Potential Source of Resistance in Introgressed, Mutant and Synthetic Brassica juncea L. Lines against Diverse Isolates of White Rust Pathogen, Albugo candida
Author:
Mehta Samridhi1, Dhawi Faten2ORCID, Garg Pooja1ORCID, Rao Mahesh1ORCID, Bhattacharya R. C.1, Akthar Jameel3ORCID, Yadav Rashmi3, Singh Mamta3, Singh Kartar3ORCID, Nallathambi P.4, Maheswari C. Uma4, Meena P. D.5ORCID, Meena Hari Singh5, Rai P. K.5, Pant Usha6, Harun Mohd.7ORCID, Choudhary Ravish8ORCID, Matic Slavica9ORCID, Gupta Ashish Kumar1
Affiliation:
1. ICAR-National Institute for Plant Biotechnology, New Delhi 110 012, India 2. Agricultural Biotechnology Department, King Faisal University, Al-Ahsa 31982, Saudi Arabia 3. ICAR-National Bureau of Plant Genetic Resources, New Delhi 110 012, India 4. ICAR-IARI Regional Station, Wallington 643 231, India 5. ICAR-Directorate of Rapeseed-Mustard Research, Bharatpur 321 303, India 6. Department of Plant Breeding and Genetics, G. B. Pant University of Agriculture and Technology, Pantnagar 263 145, India 7. ICAR-Indian Agricultural Statistical Research Institute, New Delhi 110 012, India 8. ICAR-Division of Seed Science and Technology, New Delhi 110 012, India 9. Institute for Sustainable Plant Protection, National Research Council of Italy, 10135 Turin, Italy
Abstract
The existing resistance genes against white rust disease are often ineffective due to racial variation of the causal fungal pathogen, Albugo candida. Therefore, new sources of resistance effective against multiple races are needed for durable resistance. Large-scale phenotyping of advanced introgressed (ILs), mutant, and resynthesized (RBJ) lines of Brassica juncea L., under artificial inoculation at cotyledonary and true leaf stages, against thirteen diverse isolates of Albugo candida and simultaneously at the adult plant stage under multi-location field evaluation from 2019–2022, revealed significant differences in white rust reactions. Amongst 194 introgressed lines, three lines, namely ERJ 39, ERJ 12, and ERJ 15, and three lines among 90 resynthesized and 9 mutant lines, including RBJ 18, DRMR 18-36-12, and DRMR 18-37-13, were identified as potential sources of resistance against multiple isolates at all three developmental stages of the plant. Furthermore, correlation and principal component analysis revealed a positive correlation between white rust resistance at true leaf and adult plant stages for ILs as well as mutant and RBJ lines. These novel sources of host resistance will play vital roles are required for the mustard improvement program and to establish a strong genetic and molecular foundation for identifying white rust resistance linked marker(s), QTLs, or gene(s) for sustainable disease management in India.
Funder
Department of Science and Technology-Science and Engineering Research Board, New Delhi
Subject
Agronomy and Crop Science
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