All Stories

  1. Mechanism of farnesylated CAAX protein processing by the intramembrane protease Rce1

    Article • Nature, December 2013, Springer Science + Business Media

    Dr Kiran Kulkarni

  2. The Four Canonical TPR Subunits of Human APC/C Form Related Homo-Dimeric Structures and Stack in Parallel to Form a TPR Suprahelix

    Article • Journal of Molecular Biology, November 2013, Elsevier

    Dr Kiran Kulkarni

  3. Building a pseudo-atomic model of the anaphase-promoting complex

    Article • Acta Crystallographica Section D Biological Crystallography, October 2013, International Union of Crystallography

    Dr Kiran Kulkarni

  4. Structure of the mitotic checkpoint complex

    Article • Nature, March 2012, Springer Science + Business Media

    Dr Kiran Kulkarni

  5. The Structure of the 26S Proteasome Subunit Rpn2 Reveals Its PC Repeat Domain as a Closed Toroid of Two Concentric α-Helical Rings

    Article • Structure, March 2012, Elsevier

    Dr Kiran Kulkarni

  6. Mechanism of Isoprenylcysteine Carboxyl Methylation from the Crystal Structure of the Integral Membrane Methyltransferase ICMT

    Article • Molecular Cell, December 2011, Elsevier

    Dr Kiran Kulkarni

  7. Modification of the sugar specificity of a plant lectin: structural studies on a point mutant ofErythrina corallodendronlectin

    Article • Acta Crystallographica Section D Biological Crystallography, February 2011, International Union of Crystallography

    Dr Kiran Kulkarni

  8. The APC/C subunit Cdc16/Cut9 is a contiguous tetratricopeptide repeat superhelix with a homo-dimer interface similar to Cdc27

    Article • The EMBO Journal, October 2010, Springer Science + Business Media

    Dr Kiran Kulkarni

  9. Crystl structure of Basic Winged bean lectin in complex with Gal-alpha-1,4-Gal-Beta-Ethylene

    Article • July 2008, Protein Data Bank, Rutgers University

    Dr Kiran Kulkarni

  10. Structure and sugar-specificity of basic winged-bean lectin: structures of new disaccharide complexes and a comparative study with other known disaccharide complexes of the lectin

    Article • Acta Crystallographica Section D Biological Crystallography, June 2008, International Union of Crystallography

    Dr Kiran Kulkarni

  11. Generation of blood group specificity: New insights from structural studies on the complexes of A‐ and B‐reactive saccharides with basic winged bean agglutinin

    Article • Proteins Structure Function and Bioinformatics, May 2007, Wiley

    Dr Kiran Kulkarni

  12. Structural basis for the carbohydrate-specificity of basic winged-bean lectin and its differential affinity for Gal and GalNAc

    Article • Acta Crystallographica Section D Biological Crystallography, October 2006, International Union of Crystallography

    Dr Kiran Kulkarni

  13. Corrigendum to: “Structural basis for the specificity of basic winged bean lectin for the Tn‐antigen: A crystallographic, thermodynamic and modelling study” [FEBS Lett. 579 (2005) 6775–6780]

    Article • FEBS Letters, March 2006, Wiley

    Dr Kiran Kulkarni

  14. Crystallization and preliminary X-ray crystallographic analysis of a galactose-specific lectin fromDolichos lablab

    Article • Acta Crystallographica Section F Structural Biology and Crystallization Communications, January 2006, International Union of Crystallography

    Dr Kiran Kulkarni

  15. Structural basis for the specificity of basic winged bean lectin for the Tn‐antigen: A crystallographic, thermodynamic and modelling study

    Article • FEBS Letters, November 2005, Wiley

    Dr Kiran Kulkarni

  16. Effect of glycosylation on the structure of Erythrina corallodendron lectin

    Article • Proteins Structure Function and Bioinformatics, May 2004, Wiley

    Dr Kiran Kulkarni