Brassica carinata (BBCC) commonly referred to as Ethiopian mustard is a natural allotetraploid containing the genomes of Brassica nigra (BB) and Brassica oleracea (CC). It is an oilseed crop endemic to the Northeastern regions of Africa. Although it is grown in a limited manner, B. carinata is of value as it is resistant/highly tolerant to most of the pathogens affecting cultivated Brassica species of the U's triangle that are grown worldwide as oilseed and vegetable crops. We report a chromosome-scale genome assembly of B. carinata accession HC20 using long-read Oxford Nanopore and Illumina sequencing and BioNano optical maps. The assembly has a scaffold N50 of ~39.8 Mb and covers ~1.11 Gb of the genome. We compared the available long-read genome assemblies of the six species of the U's triangle and found a highly conserved gene number and collinearity suggesting that B. juncea (AABB), B. napus (AACC), and B. carinata are strict allopolyploids. We cataloged the nucleotide-binding and leucine-rich repeat immune receptor (NLR) repertoire of B. carinata resulting in the identification of 465 NLRs. We investigated the extent and nature of early generation genomic interactions between the subgenomes of B. carinata and B. juncea in interspecific crosses between the two species. We found that C chromosome additions are well tolerated, with homoeologous exchanges occurring between the A and C genomes. Based on the genomic interactions, we propose strategies to utilize the interspecific crosses for transferring disease resistance from B. carinata to B. juncea and other Brassica species.
Seed size/weight is a multigenic trait that is governed by complex transcriptional regulatory pathways. An understanding of the genetic basis of seed size is of great interest in the improvement of seed yield and quality in oilseed crops. A global transcriptome analysis was performed at the initial stages of seed development in two lines of Brassica juncea, small-seeded EH-2 and large-seeded PJ. The anatomical analyses revealed significant differences in cell number and cell size in the outer layer of the seed coat between EH-2 and PJ. Pairwise comparisons at each developmental stage identified 5,974 differentially expressed genes (DEGs) between the two lines, of which 954 genes belong to different families of transcription factors. Two modules were found to be significantly correlated with an increased seed size using weighted gene coexpression network analysis. The DEG and coexpression datasets were integrated with the thousand seed weight (Tsw) quantitative trait loci (QTL) mapped earlier in the EPJ (EH-2 × PJ) doubled haploid (DH) population, which identified forty potential key components controlling seed size. The candidate genes included genes regulating the cell cycle, cell wall biogenesis/modification, solute/sugar transport, and hormone signaling. The results provide a valuable resource to widen the current understanding of regulatory mechanisms underlying seed size in B. juncea.
Brassica juncea (AABB, 2n=36), commonly called mustard is an allopolyploid crop of recent origin but has considerable morphological and underlying genetic variation. An F1-derived doubled haploid (F1DH) population developed from a cross between a Indian oleiferous line, Varuna, and a Chinese stem type vegetable mustard, Tumida showed significant variability for some key plant architectural traits, including four stem strength-related traits, stem diameter, plant height, branch initiation height, number of primary branches (Pbr), and days to flowering (Df). Multi-environment QTL analysis identified twenty environmentally stable QTL for the nine plant architectural traits. Both Tumida and Varuna contain some positive QTL that can be used to breed superior ideotypes in mustard. A QTL cluster on LG A10 contained environmentally stable QTL for seven architectural traits. This region also contained overlapping environmentally stable major QTL (phenotypic variance ≥ 10%) for Df and Pbr, with Tumida contributing the trait enhancing alleles for both the traits. Since early flowering is critical for the cultivation of mustard in the Indian subcontinent, this QTL cannot be used for the improvement of Pbr in the Indian gene pool lines. Conditional QTL analysis for Pbr identified the QTL for improvement of Pbr without negative effects on Df. The environmentally stable QTL were projected on the genome assemblies of Tumida and Varuna for the identification of candidate genes. These findings provide insights into the genetics of plant architectural traits in two diverse gene pools of B. juncea and provide opportunities for improvement of the plant architecture through marker-assisted introgressions.
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