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1.
Viruses ; 15(10)2023 09 30.
Article in English | MEDLINE | ID: mdl-37896809

ABSTRACT

The 2023 International Virus Bioinformatics Meeting was held in Valencia, Spain, from 24-26 May 2023, attracting approximately 180 participants worldwide. The primary objective of the conference was to establish a dynamic scientific environment conducive to discussion, collaboration, and the generation of novel research ideas. As the first in-person event following the SARS-CoV-2 pandemic, the meeting facilitated highly interactive exchanges among attendees. It served as a pivotal gathering for gaining insights into the current status of virus bioinformatics research and engaging with leading researchers and emerging scientists. The event comprised eight invited talks, 19 contributed talks, and 74 poster presentations across eleven sessions spanning three days. Topics covered included machine learning, bacteriophages, virus discovery, virus classification, virus visualization, viral infection, viromics, molecular epidemiology, phylodynamic analysis, RNA viruses, viral sequence analysis, viral surveillance, and metagenomics. This report provides rewritten abstracts of the presentations, a summary of the key research findings, and highlights shared during the meeting.


Subject(s)
Bacteriophages , RNA Viruses , Virus Diseases , Viruses , Humans , Computational Biology , Viruses/genetics
2.
Viruses ; 14(5)2022 05 05.
Article in English | MEDLINE | ID: mdl-35632715

ABSTRACT

The International Virus Bioinformatics Meeting 2022 took place online, on 23-25 March 2022, and has attracted about 380 participants from all over the world. The goal of the meeting was to provide a meaningful and interactive scientific environment to promote discussion and collaboration and to inspire and suggest new research directions and questions. The participants created a highly interactive scientific environment even without physical face-to-face interactions. This meeting is a focal point to gain an insight into the state-of-the-art of the virus bioinformatics research landscape and to interact with researchers in the forefront as well as aspiring young scientists. The meeting featured eight invited and 18 contributed talks in eight sessions on three days, as well as 52 posters, which were presented during three virtual poster sessions. The main topics were: SARS-CoV-2, viral emergence and surveillance, virus-host interactions, viral sequence analysis, virus identification and annotation, phages, and viral diversity. This report summarizes the main research findings and highlights presented at the meeting.


Subject(s)
COVID-19 , Viruses, Unclassified , Viruses , Computational Biology , DNA Viruses , Humans , SARS-CoV-2
3.
Sci Rep ; 10(1): 12647, 2020 07 28.
Article in English | MEDLINE | ID: mdl-32724042

ABSTRACT

Storage and directed transfer of information is the key requirement for the development of life. Yet any information stored on our genes is useless without its correct interpretation. The genetic code defines the rule set to decode this information. Aminoacyl-tRNA synthetases are at the heart of this process. We extensively characterize how these enzymes distinguish all natural amino acids based on the computational analysis of crystallographic structure data. The results of this meta-analysis show that the correct read-out of genetic information is a delicate interplay between the composition of the binding site, non-covalent interactions, error correction mechanisms, and steric effects.


Subject(s)
Amino Acids/metabolism , Amino Acyl-tRNA Synthetases/metabolism , Biological Evolution , Genetic Code , Protein Biosynthesis , RNA, Transfer/metabolism , Amino Acyl-tRNA Synthetases/genetics , Animals , Archaea , Bacteria , Humans , Meta-Analysis as Topic , RNA, Transfer/genetics
4.
PLoS Comput Biol ; 14(4): e1006101, 2018 04.
Article in English | MEDLINE | ID: mdl-29659563

ABSTRACT

The origin of the machinery that realizes protein biosynthesis in all organisms is still unclear. One key component of this machinery are aminoacyl tRNA synthetases (aaRS), which ligate tRNAs to amino acids while consuming ATP. Sequence analyses revealed that these enzymes can be divided into two complementary classes. Both classes differ significantly on a sequence and structural level, feature different reaction mechanisms, and occur in diverse oligomerization states. The one unifying aspect of both classes is their function of binding ATP. We identified Backbone Brackets and Arginine Tweezers as most compact ATP binding motifs characteristic for each Class. Geometric analysis shows a structural rearrangement of the Backbone Brackets upon ATP binding, indicating a general mechanism of all Class I structures. Regarding the origin of aaRS, the Rodin-Ohno hypothesis states that the peculiar nature of the two aaRS classes is the result of their primordial forms, called Protozymes, being encoded on opposite strands of the same gene. Backbone Brackets and Arginine Tweezers were traced back to the proposed Protozymes and their more efficient successors, the Urzymes. Both structural motifs can be observed as pairs of residues in contemporary structures and it seems that the time of their addition, indicated by their placement in the ancient aaRS, coincides with the evolutionary trace of Proto- and Urzymes.


Subject(s)
Amino Acyl-tRNA Synthetases/classification , Amino Acyl-tRNA Synthetases/metabolism , Adenosine Triphosphate/metabolism , Amino Acid Sequence , Amino Acyl-tRNA Synthetases/genetics , Arginine/chemistry , Base Sequence , Catalytic Domain/genetics , Codon/genetics , Computational Biology , Evolution, Molecular , Genetic Variation , Humans , Ligands , Models, Molecular , Mutagenesis , Protein Conformation , RNA, Transfer/chemistry , RNA, Transfer/genetics , RNA, Transfer/metabolism
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