Prakasha, T. L., Suresh Chand, Mishra, A. N., Solanki, K.S., Singh J.B. and Sai Prasad S.V. 2019, Genetic analysis of leaf rust resistance in three common wheat cultivars MP 3288, HI 784 and HI 1418 under field conditions. Indian journal of Genetics and Plant Breeding, 79(1): 9-14. (NAAS rating- 6.41)

Kumar D, Kumar A, Chhokar V, Gangwar OP, Bhardwaj SC, Sivasamy M, Prasad SVS, Prakasha TL, Khan H, Singh R, Sharma P, Sheoran S, Iquebal MA, Jaiswal S, Angadi UB, Singh G, Rai A, Singh GP, Kumar D and Tiwari R, (2020) Genome-Wide Association Studies in Diverse Spring Wheat Panel for Stripe, Stem, and Leaf Rust Resistance. Front. Plant Sci. 11:748. doi: 10.3389/fpls.2020.00748

Divya Ambati, T. L. Prakasha, S. Chand, A. N. Mishra, V. G. Dubey, Prakash Malviya, Pramod Prasad and S. V. Sai Prasad, 2020, Genetics of stem rust resistance in four popular durum wheat cultivars Indian J. Genet., 80(2) 125-129.

AN Mishra, Kamini Kaushal, VG Dybey, SV Sai Prasad and Prakasha TL.2015, ‘CPAN 1842’: a new source of adult plant leaf rust resistance in bread wheat.,Plant Breeding 134(6):631-633

G.P. Rao, T. L. Prakasha, M. Priya, V. Thorat, M. Kumar and V.K. Baranwal, A.N. Mishra, and A. Yadav, 2017, First Report of Association of Candidatus Phytoplasma cynodontis (16SrXI-B Group) With Streak, Yellowing, and Stunting Disease in Durum and Bread Wheat Genotypes From Central India, Plant Disease 101(7):1314

Kamini Kaushal, S. C. Bhardwaj, A. N. Mishra, Y. M. Upadhyaya, T. L. Prakasha, Subodh Kumar, S. V.Sai Prasad and H. N. Pandey, Near-isogenic lines in NP 4 background carrying the genes Lr13, Lr18, Lr19 and Lr26 as locally adapted differentials for Indian pathotypes of wheat leaf rust, Indian Journal of genetics and Plant breeding 77(3):426-4272017

Manish Kumar, T. L. Prakasha, A. N. Mishra, M. S. Saharan, N. Meshram, and Govind P. Rao, 2024, Phytoplasma etiology and epidemiology of wheat streak and stunting disease in Central India. 3 Biotech 14:268,

Prasad P, Thakur R, Bhardwaj SC, Savadi S, Gangwar OP, Lata C, Adhikari S, Kumar S, Kundu S, Manjul AS, Prakasha TL, Navathe S, Hegde GM, Game BC, Mishra KK, Khan H, Gupta V, Mishra CN, Kumar S, Kumar S and Singh G (2023) Virulence and genetic analysis of Puccinia graminis tritici in the Indian sub-continent from 2016 to 2022 and evaluation of wheat varieties for stem rust resistance. Front. Plant Sci. 14:1196808. doi: 10.3389/fpls.2023.1196808

Sunilkumar VP, Krishna H, Devate NB, Manjunath KK, Chauhan D, Singh S, Sinha N, Singh JB, Prakasha T. L. P, Pal D, M. S, Jain N, Singh GP and Singh PK (2023), Marker-assisted selection for transferring QTLs to a promising line for drought tolerance in wheat (Triticum aestivum L.). Front. Plant Sci. 14:1147200. doi: 10.3389/fpls.2023.1147200

Sunilkumar VP, Krishna H, Devate NB, Manjunath KK, Chauhan D, Singh S, Sinha N, Singh JB, Prakasha TL, Pal D, Sivasamy M, Jain N, Singh GP and Singh PK (2022) Marker assisted improvement for leaf rust and moisture deficit stress tolerance in wheat variety HD3086. Front. Plant Sci. 13:1035016.doi: 10.3389/fpls.2022.1035016

Sunilkumar VP, Krishna H, Devate NB, Manjunath KK, Chauhan D, Singh S, Sinha N, Singh JB, Prakasha T. L. P, Pal D, M. S, Jain N, Singh GP and Singh PK (2023), Marker-assisted selection for transferring QTLs to a promising line for drought tolerance in wheat (Triticum aestivum L.). Front. Plant Sci. 14:1147200. doi: 10.3389/fpls.2023.1147200

Devate N B, Krishna H, Parmeshwarappa S K V, Manjunath K K, Chauhan D, Singh S, Singh J B, Kumar M, Patil R, Khan H, Jain N, Singh G P and Singh P K. 2022. Genome-wide association mapping for component traits of drought and heat tolerance in wheat. Frontiers in Plant Science 13: 943033

Sunilkumar V P, Krishna H, Devate N B, Manjunath K K, Chauhan D, Singh S, Sinha N, Singh J B, Prakasha T L, Pal D, Sivasamy M, Jain N, Singh G P and Singh P K. 2022. Marker assisted improvement for leaf rust and moisture deficit stress tolerance in wheat variety HD3086. Frontiers in Plant Science 13: 1035016

