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Other Publications

  • Jacinth Rajendra, Keshava K Datta, Sheikh Burhan Ud Din Farooqee, Rahul Thorat, Kiran Kumar, Nilesh Gardi, Ekjot Kaur, Jyothi Nair, Sameer Salunkhe, Ketaki Patkar, Sanket Desai, Jayant Sastri Goda, Aliasgar Moiyadi, Amit Dutt, Prasanna Venkatraman, Harsha Gowda, Shilpee Dutt. Enhanced proteasomal activity is essential for long term survival and recurrence of innately radiation resistant residual glioblastoma cells. Oncotarget, 2018.

  • Venkatraman P. Assembly and Beyond–The Structure and Functions of Chaperones of the Proteasome. Biomedical Research Journal, 2016.

  • Bhutani N, Piccirillo R, Hourez R, Venkatraman P, Goldberg AL. Cathepsins L and Z Are Critical in Degrading Polyglutamine-containing Proteins within Lysosomes. J Biol Chem. 2012; 287(21):17471-82.

 

  • Kavishwar Wagholikar, Prasanna Venkatraman, Sundararajan Vijayraghavan, Chandan Kumar-Sinha. Sum-Based Meta-Analytical Enrichment of Gene Expression Data to Identify Pathway Signatures of Cancers. Journal of Cancer Therapy, 2010

 

  • Prasanna Venkatraman, Satish Balakrishnan, Shashidhar Rao, Yogesh Hooda and Suyog Pol. A Sequence and Structure Based Method to Predict Putative Substrates, Functions and Regulatory Networks of Endo Proteases. PLoS One, 2009

 

  • Telles E, Hosing AS, Kundu ST, Venkatraman P, Dalal SN. A novel pocket in 14-3-3e is required to mediate specific complex formation with cdc25C and to inhibit cell cycle progression upon activation of checkpoint pathways. Exp Cell Res. 2009 Jan 30.

 

  • Venkatraman P et al., Fluorogenic probes for monitoring peptide binding to class II MHC proteins in living cells. Nature Chemical Biology, 2007.

 

  • Bhutani N, Venkatraman P, Goldberg AL. Puromycin-sensitive aminopeptidase is the major peptidase responsible for digesting polyglutamine sequences released by proteasomes during protein degradation. EMBO J. 2007, 26(5):1385-96.

 

  • Venkatraman P et al., Eukaryotic proteasomes cannot digest polyglutamine sequences and release them during degradation of polyglutamine-containing proteins. Mol. Cell, 2004, 14: 95-104.

 

  • Variath P et al., Effects of subunit occupancy on partitioning of an intermediate in thymidylate synthase mutants. Biochemistry, 2000, 39(10): 2429-35.

 

  • Variath P et al., Effect of amino acid substitutions at the subunit interface on the stability and aggregation properties of a dimeric protein: role of Arg 178 and Arg 218 at the Dimer interface of thymidylate synthase. Proteins, 1999, 34(3): 356-68.

 

  • Variath P et al., Synthetic interface peptides as inactivators of multimeric enzymes: inhibitory and conformational properties of three fragments from Lactobacillus casei thymidylate synthase. Biochemistry, 1998, 37: 6883-6893.

  • Invited Article
    Specificity in the Interaction of Natural Products with their Target Proteins- A Biochemical and Structural Insight, Mini-Reviews in Medicinal Chemistry, 2010, 10, 000-000 1 -[IN PRESS]

 

  • Book Review (Invited)
    Annual Review of Pharmacology and Toxicology, Vol: 46, 2006 edited by Cho AK
    Current Science, 2007, 92(3): 388-389

 

  • Invited Article
    Proteasomes - Hidden Mysteries and Obvious Complexities, Indian Association For Cancer Research Newsletter, 2006, 22(2-3): 7-13.

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