Improvement of whole-genome annotation of cereals through comparative analyses

Abstract

Rice is an important model species for the Poaceae and other monocotyledonous plants. With the availability of a near-complete, finished, and annotated rice genome, we performed genome level comparisons between rice and all plant species in which large genomic or transcriptomic data sets are available to determine the utility of cross-species sequence for structural and functional annotation of the rice genome. Through comparative analyses with four plant genome sequence data sets and transcript assemblies from 185 plant species, we were able to confirm and improve the structural annotation of the rice genome. Support for 38,109 (89.3%) of the total 42,653 nontransposable element-related genes in the rice genome in the form of a rice expressed sequence tag, full-length cDNA, or plant homolog from our comparative analyses could be found. Although the majority of the putative homologs were obtained from Poaceae species, putative homologs were identified in dicotyledonous angiosperms, gymnosperms, and other plants such as algae, moss, and fern. A set of rice genes (7669) lacking a putative homolog was identified which may be lineage-specific genes that evolved after speciation and have a role in species diversity. Improvements to the current rice gene structural annotation could be identified from our comparative alignments and we were able to identify 487 genes which were mostly likely missed in the current rice genome annotation and another 500 genes for structural annotation review. We were able to demonstrate the utility of cross-species comparative alignments in the identification of noncoding sequences and in confirmation of gene nesting in rice.