Geoffrey Hutinet
Overview
Explore the profile of Geoffrey Hutinet including associated specialties, affiliations and a list of published articles.
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Articles
22
Citations
350
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Recent Articles
1.
Quaiyum S, Yuan Y, Sun G, Ratnayake R, Hutinet G, Dedon P, et al.
Microbiology (Reading)
. 2024 Sep;
170(9).
PMID: 39234940
Queuosine (Q) stands out as the sole tRNA modification that can be synthesized via salvage pathways. Comparative genomic analyses identified specific bacteria that showed a discrepancy between the projected Q...
2.
de Crecy-Lagard V, Hutinet G, Cediel-Becerra J, Yuan Y, Zallot R, Chevrette M, et al.
Microbiol Mol Biol Rev
. 2024 Feb;
88(1):e0019923.
PMID: 38421302
SUMMARYDeazaguanine modifications play multifaceted roles in the molecular biology of DNA and tRNA, shaping diverse yet essential biological processes, including the nuanced fine-tuning of translation efficiency and the intricate modulation...
3.
Reed C, Denise R, Hourihan J, Babor J, Jaroch M, Martinelli M, et al.
Microb Genom
. 2024 Feb;
10(2).
PMID: 38323604
Capturing the published corpus of information on all members of a given protein family should be an essential step in any study focusing on specific members of that family. Using...
4.
Quaiyum S, Yuan Y, Sun G, Ratnayake R, Hutinet G, Dedon P, et al.
bioRxiv
. 2023 Dec;
PMID: 38106016
Queuosine (Q) stands out as the sole tRNA modification that can be synthesized via salvage pathways. Comparative genomic analyses identified specific bacteria that showed a discrepancy between the projected Q...
5.
Cui L, Balamkundu S, Liu C, Ye H, Hourihan J, Rausch A, et al.
Nucleic Acids Res
. 2023 Aug;
51(17):9214-9226.
PMID: 37572349
Bacteriophages and bacteria are engaged in a constant arms race, continually evolving new molecular tools to survive one another. To protect their genomic DNA from restriction enzymes, the most common...
6.
Reed C, Denise R, Hourihan J, Babor J, Jaroch M, Martinelli M, et al.
bioRxiv
. 2023 May;
PMID: 37205517
Capturing the published corpus of information on all members of a given protein family should be an essential step in any study focusing on specific members of that said family....
7.
de Crecy-Lagard V, Amorin de Hegedus R, Arighi C, Babor J, Bateman A, Blaby I, et al.
Database (Oxford)
. 2022 Aug;
2022.
PMID: 35961013
Over the last 25 years, biology has entered the genomic era and is becoming a science of 'big data'. Most interpretations of genomic analyses rely on accurate functional annotations of...
8.
Hutinet G, Lee Y, de Crecy-Lagard V, Weigele P
EcoSal Plus
. 2021 Dec;
9(2):eESP00282019.
PMID: 34910575
The DNA in bacterial viruses collectively contains a rich, yet relatively underexplored, chemical diversity of nucleobases beyond the canonical adenine, guanine, cytosine, and thymine. Herein, we review what is known...
9.
Reed C, Hutinet G, de Crecy-Lagard V
Biomolecules
. 2021 Sep;
11(9).
PMID: 34572495
Members of the DUF34 (domain of unknown function 34) family, also known as the NIF3 protein superfamily, are ubiquitous across superkingdoms. Proteins of this family have been widely annotated as...
10.
Bacteriophage vB_PagS_MED16-A Siphovirus Containing a 2'-Deoxy-7-amido-7-deazaguanosine-Modified DNA
Simoliuniene M, Zukauskiene E, Truncaite L, Cui L, Hutinet G, Kazlauskas D, et al.
Int J Mol Sci
. 2021 Jul;
22(14).
PMID: 34298953
A novel siphovirus, vB_PagS_MED16 (MED16) was isolated in Lithuania using strain BSL for the phage propagation. The double-stranded DNA genome of MED16 (46,103 bp) contains 73 predicted open reading frames...