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Subhrangsu S. Mandal |
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Biochemistry
Assistant Professor B.Sc. (Honors) Midnapore College, India (1989)M.Sc. (First Class First) Kalyani University, India (1992) Ph.D. Indian Institute of Science (1998) Postdoctoral Fellow: |
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Phone: 817-272-3804 FAX: 817-272-3808 E-mail: smandal@uta.edu Office: 349 CPB Personal Page |
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Research interests: Histone modification, Gene regulation, Estrogen signaling, Epigenetics and Cancer The transcription (the process of copying DNA into RNA) and gene expression are highly complex and tightly regulated process that maintains the normal healthy status of cells. The goal of my laboratory is to understand the molecular mechanism by which genes are transcribed and regulated in healthy human cells and how genes are miss-regulated in human diseases such as in cancer and cardiovascular disease? Post-translational modifications of nuclear
histone proteins are critical in gene activation and silencing. We are
interested in understanding the functions of a set of histone
methyl-transferases (HMTs) that specifically methylate histone H3 at
lysine 4 (H3K4) and play critical roles in gene activation and
epigenetics. Human encodes
several H3K4 specific HMTs such as MLL1 (Mixed Lineage Leukemia 1), MLL2,
MLL3, etc. MLLs are often rearranged in myeloid and lymphoid leukemias in
both children and in adults. Our recent studies demonstrated that MLLs
play critical roles in Hox gene expression, cell cycle regulation and are
required for survival and maintenance of cancer cells. We also found that
MLLs are essential for trans-activation of estrogen responsive genes
indicating their critical roles in hormone signaling.
Using various biochemical techniques, cell cultures and mouse models, we aim to understand how MLL family of histone methylases regulates gene expression, hormone signaling and cancer in human. Specifically,
we study: Recent Studies from our laboratory
Selected
Publications:
Ansari K.I., Kasiri S., Hussain, I. Reddy B.M and Mandal
S.S. "MLL histone
methylases play critical role in regulation HDLR-SRB1 and blood
cholesterol," submitted 2009. Ansari K.I., Grant, J.D., Kasiri S., Woldemariam G.A.,
Shrestha B., and Mandal SS. "Mn(III)-salen induce tumor cell
apoptosis in MCF7 cells," J.
Inorg. Biochem. 2009, in press. Mishra B.P., Ansari K.I. and
Mandal S.S. "Dynamic association of MLL1, H3K4 trimethylation with
chromatin and Hox gene expression during cell cycle," FEBS J.
2009, in press. Ansari K.I., Grant J.D.,
Woldemariam G.A. Kasiri S., and Mandal SS. "Iron(III)-salen
complexes with less DNA cleavage activity exhibit more efficient
apoptosis in MCF7 cells," Org. Biomol. Chem. 2009, 7,
926-32. Ansari K.I., Mishra, B.M., and Mandal S.S. "MLL
histone methylases in gene expression, hormone signaling and cell
cycle," Review Front.
Biosci. 2009, 14, 3483-95. Osugi M.E., Zanoni M.V.B.,
Chenthamarakshan C.R., Tacconi N.R., Woldemariam
G.A., Mandal S.S. and Rajeshwar K.
"Toxicity assessment and degradation of disperse azo dyes by
photoelectrocatalytic oxidation on Ti/TiO2 nano-tubular array
electrodes," J. Adv. Oxid. Technol. 2008,
11,
425-43. Ansari K.I., Mishra B.M., and Mandal S.S. "Human CpG
Binding Protein Interacts with MLL1,
MLL2 and hSet1 and Regulates Hox Gene Expression," Biochim.
Biophys. Acta 2008,
1779, 66-73. Woldemariam G.A. and Mandal S.S. "Iron(III)-salen
Damages DNA and Induces Apoptosis in
Human Cell via Mitochondrial Pathway," J. Inorg. Biochem.
2008, 102(4),
740-7. Mazloom A.R., Basu K., Mandal
S.S., Sorourian M., Sajal K., and Das S.K. "DNA Sites Buried in
Nucleosome Become Accessible at Room Temperature: A
Discrete-Event-Simulation Based Modeling Approach," ISBRA 2007,
601-614. Pavri R., Zhu B., Li G., Trojer
P., Mandal S.S, Shilatifard A., and Reinberg D. "Histone H2B
monoubiquitination functions cooperatively with FACT to regulate
elongation by RNA polymerase, II," Cell 2006, 125(4),
703-17. Zhu B., Zheng Y., Pham AD.,
Mandal S.S., Erdjument-Bromade H., Tempst P., and Reinberg D.
"Mono-Ubiquitination of Human Histone H2B: The Factors Involved and
their Roles in HOX Gene Regulation," Mol. Cell. 2005,
20, 601-11. Zhu B, Mandal S.S, Pham A.D,
Zheng Y, Erdjument-Bromage H, Batra SK, Tempst P, Reinberg D. "The
human PAF complex coordinates transcription with events downstream of
RNA synthesis," Genes Dev. 2005, 19, 1668-73. Mandal S.S., Chun C., Wada T., Handa H., Shatkin A. and
Reinberg D. "Functional interactions between mRNA capping enzyme
and factors that positively and negatively regulate transcription during
promoter escape," Proc. Natl. Acad. Sci. (USA) 2004,
101, 7572-77. Mandal S. S., Sims R. J. and Reinberg D.
Review article on "Recent highlights in RNAP II mediated
transcription," Curr. Opin. Cell Biol. 2004, 16,
263-71. Endou M., Hasegawa J., Watanabe H., Kim D., Inukai N.,
Narita T., Shima D., Yamada T., Furuya A., Sato H., Hasegawa M.,
Yamaguchi Y., Mandal S. S., Reinberg D., Wada T. and Handa H.
"Human SPT6 stimulates transcription elongation by RNA polymerase
II in vitro," Mol. Cell. Biol. 2004, 24,
3324-36. Mandal S. S., Cho H., Kim S., Cabane K. and Reinberg D.
"FCP1, a phosphatase specific for the heptapeptide repeat of the
largest subunit of RNA polymerase II, stimulates transcription
elongation," Mol. Cell. Biol. 2002, 22,
7543-52. Mandal S. S., Silva E. F. and Reha-Krantz, L. J.
"Using 2-aminopurine fluorescence to detect base unstacking in the
template strand during nucleotide incorporation by the bacteriophage T4
DNA polymerase," Biochemistry 2002, 41(13),
4399-4406. Bhattacharya S. and Mandal
SS. "Evidence of interlipidic ion pairing in anion induced DNA
release from the cationic amphiphile-DNA complexes. Mechanistic
implication in transfection," Biochemistry 1998, 37, 7764-7777. Mandal S.S.,
Varshney U. and Bhattacharya S. "Role of central metal-ion and
ligand charge in the DNA binding and modification by metallo-Salen
complexes," Biocojugate Chem. 1997, 8,
798-812.
Research
Funding: Texas
Advanced Research Program, American
Heart Association, National
Science Foundation |
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Department of Chemistry and Biochemistry |
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