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Results: 1 to 20 of 24

Cited In for PubMed (Select 18794111)


Kaiso mainly locates in the nucleus in vivo and binds to methylated, but not hydroxymethylated DNA.

Qin S, Zhang B, Tian W, Gu L, Lu Z, Deng D.

Chin J Cancer Res. 2015 Apr;27(2):148-55. doi: 10.3978/j.issn.1000-9604.2015.04.03.


KAISO, a critical regulator of p53-mediated transcription of CDKN1A and apoptotic genes.

Koh DI, Han D, Ryu H, Choi WI, Jeon BN, Kim MK, Kim Y, Kim JY, Parry L, Clarke AR, Reynolds AB, Hur MW.

Proc Natl Acad Sci U S A. 2014 Oct 21;111(42):15078-83. doi: 10.1073/pnas.1318780111. Epub 2014 Oct 6.


Nuclear localization of Kaiso promotes the poorly differentiated phenotype and EMT in infiltrating ductal carcinomas.

Jones J, Wang H, Karanam B, Theodore S, Dean-Colomb W, Welch DR, Grizzle W, Yates C.

Clin Exp Metastasis. 2014 Jun;31(5):497-510. doi: 10.1007/s10585-014-9644-7. Epub 2014 Feb 26.


The POZ-ZF transcription factor Kaiso (ZBTB33) induces inflammation and progenitor cell differentiation in the murine intestine.

Chaudhary R, Pierre CC, Nanan K, Wojtal D, Morone S, Pinelli C, Wood GA, Robine S, Daniel JM.

PLoS One. 2013 Sep 5;8(9):e74160. doi: 10.1371/journal.pone.0074160. eCollection 2013.


ZBTB33 binds unmethylated regions of the genome associated with actively expressed genes.

Blattler A, Yao L, Wang Y, Ye Z, Jin VX, Farnham PJ.

Epigenetics Chromatin. 2013 May 21;6(1):13. doi: 10.1186/1756-8935-6-13.


Kaiso directs the transcriptional corepressor MTG16 to the Kaiso binding site in target promoters.

Barrett CW, Smith JJ, Lu LC, Markham N, Stengel KR, Short SP, Zhang B, Hunt AA, Fingleton BM, Carnahan RH, Engel ME, Chen X, Beauchamp RD, Wilson KT, Hiebert SW, Reynolds AB, Williams CS.

PLoS One. 2012;7(12):e51205. doi: 10.1371/journal.pone.0051205. Epub 2012 Dec 12.


Kaiso represses the cell cycle gene cyclin D1 via sequence-specific and methyl-CpG-dependent mechanisms.

Donaldson NS, Pierre CC, Anstey MI, Robinson SC, Weerawardane SM, Daniel JM.

PLoS One. 2012;7(11):e50398. doi: 10.1371/journal.pone.0050398. Epub 2012 Nov 30.


Nuclear Kaiso indicates aggressive prostate cancers and promotes migration and invasiveness of prostate cancer cells.

Jones J, Wang H, Zhou J, Hardy S, Turner T, Austin D, He Q, Wells A, Grizzle WE, Yates C.

Am J Pathol. 2012 Nov;181(5):1836-46. doi: 10.1016/j.ajpath.2012.08.008. Epub 2012 Sep 10.


Molecular basis for recognition of methylated and specific DNA sequences by the zinc finger protein Kaiso.

Buck-Koehntop BA, Stanfield RL, Ekiert DC, Martinez-Yamout MA, Dyson HJ, Wilson IA, Wright PE.

Proc Natl Acad Sci U S A. 2012 Sep 18;109(38):15229-34. Epub 2012 Sep 4.


Leukocyte DNA methylation and colorectal cancer among male smokers.

Gao Y, Killian K, Zhang H, Yu K, Li QZ, Weinstein S, Virtamo J, Tucker M, Taylor P, Albanes D, Meltzer P, Caporaso N.

World J Gastrointest Oncol. 2012 Aug 15;4(8):193-201. doi: 10.4251/wjgo.v4.i8.193.


DNA methylation and its basic function.

Moore LD, Le T, Fan G.

Neuropsychopharmacology. 2013 Jan;38(1):23-38. doi: 10.1038/npp.2012.112. Epub 2012 Jul 11. Review.


Knock-down of Kaiso induces proliferation and blocks granulocytic differentiation in blast crisis of chronic myeloid leukemia.

Cofre J, Menezes JR, Pizzatti L, Abdelhay E.

Cancer Cell Int. 2012 Jun 18;12(1):28. doi: 10.1186/1475-2867-12-28.


Nuclear Kaiso expression is associated with high grade and triple-negative invasive breast cancer.

Vermeulen JF, van de Ven RA, Ercan C, van der Groep P, van der Wall E, Bult P, Christgen M, Lehmann U, Daniel J, van Diest PJ, Derksen PW.

PLoS One. 2012;7(5):e37864. doi: 10.1371/journal.pone.0037864. Epub 2012 May 25.


Kaiso uses all three zinc fingers and adjacent sequence motifs for high affinity binding to sequence-specific and methyl-CpG DNA targets.

Buck-Koehntop BA, Martinez-Yamout MA, Dyson HJ, Wright PE.

FEBS Lett. 2012 Mar 23;586(6):734-9. doi: 10.1016/j.febslet.2012.01.045. Epub 2012 Jan 30.


The Roles of the Methyl-CpG Binding Proteins in Cancer.

Parry L, Clarke AR.

Genes Cancer. 2011 Jun;2(6):618-30. doi: 10.1177/1947601911418499.


Advanced computational biology methods identify molecular switches for malignancy in an EGF mouse model of liver cancer.

Stegmaier P, Voss N, Meier T, Kel A, Wingender E, Borlak J.

PLoS One. 2011 Mar 28;6(3):e17738. doi: 10.1371/journal.pone.0017738.


The molecular evolution of the p120-catenin subfamily and its functional associations.

Carnahan RH, Rokas A, Gaucher EA, Reynolds AB.

PLoS One. 2010 Dec 31;5(12):e15747. doi: 10.1371/journal.pone.0015747.


p120-catenin is essential for maintenance of barrier function and intestinal homeostasis in mice.

Smalley-Freed WG, Efimov A, Burnett PE, Short SP, Davis MA, Gumucio DL, Washington MK, Coffey RJ, Reynolds AB.

J Clin Invest. 2010 Jun;120(6):1824-35. doi: 10.1172/JCI41414. Epub 2010 May 17.


DNA methylation profiling using HpaII tiny fragment enrichment by ligation-mediated PCR (HELP).

Suzuki M, Greally JM.

Methods. 2010 Nov;52(3):218-22. doi: 10.1016/j.ymeth.2010.04.013. Epub 2010 Apr 29. Review.


Insights into the role of DNA methylation in disease through the use of mouse models.

Conerly M, Grady WM.

Dis Model Mech. 2010 May-Jun;3(5-6):290-7. doi: 10.1242/dmm.004812.

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