Dhruv Aditya Srivastava, Ph.D.

An interdisciplinary scientist with over 12 years of international research experience in molecular biology, microbiology, and plant science.

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Publications

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(Total of 11 peer-reviewed publications)

  1. Das, D., Tripathi, S., Mutyala, P., Srivastava, D. A., & Bücking, H. (2023). Development and Resource Exchange Processes in Root Symbioses of Legumes. IntechOpen (book chapter). DOI: 10.5772/intechopen.111540
  2. Arya, G. C., Srivastava, D. A., Manasherova, E., Prusky, D. B., Elad, Y., Frenkel, O., & Harel, A. (2022). BcHnm1, a predicted choline transporter, modulates conidial germination and virulence in Botrytis cinerea. Fungal Genetics and Biology. DOI: 10.1016/j.fgb.2021.103653
  3. Srivastava, D. A., Harris, R., Breuer, G., & Levy, M. (2021). Secretion-based modes of action of biocontrol agents with a focus on Pseudozyma aphidis. Plants. DOI: 10.3390/plants10020210
  4. Srivastava, D. A., Arya, G. C., Pandaranayaka, E. P. J., Manasherova, E., Prusky, D., Elad, Y., Frenkel, O., & Harel, A. (2020). Transcriptome profiling data of Botrytis cinerea infection on whole plant Solanum lycopersicum. Molecular plant-microbe interactions (MPMI). DOI: 10.1094/MPMI-05-20-0109-A
  5. Arya, G. C., Srivastava, D. A., Pandaranayaka, E. P. J., Manasherova, E., Prusky, D., Elad, Y., Frenkel, O., Hay, D., & Harel, A. (2020). A non-GPCR membrane bound CFEM protein regulates plant pathogenicity and germination in Botrytis cinerea. Microorganisms. DOI: 10.3390/microorganisms8071043
  6. Vela-Corcía, D., Srivastava, D. A., Dafa-Berger, A., Rotem, N., Barda, O., & Levy, M. (2019). MFS transporter from Botrytis cinerea provides tolerance to glucosinolate-breakdown products and is required for pathogenicity. Nature Communications. DOI: 10.1038/s41467-019-10860-3
  7. Srivastava, D. A., Mor, M., Feldbaum, R., Tish, N., Shoyhet, H., Manasherova, E., … & Harel, A. (2018). Multivariate analysis of diversity in Botrytis cinerea isolates from Israel. Phytoparasitica. DOI: 10.1007/s12600-018-0684-4
  8. Maayan, Y., Pandaranayaka, E. P. J., Srivastava, D. A., Lapidot, M., Levin, I., Dombrovsky, A., & Harel, A. (2018). Using genomic analysis to identify tomato Tm-2 resistance breaking mutations and their underlined evolutionary path in a new and emerging tobamovirus. Archive of Virology. DOI: 10.1007/s00705-018-3819-5
  9. Habte Nida, S. B., Zielinski, D., Srivastava, D. A., Elbaum, R., Xin, Z., Erlich, Y., … & Shental, N. (2016). Highly efficient de novo mutant identification in a Sorghum bicolor TILLING population using the ComSeq approach. The Plant Journal. DOI: 10.1111/tpj.13161
  10. Srivastava, D. A., Ben-Israel, I., Zhu, C., Nida, H., Yu, J., & Fridman, E. (2019). Heterosis association mapping for grain quality and yield related traits quantity in Sorghum bicolor di allel implicates prevalence of dominance complementation. Sorghum: Properties, Synthesis and Applications (book chapter).
  11. Tamuli, R., Kumar, R., Srivastava, D. A., & Deka, R. (2013). Calcium Signaling. Neurospora: Genomics and Molecular Biology (book chapter).

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