Soybean is an economically important leguminous crop, and pod dehiscence of soybean could cause huge yield loss. In this study, we measured fruit-cracking forces and percentages of dehisced pods for ten soybean accessions, then separated them into two groups as shattering-sensitive (SS) and shattering-resistant (SR) soybeans. Pod transcriptomes from these two groups were analyzed, and 225 differentially expressed genes (DEGs) were identified between SS and SR soybeans. Some of these DEGs have been previously reported to be associated with pod dehiscence in soybean. The expression patterns of selected DEGs were validated by real-time quantitative reverse transcription PCR, which confirmed the expression changes found in RNA-seq analysis. We also de novo identified 246 soybean pod-long intergenic ncRNAs (lincRNAs), 401 intronic lncRNAs, and 23 antisense lncRNAs from these transcriptomes. Furthermore, genes and lincRNAs co-expression network analysis showed that there are distinct expression patterns between SS and SR soybeans in some co-expression modules. In conclusion, we systematically investigated potential genes and molecular pathways as candidates for differences in soybean pod dehiscence and will provide a useful resource for molecular breeding of soybeans.
Keywords: Long noncoding RNA; Pod dehiscence; RNA-seq; Soybean.