Jyotsna Dhawan
Affiliations: | 1989-1993 | CCMB, Hyderabad |
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| Atmakuru PS, Dhawan J. (2023) The cilium-centrosome axis in coupling cell cycle exit and cell fate. Journal of Cell Science. 136 |
| Roy N, Sundar S, Pillai M, et al. (2021) mRNP granule proteins Fmrp and Dcp1a differentially regulate mRNP complexes to contribute to control of muscle stem cell quiescence and activation. Skeletal Muscle. 11: 18 |
| Puri D, Swamy CVB, Dhawan J, et al. (2020) Comparative nuclear matrix proteome analysis of skeletal muscle cells in different cellular states. Cell Biology International |
| Saleh A, Subramaniam G, Raychaudhuri S, et al. (2019) Cytoplasmic sequestration of the RhoA effector mDiaphanous1 by Prohibitin2 promotes muscle differentiation. Scientific Reports. 9: 8302 |
| Arora R, Rumman M, Venugopal N, et al. (2017) Mimicking Muscle Stem Cell Quiescence in Culture: Methods for Synchronization in Reversible Arrest. Methods in Molecular Biology (Clifton, N.J.). 1556: 283-302 |
| Cheedipudi S, Gala HP, Puri D, et al. (2015) Identification of PRDM2 regulated genes in quiescent C2C12 myoblasts. Genomics Data. 6: 264-6 |
| Cheedipudi S, Puri D, Saleh A, et al. (2015) A fine balance: epigenetic control of cellular quiescence by the tumor suppressor PRDM2/RIZ at a bivalent domain in the cyclin a gene. Nucleic Acids Research. 43: 6236-56 |
| Vyas N, Walvekar A, Tate D, et al. (2014) Vertebrate Hedgehog is secreted on two types of extracellular vesicles with different signaling properties. Scientific Reports. 4: 7357 |
| Subramaniam S, Sreenivas P, Cheedipudi S, et al. (2014) Distinct transcriptional networks in quiescent myoblasts: a role for Wnt signaling in reversible vs. irreversible arrest. Plos One. 8: e65097 |
| Sellathurai J, Cheedipudi S, Dhawan J, et al. (2013) A novel in vitro model for studying quiescence and activation of primary isolated human myoblasts. Plos One. 8: e64067 |