Shedding New Light on the Hull-Pericarp Adhesion Mechanisms of Barley Grains by Transcriptomics Analysis of Isogenic and Lines.

In barley having adherent hulls, an irreversible connection between the pericarp with both palea and lemma is formed during grain maturation. A mutation in the () gene prevents this connection and leads to the formation of barley with non-adherent hulls. A genetic model of two isogenic lines was used to elucidate the genetic mechanisms of hull adhesion: a doubled haploid line having adherent hulls and its derivative with non-adherent hulls obtained by targeted mutagenesis of the gene. Comparative transcriptomics analysis of the grain coats was performed at two stages of development: the milk stage, when the hulls can still be easily detached from the pericarp, and the dough stage when the hull adhesion process occurs. It was shown that the main differences in the transcriptomes lie in the genes related to DNA replication and chromatin assembly, cell wall organization, and cuticle formation. Meanwhile, genes involved in lipid biosynthesis mostly show minor differences in expression between stages and genotypes and represent a limited set of active genes. Among the 3-ketoacyl-CoA synthase (KCS) genes active during grain development, candidates for key enzymes responsible for very long-chain fatty acid elongation were identified.