Tribe Phylini belongs to the subfamily Phylinae and family Miridae with more species. Up to present, moer than 200 genera and about 2 000 species of Phylini have been known all around the world. They are mainly distributed in the Palaearetic, Nearctic, Oriental and Ethiopian region. This paper reviews the re- search history of Phylini, analyzes the establishment process of its classification system, and summarizes the research conditions of Phylini in China.
The phylogenetic relationships among the Nepomorpha (Hemiptera: Heteroptera) were analyzed based on nuclear protein coding genes-partial sequences of four Hox genes: abd-A, Dfd, Ubx and pb. Fifteen taxa, of which eleven were ingroups representing ten of the eleven families, were selected to produce a phylogenetic inference of nepomorphan superfamilial or familial relationships via parsimony and Bayesian techniques. Our results supported the monophylies of Nepomorpha, Naucoroidea (Aphelocheiridae + Naucoridae), Nepoidea (Belostomatidae + Nepidae), Ochteroidea (Ochteridae + Gelastocoridae) and Pieoidea (Pleidae + Helotrephidae); the most basal lineage of Ochteroidea; Notonectoidea contained Notonectidae only and formed a new sister relationship with (Pleoidea + Naucoroidea); and the sister relationship of (Nepoidea + Corixoidea). The Hox genes are suitable molecular markers to resolve phylogenetic relationships at superfamily or family levels in Heteroptera.
With the development and decreasing cost of sequencing techniques, it is possible for scientists to conduct deeper research in phylogenomics. During the procedure of phylogenomic analysis, the mostimportant and vitalest step is orthology prediction, for that the prerequisite to phylogenetic reconstruction is that the genes being compared are orthologous. Here we briefly review the related concept of orthology anddifferent methods for orthology prediction. We also provide recommendations to give some advice for better selection of orthology prediction methods.
