The organelle genome includes the mitochondrial genome and the chloroplast genome. The chloroplast and mitochondrial genomes are highly conserved, and their main expression is matrilineal inheritance. The application of high-throughput sequencing and bioinformatics analysis technologies for genome assembly and gene structure prediction is important for studying species evolution, classification, and genetic diversity.
Technical advantages:
(1) Chloroplast genome sequencing with high speed.
(2) Combined second/third generation, perfect assembly close to 0 gap.
(3) Helping species classification, phylogeny, and genealogical geography research.
(4) Cheap price
Project Publications:
Liu Y.#, Li D.#, Zhang Q.#, Song C.#, Zhong C.#, Zhang X., Wang Y., Yao X., Wang Z., Zeng S., Wang Y., Guo Y., Wang S., Li X., Li L., Liu C., McCann H., He W., Niu Y., Chen M., Du L., Gong J., Datson P., Hilario E. and Huang H. Rapid radiations of both kiwifruit hybrid lineages and their parents shed light on a two-layer mode of species diversification. New Phytologist, 2017, 215(2). (IF = 7.299)
Wang S , Song Q , Li S , et al. Assembly of a Complete Mitogenome of Chrysanthemum nankingense Using Oxford Nanopore Long Reads and the Diversity and Evolution of Asteraceae Mitogenomes. Genes, 2018, 9(11). (IF = 3.331)