami P.,Dutta I.,Dunn M.,Faulkner L.,Frankish A.,Frankland J.A.,Garner P.,Garnett J.,Gribble S.,Griffiths C.,Grocock R.,Gustafson E.,Hammond S.,Harley J.L.,Hart E.,Heath P.D.,Ho T.P.,Hopkins B.,Horne J.,Howden P.J.,Huckle E.,Hynds C.,Johnson C.,Johnson D.,Kana A.,Kay M.,Kimberley A.M.,Kershaw J.K.,Kokkinaki M.,Laird G.K.,Lawlor S.,Lee H.M.,Leongamornlert D.A.,Laird G.,Lloyd C.,Lloyd D.M.,Loveland J.,Lovell J.,McLaren S.,McLay K.E.,McMurray A.,Mashreghi-Mohammadi M.,Matthews L.,Milne S.,Nickerson T.,Nguyen M.,Overton-Larty E.,Palmer S.A.,Pearce A.V.,Peck A.I.,Pelan S.,Phillimore B.,Porter K.,Rice C.M.,Rogosin A.,Ross M.T.,Sarafidou T.,Sehra H.K.,Shownkeen R.,Skuce C.D.,Smith M.,Standring L.,Sycamore N.,Tester J.,Thorpe A.,Torcasso W.,Tracey A.,Tromans A.,Tsolas J.,Wall M.,Walsh J.,Wang H.,Weinstock K.,West A.P.,Willey D.L.,Whitehead S.L.,Wilming L.,Wray P.W.,Young L.,Chen Y.,Lovering R.C.,Moschonas N.K.,Siebert R.,Fechtel K.,Bentley D.,Durbin R.M.,Hubbard T.,Doucette-Stamm L.,Beck S.,Smith D.R.,Rogers J.
The DNA sequence and comparative analysis of human chromosome 10.
Nature
429
375-381
2004
228672
The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).
Genome Res.
14
2121-2127
2004
228673
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
8
399-399
2007
228675
Trivedi C.M.,Luo Y.,Yin Z.,Zhang M.,Zhu W.,Wang T.,Floss T.,Goettlicher M.,Noppinger P.R.,Wurst W.,Ferrari V.A.,Abrams C.S.,Gruber P.J.,Epstein J.A.
Hdac2 regulates the cardiac hypertrophic response by modulating Gsk3 beta activity.
Nat. Med.
13
324-331
2007
228676
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
228677
Mayya V.,Lundgren D.H.,Hwang S.-I.,Rezaul K.,Wu L.,Eng J.K.,Rodionov V.,Han D.K.
Quantitative phosphoproteomic analysis of T cell receptor signaling reveals system-wide modulation of protein-protein interactions.
Sci. Signal.
2
0-0
2009
228678
Rigbolt K.T.,Prokhorova T.A.,Akimov V.,Henningsen J.,Johansen P.T.,Kratchmarova I.,Kassem M.,Mann M.,Olsen J.V.,Blagoev B.
System-wide temporal characterization of the proteome and phosphoproteome of human embryonic stem cell differentiation.
Sci. Signal.
4
0-0
2011
228679
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.
12
260-271
2013
228680
Bian Y.,Song C.,Cheng K.,Dong M.,Wang F.,Huang J.,Sun D.,Wang L.,Ye M.,Zou H.
An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome.
J. Proteomics
96
253-262
2014
228681
Kim H.S.,Li A.,Ahn S.,Song H.,Zhang W.
Inositol Polyphosphate-5-Phosphatase F (INPP5F) inhibits STAT3 activity and suppresses gliomas tumorigenicity.
Sci. Rep.
4
7330-7330
2014
228682
Nakatsu F.,Messa M.,Nandez R.,Czapla H.,Zou Y.,Strittmatter S.M.,De Camilli P.
Sac2/INPP5F is an inositol 4-phosphatase that functions in the endocytic pathway.
J. Cell Biol.
209
85-95
2015
228683
Zou Y.,Stagi M.,Wang X.,Yigitkanli K.,Siegel C.S.,Nakatsu F.,Cafferty W.B.,Strittmatter S.M.
Gene-silencing screen for mammalian axon regeneration identifies Inpp5f (Sac2) as an endogenous suppressor of repair after spinal cord injury.
J. Neurosci.
35
10429-10439
2015
228684
Hsu F.,Hu F.,Mao Y.
Spatiotemporal control of phosphatidylinositol 4-phosphate by Sac2 regulates endocytic recycling.
J. Cell Biol.
209
97-110
2015