Gene expression profiling reveals candidate genes for defining spider silk gland types

Molecular studies of the secretory glands involved in spider silk production have revealed candidate genes for silk synthesis and a complicated history of spider silk gene evolution. However, differential gene expression profiles of the multiple silk gland types within an individual orb-web weaving spider are lacking. Each of these gland types produces a functionally distinct silk type. Comparison of gene expression among spider silk gland types would provide insight into the genes that define silk glands generally from non-silk gland tissues, and the genes that define silk glands from each other. Here, we perform 3' tag digital gene expression profiling of the seven silk gland types of the silver garden orb weaver Argiope argentata. Five of these gland types produce silks that are non-adhesive fibers, one silk includes both fibers and glue-like adhesives, and one silk is exclusively gluelike. We identify 1275 highly expressed, significantly upregulated, and tissue specific silk gland specific transcripts (SSTs). These SSTs include seven types of spider silk protein encoding genes known as spidroin genes. We find that the fiber-producing major ampullate and minor ampullate silk glands have more similar expression profiles than any other pair of glands. We also find that a subset of the SSTs is enriched for transmembrane transport and oxidoreductases, and that these transcripts highlight differences and similarities among the major ampullate, minor ampullate, and aggregate silk glands. Furthermore, we show that the wet glue-producing aggregate glands have the most unique SSTs, but still share some SSTs with fiber producing glands. Aciniform glands were the only gland type to share a majority of SSTs with other silk gland types, supporting previous hypotheses that duplication of aciniform glands and subsequent divergence of the duplicates gave rise to the multiple silk gland types within an individual spider.

Automated summary

The molecular studies revealed candidate genes for silk synthesis in spider silk production. The differential gene expression profiles among different silk gland types provided insight into defining silk glands generally and from each other. The analysis showed similarities and differences among major ampullate, minor ampullate, and aggregate silk glands, indicating the evolution of multiple silk gland types within an individual spider.