Browsing by Author Funnell, Alister

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Showing results 1 to 14 of 14
Issue DateTitleAuthor(s)Citation
2014Adipokines and insulin action: A sensitive issueBell-Anderson, Kim; Crossley, Merlin Paul; Funnell, Alister; Knights, Alexander; Pearson, Richard; Molecular BioscienceAdipokines and insulin action: A sensitive issue, Adipocyte (Austin), vol.3, 2, 2014,pp 88-96
2012The CACCC-Binding Protein KLF3/BKLF Represses a Subset of KLF1/EKLF Target Genes and Is Required for Proper Erythroid Maturation In VivoBell-Anderson, Kim; Fraser, Stuart; Artuz, Crisbel; Burdach, Jon; Crossley, Merlin Paul; Funnell, Alister; Hung, Tzong-Tyng; Koh, Philip; Mak, Ka Sin; Norton, Laura; Orkin, Stuart H; Pearson, Richard; Perdomo, Jose; Perkins, Andrew C; Power, Carl; Twine, Natalie; Wilkins, Marc Ronald; Molecular Bioscience; PhysiologyThe CACCC-Binding Protein KLF3/BKLF Represses a Subset of KLF1/EKLF Target Genes and Is Required for Proper Erythroid Maturation In Vivo, Molecular and Cellular Biology, vol.32, 16, 2012,pp 3281-3292
2017Direct competition between DNA binding factors highlights the role of Kruppel-like Factor 1 in the erythroid/megakaryocyte switchCrossley, Paul (Merlin); Funnell, Alister; Hallal, Samantha; Pearson, Richard; Norton, L; Quinlan, Kate; Stout, E; School of Molecular Bioscience (SMB); School of Molecular Bioscience (SMB); School of Molecular Bioscience (SMB); School of Molecular Bioscience (SMB)Direct competition between DNA binding factors highlights the role of Kruppel-like Factor 1 in the erythroid/megakaryocyte switch, Scientific Reports, vol.7, 1, 2017,pp 1-10
2015Editing the genome to introduce a beneficial naturally occurring mutation associated with increased fetal globinLester, Krystal; Matthews, Jacqueline; Wilkinson-White, Lorna; Crossley, Merlin Paul; Funnell, Alister; Norton, Laura; Pearson, Richard; Porteus, Matthew; Quinlan, Kate; Vadolas, Jim; Wienert, Beeke; Molecular Bioscience; Molecular Bioscience; Molecular BioscienceEditing the genome to introduce a beneficial naturally occurring mutation associated with increased fetal globin, Nature Communications, vol.6, 7085, 2015,pp 1-8
2007Erythroid Krüppel-like factor directly activates the basic Krüppel-like factor gene in erythroid cells.Crossley, Paul (Merlin); Funnell, Alister; Maloney, Christopher; Thompson, Lucinda; Keys, Janelle; Perkins, Andrew C; Tallack, Michael; Molecular & Microbial Bioscien; Molecular & Microbial Bioscien; Institute for Obesity Nutrition and Exercise; MedicineErythroid Krüppel-like factor directly activates the basic Krüppel-like factor gene in erythroid cells., Molecular and Cellular Biology, vol.27,(7),2007,pp 2777-2790
2013Generation of mice deficient in both KLF3/BKLF and KLF8 reveals a genetic interaction and a role for these factors in embryonic globin gene silencingBell-Anderson, Kim; Pelka, Gregory; Power, Melinda; Radziewic, Tania; Tam, Patrick; Crossley, Merlin Paul; Fraser, Stuart T.; Funnell, Alister; Mak, Ka Sin; Norton, Laura; Pearson, Richard; Perkins, Andrew C; Twine, Natalie; Wilkins, Marc Ronald; Molecular Bioscience; Children's Hospital Westmead: Childrens Medical Research Ins; Children's Hospital Westmead: Childrens Medical Research Ins; Children's Hospital Westmead: Childrens Medical Research Ins; Children's Hospital Westmead: Childrens Medical Research InsGeneration of mice deficient in both KLF3/BKLF and KLF8 reveals a genetic interaction and a role for these factors in embryonic globin gene silencing, Molecular and Cellular Biology, vol.33, 15, 2013,pp 2976-2987
2012Homo- and heterodimerization in transcriptional regulationCrossley, Paul (Merlin); Funnell, Alister; Molecular Bioscience; Molecular BioscienceHomo- and heterodimerization in transcriptional regulation in Protein Dimerization and Oligomerization in Biology, Springer Science + Business Media, 2012, pp. 105-121
2010Introducing Undergraduate Students to Real-Time PCRFunnell, Alister; Hancock, Dale; Jack, Briony; Johnston, Jill; School of Molecular Bioscience; School of Molecular Bioscience; School of Molecular Bioscience; School of Molecular BioscienceIntroducing Undergraduate Students to Real-Time PCR, Biochemistry and Molecular Biology Education, vol.38, 5,pp 309-316
