Abstract
BackgroundSome species of the whitefly Bemisia tabaci complex cause tremendous losses to crops worldwide through feeding directly and virus transmission indirectly. The primary salivary glands of whiteflies are critical for their feeding and virus transmission. However, partly due to their tiny size, research on whitefly salivary glands is limited and our knowledge on these glands is scarce.Methodology/Principal FindingsWe sequenced the transcriptome of the primary salivary glands of the Mediterranean species of B. tabaci complex using an effective cDNA amplification method in combination with short read sequencing (Illumina). In a single run, we obtained 13,615 unigenes. The quantity of the unigenes obtained from the salivary glands of the whitefly is at least four folds of the salivary gland genes from other plant-sucking insects. To reveal the functions of the primary glands, sequence similarity search and comparisons with the whole transcriptome of the whitefly were performed. The results demonstrated that the genes related to metabolism and transport were significantly enriched in the primary salivary glands. Furthermore, we found that a number of highly expressed genes in the salivary glands might be involved in secretory protein processing, secretion and virus transmission. To identify potential proteins of whitefly saliva, the translated unigenes were put into secretory protein prediction. Finally, 295 genes were predicted to encode secretory proteins and some of them might play important roles in whitefly feeding.Conclusions/Significance:The combined method of cDNA amplification, Illumina sequencing and de novo assembly is suitable for transcriptomic analysis of tiny organs in insects. Through analysis of the transcriptome, genomic features of the primary salivary glands were dissected and biologically important proteins, especially secreted proteins, were predicted. Our findings provide substantial sequence information for the primary salivary glands of whiteflies and will be the basis for future studies on whitefly-plant interactions and virus transmission.
Highlights
A wide range of hemipterans feed on phloem sap with their highly modified piecing-sucking mouthparts
After gap-filling and clustering, 13,615 unigenes (Table 1) were generated from these scaffolds with the size ranging from 150 bp to 2,345 bp (Figure S1)
The total number of unigenes obtained from the salivary glands of the whiteflies is at least four folds that of other plant sap-sucking insects, which may be attributable to the advantages of the generation sequencing [27,30,44]
Summary
A wide range of hemipterans feed on phloem sap with their highly modified piecing-sucking mouthparts. The saliva of phloem feeders is a mediator of plant- (pathogen-) insect interactions and the salivary glands, the key organs for secretory substance production and delivery, are indispensable in insect feeding and pathogen transmission [4]. The whitefly Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) is a genetically diverse species complex with a global distribution [5,6]. Species of the B. tabaci complex impair plants mainly by excessive sap consumption and plant virus transmission [14,15]. Their successful feeding and extensive damages to plants are likely enabled by whitefly saliva. Partly due to their tiny size, research on whitefly salivary glands is limited and our knowledge on these glands is scarce
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