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Profile Details
Subject Matter Expertise
Services
Work Experience
Postdoctoral Researcher
The Francis Crick Institute
January 2017 - Present
Junior Research Scholar
Tata Institute of Fundamental Research
July 2009 - July 2012
Education
Ph.D. Biochemistry (Funded by Cancer Research, UK)
University College London - The Francis Crick Institute
September 2012 - September 2016
Master of Science (MSc) Field Of Study Biochemistry, Cell and Molecular Biology
Tata Institute of Fundamental Research
July 2009 - August 2012
Certifications
- Certification details not provided.
Publications
OTHER
Rupam Jha, Thomas Surrey(2018). Dynein and dynactin at microtubule plus ends . 556--567Elsevier
Rupam Jha, Johanna Roostalu, Martina Trokter, Thomas Surrey(2017). Combinatorial Regulation Of The Balance Between Dynein Microtubule End Accumulation And Initiation Of Directed Motility . Cold Spring Harbor Laboratory
JOURNAL ARTICLE
Rupam Jha, Jessica Iegre, Niaz S. Ahmed, Josephine S. Gaynord, Yuteng Wu, Kara M. Herlihy, Yaw Sing Tan, Maria E. Lopes-Pires, Yu Heng Lau, Hannah F. Sore, et al.(2018). Stapled peptides as a new technology to investigate protein{\textendash}protein interactions in human platelets . Chemical Science. 9. (20). p. 4638--4643. Royal Society of Chemistry ({RSC})
Rupam Jha, Johanna Roostalu, Nicholas I Cade, Martina Trokter, Thomas Surrey(2017). Combinatorial regulation of the balance between dynein microtubule end accumulation and initiation of directed motility . The {EMBO} Journal. 36. (22). p. 3387--3404. {EMBO}
Rupam Jha, Thomas Surrey(2015). Regulation of processive motion and microtubule localization of cytoplasmic dynein . Biochemical Society Transactions. 43. (1). p. 48--57. Portland Press Ltd.
Jha, R., Surrey, T.(2015). Regulation of processive motion and microtubule localization of cytoplasmic dynein . Biochemical Society Transactions. 43. p. 48-57.
Duellberg, C., Trokter, M., Jha, R., Sen, I., Steinmetz, M.O., Surrey, T.(2014). Reconstitution of a hierarchical +TIP interaction network controlling microtubule end tracking of dynein . Nature Cell Biology. 16. (8). p. 804-811.
Rai, A.K., Rai, A., Ramaiya, A.J., Jha, R., Mallik, R.(2013). Molecular adaptations allow dynein to generate large collective forces inside cells . Cell. 152. (1-2). p. 172-182.