Correction to: The pan-NLRome analysis based on 23 genomes reveals the diversity of NLRs in Brassica napus (Molecular Breeding, (2024), 44, 12, (2), 10.1007/s11032-024-01522-4)

Abstract

The original version of this article unfortunately contained incorrect figures 1, 2, 3, 4 and 5. The correct presentation of figures should be. An overview of NLR complements in 23 accessions. A. The number of NLRs in different classes in 23 accessions. Orange (TNL), purple (NL), blue (CNL), green (RNL). B. The number of different classes of NLR genes among each accession. C. The correlation between the number of NLR predicted by NLR-Annotator and the size of assembly. D. The correlation between the number of NLR predicted by RGAugury and the number of annotated genes Distribution of NLRs across subgenomes and chromosomes among accessions. A. The number of NLRs across subgenome A and C among accessions. Asterisks (****) indicate significant difference (Wilcoxon test; α < 0.0001) of NLR number between subgenome A and C. B. The number of NLRs across different chromosomes among accessions. C. Physical distribution map of NLRs and major clusters on chromosomes. For each chromosome, ZS11 is identified with a gray color, while the Darmor-bzh is identified with a blue color. The largest cluster in ZS11, cluster10, and the two largest clusters in Darmor-bzh, cluster34 and cluster36, are marked The pan-NLRome of B. napus based on 23 accessions and the expressions of NLR genes. A. The number of pan and core NLR gene families in the 23 genomes. B. Composition of the pan-NLRome. The histogram shows the frequency distribution of NLR gene families shared by different numbers of genomes. The pie chart shows the proportion of different groups of NLR gene families. C. The presence and absence of NLRs in 23 accessions. The rows represent different accessions and the columns represent NLR genes. D. Volcano plot of gene expression differences 6 hours after Sclerotinia sclerotiorum inoculation. The vertical and horizontal dotted lines show the cut-off of log2(fold change) = ± 1, and of p-value = 0.01, respectively. The dots colored green indicates down-regulated genes, while the dots colored purple represents up-regulated genes. The genes labeled on the figure have a P-value < 1e-40 and an absolute value of log2(fold change) greater than 5 Diversity of integrated domains. A. Distribution of IDs in pan-NLRome. Green represents IDs detected in the ZS11 and Darmor-bzh genomes, pink represents new IDs detected in the pan-NLRome but not in ZS11 and Darmor-bzh, and an asterisk indicates IDs undetectable in B. rapa and B. oleracea genomes. B. UpSet intersection of IDs in two reference accessions of ZS11 and Darmor-bzh, pan-NLRome, and diploid ancestral genomes. C. UpSet intersection of IDs in core, shell and cloud NLR genes Differences in NLR genes among different ecotypes. A. The intersection of NLRs between different ecotypes. WORs, winter-type oilseed rapes; SORs, spring-type oilseed rapes; SWORs, semi-winter oilseed rapes. B. The distributions of NLRs specific in semi-winter oilseed rapes compared to winter-type. C. The distributions of NLRs specific in winter-type oilseed rapes compared to semi-winter. D. The distributions of IDs specific in semi-winter oilseed rapes compared to winter-type. E. The word cloud of IDs specific in winter-type oilseed rapes compared to semi-winter. The original article has been corrected.