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Dr. Juliet Daniel Lab

Molecular Biology Cancer Research

Publications

Publications displayed via BibBase

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  2022 (3)
Adherens junction proteins on the move-From the membrane to the nucleus in intestinal diseases. Lessey, L. R.; Robinson, S. C.; Chaudhary, R.; and Daniel, J. M. Front Cell Dev Biol, 10: 998373. October 2022.
Adherens junction proteins on the move-From the membrane to the nucleus in intestinal diseases [link]Paper   doi   link   bibtex   abstract   14 downloads  
Analysis of the genomic landscapes of Barbadian and Nigerian women with triple negative breast cancer. Hercules, S. M.; Liu, X.; Bassey-Archibong, B. B. I.; Skeete, D. H. A.; Smith Connell, S.; Daramola, A.; Banjo, A. A.; Ebughe, G.; Agan, T.; Ekanem, I.; Udosen, J.; Obiorah, C.; Ojule, A. C.; Misauno, M. A.; Dauda, A. M.; Egbujo, E. C.; Hercules, J. C.; Ansari, A.; Brain, I.; MacColl, C.; Xu, Y.; Jin, Y.; Chang, S.; Carpten, J. D.; Bédard, A.; Pond, G. R.; Blenman, K. R. M.; Manojlovic, Z.; and Daniel, J. M. Cancer Causes Control, 33(6): 831–841. June 2022.
Analysis of the genomic landscapes of Barbadian and Nigerian women with triple negative breast cancer [link]Paper   doi   link   bibtex   abstract   11 downloads  
Triple-negative breast cancer prevalence in Africa: a systematic review and meta-analysis. Hercules, S. M.; Alnajar, M.; Chen, C.; Mladjenovic, S. M.; Shipeolu, B. A.; Perkovic, O.; Pond, G. R.; Mbuagbaw, L.; Blenman, K. R.; and Daniel, J. M. BMJ Open, 12(5): e055735. May 2022.
Triple-negative breast cancer prevalence in Africa: a systematic review and meta-analysis [link]Paper   doi   link   bibtex   abstract   7 downloads  
  2020 (1)
High triple-negative breast cancer prevalence and aggressive prognostic factors in Barbadian women with breast cancer. Hercules, S. M.; Hercules, J. C.; Ansari, A.; Date, S. A. J.; Skeete, D. H. A.; Smith Connell, S. P.; Pond, G. R.; and Daniel, J. M. Cancer, 126(10): 2217–2224. May 2020.
High triple-negative breast cancer prevalence and aggressive prognostic factors in Barbadian women with breast cancer [link]Paper   doi   link   bibtex   abstract   38 downloads  
  2019 (2)
Kaiso-induced intestinal inflammation is preceded by diminished E-cadherin expression and intestinal integrity. Robinson, S. C.; Chaudhary, R.; Jiménez-Saiz, R.; Rayner, L. G. A.; Bayer, L.; Jordana, M.; and Daniel, J. M. PLOS ONE, 14(6): e0217220. June 2019.
Kaiso-induced intestinal inflammation is preceded by diminished E-cadherin expression and intestinal integrity [link]Paper   doi   link   bibtex   abstract   16 downloads  
Dancing from bottoms up – Roles of the POZ-ZF transcription factor Kaiso in Cancer. Pierre, C. C.; Hercules, S. M.; Yates, C.; and Daniel, J. M. Biochimica et Biophysica Acta (BBA) - Reviews on Cancer, 1871(1): 64–74. January 2019.
Dancing from bottoms up – Roles of the POZ-ZF transcription factor Kaiso in Cancer [link]Paper   doi   link   bibtex   abstract   11 downloads  
  2017 (5)
Loss of Kaiso expression in breast cancer cells prevents intra-vascular invasion in the lung and secondary metastasis. Kwiecien, J. M.; Bassey-Archibong, B. I.; Dabrowski, W.; Rayner, L. G.; Lucas, A. R.; and Daniel, J. M. PLOS ONE, 12(9): e0183883. September 2017.
Loss of Kaiso expression in breast cancer cells prevents intra-vascular invasion in the lung and secondary metastasis [link]Paper   doi   link   bibtex   abstract   4 downloads  
Kaiso differentially regulates components of the Notch signaling pathway in intestinal cells. Robinson, S. C.; Klobucar, K.; Pierre, C. C.; Ansari, A.; Zhenilo, S.; Prokhortchouk, E.; and Daniel, J. M. Cell Communication and Signaling, 15(1): 24. December 2017.
