Asim Dasgupta, Ph.D.

Professor Emeritus

310-206-8649

250 C BSRB


Affiliations
Professor, Microbiology, Immunology & Molecular Genetics

Research Interests

 

Biography
Asim Dasgupta is a virologist and molecular biologist who has served on the UCLA School of Medicine faculty since he joined the Department of Microbiology, Immunology and Molecular Genetics in 1981. He became a full professor in 1989 and has served as Graduate advisor for the department from 1984 to 1995. He also served as the Vice-Chairman of the department from 1992-1995. Dr. Dasgupta earned his B.S. in Chemistry and M.S. Biochemistry from Calcutta University, India, followed by a Ph.D. degree in Chemistry/Biochemistry from the University of Nebraska-Lincoln. He was a postdoctoral fellow at the Massachusetts Institutes of Technology, where he worked on RNA virus replication in the laboratory of Dr. David Baltimore. Dr. Dasgupta received the prestigious American Cancer Society Faculty Research award as well as the NIH Career Development Award. His laboratory research centers on RNA virus replication as well as transcriptional and translational control in cells infected with mammalian RNA viruses such as poliovirus, rhinovirus and hepatitis C virus (HCV). In 1994, Dr. Dasgupta’s laboratory discovered a natural antiviral molecule from the yeast S. cerevisiae, which was shown to specifically block internal ribosome entry site (IRES)-mediated translation of viral RNAs. Currently a major focus of his laboratory has been to design molecules that specifically interfere with HCV genome translation and replication.

Publications

Banerjee R, Weidman MK, Navaro S, Comai L, Dasgupta A   Modifications of both the selectivity factor (SL-1) and upstream binding factor (UBF) contribute to poliovirus-mediated shut-off host cell RNA polymerase I transcription, Virology, 2005; 86: 2315-2322.
Kundu P, Raychaudhuri S, Tsai W, Dasgupta A   RNA polymerase II transcription shut-off by poliovirus 3C protease involves cleavage of the TATA binding protein at an alternative site: incomplete transcription shut-off interferes with efficient viral replication, J. Virology, 2005; 79: 9702-9713.
Jhaveri R, Kundu P, Shapiro AM, Venkatesan A, Dasgupta A   Effect of heptitis C virus core protein on cellular gene expression: specific inhibition of cyclooxygenase 2 The Journal of infectious diseases. , 2005; 191(9): 1498-506.
Jhaveri R, Kundu P, Shapiro AM, Venkatesan A, Dasgupta A   Effect of heptitis C virus core protein on cellular gene expression: specific inhibition of cyclooxygenase 2 The Journal of infectious diseases. , 2005; 191(9): 1498-506.
Banerjee R, Weidman MK, Echeverri A, Kundu P, Dasgupta A   Regulation of poliovirus 3C protease by the 2C polypeptide Journal of virology. , 2004; 78(17): 9243-56.
Dasgupta A, Das S, Izumi R, Barat B   Targeting internal ribosome entry site-mediated translation to block hepatitis C and other RNA viruses, FEMS Microbiology Letters, 2004; 234: 189-199.
Dasgupta A   Targetting TFIIH to inhibit host cell transcription by Rift Valley Fever Virus, Molecular Cell, 2004; 13: 456-458.
Dasgupta A, Das S, Izumi R, Venkatesan A, Barat B   Targeting internal ribosome entry site (IRES)-mediated translation to block hepatitis C and other RNA viruses FEMS microbiology letters. , 2004; 234(2): 189-99.
Sharma R, Raychaudhuri S, Dasgupta A   Nuclear entry of poliovirus protease-polymerase precursor 3CD: implications for host cell transcription shut-off Virology. , 2004; 320(2): 195-205.
Dasgupta A   Targeting TFIIH to inhibit host cell transcription by Rift Valley Fever Virus Molecular cell. , 2004; 13(4): 456-8.
Weidman MK, Sharma R, Raychaudhuri S, Kundu P, Tsai W, Dasgupta A   The interaction of cytoplasmic RNA viruses with the nucleus Virus Res, 2003; 95(1-2): 75-85.
Dasgupta A, et al   Effect of picornavirus proteases on host cell transcription, In Picornaviruses (Eds. E. Wimmer and B. Semler), ASM press, 2002; 321-336.
Banerjee R, Dasgupta A   Interaction of picornavirus 2C polypeptide with the viral negative-strand RNA The Journal of general virology. , 2001; 82(Pt 11): 2621-7.
Izumi R, Valdez B, Banerjee R, Srivatava M, Dasgupta A   Nucleolin stimulates internal ribosome entry site-mediaed translation, Virus Research, 2001; Volume 76: 17-29.
Weidman K, Yalamanchili P, Ng B, Tsai W, Dasgupta A   Poliovirus 3C-mediated degradation of transcriptional activator p53 requires a cellular activity, Virology, 2001; Volume 291: 260-271.
Banerjee R, Dasgupta A   Specific interaction of hepatitis C virus protease/helicase NS3 with the 3’ends of viral plus and minus strand RNA, Journal of Virology, 2001; Volume 75: 1708-1721.
Venkatesan A, Dasgupta A   Novel fluorescence-based screen to identify small synthetic internal ribosome entry site elements Molecular and cellular biology. , 2001; 21(8): 2826-37.
Venkatesan A, Dasgupta A   Novel fluorescence-based screen to identify small synthetic internal ribosome entry site elements Molecular and cellular biology. , 2001; 21(8): 2826-37.
Banerjee R, Igo M, Izumi R, Datta U, Dasgupta A   In Vitro Replication of RNA Viruses, RNA viruses, 2000; Practical approach (Ed. Alan J. Cann): 141-178.
Das S, Ott M, Yamane A, Venkatesan A, Gupta S, Dasgupta A   Inhibition of internal entry site-mediated translation by a small yeast RNA : A novel strategy to block Hepatitis C virus protein synthesis, Frontiers in Bioscience, 1999; Vol 3, d1241-1252: .
Venkatesan A, Das A, Dasgupta A   Structure & function of a small RNA that selectively inhibits internal ribosome entry site-mediated translation, Nucl. Acid Res, 1999; Vol 27, No 2: 562-572.
Echeverri A, Banerjee R, Dasgupta A   Amino-terminal region of poliovirus 2C protein is sufficient for membrane binding Virus research. , 1998; 54(2): 217-23.
Yalamanchili P, Weidman K, Dasgupta A   Cleavage of transcriptional activator Oct-1 by poliovirus encoded protease 3Cpro Virology. , 1997; 239(1): 176-85.
Banerjee R, Echeverri A, Dasgupta A   Poliovirus-encoded 2C polypeptide specifically binds to the 3′-terminal sequences of viral negative-strand RNA Journal of virology. , 1997; 71(12): 9570-8.