Tianjin Key Laboratory of Conservation and Utilization of Animal Diversity, College of Life Sciences, Tianjin Normal University, 300387 Tianjin, China.
Academy of Medical Engineering and Translational Medicine, Tianjin University, 300072 Tianjin, China.
Comp Biochem Physiol Part D Genomics Proteomics. 2024 Sep;51:101248. doi: 10.1016/j.cbd.2024.101248. Epub 2024 May 21.
Chironomidae, non-biting midges, a diverse and abundant insect group in global aquatic ecosystems, represent an exceptional model for investigating genetic adaptability mechanisms in aquatic insects due to their extensive species diversity and resilience to various environmental conditions. The cuticle in insects acts as the primary defense against ecological pressures. Cuticular Proteins (CPs) determine cuticle characteristics, facilitating adaptation to diverse challenges. However, systematic annotation of CP genes has only been conducted for one Chironomidae species, Propsilocerus akamusi, by our team. In this study, we expanded this annotation by identifying CP genes in eight additional Chironomidae species, covering all Chironomidae species with available genome data. We identified a total of 889 CP genes, neatly categorized into nine CP families: 215 CPR RR1 genes, 272 CPR RR2 genes, 23 CPR RR3 genes, 21 CPF genes, 16 CPLCA genes, 19 CPLCG genes, 28 CPLCP genes, 77 CPAP genes, and 37 Tweedle genes. Subsequently, we conducted a comprehensive phylogenetic analysis of CPs within the Chironomidae family. This expanded annotation of CP genes across diverse Chironomidae species significantly contributes to our understanding of their remarkable adaptability.
摇蚊科,不吸血的双翅目昆虫,在全球水生生态系统中是一个多样化且丰富的昆虫类群,由于其广泛的物种多样性和对各种环境条件的适应能力,是研究水生昆虫遗传适应性机制的一个极好模型。昆虫的外骨骼作为抵御生态压力的主要防线。表皮蛋白(CPs)决定了外骨骼的特征,有助于适应各种挑战。然而,CP 基因的系统注释仅由我们团队对一种摇蚊科物种 Propsilocerus akamusi 进行了研究。在本研究中,我们通过鉴定另外 8 种摇蚊科物种中的 CP 基因,扩展了这一注释,涵盖了所有具有可用基因组数据的摇蚊科物种。我们总共鉴定出 889 个 CP 基因,这些基因被整齐地归类为 9 个 CP 家族:215 个 CPR RR1 基因、272 个 CPR RR2 基因、23 个 CPR RR3 基因、21 个 CPF 基因、16 个 CPLCA 基因、19 个 CPLCG 基因、28 个 CPLCP 基因、77 个 CPAP 基因和 37 个 Tweedle 基因。随后,我们对摇蚊科内的 CP 进行了全面的系统发育分析。对不同摇蚊科物种的 CP 基因进行扩展注释,极大地促进了我们对它们显著适应性的理解。
