Abstract
The advent of the genome sequences of Arachis duranensis and Arachis ipaensis has ushered in a new era for peanut genomics. With the goal of producing a gene atlas for cultivated peanut (Arachis hypogaea), 22 different tissue types and ontogenies that represent the full development of peanut were sequenced, including a complete reproductive series from flower to peg elongation and peg tip immersion in the soil to fully mature seed. Using a genome-guided assembly pipeline, a homeolog-specific transcriptome assembly for Arachis hypogaea was assembled and its accuracy was validated. The assembly was used to annotate 21 developmental co-expression networks as tools for gene discovery. Using a set of 8816 putative homeologous gene pairs, homeolog expression bias was documented, and although bias was mostly balanced, there were striking differences in expression bias in a tissue-specific context. Over 9000 alterative splicing events and over 6000 non-coding RNAs were further identified and profiled in a developmental context. Together, this work represents a major new resource for cultivated peanut and will be integrated into peanutbase.org as an available resource for all peanut researchers.
Highlights
Cultivated peanut (Arachis hypogaea) is an important grain legume worldwide, ranking second in production among all grain legumes and fifth among oilseeds
An allopolyploid (AABB type genome; 2n = 4x = 40), modern peanut evolved from the hybridization and subsequent chromosome doubling of two diploid species A. duranensis (A) and A. ipaensis (B) (Kochert et al, 1996; Seijo et al, 2007)
One additional assembly strategy and one alternative redundancy reduction pipeline were tested for comparison with the GG assembly (Table 1)
Summary
Cultivated peanut (Arachis hypogaea) is an important grain legume worldwide, ranking second in production among all grain legumes and fifth among oilseeds (fao.faostat.org, 2013). A. duranensis and A. ipaensis diverged only 2.5 – 3.5 million years ago, which is more recent than other allopolyploid progenitor genomes such as cotton (6.7 mya) or wheat (6.9 mya) (Senchina et al, 2003; Devos et al, 2005; Moretzsohn et al, 2013; Bertioli et al, 2016). Due to the recent divergence, the subgenomes of peanut are very similar to one another (Bertioli et al, 2016). Homeologous gene sequences between subgenomes become collapsed into consensus transcripts. This difficulty has led to incomplete transcriptome resources for A. hypogaea
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