Kaiso differentially regulates components of the Notch signaling pathway in intestinal cells [link]Paper   doi   link   bibtex   abstract   2 downloads  
Kaiso depletion attenuates the growth and survival of triple negative breast cancer cells. Bassey-Archibong, B. I; Rayner, L. G A; Hercules, S. M; Aarts, C. W; Dvorkin-Gheva, A.; Bramson, J. L; Hassell, J. A; and Daniel, J. M Cell Death & Disease, 8(3): e2689–e2689. March 2017.
Kaiso depletion attenuates the growth and survival of triple negative breast cancer cells [link]Paper   doi   link   bibtex   abstract   3 downloads  
The POZ-ZF transcription factor Znf131 is implicated as a regulator of Kaiso-mediated biological processes. Robinson, S. C.; Donaldson-Kabwe, N. S.; Dvorkin-Gheva, A.; Longo, J.; He, L.; and Daniel, J. M. Biochemical and Biophysical Research Communications, 493(1): 416–421. November 2017.
The POZ-ZF transcription factor Znf131 is implicated as a regulator of Kaiso-mediated biological processes [link]Paper   doi   link   bibtex   abstract  
Kaiso is highly expressed in TNBC tissues of women of African ancestry compared to Caucasian women. Bassey-Archibong, B. I.; Hercules, S. M.; Rayner, L. G. A.; Skeete, D. H. A.; Smith Connell, S. P.; Brain, I.; Daramola, A.; Banjo, A. A. F.; Byun, J. S.; Gardner, K.; Dushoff, J.; and Daniel, J. M. Cancer Causes & Control, 28(11): 1295–1304. November 2017.
Kaiso is highly expressed in TNBC tissues of women of African ancestry compared to Caucasian women [link]Paper   doi   link   bibtex   abstract   4 downloads  
  2016 (2)
Kaiso depletion attenuates transforming growth factor-β signaling and metastatic activity of triple-negative breast cancer cells. Bassey-Archibong, B I; Kwiecien, J M; Milosavljevic, S B; Hallett, R M; Rayner, L G A; Erb, M J; Crawford-Brown, C J; Stephenson, K B; Bédard, P.; Hassell, J A; and Daniel, J M Oncogenesis, 5(3): e208–e208. March 2016.
Kaiso depletion attenuates transforming growth factor-β signaling and metastatic activity of triple-negative breast cancer cells [link]Paper   doi   link   bibtex   abstract   2 downloads  
Kaiso, a transcriptional repressor, promotes cell migration and invasion of prostate cancer cells through regulation of miR-31 expression. Wang, H.; Liu, W.; Black, S.; Turner, O.; Daniel, J. M.; Dean-Colomb, W.; He, Q. P.; Davis, M.; and Yates, C. Oncotarget, 7(5): 5677–89. February 2016.
Kaiso, a transcriptional repressor, promotes cell migration and invasion of prostate cancer cells through regulation of miR-31 expression [link]Paper   doi   link   bibtex   abstract   1 download  
  2015 (2)
Methylation-dependent regulation of hypoxia inducible factor-1 alpha gene expression by the transcription factor Kaiso. Pierre, C. C.; Longo, J.; Bassey-Archibong, B. I.; Hallett, R. M.; Milosavljevic, S.; Beatty, L.; Hassell, J. A.; and Daniel, J. M. Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms, 1849(12): 1432–1441. December 2015.
Methylation-dependent regulation of hypoxia inducible factor-1 alpha gene expression by the transcription factor Kaiso [link]Paper   doi   link   bibtex   abstract  
Kaiso overexpression promotes intestinal inflammation and potentiates intestinal tumorigenesis in ApcMin/+ mice. Pierre, C. C.; Longo, J.; Mavor, M.; Milosavljevic, S. B.; Chaudhary, R.; Gilbreath, E.; Yates, C.; and Daniel, J. M. Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease, 1852(9): 1846–1855. September 2015.
