Four additional natural 7-deazaguanine derivatives in phages and how to make them

Four additional natural 7-deazaguanine derivatives in phages and how to make them

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 bacterial defence systems, double-stranded DNA phages have evolved complex modifications that affec...

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Main Authors: Cui, Liang, Balamkundu, Seetharamsing, Liu, Chuan-Fa, Ye, Hong, Hourihan, Jacob, Rausch, Astrid, Hauß, Christopher, Nilsson, Emelie, Hoetzinger, Matthias, Holmfeldt, Karin, Zhang, Weijia, Martinez-Alvarez, Laura, Peng, Xu, Tremblay, Denise, Moinau, Sylvain, Solonenko, Natalie, Sullivan, Matthew B., Lee, Yan-Jiun, Mulholland, Andrew, Weigele, Peter R., de Crécy-Lagard, Valérie, Dedon, Peter C., Hutinet, Geoffrey
Other Authors: School of Biological Sciences
Format: Article
Language:English
Published: 2024
Subjects:
Medicine, Health and Life Sciences
Amino acid sequence
Archaeal virus
Online Access:https://hdl.handle.net/10356/174025
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1740252024-03-18T15:32:36Z Four additional natural 7-deazaguanine derivatives in phages and how to make them Cui, Liang Balamkundu, Seetharamsing Liu, Chuan-Fa Ye, Hong Hourihan, Jacob Rausch, Astrid Hauß, Christopher Nilsson, Emelie Hoetzinger, Matthias Holmfeldt, Karin Zhang, Weijia Martinez-Alvarez, Laura Peng, Xu Tremblay, Denise Moinau, Sylvain Solonenko, Natalie Sullivan, Matthew B. Lee, Yan-Jiun Mulholland, Andrew Weigele, Peter R. de Crécy-Lagard, Valérie Dedon, Peter C. Hutinet, Geoffrey School of Biological Sciences Campus for Research Excellence and Technological Enterprise, Singapore Medicine, Health and Life Sciences Amino acid sequence Archaeal virus 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 bacterial defence systems, double-stranded DNA phages have evolved complex modifications that affect all four bases. This study focuses on modifications at position 7 of guanines. Eight derivatives of 7-deazaguanines were identified, including four previously unknown ones: 2'-deoxy-7-(methylamino)methyl-7-deazaguanine (mdPreQ1), 2'-deoxy-7-(formylamino)methyl-7-deazaguanine (fdPreQ1), 2'-deoxy-7-deazaguanine (dDG) and 2'-deoxy-7-carboxy-7-deazaguanine (dCDG). These modifications are inserted in DNA by a guanine transglycosylase named DpdA. Three subfamilies of DpdA had been previously characterized: bDpdA, DpdA1, and DpdA2. Two additional subfamilies were identified in this work: DpdA3, which allows for complete replacement of the guanines, and DpdA4, which is specific to archaeal viruses. Transglycosylases have now been identified in all phages and viruses carrying 7-deazaguanine modifications, indicating that the insertion of these modifications is a post-replication event. Three enzymes were predicted to be involved in the biosynthesis of these newly identified DNA modifications: 7-carboxy-7-deazaguanine decarboxylase (DpdL), dPreQ1 formyltransferase (DpdN) and dPreQ1 methyltransferase (DpdM), which was experimentally validated and harbors a unique fold not previously observed for nucleic acid methylases. National Research Foundation (NRF) Published version Human Frontier Science Program [HFSPRGP0024/2018 to V.dC.L., S.M.]; National Institutes of Health [GM70641 to V.dC.L., ES031576 to P.C.D.]; National Research Foundation of Singapore under the Singapore-MIT Alliance for Research and Technology Antimicrobial Resistance IRG and from Agilent ACT-UR program [4658, 4773]; S.M. holds the Canada Research Chair in Bacteriophages. Funding for open access charge: National Institutes of Health [GM70641]. 2024-03-12T04:53:48Z 2024-03-12T04:53:48Z 2023 Journal Article Cui, L., Balamkundu, S., Liu, C., Ye, H., Hourihan, J., Rausch, A., Hauß, C., Nilsson, E., Hoetzinger, M., Holmfeldt, K., Zhang, W., Martinez-Alvarez, L., Peng, X., Tremblay, D., Moinau, S., Solonenko, N., Sullivan, M. B., Lee, Y., Mulholland, A., ...Hutinet, G. (2023). Four additional natural 7-deazaguanine derivatives in phages and how to make them. Nucleic Acids Research, 51(17), 9214-9226. https://dx.doi.org/10.1093/nar/gkad657 0305-1048 https://hdl.handle.net/10356/174025 10.1093/nar/gkad657 37572349 2-s2.0-85172424676 17 51 9214 9226 en 4658 4773 Nucleic Acids Research © The Author(s) 2023. Published by Oxford University Press on behalf of Nucleic Acids Research. This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact journals.permissions@oup.com application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Medicine, Health and Life Sciences
