Molecular characterization, haplotype analysis and development of markers specific to dzs18 gene regulating methionine accumulation in kernels of subtropical maize.

Maize kernel protein is deficient in sulfur-containing essential amino acid such as methionine. The dzs18 gene encodes methionine-rich 18-kDa δ-zein in maize kernels. In this study, we sequenced full-length of dzs18 gene (820 bp) among 10 maize inbreds, revealing 43 SNPs and 22 InDels (average length-7.58 bp). Three InDels (4 bp at 113th, 15 bp at 463rd and 3 bp at 615th position) distinguished the wild-type (functional) from the mutant (non-functional) allele of dzs18. The 4 bp (TTAT) insertion caused a frameshift mutation, resulting in truncated DZS18 protein. The 15 bp insertion (ATG–TCT–TCG–ATG–ATA) added methionine–serine–serine–methionine–isoleucine, while the 3 bp deletion (CAA) led to loss of a glutamine residue in the mutant allele. Three gene-based PCR markers were developed for diversity analysis of dzs18 gene among 48 inbreds, which had an average methionine content of 0.136 %. (range: 0.031–0.340 %). Eight haplotypes were identified with methionine content varying from 0.066 % (Hap7) to 0.262 % (Hap3). Haplotypes with 4 bp deletion accumulated more methionine (0.174 %) than haplotypes with 4 bp insertion (0.082 %). The average methionine in 15 bp deletion and insertion haplotypes was 0.106 % and 0.150 %, respectively. The 3 bp insertion had 0.140 % methionine, while the deletion possessed 0.117 % methionine. Protein–protein association analysis predicted that DZS18 protein interacts with 19-kDa α-zein, 27- and 16-kDa γ-zeins, WAXY and O2 protein. A paralogue of dzs18 gene with 74 % sequence identity was identified. The functional markers reported here could facilitate the development of high methionine maize cultivars, which holds great significance to combat malnutrition, especially in developing countries. [ABSTRACT FROM AUTHOR]