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Items: 1 to 20 of 27

1.

Human dCTP pyrophosphatase 1 promotes breast cancer cell growth and stemness through the modulation on 5-methyl-dCTP metabolism and global hypomethylation.

Song FF, Xia LL, Ji P, Tang YB, Huang ZM, Zhu L, Zhang J, Wang JQ, Zhao GP, Ge HL, Zhang Y, Wang Y.

Oncogenesis. 2015 Jun 15;4:e159. doi: 10.1038/oncsis.2015.10.

2.

dCTP pyrophosphohydrase exhibits nucleic accumulation in multiple carcinomas.

Zhang Y, Ye WY, Wang JQ, Wang SJ, Ji P, Zhou GY, Zhao GP, Ge HL, Wang Y.

Eur J Histochem. 2013 Sep 25;57(3):e29. doi: 10.4081/ejh.2013.e29.

3.

Triptolide directly inhibits dCTP pyrophosphatase.

Corson TW, Cavga H, Aberle N, Crews CM.

Chembiochem. 2011 Jul 25;12(11):1767-73. doi: 10.1002/cbic.201100007. Epub 2011 Jun 10.

4.

DCTPP1 attenuates the sensitivity of human gastric cancer cells to 5-fluorouracil by up-regulating MDR1 expression epigenetically.

Xia LL, Tang YB, Song FF, Xu L, Ji P, Wang SJ, Zhu JM, Zhang Y, Zhao GP, Wang Y, Liu TT.

Oncotarget. 2016 Oct 18;7(42):68623-68637. doi: 10.18632/oncotarget.11864.

5.

The NTP pyrophosphatase DCTPP1 contributes to the homoeostasis and cleansing of the dNTP pool in human cells.

Requena CE, Pérez-Moreno G, Ruiz-Pérez LM, Vidal AE, González-Pacanowska D.

Biochem J. 2014 Apr 1;459(1):171-80. doi: 10.1042/BJ20130894.

PMID:
24467396
6.

Dimeric dUTPases, HisE, and MazG belong to a new superfamily of all-alpha NTP pyrophosphohydrolases with potential "house-cleaning" functions.

Moroz OV, Murzin AG, Makarova KS, Koonin EV, Wilson KS, Galperin MY.

J Mol Biol. 2005 Mar 25;347(2):243-55. Epub 2005 Jan 27.

PMID:
15740738
7.

Mammalian BTBD12/SLX4 assembles a Holliday junction resolvase and is required for DNA repair.

Svendsen JM, Smogorzewska A, Sowa ME, O'Connell BC, Gygi SP, Elledge SJ, Harper JW.

Cell. 2009 Jul 10;138(1):63-77. doi: 10.1016/j.cell.2009.06.030.

8.

DNA damage shifts circadian clock time via Hausp-dependent Cry1 stabilization.

Papp SJ, Huber AL, Jordan SD, Kriebs A, Nguyen M, Moresco JJ, Yates JR, Lamia KA.

Elife. 2015 Mar 10;4. doi: 10.7554/eLife.04883.

9.

Characterizing WW domain interactions of tumor suppressor WWOX reveals its association with multiprotein networks.

Abu-Odeh M, Bar-Mag T, Huang H, Kim T, Salah Z, Abdeen SK, Sudol M, Reichmann D, Sidhu S, Kim PM, Aqeilan RI.

J Biol Chem. 2014 Mar 28;289(13):8865-80. doi: 10.1074/jbc.M113.506790. Epub 2014 Feb 18.

10.

A Map of Human Mitochondrial Protein Interactions Linked to Neurodegeneration Reveals New Mechanisms of Redox Homeostasis and NF-κB Signaling.

Malty RH, Aoki H, Kumar A, Phanse S, Amin S, Zhang Q, Minic Z, Goebels F, Musso G, Wu Z, Abou-Tok H, Meyer M, Deineko V, Kassir S, Sidhu V, Jessulat M, Scott NE, Xiong X, Vlasblom J, Prasad B, Foster LJ, Alberio T, Garavaglia B, Yu H, Bader GD, Nakamura K, Parkinson J, Babu M.

Cell Syst. 2017 Dec 27;5(6):564-577.e12. doi: 10.1016/j.cels.2017.10.010. Epub 2017 Nov 8.

PMID:
29128334
11.

Defining the Protein-Protein Interaction Network of the Human Protein Tyrosine Phosphatase Family.

Li X, Tran KM, Aziz KE, Sorokin AV, Chen J, Wang W.

Mol Cell Proteomics. 2016 Sep;15(9):3030-44. doi: 10.1074/mcp.M116.060277. Epub 2016 Jul 18.

12.

An inter-species protein-protein interaction network across vast evolutionary distance.