Rathan N G, Hari Krishna, Ellur R K, Sehgal D, Govindan V, Ahlawat A K, Gopalareddy K., Jaiswal J P, Singh J B, Saiprasad S V, Ambati D, Singh S K, Bajpai K and Singh A M. 2022. Genome-wide association study identifies loci and candidate genes for grain micronutrients and quality traits in wheat (Triticum aestivum L.). Scientific Reports 12:7037

Shashikumara P, Harikrishna, Jain N, Sinha N, Chauhan D, Phuke R M, Ambati D, Singh J B, Sai Prasad S V, Singh G P, Prabhu K V and Singh P K. 2020. Genetic variability, Genotype × Environment interaction for grain yield of wheat (Triticum aestivum) backcross inbred lines population under different moisture regimes. Indian Journal of Agricultural Sciences 90 (9): 1678–84

Ambati D, Phuke R M, Vani V, Sai Prasad S V, Singh J B, Patidar C P, Malviya P, Gautam A and Dubey V G. 2020. Assessment of genetic diversity and development of core germplasm in durum wheat using agronomic and grain quality traits. Cereal Research Communication 48:375-382.

Singh G, Setter TL, Singh MK, Kulshreshtha N, Singh BN, Stefanova K, Tyagi BS, Singh JB, Kherawat BS and Barrett-Lennard EG (2018). Number of tillers in wheat is an easily measurable index of genotype tolerance to saline waterlogged soils: evidence from 10 large-scale field trials in India. Crop and Pasture Science. 69(6): 561-573

Prakasha, T. L., Suresh Chand, Mishra, A. N., Solanki, K.S., Singh J.B. and Sai Prasad S.V. 2019, Genetic analysis of leaf rust resistance in three common wheat cultivars MP 3288, HI 784 and HI 1418 under field conditions. Indian journal of Genetics and Plant Breeding, 79(1): 9-14.

Gurumurthy S, Sarkar B, Vanaja M, Lakshmi J Maheshwari M and Yadav SK (2019). Morpho-physiological and biochemical changes in black gram genotypes under drought stress at flowering stage. Acta Physiologiae Plantarum. 41:42. IF:2.8

Gurumurthy, S., Ashu, A., Kruthika, S.et al. (2024). An innovative natural speed breeding technique for accelerated chickpea (Cicer arietinum L.) generation turnover. Plant Methods 20, 177. https://doi.org/10.1186/s13007-024-01299-9. IF:4.8

Gurumurthy S, Mamatha, Basu, Rudresh, Basavaraja, Bheemanahalli, R., Pal, M., Jha, P., Soren, Nidagundi, Reddy, KS. & Rane J. (2024). Identification of photothermo-insensitive with climate-smart early-maturing chickpea genotypes. Plant Genetic Resources: Characterization and Utilization, 22, 149-157. IF:2.2

Gurumurthy, S., Arora, A., Krishna, H., Chinnusamy, V. and Hazra, K.K. (2023). Genotypic capacity of post-anthesis stem reserve mobilization in wheat for yield sustainability under drought and heat stress in subtropical region. Frontiers in Genetics, 14: 1180941. IF:3.3

Mamatha, B. C., Rudresh, K., Karthikeyan, N., Kumar, M., Ranjan Das., Taware, P. B., Khapte, P. S., Soren, K. R., Rane, J and Gurumurthy S* (2023). Vegetal protein hydrolysates reduce the yield losses in off-season crops under combined heat and drought stress. Physiology and Molecular Biology of Plants, 29: 1049–1059. Corresponding author IF: 3.9

Gurumurthy, S., Sanjay, U.N., Amaregouda, A. Reddy, K,S., et al (2023). Understanding the impact of combined heat and drought stress on the reproductive process of chickpea (Cicer arietinum L.). Plant Physiology Reports. https://doi.org/10.1007/s40502-023-00749-1 IF: 1.6

Gurumurthy S Jagdish Singh, Basu PS, Meena SK, Singh NP, Rane J and Hazra KK (2022). Increased significance of chickpea senescence trait under water deficit environment. Environmental Challenges. 8:1-9.

Gurumurthy, S., Soren, K.R., Pradhan, A. et al. (2022). Kharif Chickpea: A New Crop for the Western Maharashtra. National Academy Science Letters 45, 557–559. https://doi.org/10.1007/s40009-022-01144-4 IF: 1.3

Gurumurthy S, Arora A, Sarkar B, Harikrishna, Singh VP, Yadav R, and Chinnusamy V (2019). Phenotyping for stem reserve mobilization under heat, drought and combined stress along with defoliation in wheat. Indian Journal of Agricultural Sciences. 89(5): 9-14. IF: 1.2

Mohanty, P.K., Shiv Ramakrishnan, R., Mamatha, B.C., Rudresh, K., Sabale P.R., Madan Pal., Samaiya, R. K., Rane J. and Gurumurthy S* (2023). Genotypes with high stem reserve mobilization can overcome the impact of rust on chickpea yield. Genetic Resources and Crop Evolution, 70: 1335-1340 IF: 1.6