Valles Steven M, Rivers Adam R
Center for Medical, Agricultural and Veterinary Entomology, USDA-ARS, Gainesville, FL, USA.
Genomics and Bioinformatics Research Unit, USDA-ARS, Gainesville, FL, USA.
Virus Genes. 2019 Jun;55(3):368-380. doi: 10.1007/s11262-019-01652-4. Epub 2019 Mar 7.
The red imported fire ant (Solenopsis invicta) escaped its natural enemies when it was introduced into North America in the 1930s from South America. US efforts have focused on discovery of natural enemies, like viruses, to provide sustainable control of the ant. Nine new virus genomes were sequenced from the invasive fire ant Solenopsis invicta using metagenomic RNA sequencing. The virus genomes were verified by Sanger sequencing and random amplification of cDNA ends reactions. In addition to the nine new virus genomes, the previously described Solenopsis viruses were also detected, including Solenopsis invicta virus 1 (SINV-1), SINV-2, SINV-3, SINV-4, SINV-5, and Solenopsis invicta densovirus. The virus sequences came from S. invicta workers, larvae, pupae, and dead workers taken from midden piles collected from across the ant's native range in Formosa, Argentina. One of the new virus genomes (Solenopsis invicta virus 6) was also detected in populations of North American S. invicta. Phylogenetic analysis of the RNA dependent RNA polymerase, the entire nonstructural polyprotein, and genome characteristics were used to tentatively taxonomically place these new virus genome sequences; these include four new species of Dicistroviridae, one Polycipiviridae, one Iflaviridae, one Totiviridae, and two genome sequences that were too taxonomically divergent to be placed with certainty. The S. invicta virome is the best characterized from any ant species and includes 13 positive-sense, single-stranded RNA viruses (Solenopsis invicta virus 1 to Solenopsis invicta virus 13), one double-stranded RNA virus (Solenopsis midden virus), and one double-stranded DNA virus (Solenopsis invicta densovirus). These new additions to the S. invicta virome offer potentially new classical biological control agents for S. invicta.
红火蚁(Solenopsis invicta)于20世纪30年代从南美洲引入北美后,逃脱了其天敌的控制。美国的研究工作主要集中在寻找诸如病毒等天敌,以实现对红火蚁的可持续控制。利用宏基因组RNA测序技术,从入侵红火蚁Solenopsis invicta中测序了9个新的病毒基因组。通过桑格测序和cDNA末端随机扩增反应对病毒基因组进行了验证。除了这9个新的病毒基因组外,还检测到了先前描述的红火蚁病毒,包括红火蚁病毒1(SINV-1)、SINV-2、SINV-3、SINV-4、SINV-5和红火蚁浓核病毒。病毒序列来自于从阿根廷福尔摩沙红火蚁原生地收集的蚁巢堆中的工蚁、幼虫、蛹和死亡工蚁。在北美红火蚁种群中也检测到了其中一个新的病毒基因组(红火蚁病毒6)。通过对RNA依赖的RNA聚合酶、整个非结构多蛋白和基因组特征进行系统发育分析,初步对这些新的病毒基因组序列进行了分类;其中包括4个双顺反子病毒科新物种、1个多聚病毒科、1个伊弗病毒科、1个双链RNA病毒科,以及2个基因组序列,其分类差异过大,无法确定其归属。红火蚁病毒组是所有蚁种中特征描述最完善的,包括13种正链单链RNA病毒(红火蚁病毒1至红火蚁病毒13)、1种双链RNA病毒(红火蚁蚁巢病毒)和1种双链DNA病毒(红火蚁浓核病毒)。红火蚁病毒组中的这些新成员为红火蚁提供了潜在的新型经典生物防治剂。
