三锥虫属(半翅目,红蝽科,三锥虫亚科)分类学趋势:生殖相容性加强了 Meccus Stål, 1859 与 Triatoma Laporte, 1832 的同义化。
Trends in taxonomy of Triatomini (Hemiptera, Reduviidae, Triatominae): reproductive compatibility reinforces the synonymization of Meccus Stål, 1859 with Triatoma Laporte, 1832.
机构信息
Universidade Estadual Paulista "Júlio de Mesquita Filho" (UNESP), Instituto de Biociências , Rua Dr. Antônio Celso Wagner Zanin, 250, Distrito de Rubião Júnior , Botucatu, SP, 18618-689, Brazil.
Laboratório de Entomologia em Saúde Pública, Departamento de Epidemiologia, Faculdade de Saúde Pública , Universidade de São Paulo, Av. Dr. Arnaldo 715, São Paulo, SP, Brazil.
出版信息
Parasit Vectors. 2021 Jun 26;14(1):340. doi: 10.1186/s13071-021-04847-7.
BACKGROUND
Meccus' taxonomy has been quite complex since the first species of this genus was described by Burmeister in 1835 as Conorhinus phyllosoma. In 1859 the species was transferred to the genus Meccus and in 1930 to Triatoma. However, in the twentieth century, the Meccus genus was revalidated (alteration corroborated by molecular studies) and, in the twenty-first century, through a comprehensive study including more sophisticated phylogenetic reconstruction methods, Meccus was again synonymous with Triatoma. Events of natural hybridization with production of fertile offspring have already been reported among sympatric species of the T. phyllosoma subcomplex, and experimental crosses demonstrated reproductive viability among practically all species of the T. phyllosoma subcomplex that were considered as belonging to the genus Meccus, as well as between these species and species of Triatoma. Based on the above, we carried out experimental crosses between T. longipennis (considered M. longipennis in some literature) and T. mopan (always considered as belonging to Triatoma) to evaluate the reproductive compatibility between species of the T. phyllosoma complex. In addition, we have grouped our results with information from the literature regarding crosses between species that were grouped in the genus Meccus with Triatoma, in order to discuss the importance of experimental crosses to confirm the generic reorganization of species.
RESULTS
The crosses between T. mopan female and T. longipennis male resulted in viable offspring. The hatching of hybrids, even if only in one direction and/or at low frequency, demonstrates reproductive compatibility and homeology between the genomes of the parents.
CONCLUSION
Considering that intergeneric crosses usually do not result in viable offspring in Triatominae, the reproductive compatibility observed between the T. phyllosoma subcomplex species considered in the Meccus genus with species of the Triatoma genus shows that there is "intergeneric" genomic compatibility, which corroborates the generic reorganization of Meccus in Triatoma.
背景
自 1835 年 Burmeister 首次描述该属的第一个物种 Conorhinus phyllosoma 以来,Meccus 的分类学一直非常复杂。1859 年,该物种被转移到 Meccus 属,1930 年又转移到 Triatoma 属。然而,在 20 世纪,Meccus 属被重新合法化(分子研究证实了这一变化),并在 21 世纪,通过包括更复杂的系统发育重建方法的综合研究,Meccus 再次与 Triatoma 同义。已经报道了同域的 T. phyllosoma 亚复合体物种之间发生自然杂交并产生可育后代的事件,实验杂交表明,在被认为属于 Meccus 属的 T. phyllosoma 亚复合体的几乎所有物种之间以及这些物种与 Triatoma 之间都具有生殖活力。基于上述情况,我们进行了 T. longipennis(在某些文献中被认为是 M. longipennis)和 T. mopan 之间的实验杂交,以评估 T. phyllosoma 复合体物种之间的生殖相容性。此外,我们将我们的结果与文献中关于 Meccus 属与 Triatoma 属物种之间杂交的信息进行了分组,以便讨论实验杂交对确认物种的属重组的重要性。
结果
T. mopan 雌性与 T. longipennis 雄性的杂交产生了有活力的后代。杂种的孵化,即使只是在一个方向上和/或频率较低,也证明了父母基因组之间的生殖相容性和同源性。
结论
考虑到在 Triatominae 中,种间杂交通常不会产生有活力的后代,因此在 Meccus 属中被认为是 T. phyllosoma 亚复合体的物种与 Triatoma 属的物种之间观察到的生殖相容性表明存在“种间”基因组相容性,这证实了 Meccus 在 Triatoma 中的属重组。
Zotero 插件