Abstract
BackgroundSesame (Sesamum indicum L.) is a globally important oilseed crop with highly-valued oil. Strong hybrid vigor is frequently observed within this crop, which can be exploited by the means of genic male sterility (GMS). We have previously developed a dominant GMS (DGMS) line W1098A that has great potential for the breeding of F1 hybrids. Although it has been genetically and anatomically characterized, the underlying molecular mechanism for male sterility remains unclear and therefore limits the full utilization of such GMS line. In this study, RNA-seq based transcriptome profiling was carried out in two near-isogenic DGMS lines (W1098A and its fertile counterpart, W1098B) to identify differentially expressed genes (DEGs) related to male sterility.ResultsA total of 1,502 significant DEGs were detected, among which 751 were up-regulated and 751 were down-regulated in sterile flower buds. A number of DEGs were implicated in both ethylene and JA synthesis & signaling pathway; the expression of which were either up- or down-regulated in the sterile buds, respectively. Moreover, the majority of NAC and WRKY transcription factors implicated from the DEGs were up-regulated in sterile buds. By querying the Plant Male Reproduction Database, 49 sesame homologous genes were obtained; several of these encode transcription factors (bHLH089, MYB99, and AMS) that showed reduced expression in sterile buds, thus implying the possible role in specifying or determining tapetal fate and development. The predicted effect of allelic variants on the function of their corresponding DEGs highlighted several Insertions/Deletions (InDels), which might be responsible for the phenotype of sterility/fertility in DGMS lines.ConclusionThe present comparative transcriptome study suggested that both hormone signaling pathway and transcription factors control the male sterility of DGMS in sesame. The results also revealed that several InDels located in DEGs prone to cause loss of function, which might contribute to male sterility. These findings provide valuable genomic resources for a deeper insight into the molecular mechanism underlying DGMS.Electronic supplementary materialThe online version of this article (doi:10.1186/s12870-016-0934-x) contains supplementary material, which is available to authorized users.
Highlights
Sesame (Sesamum indicum L.) is a globally important oilseed crop with highly-valued oil
Transcriptome profiling of fertile and sterile buds We have previously demonstrated that male sterility mainly occurred at pollen mother cells (PMC) stage in dominant genic male sterility (GMS) (DGMS) line [8]
We found that a total of 22,373 and 22,788 genes were hit by the unique reads from fertile and sterile buds, respectively, which accounted for >82 % of the known gene models
Summary
Sesame (Sesamum indicum L.) is a globally important oilseed crop with highly-valued oil. We have previously developed a dominant GMS (DGMS) line W1098A that has great potential for the breeding of F1 hybrids. It has been genetically and anatomically characterized, the underlying molecular mechanism for male sterility remains unclear and limits the full utilization of such GMS line. Sesame (Sesamum indicum L.) is a globally important and ancient oilseed crop mainly consumed for highquality oil [1, 2]. Only recessive GMS has been successfully applied to the production of sesame F1 hybrids This method might be constrained by certain drawbacks such as environmental sensitivity, incomplete sterility, and the timely removal of 50 % male-fertile plantlets from two-type lines for hybrid seeds production [7].
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