Non-replicative integral membrane proteins encoded by plant alpha-like viruses: Emergence of diverse orphan ORFs and movement protein genes
Solovyev A. G., Morozov S. Y.
Frontiers in Plant Science
Vol.8, Num.1820
Опубликовано: 2017
Тип ресурса: Статья
DOI:10.3389/fpls.2017.01820
Аннотация:
Fast accumulation of sequencing data on plant virus genomes and plant transcriptomes demands periodic re-evaluation of current views on the genome evolution of viruses. Here, we substantiate and further detail our previously mostly speculative model on the origin and evolution of triple gene block (TGB) encoding plant virus movement proteins TGB1, TGB2, and TGB3. Recent experimental data on functional competence of transport gene modules consisting of two proteins related to TGB1 and TGB2, as well as sequence analysis data on similarity of TGB2 and TGB3 encoded by a viral genome and virus-like RNAs identified in a plant transcriptomes, suggest that TGB evolution involved events of gene duplication and gene transfer between viruses. In addition, our analysis identified that plant RNA-seq data assembled into RNA virus-like contigs encode a significant variety of hydrophobic proteins. Functions of these orphan proteins are still obscure; however, some of them are obviously related to hydr
Ключевые слова:
Evolution; Insect virus; Membrane protein; Movement protein; Plant virus
Язык текста: Английский
ISSN: 1664-462X
Solovyev A. G. Andrej Gennadyevich 1965-
Morozov S. Y.
Соловьев А. Г. Андрей Геннадьевич 1965-
Морозов С. Y.
Non-replicative integral membrane proteins encoded by plant alpha-like viruses: Emergence of diverse orphan ORFs and movement protein genes
Текст визуальный непосредственный
Frontiers in Plant Science
Frontiers Research Foundation
Vol.8 Num.1820
2017
Статья
Evolution Insect virus Membrane protein Movement protein Plant virus
Fast accumulation of sequencing data on plant virus genomes and plant transcriptomes demands periodic re-evaluation of current views on the genome evolution of viruses. Here, we substantiate and further detail our previously mostly speculative model on the origin and evolution of triple gene block (TGB) encoding plant virus movement proteins TGB1, TGB2, and TGB3. Recent experimental data on functional competence of transport gene modules consisting of two proteins related to TGB1 and TGB2, as well as sequence analysis data on similarity of TGB2 and TGB3 encoded by a viral genome and virus-like RNAs identified in a plant transcriptomes, suggest that TGB evolution involved events of gene duplication and gene transfer between viruses. In addition, our analysis identified that plant RNA-seq data assembled into RNA virus-like contigs encode a significant variety of hydrophobic proteins. Functions of these orphan proteins are still obscure; however, some of them are obviously related to hydr