Kaiso overexpression promotes intestinal inflammation and potentiates intestinal tumorigenesis in ApcMin/+ mice [link]Paper   doi   link   bibtex   abstract   3 downloads  
  2013 (1)
The POZ-ZF Transcription Factor Kaiso (ZBTB33) Induces Inflammation and Progenitor Cell Differentiation in the Murine Intestine. Chaudhary, R.; Pierre, C. C.; Nanan, K.; Wojtal, D.; Morone, S.; Pinelli, C.; Wood, G. A.; Robine, S.; and Daniel, J. M. PLoS ONE, 8(9): e74160. September 2013.
The POZ-ZF Transcription Factor Kaiso (ZBTB33) Induces Inflammation and Progenitor Cell Differentiation in the Murine Intestine [link]Paper   doi   link   bibtex   abstract   1 download  
  2012 (1)
Kaiso Represses the Cell Cycle Gene cyclin D1 via Sequence-Specific and Methyl-CpG-Dependent Mechanisms. Donaldson, N. S.; Pierre, C. C.; Anstey, M. I.; Robinson, S. C.; Weerawardane, S. M.; and Daniel, J. M. PLoS ONE, 7(11): e50398. November 2012.
Kaiso Represses the Cell Cycle Gene cyclin D1 via Sequence-Specific and Methyl-CpG-Dependent Mechanisms [link]Paper   doi   link   bibtex   abstract   1 download  
  2010 (1)
Kaiso regulates Znf131-mediated transcriptional activation. Donaldson, N. S.; Nordgaard, C. L.; Pierre, C. C.; Kelly, K. F.; Robinson, S. C.; Swystun, L.; Henriquez, R.; Graham, M.; and Daniel, J. M. Experimental Cell Research, 316(10): 1692–1705. June 2010.
Kaiso regulates Znf131-mediated transcriptional activation [link]Paper   doi   link   bibtex   abstract   1 download  
  2007 (2)
Nuclear trafficking of the POZ-ZF protein Znf131. Donaldson, N. S.; Daniel, Y.; Kelly, K. F.; Graham, M.; and Daniel, J. M. Biochimica et Biophysica Acta (BBA) - Molecular Cell Research, 1773(4): 546–555. April 2007.
Nuclear trafficking of the POZ-ZF protein Znf131 [link]Paper   doi   link   bibtex   abstract  
Dancing in and out of the nucleus: p120ctn and the transcription factor Kaiso. Daniel, J. M. Biochimica et Biophysica Acta (BBA) - Molecular Cell Research, 1773(1): 59–68. January 2007.
Dancing in and out of the nucleus: p120ctn and the transcription factor Kaiso [link]Paper   doi   link   bibtex   abstract   4 downloads  
  2006 (1)
POZ for effect – POZ-ZF transcription factors in cancer and development. Kelly, K. F.; and Daniel, J. M. Trends in Cell Biology, 16(11): 578–587. November 2006.
POZ for effect – POZ-ZF transcription factors in cancer and development [link]Paper   doi   link   bibtex   abstract   1 download  
  2005 (1)
The catenin p120ctn inhibits Kaiso-mediated transcriptional repression of the β-catenin/TCF target gene matrilysin. Spring, C. M.; Kelly, K. F.; O'Kelly, I.; Graham, M.; Crawford, H. C.; and Daniel, J. M. Experimental Cell Research, 305(2): 253–265. May 2005.
The catenin p120ctn inhibits Kaiso-mediated transcriptional repression of the β-catenin/TCF target gene matrilysin [link]Paper   doi   link   bibtex   abstract   3 downloads  
  2004 (4)
Nuclear import of the BTB/POZ transcriptional regulator Kaiso. Kelly, K. F.; Otchere, A. A; Graham, M.; and Daniel, J. M Journal of Cell Science, 117(25): 6143–6152. December 2004.
Nuclear import of the BTB/POZ transcriptional regulator Kaiso [link]Paper   doi   link   bibtex   abstract   2 downloads  
Non-canonical Wnt signals are modulated by the Kaiso transcriptional repressor and p120-catenin. Kim, S. W.; Park, J.; Spring, C. M.; Sater, A. K.; Ji, H.; Otchere, A. A.; Daniel, J. M.; and McCrea, P. D. Nature Cell Biology, 6(12): 1212–1220. December 2004.