2016Kruppel-like Factor 3 (KLF3/BKLF) Is Required for Widespread Repression of the Inflammatory Modulator Galectin-3 (Lgals3)Bell-Anderson, Kim; Jusoh, Hanapi; Crossley, Merlin Paul; Funnell, Alister; Knights, Alexander; Norton, Laura; Pearson, Richard; Quinlan, Kate; Yik, Jinfen; Molecular Bioscience; School of Life and Environmental Sciences (SOLES)Kruppel-like Factor 3 (KLF3/BKLF) Is Required for Widespread Repression of the Inflammatory Modulator Galectin-3 (Lgals3), The Journal of Biological Chemistry, vol.291, 31, 2016,pp 16048-16058
2013Loss of Kruppel-Like Factor 3 (KLF3/BKLF) Leads to Upregulation of the Insulin-Sensitizing Factor Adipolin (FAM132A/CTRP12/C1qdc2)Bell-Anderson, Kim; Hoy, Andrew; Jusoh, Hanapi; Nicholas, Hannah; Salis, Amanda Jane; Scully, Tiffany; Williams, Helen; Burdach, Jon; Crossley, Merlin Paul; Funnell, Alister; Knights, Alexander; Lim, Wooi; Mak, Ka Sin; Pearson, Richard; Turner, Nigel; Molecular Bioscience; School of Medical Sciences: Physiology; Not known; Molecular Bioscience; Boden Institute; Molecular Bioscience; Western Clinical School: SurgeryLoss of Kruppel-Like Factor 3 (KLF3/BKLF) Leads to Upregulation of the Insulin-Sensitizing Factor Adipolin (FAM132A/CTRP12/C1qdc2), Diabetes, vol.62, 8, 2013,pp 2728-2737
2008A network of Kruppel-like Factors (Klfs): Klf8 is repressed by Klf3 and activated by Klf1 in vivoCrossley, Paul (Merlin); Eaton, Sally; Funnell, Alister; Nicholas, Hannah; Pearson, Richard; Sue, Nancy; Molecular & Microbial Bioscien; Molecular & Microbial Bioscien; Molecular & Microbial Bioscien; Molecular & Microbial Bioscien; Molecular & Microbial Bioscien; Molecular & Microbial BioscienA network of Kruppel-like Factors (Klfs): Klf8 is repressed by Klf3 and activated by Klf1 in vivo, Journal of Biological Chemistry, vol.283,(40),2008,pp 26937-26947
2015Phosphorylation of Krüppel-like factor 3 (KLF3/BKLF) and C-terminal binding protein 2 (CtBP2) by homeodomain-interacting protein kinase 2 (HIPK2) modulates KLF3 DNA binding and activity.Cordwell, Stuart; Crossley, Paul (Merlin); Kwok, Alister; Lee, Ming Min; Lee, Stella Hoi Yi; Nicholas, Hannah; Tan, Yee Mun; Dewi, Vitri; Funnell, Alister; Isono, Kyo-ichi; Knights, Alexander; Mak, Ka Sin; Pearson, Richard; Quinlan, Kate; Wienert, Beeke; Molecular Bioscience; Molecular Bioscience; Molecular Bioscience; School of Medical Sciences: Biomedical Sciences; Molecular Bioscience; Molecular Bioscience; Western Clinical School: Medicine (Westmead)Phosphorylation of Krüppel-like factor 3 (KLF3/BKLF) and C-terminal binding protein 2 (CtBP2) by homeodomain-interacting protein kinase 2 (HIPK2) modulates KLF3 DNA binding and activity., The Journal of Biological Chemistry, vol.290, 13, 2015,pp 8591-8605
2014Regions outside the DNA-binding domain are critical for proper in vivo specificity of an archetypal zinc finger transcription factorTan, Lit-Yeen; Artuz, Crisbel; Burdach, Jon; Crossley, Merlin Paul; Funnell, Alister; Lim, Wooi; Mak, Ka Sin; Pearson, Richard; Wienert, Beeke; Molecular BioscienceRegions outside the DNA-binding domain are critical for proper in vivo specificity of an archetypal zinc finger transcription factor, Nucleic Acids Research, vol.42, 1, 2014,pp 276-289
2008Targeted disruption of the Basic Kruppel-like Factor (Klf3) gene reveals a role in adipogenesisBao, Bob Shi San; Bell-Anderson, Kim; Crossley, Paul (Merlin); Czolij, Robert; Denyer, Gareth; Eaton, Sally; Funnell, Alister; Jack, Briony; Pearson, Richard; Sue, Nancy; Turner, Jeremy; Fujiwara, Yuko; Molero-Navajas, Juan Carlos; Orkin, Stuart H; Perkins, Andrew C; School of Medical Sciences: Pathology; Molecular Bioscience; Molecular Bioscience; Molecular Bioscience; Molecular Bioscience; Molecular Bioscience; Molecular Bioscience; Molecular Bioscience; Molecular Bioscience; Children's Hospital Westmead: Childrens Medical Research Ins; Molecular BioscienceTargeted disruption of the Basic Kruppel-like Factor (Klf3) gene reveals a role in adipogenesis, Molecular and Cellular Biology, vol.28, 12, 2008,pp 3967-3978