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Chromosome-scale reference genome of broccoli (<i>Brassica oleracea</i> var. <i>italica</i> Plenck) provides insights into glucosinolate biosynthesis

Qiuyun Wu, Shuxiang Mao, Huiping Huang, Juan Liu, Xuan Chen, Linghui Hou, Yuxiao Tian, Jiahui Zhang, Junwei Wang, Yunsheng Wang, Ke Huang

2024Horticulture Research17 citationsDOIOpen Access PDF

Abstract

Abstract Broccoli (Brassica oleracea var. italica Plenck) is an important vegetable crop, as it is rich in health-beneficial glucosinolates (GSLs). However, the genetic basis of the GSL diversity in Brassicaceae remains unclear. Here we report a chromosome-level genome assembly of broccoli generated using PacBio HiFi reads and Hi-C technology. The final genome assembly is 613.79 Mb in size, with a contig N50 of 14.70 Mb. The GSL profile and content analysis of different B. oleracea varieties, combined with a phylogenetic tree analysis, sequence alignment, and the construction of a 3D model of the methylthioalkylmalate synthase 1 (MAM1) protein, revealed that the gene copy number and amino acid sequence variation both contributed to the diversity of GSL biosynthesis in B. oleracea. The overexpression of BoMAM1 (BolI0108790) in broccoli resulted in high accumulation and a high ratio of C4-GSLs, demonstrating that BoMAM1 is the key enzyme in C4-GSL biosynthesis. These results provide valuable insights for future genetic studies and nutritive component applications of Brassica crops.

Topics & Concepts

BiologyBrassica oleraceaGlucosinolateBrassicaGenomeBotanyChromosomeGeneticsBiotechnologyGeneGenomics, phytochemicals, and oxidative stressAdvances in Cucurbitaceae ResearchNitrogen and Sulfur Effects on Brassica
Chromosome-scale reference genome of broccoli (<i>Brassica oleracea</i> var. <i>italica</i> Plenck) provides insights into glucosinolate biosynthesis | Litcius