Non-canonical Wnt signals are modulated by the Kaiso transcriptional repressor and p120-catenin [link]Paper   doi   link   bibtex   abstract   2 downloads  
Regulation of the Rapsyn Promoter by Kaiso and δ-Catenin. Rodova, M.; Kelly, K. F.; VanSaun, M.; Daniel, J. M.; and Werle, M. J. Molecular and Cellular Biology, 24(16): 7188–7196. August 2004.
Regulation of the Rapsyn Promoter by Kaiso and δ-Catenin [link]Paper   doi   link   bibtex   abstract   2 downloads  
NLS-dependent nuclear localization of p120ctn is necessary to relieve Kaiso-mediated transcriptional repression. Kelly, K. F.; Spring, C. M; Otchere, A. A; and Daniel, J. M Journal of Cell Science, 117(13): 2675–2686. June 2004.
NLS-dependent nuclear localization of p120ctn is necessary to relieve Kaiso-mediated transcriptional repression [link]Paper   doi   link   bibtex   abstract   2 downloads  
  2002 (2)
The p120ctn-binding partner Kaiso is a bi-modal DNA-binding protein that recognizes both a sequence-specific consensus and methylated CpG dinucleotides. Daniel, J. M.; Spring, C. M; Crawford, H. C; Reynolds, A. B; and Baig, A. Nucleic Acids Research, 30(13): 2911–2919. July 2002.
The p120ctn-binding partner Kaiso is a bi-modal DNA-binding protein that recognizes both a sequence-specific consensus and methylated CpG dinucleotides [link]Paper   doi   link   bibtex   abstract   3 downloads  
Isolation and Characterization of XKaiso, a Transcriptional Repressor That Associates with the Catenin Xp120ctn in Xenopus laevis. Kim, S. W.; Fang, X.; Ji, H.; Paulson, A. F.; Daniel, J. M.; Ciesiolka, M.; van Roy, F.; and McCrea, P. D. Journal of Biological Chemistry, 277(10): 8202–8208. March 2002.
Isolation and Characterization of XKaiso, a Transcriptional Repressor That Associates with the Catenin Xp120ctn in Xenopus laevis [link]Paper   doi   link   bibtex   abstract   1 download  
  2001 (1)
Monoclonal Antibodies to Kaiso: A Novel Transcription Factor and p120ctn-Binding Protein. Daniel, J. M.; Ireton, R. C.; and Reynolds, A. B. Hybridoma, 20(3): 159–166. June 2001.
Monoclonal Antibodies to Kaiso: A Novel Transcription Factor and p120ctn-Binding Protein [link]Paper   doi   link   bibtex   abstract   2 downloads  
  2000 (1)
Selective Uncoupling of P120ctn from E-Cadherin Disrupts Strong Adhesion. Thoreson, M. A.; Anastasiadis, P. Z.; Daniel, J. M.; Ireton, R. C.; Wheelock, M. J.; Johnson, K. R.; Hummingbird, D. K.; and Reynolds, A. B. The Journal of Cell Biology, 148(1): 189–202. January 2000.
Selective Uncoupling of P120ctn from E-Cadherin Disrupts Strong Adhesion [link]Paper   doi   link   bibtex   abstract  
  1999 (1)
The catenin p120(ctn) interacts with Kaiso, a novel BTB/POZ domain zinc finger transcription factor. Daniel, J M; and Reynolds, A B Molecular and cellular biology, 19(5): 3614–23. May 1999.
The catenin p120(ctn) interacts with Kaiso, a novel BTB/POZ domain zinc finger transcription factor. [link]Paper   doi   link   bibtex   abstract   5 downloads  
  1997 (1)
Tyrosine phosphorylation and cadherin/catenin function. Daniel, J. M.; and Reynolds, A. B. BioEssays, 19(10): 883–891. October 1997.
Tyrosine phosphorylation and cadherin/catenin function [link]Paper   doi   link   bibtex   abstract   1 download  
  1995 (1)
The tyrosine kinase substrate p120cas binds directly to E-cadherin but not to the adenomatous polyposis coli protein or alpha-catenin. Daniel, J M; and Reynolds, A B Molecular and cellular biology, 15(9): 4819–24. September 1995.
The tyrosine kinase substrate p120cas binds directly to E-cadherin but not to the adenomatous polyposis coli protein or alpha-catenin. [link]Paper   doi   link   bibtex   abstract   2 downloads