Ajit Joglekar

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1.      Johnston, K., Joglekar A. P., Fukagawa, T., Salmon E. D. (manuscript under preparation) “Protein composition of the kinetochore in DT40 chicken cells determined by live-cell fluorescence microscopy”

2. Joglekar A. P., Bloom K., Salmon E. D. “Mechanisms of force generation with end-on kinetochore-microtubule attachments” review submitted to Curr Op Cell Biol.

3. Joglekar A. P. and DeLuca J. G. “Chromosome Segregation: Ndc80 Can Carry the Load” Curr Biol. 19(10):R404-7.

4. Joglekar A. P., Bloom K., Salmon E. D. (2009) “In vivo protein architecture of the eukaryotic kinetochore with nanometer accuracy” Curr Biol. 19(8):694-99

5. Wan X., O’Quinn R.P., Pierce H. L., Joglekar A. P., DeLuca J. G., Desai  A., Yen T. J., Salmon E. D. “Protein architecture of the core microtubule attachment site in human kinetochores measured by KSHREC” Cell 137(4):672-84.

6. Ribeiro S., Gatlin J. C., Dong Y., Joglekar A. P., Cameron L., Hudson D. F., McEwen B. F., Salmon E. D., Earnshaw W. C., Vagnarelli P. (2009) “Condensin regulates the stiffness of vertebrate centromeres” Mol Biol Cell 20(9):2371-80.

7. Gardner M. K., Bouck D. C., Paliulis L. V., Meehl J. B., O’Toole E. T., Haase J., Soubry A., Joglekar A. P., Winey M., Salmon E. D., Bloom K., and Odde D. J. (2008) “Kinesin-5 motors mediate chromosome congression by promoting disassembly of longer microtubules” Cell 135(5): 894-906.

8. Joglekar A. P., Bouck D., Finley K., Liu X., Wan Y., Berman J., He X., Salmon E.D., Bloom K. (2008) “Molecular architecture of kinetochore-microtubule attachment sites is conserved in point and regional centromeres” J Cell Biol. 181(4): 587-94

9. Bouck D., Joglekar A. P., Bloom K. (2008) “Design Features of a Mitotic Spindle: Balancing tension and compression at a single microtubule kinetochore interface in budding yeast” Ann. Rev. Genet. 42:335-59.

10. Joglekar A. P., Salmon E. D., Bloom K. (2008) “Counting kinetochore proteins in budding yeast using genetically encoded fluorescent proteins”  Methods Cell Biol. 85:127-51.

11. Yeh E., Haase J., Paliulis L. V., Joglekar A. P., Bond L., Bouck D., Salmon E. D., Bloom K. S. (2008) “Pericentric chromatin is organized into an intramolecular loop in mitosis.” Curr. Biol. 18(2):81-90.

12. Gardner M. K., Haase J., Mythreye K., Molk J. N., Anderson M., Joglekar A. P., O'Toole E. T., Winey M., Salmon E. D., Odde D. J., Bloom K. (2008) “The microtubule-based motor Kar3 and plus end-binding protein Bim1 provide structural support for the anaphase spindle.”  J. Cell Biol. 180(1):91-100.

13. Kudryashov S. I., Joglekar A. P., Mourou G., Herbstman J. F., Hunt A. J. (2007) “Nanochannels fabricated by high-intensity femtosecond laser pulses on dielectric surfaces” Appl. Phys. Lett. 91:141111.

14. Joglekar A. P., Bouck D., Molk J., Bloom K., Salmon E. D. (2006) “Molecular architecture of a kinetochore-microtubule attachment site” Nature Cell Biol. 8:581-85.

15.  Joglekar A. P., Liu, H. H., Meyhofer E., Mourou G., Hunt, A. J. (2004) Optics at Critical Intensity: Applications to Nanomorphing. PNAS USA 101(16): 5856-61.

16. Joglekar A. P., Liu H. H., Meyhofer E., Mourou G., Hunt, A. J. (2003) A Study of the Deterministic Character of Optical Damage by Femtosecond Laser Pulses and Applications to Nanomachining. Appl. Phys. B - Lasers 77 (1): 25-30.

17. Joglekar A. P., Hunt, A. J. (2002). A Simple, Mechanistic Model for Directional Instability during Mitotic Chromosome Movement. Biophys. J. 83(1): 42-58.

18. Kunte, K., Joglekar, A.P., Ghate, U., Pramod, P. (1999) Patterns of Butterfly, Bird and Tree Diversity in the Western Ghats. Current Science 77 (4): 577-86.

 

 

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