a CC-NB-LRR gene identified in Brassica juncea, confers resistance to white rust 36 caused by Albugo candida 37 Running title 38 A CNL type R gene confers white rust resistance in B. juncea 39 Highlight 40 BjuWRR1, a CNL type R gene, was identified from an east European gene pool line of 41 Brassica juncea and validated for conferring resistance to white rust by genetic 42 transformation. 43 Abstract 44 White rust caused by oomycete pathogen Albugo candida is a significant disease of crucifer 45 crops including Brassica juncea (mustard), a major oilseed crop of the Indian subcontinent. 46Earlier a resistance-conferring locus named AcB1-A5.1 was mapped in an east European 47 gene pool line of B. juncea Donskaja-IV. This line was tested along with some other lines 48 of B. juncea (AABB), B. rapa (AA) and B. nigra (BB) for resistance to six isolates of A. 49 candida collected from different mustard growing regions of India. Donskaja-IV was found 50 to be completely resistant to all the tested isolates. Sequencing of a BAC spanning the locus 51 AcB1-A5.1 showed the presence of a single CC-NB-LRR protein encoding R gene. The 52 genomic sequence of the putative R gene with its native promoter and terminator was used 53 for the genetic transformation of a susceptible Indian gene pool line Varuna and was found to 54 confer complete resistance to all the isolates. This is the first white rust resistance-conferring 55 gene described from Brassica species and has been named BjuWRR1. Allelic variants of the 56 gene in B. juncea germplasm and orthologues in the Brassicaceae genomes were studied to 57 understand the evolutionary dynamics of the BjuWRR1 gene. 58
Introduction 61White rust, caused by an oomycete pathogen Albugo candida (Pers.) Kuntze is a serious 62 disease of economically important Brassica species. A. candida is an obligate biotrophic 63 parasite and rated amongst the top ten oomycete pathogens based on its scientific and 64 economic importance (Kamoun et al., 2015). White rust has been reported to cause 65
A. candida isolates, infection and disease evaluation 129 5White rust infected B. juncea leaves were collected from five different mustard growing 130 regions of north India (Pantnagar, Meerut, Samastipur, Hisar and Alwar) and were purified 131 by performing five passages of inoculations for each isolate on a susceptible B. juncea line, 132Varuna. In each passage, zoosporangia collected from a single pustule were suspended in 200 133 L of sterilized double distilled water followed by drop inoculation on cotyledons of seven-134 day-old seedlings of Varuna. Inoculations were performed in a contained white rust infection 135 chamber maintained at a relative humidity of around 90% and 18°C of temperature with a 16-136 h light/8-h dark cycle. After repeated passages of single pustules, the isolates were 137 maintained on Varuna and the purified A. candida isolates were named as AcP1 (Pantnagar), 138
BjuWRR1, a CC-NB-LRR gene identified in Brassica juncea, confers resistance to white rust caused by Albugo candida
Running titleA CNL type R gene confers white rust resistance in B. juncea Highlight BjuWRR1, a CNL type R gene, was identified from an east European gene pool line of Brassica juncea and validated for conferring resistance to white rust by genetic transformation.
White rust, causal agent oomycete Albugo candida, is a significant disease of the cultivated Brassica species. The Indian gene pool lines of oilseed mustard, Brassica juncea, are highly susceptible to the pathogen. Resistance to A. candida has been reported in the east European gene pool lines of mustard and mapped to LG A4 in line Heera and LG A5 in line Donskaja-IV. A new resistance-conferring locus to A. candida isolate AcB1 has been mapped to LG A6 of B. juncea line Tumida-a Chinese vegetable type mustard using an F 1 DH mapping population that has been developed from a Tumida × Varuna (susceptible Indian gene pool line) cross. A molecular map containing 8,303 genic and GBS markers was used to map the resistance trait to an interval of 63.0 cM-70.8 cM on LG A6. Genome assemblies of Tumida and Varuna were used to find the genes present within the flanking markers discerned by genetic mapping. The most likely candidate gene in the mapped interval is BjuA046215, a CC-NBS-LRR (CNL) type R gene that encodes a protein with all the specific subdomains of the proteins encoded by such genes. Alleles of BjuA046215 in Varuna and other lines of the Indian and the east European gene pools encode proteins that have truncated LRR domains. Analysis of the syntenic regions in some of the Brassicaceae genomes and phylogenetic analysis of CNL type R genes showed BjuA046215 to be closely related to a recently described white rust resistance-conferring R gene BjuWRR1 in B. juncea Donskaja-IV, both belonging to the CNL-D group of R genes. Related R genes in Arabidopsis thaliana confer resistance to another oomycete, Peronospora parasitica.
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