Amino acid sequence
Archaeal virus
spellingShingle Medicine, Health and Life Sciences
Amino acid sequence
Archaeal virus
Cui, Liang
Balamkundu, Seetharamsing
Liu, Chuan-Fa
Ye, Hong
Hourihan, Jacob
Rausch, Astrid
Hauß, Christopher
Nilsson, Emelie
Hoetzinger, Matthias
Holmfeldt, Karin
Zhang, Weijia
Martinez-Alvarez, Laura
Peng, Xu
Tremblay, Denise
Moinau, Sylvain
Solonenko, Natalie
Sullivan, Matthew B.
Lee, Yan-Jiun
Mulholland, Andrew
Weigele, Peter R.
de Crécy-Lagard, Valérie
Dedon, Peter C.
Hutinet, Geoffrey
Four additional natural 7-deazaguanine derivatives in phages and how to make them
description 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 bacterial defence systems, double-stranded DNA phages have evolved complex modifications that affect all four bases. This study focuses on modifications at position 7 of guanines. Eight derivatives of 7-deazaguanines were identified, including four previously unknown ones: 2'-deoxy-7-(methylamino)methyl-7-deazaguanine (mdPreQ1), 2'-deoxy-7-(formylamino)methyl-7-deazaguanine (fdPreQ1), 2'-deoxy-7-deazaguanine (dDG) and 2'-deoxy-7-carboxy-7-deazaguanine (dCDG). These modifications are inserted in DNA by a guanine transglycosylase named DpdA. Three subfamilies of DpdA had been previously characterized: bDpdA, DpdA1, and DpdA2. Two additional subfamilies were identified in this work: DpdA3, which allows for complete replacement of the guanines, and DpdA4, which is specific to archaeal viruses. Transglycosylases have now been identified in all phages and viruses carrying 7-deazaguanine modifications, indicating that the insertion of these modifications is a post-replication event. Three enzymes were predicted to be involved in the biosynthesis of these newly identified DNA modifications: 7-carboxy-7-deazaguanine decarboxylase (DpdL), dPreQ1 formyltransferase (DpdN) and dPreQ1 methyltransferase (DpdM), which was experimentally validated and harbors a unique fold not previously observed for nucleic acid methylases.
author2 School of Biological Sciences
author_facet School of Biological Sciences
Cui, Liang
Balamkundu, Seetharamsing
Liu, Chuan-Fa
Ye, Hong
Hourihan, Jacob
Rausch, Astrid
Hauß, Christopher
Nilsson, Emelie
Hoetzinger, Matthias
Holmfeldt, Karin
Zhang, Weijia
Martinez-Alvarez, Laura
Peng, Xu
Tremblay, Denise
Moinau, Sylvain
Solonenko, Natalie
Sullivan, Matthew B.
Lee, Yan-Jiun
Mulholland, Andrew
Weigele, Peter R.
de Crécy-Lagard, Valérie
Dedon, Peter C.
Hutinet, Geoffrey
format Article
author Cui, Liang
Balamkundu, Seetharamsing
Liu, Chuan-Fa
Ye, Hong
Hourihan, Jacob
Rausch, Astrid
Hauß, Christopher
Nilsson, Emelie
Hoetzinger, Matthias
Holmfeldt, Karin
Zhang, Weijia
Martinez-Alvarez, Laura
Peng, Xu
Tremblay, Denise
Moinau, Sylvain
Solonenko, Natalie
Sullivan, Matthew B.
Lee, Yan-Jiun
Mulholland, Andrew
Weigele, Peter R.
de Crécy-Lagard, Valérie
Dedon, Peter C.
Hutinet, Geoffrey
author_sort Cui, Liang
title Four additional natural 7-deazaguanine derivatives in phages and how to make them
title_short Four additional natural 7-deazaguanine derivatives in phages and how to make them
title_full Four additional natural 7-deazaguanine derivatives in phages and how to make them
title_fullStr Four additional natural 7-deazaguanine derivatives in phages and how to make them
title_full_unstemmed Four additional natural 7-deazaguanine derivatives in phages and how to make them
title_sort four additional natural 7-deazaguanine derivatives in phages and how to make them
publishDate 2024
url https://hdl.handle.net/10356/174025
_version_ 1794549452216729600

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