Journals


1. Ngiimei SD, Tamuli R "CDF family of zinc transporters ZRC-1, MSC-2, and ZRG-17 are involved in survival at high zinc conditions, vegetative development, and cellulase utilization in Neurospora crassa", Journal of Biosciences, DOI.10.1007/s12038-023-00398-4, Vol.49, 12, P.P - , (2024)

2. Rasaily M, Ngiimei SD, Thaosen RK, Gupta S, Deka S, Tamuli R "Methods for the detection of intracellular calcium in filamentous fungi", MethodsX, DOI.https://doi.org/10.1016/j.mex.2024.102570, Vol.12, , P.P - , (2024)

3. Baruah D, Marak CNK, Roy A, Gohain D, Kumar A, Das P, Borkovich KA, Tamuli R "Multiple calcium signaling genes play a role in the circadian period of Neurospora crassa", FEMS Microbiology Letters, DOI.https://doi.org/10.1093/femsle/fnad044, Vol.370, , P.P - , (2023)

4. Marak CNK, Tamuli R "Calmodulin, Calcium/Calmodulin-Dependent Kinases-1 and 2 Regulate Expression of the Heat Shock Proteins for Heat Shock Tolerance and Pheromone Signaling Genes for Sexual Development in Neurospora crassa", Indian Journal of Microbiology , DOI.doi: 10.1007/s12088-023-01091-8, Vol.63, 3, P.P 317-323 , (2023)

5. Baruah D, Tamuli R "The cell functions of phospholipase C-1, Ca2+/H+ exchanger-1, and secretory phospholipase A2 in tolerance to stress conditions and cellulose degradation in Neurospora crassa", Archives of Microbiology , DOI.doi: 10.1007/s00203-023-03662-1, Vol.205, 10, P.P 327- , (2023)

6. Roy A, Tamuli R. "Regulation of Hsp80 involved in the acquisition of induced thermotolerance, and NCA-2 involved in calcium stress tolerance by the calcineurin-CRZ-1 signaling pathway in Neurospora crassa", Mycological Progress , DOI.https://doi.org/10.1007/s11557-022-01833-w, Vol.21, 84, P.P - , (2022)

7. Roy A, Tamuli R. "Heat shock proteins and the calcineurin?crz1 signaling regulate stress responses in fungi", Archives of Microbiology, DOI. doi: 10.1007/s00203-022-02833-w, Vol.204, 5, P.P - , (2022)

8. Gupta S, Kumar A, Tamuli R. "CRZ1 transcription factor is involved in cell survival, stress tolerance, and virulence in fungi.", Journal of Biosciences , DOI.DOI: 10.1007/s12038-022-00294-3 , Vol.47, 66, P.P - , (2022)

9. Kumar M, Tamuli R "Histidine kinases play diverse cell functions in fungi", Fungal genomics & Biology, DOI.DOI: 10.35841/2165-8056.22.12.183, Vol.12, 2, P.P - , (2022)

10. Kumar A, Roy A, Deshmukh MV, Tamuli R. "Dominant mutants of the calcineurin catalytic subunit (CNA-1) showed developmental defects, increased sensitivity to stress conditions, and CNA-1 interacts with CaM and CRZ-1 in Neurospora crassa.", Archives of Microbiology, DOI.https://doi.org/10.1007/s00203-019-01768-z, Vol.202, 4, P.P 921-934 , (2020)

11. Roy A, Kumar A, Baruah D, Tamuli R. "Calcium signaling is involved in diverse cellular processes in fungi.", Mycology, DOI.doi: 10.1080/21501203.2020.1785962, Vol.12, 1, P.P 10-24 , (2020)

12. Gohain D, Tamuli R "Calcineurin responsive zinc-finger-1 binds to a unique promoter sequence to upregulate neuronal calcium sensor-1, whose interaction with MID-1 increases tolerance to calcium stress in Neurospora crassa. ", Molecular Microbiology, DOI., Vol.111, 6, P.P 1510-1528 , (2019)

13. Kumar A, Roy A, Deshmukh MV, Tamuli R. "Dominant mutants of the calcineurin catalytic subunit (CNA-1) showed developmental defects, increased sensitivity to stress conditions, and CNA-1 interacts with CaM and CRZ-1 in Neurospora crassa.", Archives of Microbiology, DOI., Vol., , P.P 1-14 , (2019)

14. Tiwari A, Ngiilmei SD, Tamuli R "The NcZrg-17 gene of Neurospora crassa encodes a cation diffusion facilitator transporter required for vegetative development, tolerance to endoplasmic reticulum stress and cellulose degradation under low zinc conditions. ", Current Genetics , DOI., Vol.64, 4, P.P 811-819 , (2018)

15. Barman A, Gohain D, Bora U, Tamuli R "Phospholipases play multiple cellular roles including growth, stress tolerance, sexual development, and virulence in fungi. ", Microbiological Research, DOI., Vol.209, , P.P 55-69 , (2018)

16. Gohain D, Roy A, Tamuli R " Calcium signaling proteins in human diseases and their potential as drug targets. ", Annals of Pharmacology and Pharmaceutics , DOI., Vol.2, 2, P.P - , (2017)

