Abstract
The current assembled maize genomes cannot represent the broad genetic diversity of maize germplasms. Acquiring more genome sequences is critical for constructing a pan-genome and elucidating the linkage between genotype and phenotype in maize. Here we describe the genome sequence and annotation of A188, a maize inbred line with high phenotypic variation relative to other lines, acquired by single-molecule sequencing and optical genome mapping. We assembled a 2210-Mb genome with a scaffold N50 size of 11.61 million bases (Mb), compared to 9.73 Mb for B73 and 10.2 Mb for Mo17. Based on the B73_RefGen_V4 genome, 295 scaffolds (2084.35 Mb, 94.30% of the final genome assembly) were anchored and oriented on ten chromosomes. Comparative analysis revealed that ~30% of the predicted A188 genes showed large structural divergence from B73, Mo17, and W22 genomes, which causes high protein divergence and may lead to phenotypic variation among the four inbred lines. As a line with high embryonic callus (EC) induction capacity, A188 provides a convenient tool for elucidating the molecular mechanism underlying the formation of EC in maize. Combining our new A188 genome with previously reported QTL and RNA sequencing data revealed eight genes with large structural variation and two differentially expressed genes playing potential roles in maize EC induction.