Zhong Q, Pevzner SJ, Hao T, Wang Y, Mosca R, Menche J, Taipale M, Taşan M, Fan C, Yang X, Haley P, Murray RR, Mer F, Gebreab F, Tam S, MacWilliams A, Dricot A, Reichert P, Santhanam B, Ghamsari L, Calderwood MA, Rolland T, Charloteaux B, Lindquist S, Barabási AL, Hill DE, Aloy P, Cusick ME, Xia Y, Roth FP, Vidal M.

Mol Syst Biol. 2016 Apr 22;12(4):865. doi: 10.15252/msb.20156484.

13.

Phenotypic and Interaction Profiling of the Human Phosphatases Identifies Diverse Mitotic Regulators.

St-Denis N, Gupta GD, Lin ZY, Gonzalez-Badillo B, Veri AO, Knight JDR, Rajendran D, Couzens AL, Currie KW, Tkach JM, Cheung SWT, Pelletier L, Gingras AC.

Cell Rep. 2016 Nov 22;17(9):2488-2501. doi: 10.1016/j.celrep.2016.10.078.

14.

An organelle-specific protein landscape identifies novel diseases and molecular mechanisms.

Boldt K, van Reeuwijk J, Lu Q, Koutroumpas K, Nguyen TM, Texier Y, van Beersum SE, Horn N, Willer JR, Mans DA, Dougherty G, Lamers IJ, Coene KL, Arts HH, Betts MJ, Beyer T, Bolat E, Gloeckner CJ, Haidari K, Hetterschijt L, Iaconis D, Jenkins D, Klose F, Knapp B, Latour B, Letteboer SJ, Marcelis CL, Mitic D, Morleo M, Oud MM, Riemersma M, Rix S, Terhal PA, Toedt G, van Dam TJ, de Vrieze E, Wissinger Y, Wu KM, Apic G, Beales PL, Blacque OE, Gibson TJ, Huynen MA, Katsanis N, Kremer H, Omran H, van Wijk E, Wolfrum U, Kepes F, Davis EE, Franco B, Giles RH, Ueffing M, Russell RB, Roepman R; UK10K Rare Diseases Group.

Nat Commun. 2016 May 13;7:11491. doi: 10.1038/ncomms11491.

15.

A high-throughput approach for measuring temporal changes in the interactome.

Kristensen AR, Gsponer J, Foster LJ.

Nat Methods. 2012 Sep;9(9):907-9. doi: 10.1038/nmeth.2131. Epub 2012 Aug 5.

16.

Towards a proteome-scale map of the human protein-protein interaction network.

Rual JF, Venkatesan K, Hao T, Hirozane-Kishikawa T, Dricot A, Li N, Berriz GF, Gibbons FD, Dreze M, Ayivi-Guedehoussou N, Klitgord N, Simon C, Boxem M, Milstein S, Rosenberg J, Goldberg DS, Zhang LV, Wong SL, Franklin G, Li S, Albala JS, Lim J, Fraughton C, Llamosas E, Cevik S, Bex C, Lamesch P, Sikorski RS, Vandenhaute J, Zoghbi HY, Smolyar A, Bosak S, Sequerra R, Doucette-Stamm L, Cusick ME, Hill DE, Roth FP, Vidal M.

Nature. 2005 Oct 20;437(7062):1173-8. Epub 2005 Sep 28.

PMID:
16189514
17.

Dynamics of cullin-RING ubiquitin ligase network revealed by systematic quantitative proteomics.

Bennett EJ, Rush J, Gygi SP, Harper JW.

Cell. 2010 Dec 10;143(6):951-65. doi: 10.1016/j.cell.2010.11.017.

18.

A human protein-protein interaction network: a resource for annotating the proteome.

Stelzl U, Worm U, Lalowski M, Haenig C, Brembeck FH, Goehler H, Stroedicke M, Zenkner M, Schoenherr A, Koeppen S, Timm J, Mintzlaff S, Abraham C, Bock N, Kietzmann S, Goedde A, Toksöz E, Droege A, Krobitsch S, Korn B, Birchmeier W, Lehrach H, Wanker EE.

Cell. 2005 Sep 23;122(6):957-68.

19.

Interactions of pathological hallmark proteins: tubulin polymerization promoting protein/p25, beta-amyloid, and alpha-synuclein.

Oláh J, Vincze O, Virók D, Simon D, Bozsó Z, Tõkési N, Horváth I, Hlavanda E, Kovács J, Magyar A, Szũcs M, Orosz F, Penke B, Ovádi J.

J Biol Chem. 2011 Sep 30;286(39):34088-100. doi: 10.1074/jbc.M111.243907. Epub 2011 Aug 8.

20.

Insights into RNA biology from an atlas of mammalian mRNA-binding proteins.

Castello A, Fischer B, Eichelbaum K, Horos R, Beckmann BM, Strein C, Davey NE, Humphreys DT, Preiss T, Steinmetz LM, Krijgsveld J, Hentze MW.

Cell. 2012 Jun 8;149(6):1393-406. doi: 10.1016/j.cell.2012.04.031. Epub 2012 May 31.

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