17. Laxmi V, Tamuli R " Calmodulin is necessary for vegetative growth, ultraviolet survival, and sexual development in the model filamentous fungus Neurospora crassa. .", Archives of Microbiology, DOI.doi: 10.1007/s00203-016-1319-0, Vol.199, 4, P.P 531-542 , (2017)

18. Barman A, Tamuli R "The pleiotropic vegetative and sexual development phenotypes of Neurospora crassa arise from double mutants of the calcium signaling genes plc-1, splA2, and cpe-1. ", Current Genetics , DOI., Vol.63, 5, P.P 861-875 , (2017)

19. Laxmi V, Tamuli R " The calmodulin gene in Neurospora crassa is required for normal vegetative growth, ultraviolet survival, and sexual development.", Archives of Microbiology, DOI., Vol. 199, 4, P.P 531-542 , (2017)

20. Gohain D, Deka R, Tamuli R "Identification of critical amino acid residues and functional conservation of the Neurospora crassa and Rattus norvegicus orthologues of neuronal calcium sensor-1. ", Genetica 144(6):665-674. , DOI., Vol.144, 6, P.P 665-674 , (2016)

21. Tamuli R, Deka R, Borkovich KA " Calcineurin subunits A and B interact to regulate growth and asexual and sexual development in Neurospora crassa. ", PLoS One , DOI., Vol.11, 3, P.P - , (2016)

22. Tamuli R " Neurospora: A scientific journey by the orange mold since 1843. ", North East Bioline 1: 8-9., DOI., Vol., 1, P.P 8-9 , (2016)

23. Laxmi.V and Tamuli.R "The Neurospora crassa cmd, trm-9, and nca-2 genes play a role in growth, development, and survival in stress conditions. ", Genomics and Applied Biology., DOI., Vol.6, 7, P.P - , (2015)

24. Barman A. and Tamuli R. " Multiple cellular roles of Neurospora crassa plc-1, splA2 and cpe-1 in regulation of cytosolic free calcium, carotenoid accumulation, stress responses, and acquisition of thermotolerance. ", Journal of Microbiology, DOI., Vol.53, 4, P.P 226-235 , (2015)

25. Kumar R. and Tamuli R "Calcium/calmodulin-dependent kinases are involved in growth, thermotolerance, oxidative stress survival, and fertility in Neurospora crassa.", Archives of Microbiology , DOI., Vol.196, 4, P.P 295-305 , (2014)

26. Deka R. and Tamuli R. "Neurospora crassa ncs-1, mid-1 and nca-2 double mutant phenotypes suggest diverse interaction among three Ca2+ regulating gene products. ", Journal of Genetics, DOI., Vol.92(3):559-63., 3, P.P 559-563 , (2013)

27. Deka, R., Kumar, R. and Tamuli, R. "Neurospora crassa homologue of Neuronal Calcium Sensor-1 has a role in growth, calcium stress tolerance, and ultraviolet survival..", Genetica 139: 885-894, DOI., Vol.139, 7, P.P 885-94 , (2011)

28. Tamuli, R., Kumar R. and Deka, R. "Cellular roles of neuronal calcium sensor-1 and calcium/calmodulin-dependent kinases in fungi. ", J. Basic Microbio., DOI., Vol.51, 2, P.P 120-128 , (2011)

29. Tamuli, R. " Genome Defense Mechanisms in Neurospora and Associated Specialized Proteins. ", Journal of Proteins and Proteomics, DOI., Vol.1, 1, P.P 15-23 , (2010)

30. Tamuli, R. and Kasbekar, D. P. "Dominant suppression of repeat-induced point mutation (RIP) in Neurospora crassa by a variant catalytic subunit of DNA polymerase zeta (Pol z). ", Genetics , DOI., Vol.178, 3, P.P 1169-1176 , (2008)

31. Tamuli, R., Ravindran, C. and Kasbekar, D. P. "Translesion DNA polymerases Pol z, Pol h, Pol i , Pol k and Rev1 are not essential for repeat-induced point mutation (RIP) in Neurospora crassa. ", J. Biosci., DOI., Vol.31, 5, P.P 557-564 , (2006)

32. Bhat, A., Tamuli, R., and Kasbekar, D. P. "Genetic transformation of Neurospora tetrasperma, demonstration of repeat-induced point mutation (RIP) in self-crosses and a screen for recessive RIP-defective mutants. ", Genetics, DOI., Vol.167 , 3, P.P 1155-1164 , (2004)

Conference Publication


No Data Available!

Book


No Data Available!

Book Chapter


1. Tamuli R., Kumar R., Srivastava D. A. and Deka R. "Calcium signaling. In Neurospora:", Genomics and Molecular Biology. Vol., 978-1-908230-77-5, P.P 35-37- , (2013)

2. Deka R, Ghosh A, Tamuli R, Borkovich KA " Heterotrimeric G Proteins. In H. Drik (ed.), , The mycota III. ", Springer-Verlag. Vol., 978-3-319-27790-5, P.P 119-144- , (2016)



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