Tassone Erica E, Cowden Charles C, Castle S J
Plant Physiology and Genetics Research Unit, U.S. Arid Land Agricultural Research Center, USDA ARS, Maricopa, AZ USA.
Pest Management and Biocontrol Research Unit, U.S. Arid Land Agricultural Research Center, USDA ARS, Maricopa, AZ USA.
Gigascience. 2017 Mar 1;6(3):1-4. doi: 10.1093/gigascience/giw007.
Spittle bugs and sharpshooters are well-known xylem sap-feeding insects and vectors of the phytopathogenic bacterium Xylella fastidiosa (Wells), a causal agent of Pierce's disease of grapevines and other crop diseases. Specialized feeding on nutrient-deficient xylem sap is relatively rare among insect herbivores, and only limited genomic and transcriptomic information has been generated for xylem-sap feeders. To develop a more comprehensive understanding of biochemical adaptations and symbiotic relationships that support survival on a nutritionally austere dietary source, transcriptome assemblies for three sharpshooter species and one spittlebug species were produced.
Trinity-based de novo transcriptome assemblies were generated for all four xylem-sap feeders using raw sequencing data originating from whole-insect preps. Total transcripts for each species ranged from 91 384 for Cuerna arida to 106 998 for Homalodisca liturata with transcript totals for Graphocephala atropunctata and the spittlebug Clastoptera arizonana falling in between. The percentage of transcripts comprising complete open reading frames ranged from 60% for H. liturata to 82% for C. arizonana. Bench-marking universal single-copy orthologs analyses for each dataset indicated quality assemblies and a high degree of completeness for all four species.
These four transcriptomes represent a significant expansion of data for insect herbivores that feed exclusively on xylem sap, a nutritionally deficient dietary source relative to other plant tissues and fluids. Comparison of transcriptome data with insect herbivores that utilize other dietary sources may illuminate fundamental differences in the biochemistry of dietary specialization.
沫蝉和叶蝉是著名的取食木质部汁液的昆虫,也是植物致病细菌——葡萄皮尔氏病及其他作物病害的病原体——快速木杆菌(韦尔斯)的传播媒介。在植食性昆虫中,专门取食营养匮乏的木质部汁液的情况相对较少,关于取食木质部汁液昆虫的基因组和转录组信息也很有限。为了更全面地了解支持在营养匮乏的食物来源上生存的生化适应和共生关系,我们对三种叶蝉物种和一种沫蝉物种进行了转录组组装。
利用全虫样本的原始测序数据,为所有四种取食木质部汁液的昆虫生成了基于Trinity的从头转录组组装。每个物种的转录本总数从干旱角沫蝉的91384个到杂色长头叶蝉的106998个不等,黄斑叶蝉和亚利桑那沫蝉的转录本总数介于两者之间。包含完整开放阅读框的转录本百分比从杂色长头叶蝉的60%到亚利桑那沫蝉的82%不等。对每个数据集进行的基准通用单拷贝直系同源基因分析表明,所有四个物种的组装质量良好且完整性很高。
这四个转录组显著扩展了仅以木质部汁液为食的植食性昆虫的数据,相对于其他植物组织和汁液而言,木质部汁液是一种营养匮乏的食物来源。将转录组数据与利用其他食物来源的植食性昆虫进行比较,可能会揭示饮食特化生物化学方面的根本差异。