Your search keyword '"Gillum, Ashley"' showing total 2 results

1. Unique architecture of thermophilic archaeal virus APBV1 and its genome packaging.

Author

Ptchelkine D, Gillum A, Mochizuki T, Lucas-Staat S, Liu Y, Krupovic M, Phillips SEV, Prangishvili D, and Huiskonen JT

Subjects

Archaeal Viruses ultrastructure, Cryoelectron Microscopy, DNA, Superhelical chemistry, DNA, Superhelical genetics, DNA, Viral chemistry, DNA, Viral genetics, Glycosylation, Hydrophobic and Hydrophilic Interactions, Imaging, Three-Dimensional, Models, Molecular, Protein Subunits, Viral Structural Proteins chemistry, Viral Structural Proteins genetics, Virus Assembly genetics, Aeropyrum virology, Archaeal Viruses genetics, Archaeal Viruses physiology, Genome, Viral

Abstract

Archaeal viruses have evolved to infect hosts often thriving in extreme conditions such as high temperatures. However, there is a paucity of information on archaeal virion structures, genome packaging, and determinants of temperature resistance. The rod-shaped virus APBV1 (Aeropyrum pernix bacilliform virus 1) is among the most thermostable viruses known; it infects a hyperthermophile Aeropyrum pernix, which grows optimally at 90 °C. Here we report the structure of APBV1, determined by cryo-electron microscopy at near-atomic resolution. Tight packing of the major virion glycoprotein (VP1) is ensured by extended hydrophobic interfaces, and likely contributes to the extreme thermostability of the helical capsid. The double-stranded DNA is tightly packed in the capsid as a left-handed superhelix and held in place by the interactions with positively charged residues of VP1. The assembly is closed by specific capping structures at either end, which we propose to play a role in DNA packing and delivery.

Published

2017

2. Virus found in a boreal lake links ssDNA and dsDNA viruses.

Author

Laanto E, Mäntynen S, De Colibus L, Marjakangas J, Gillum A, Stuart DI, Ravantti JJ, Huiskonen JT, and Sundberg LR

Subjects

Bacteriophage PRD1 genetics, Capsid, DNA Viruses classification, DNA Viruses isolation & purification, DNA, Single-Stranded genetics, Lakes virology, Protein Conformation, Capsid Proteins metabolism, DNA Viruses genetics, Flavobacterium virology, Genome, Viral genetics

Abstract

Viruses have impacted the biosphere in numerous ways since the dawn of life. However, the evolution, genetic, structural, and taxonomic diversity of viruses remain poorly understood, in part because sparse sampling of the virosphere has concentrated mostly on exploring the abundance and diversity of dsDNA viruses. Furthermore, viral genomes are highly diverse, and using only the current sequence-based methods for classifying viruses and studying their phylogeny is complicated. Here we describe a virus, FLiP ( Flavobacterium -infecting, lipid-containing phage), with a circular ssDNA genome and an internal lipid membrane enclosed in the icosahedral capsid. The 9,174-nt-long genome showed limited sequence similarity to other known viruses. The genetic data imply that this virus might use replication mechanisms similar to those found in other ssDNA replicons. However, the structure of the viral major capsid protein, elucidated at near-atomic resolution using cryo-electron microscopy, is strikingly similar to that observed in dsDNA viruses of the PRD1-adenovirus lineage, characterized by a major capsid protein bearing two β-barrels. The strong similarity between FLiP and another member of the structural lineage, bacteriophage PM2, extends to the capsid organization (pseudo T = 21 dextro ) despite the difference in the genetic material packaged and the lack of significant sequence similarity., Competing Interests: The authors declare no conflict of interest.

Published

2017