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Your search keyword '"Deborah Jacobs-Sera"' showing total 2 results
Start Over Author "Deborah Jacobs-Sera" Publisher elsevier bv
2 results on '"Deborah Jacobs-Sera"'

1. A structural dendrogram of the actinobacteriophage major capsid proteins provides important structural insights into the evolution of capsid stability

Author

Jennifer M. Podgorski, Krista Freeman, Sophia Gosselin, Alexis Huet, James F. Conway, Mary Bird, John Grecco, Shreya Patel, Deborah Jacobs-Sera, Graham Hatfull, Johann Peter Gogarten, Janne Ravantti, and Simon White

Subjects
Structural Biology, Molecular Biology
Abstract

Many double-stranded DNA viruses, including tailed bacteriophages (phages) and herpesviruses, use the HK97-fold in their major capsid protein to make the capsomers of the icosahedral viral capsid. Following the genome packaging at near-crystalline densities, the capsid is subjected to a major expansion and stabilization step that allows it to withstand environmental stresses and internal high pressure. Several different mechanisms for stabilizing the capsid have been structurally characterized, but how these mechanisms have evolved is still not understood. Using cryo-EM structure determination, structural comparisons, phylogenetic analyses, and Alphafold predictions, we have constructed a detailed structural dendrogram describing the evolution of capsid structural stability within the actinobacteriophages. The cryo-EM reconstructions of ten capsids solved to resolutions between 2.2 and 4 Ångstroms revealed that eight of them exhibit major capsid proteins that are linked by a covalent cross-linking (isopeptide bond) between subunits that was first described in the HK97 phage. Those covalent interactions ultimately lead to the formation of mutually interlinked capsomers that has been compared to the structure of chain mail. However, three of the closely related phages do not exhibit such an isopeptide bond as demonstrated by both our cryo-EM maps and the lack of the required residue. This work raises questions about the importance of previously described capsid stabilization mechanisms.

Published
2023

2. Comparative Genomic Analysis of 60 Mycobacteriophage Genomes: Genome Clustering, Gene Acquisition, and Gene Size

Author

Molly S. Grace, Roger W. Hendrix, Jessica L. Wynalek, Robert H. Edgar, Marlana S. Myers, Craig L. Peebles, Matthew B. O'Brien, Andrew J. Hryckowian, Welkin H. Pope, Rebecca J. Weber, Alexis L. Smith, Natasha N. Hoyte, Helen Donis-Keller, Katherine L. Germane, Matt W. Bogel, Steven G. Cresawn, Daniel A. Russell, Manisha C. Patel, Ching-Chung Ko, Amy M. Vogelsberger, Deborah Jacobs-Sera, Anthony T. Tantoco, Charles A. Bowman, Graham F. Hatfull, Thuy T. Pham, Jeffrey G. Lawrence, and Elizabeth C. Paladin

Subjects
Genes, Viral, Mycobacteriophage, Molecular Sequence Data, Genomics, Sequence alignment, Bacterial genome size, Genome, Article, Bacteriophage, Open Reading Frames, Structural Biology, Cluster Analysis, Molecular Biology, Phylogeny, Synteny, Genetics, Base Sequence, biology, Nucleotides, Virion, Nucleic acid sequence, Genetic Variation, Mycobacteriophages, Sequence Analysis, DNA, biology.organism_classification, Multigene Family, Sequence Alignment
Abstract

Mycobacteriophages are viruses that infect mycobacterial hosts. Expansion of a collection of sequenced phage genomes to a total of sixty – all infecting a common bacterial host – provides further insight into their diversity and evolution. Of the sixty phage genomes, 55 can be grouped into nine clusters according to their nucleotide sequence similarities, five of which can be further divided into subclusters; five genomes do not cluster with other phages. The sequence diversity between genomes within a cluster varies greatly; for example, the six genomes in cluster D share more than 97.5% average nucleotide similarity with each other. In contrast, similarity between the two genomes in Cluster I is barely detectable by diagonal plot analysis. The total of 6,858 predicted ORFs have been grouped into 1523 phamilies (phams) of related sequences, 46% of which possess only a single member. Only 18.8% of the phams have sequence similarity to non-mycobacteriophage database entries and fewer than 10% of all phams can be assigned functions based on database searching or synteny. Genome clustering facilitates the identification of genes that are in greatest genetic flux and are more likely to have been exchanged horizontally in relatively recent evolutionary time. Although mycobacteriophage genes exhibit smaller average size than genes of their host (205 residues compared to 315), phage genes in higher flux average only ∼100 amino acids, suggesting that the primary units of genetic exchange correspond to single protein domains.

Published
2010

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