Your search keyword '"TRNA"' showing total 2 results

1. Chloroplast genomes of key species shed light on the evolution of the ancient genus Isoetes.

Author

Pereira, Jovani B. S., Giulietti, Ana Maria, Pires, Eder S., Laux, Marcele, Watanabe, Maurício T. C., Oliveira, Renato R. M., Vasconcelos, Santelmo, and Oliveira, Guilherme

Subjects

*STOP codons, *SPECIES, *NUCLEOTIDE sequencing, *INTRONS, *TRANSFER RNA, *CHLOROPLAST DNA

Abstract

Although phylogenetic studies have revealed major clades, the deepest relationships in Isoetes remain unresolved. The use of next‐generation sequencing provides enormous amounts of gene sequences, which allows not only clarification of the basal relationships but also rapid radiations. Plastomes of six key Isoetes species were annotated, revealing a total of 129 or 130 genes, depending on the species. Our phylogenomic analyses comprising representatives of all major clades yielded well‐supported nodes and identical topologies using maximum likelihood and Bayesian inference. The phylogenetic reconstructions detangled the deep relationships in Isoetes and illuminated the more recent radiations in the genus. A basal dichotomy was found that grouped Isoetes spp. from Brazil and South Africa into a clade sister to the remaining Isoetes groups. Interestingly, I. andicola was found to be sister to the North American species complex. Genomic trait mapping analysis showed that the missing introns in the atpF and clpP genes were well conserved in two major clades. The absence of trnK‐UUU was observed in the Brazilian tropical species and in I. velata. Among lycophytes, the gene trnR‐CCG was missing only in I. eludens. In general, genomic traits such as the presence or absence of internal stop codons, a tRNA, and an intron were revealed to be conserved within groups, suggesting that these genomic traits might reveal vital information about the evolution of the genus. This study will contribute to understanding the diversification of Isoetes and the establishment of a better framework to address the evolutionary history of the genus. [ABSTRACT FROM AUTHOR]

Published

2021

2. Characterization and genomic analyses of a novel alphabaculovirus isolated from the black armyworm, Spodoptera cosmioides (Lepidoptera: Noctuidae).

Author

Resmin, Cassio, Santos, Ethiane R., Sosa-Gómez, Daniel R., Ribeiro, Bergmann Morais, and Ardisson-Araújo, Daniel M.P.

Subjects

*SPODOPTERA, *GENOMICS, *SPODOPTERA littoralis, *NOCTUIDAE, *BEET armyworm, *FALL armyworm, *BIOPESTICIDES

Abstract

• We characterized a novel alphabaculovirus of Spodoptera cosmioides , called SpcoNPV-CNPSo-72. • SpcoNPV-CNPSo-72 presented polyhedral OBs and multiple-nucleocapsids per ODV. • The virus was able to kill S. cosmioides , but not S. frugiperda. • Its genome is 147,763 bp long with 151 ORFs and may represent a new species. • SpcoNPV-CNPSo-72 codes for a putative tRNA-Arg gene inside the bjdp gene. The black armyworm Spodoptera cosmioides is a pest of increasing importance in Cry1Ac-Bt toxin crops and non-Bt crops of soybean and cotton in Brazil. Here we characterized a baculovirus isolated from extracts of S. cosmioides that died with symptoms of nuclear polyhedrosis. The putative novel virus exhibited polyhedral occlusion bodies (OBs) with virions containing multiple rod-shaped nucleocapsids, characteristic of alphabaculoviruses. The virus isolate was named Spodoptera cosmioides nucleopolyhedrovirus isolate CNPSo-72 (SpcoNPV-CNPSo-72). SpcoNPV-CNPSo-72 was lethal to third-instar S. cosmioides caterpillars but not to S. frugiperda under the tested viral concentrations. Moreover, SpcoNPV-CNPSo-72 contained a circular 147,763 bp long genome and a G + C content of 44.8% with 151 annotated ORFs (10 unique for baculovirus) and five homologous regions (hrs). The 38 currently defined baculovirus core genes were found in the SpcoNPV-CNPSo-72 genome. After phylogenetic analysis, the novel virus was found to be closely related to other members of Alphabaculovirus , especially to the Spodoptera -infecting viruses, which included Spodoptera eridania nucleopolyhedrovirus isolate 251, Spodoptera litura nucleopolyhedrovirus isolate II, Spodoptera exigua multiple nucleopolyhedrovirus isolate US-1, Spodoptera eridania nucleopolyhedrovirus isolate CNPSo-165, and Spodoptera frugiperda multiple nucleopolyhedrovirus isolate 19. Surprisingly, the new baculoviral genome was found to code for a putative arginine-associated tRNA gene with a predicted intronic sequence of 105 nt. The gene was found inside the bjdp CDS. Overall, baculoviruses are pathogens that lethally infect insect larvae and their study allows a better understanding of large DNA virus evolution, which provides important insights for the development and improvement of biological control agents. [ABSTRACT FROM AUTHOR]

Published

2022