Prevalence of phase variable epigenetic invertons among host-associated bacteria

Abstract Type I restriction-modification (R-M) systems consist of a DNA endonuclease (HsdR, HsdM and HsdS subunits) and methyltransferase (HsdM and HsdS subunits). The hsdS sequences flanked by inverted repeats (referred to as epigenetic invertons) in certain Type I R-M systems undergo invertase-cat...

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Published inNucleic acids research Vol. 48; no. 20; pp. 11468 - 11485
Main Authors Huang, Xueting, Wang, Juanjuan, Li, Jing, Liu, Yanni, Liu, Xue, Li, Zeyao, Kurniyati, Kurni, Deng, Yijie, Wang, Guilin, Ralph, Joseph D, De Ste Croix, Megan, Escobar-Gonzalez, Sara, Roberts, Richard J, Veening, Jan-Willem, Lan, Xun, Oggioni, Marco R, Li, Chunhao, Zhang, Jing-Ren
Format Journal Article
LanguageEnglish
Published England Oxford University Press 18.11.2020
Subjects
Bacterial Proteins - genetics
Bacteroides fragilis - genetics
DNA Methylation
DNA Restriction-Modification Enzymes - genetics
DNA, Bacterial - chemistry
Enterococcus faecalis - genetics
Epigenesis, Genetic
Gene Expression Regulation, Bacterial
Gene regulation, Chromatin and Epigenetics
Inverted Repeat Sequences
Streptococcus agalactiae - genetics
Treponema denticola - genetics
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Abstract Abstract Type I restriction-modification (R-M) systems consist of a DNA endonuclease (HsdR, HsdM and HsdS subunits) and methyltransferase (HsdM and HsdS subunits). The hsdS sequences flanked by inverted repeats (referred to as epigenetic invertons) in certain Type I R-M systems undergo invertase-catalyzed inversions. Previous studies in Streptococcus pneumoniae have shown that hsdS inversions within clonal populations produce subpopulations with profound differences in the methylome, cellular physiology and virulence. In this study, we bioinformatically identified six major clades of the tyrosine and serine family invertases homologs from 16 bacterial phyla, which potentially catalyze hsdS inversions in the epigenetic invertons. In particular, the epigenetic invertons are highly enriched in host-associated bacteria. We further verified hsdS inversions in the Type I R-M systems of four representative host-associated bacteria and found that each of the resultant hsdS allelic variants specifies methylation of a unique DNA sequence. In addition, transcriptome analysis revealed that hsdS allelic variations in Enterococcus faecalis exert significant impact on gene expression. These findings indicate that epigenetic switches driven by invertases in the epigenetic invertons broadly operate in the host-associated bacteria, which may broadly contribute to bacterial host adaptation and virulence beyond the role of the Type I R-M systems against phage infection.
AbstractList Abstract Type I restriction-modification (R-M) systems consist of a DNA endonuclease (HsdR, HsdM and HsdS subunits) and methyltransferase (HsdM and HsdS subunits). The hsdS sequences flanked by inverted repeats (referred to as epigenetic invertons) in certain Type I R-M systems undergo invertase-catalyzed inversions. Previous studies in Streptococcus pneumoniae have shown that hsdS inversions within clonal populations produce subpopulations with profound differences in the methylome, cellular physiology and virulence. In this study, we bioinformatically identified six major clades of the tyrosine and serine family invertases homologs from 16 bacterial phyla, which potentially catalyze hsdS inversions in the epigenetic invertons. In particular, the epigenetic invertons are highly enriched in host-associated bacteria. We further verified hsdS inversions in the Type I R-M systems of four representative host-associated bacteria and found that each of the resultant hsdS allelic variants specifies methylation of a unique DNA sequence. In addition, transcriptome analysis revealed that hsdS allelic variations in Enterococcus faecalis exert significant impact on gene expression. These findings indicate that epigenetic switches driven by invertases in the epigenetic invertons broadly operate in the host-associated bacteria, which may broadly contribute to bacterial host adaptation and virulence beyond the role of the Type I R-M systems against phage infection.
Type I restriction-modification (R-M) systems consist of a DNA endonuclease (HsdR, HsdM and HsdS subunits) and methyltransferase (HsdM and HsdS subunits). The hsdS sequences flanked by inverted repeats (referred to as epigenetic invertons) in certain Type I R-M systems undergo invertase-catalyzed inversions. Previous studies in Streptococcus pneumoniae have shown that hsdS inversions within clonal populations produce subpopulations with profound differences in the methylome, cellular physiology and virulence. In this study, we bioinformatically identified six major clades of the tyrosine and serine family invertases homologs from 16 bacterial phyla, which potentially catalyze hsdS inversions in the epigenetic invertons. In particular, the epigenetic invertons are highly enriched in host-associated bacteria. We further verified hsdS inversions in the Type I R-M systems of four representative host-associated bacteria and found that each of the resultant hsdS allelic variants specifies methylation of a unique DNA sequence. In addition, transcriptome analysis revealed that hsdS allelic variations in Enterococcus faecalis exert significant impact on gene expression. These findings indicate that epigenetic switches driven by invertases in the epigenetic invertons broadly operate in the host-associated bacteria, which may broadly contribute to bacterial host adaptation and virulence beyond the role of the Type I R-M systems against phage infection.
Type I restriction-modification (R-M) systems consist of a DNA endonuclease (HsdR, HsdM and HsdS subunits) and methyltransferase (HsdM and HsdS subunits). The hsdS sequences flanked by inverted repeats (referred to as epigenetic invertons) in certain Type I R-M systems undergo invertase-catalyzed inversions. Previous studies in Streptococcus pneumoniae have shown that hsdS inversions within clonal populations produce subpopulations with profound differences in the methylome, cellular physiology and virulence. In this study, we bioinformatically identified six major clades of the tyrosine and serine family invertases homologs from 16 bacterial phyla, which potentially catalyze hsdS inversions in the epigenetic invertons. In particular, the epigenetic invertons are highly enriched in host-associated bacteria. We further verified hsdS inversions in the Type I R-M systems of four representative host-associated bacteria and found that each of the resultant hsdS allelic variants specifies methylation of a unique DNA sequence. In addition, transcriptome analysis revealed that hsdS allelic variations in Enterococcus faecalis exert significant impact on gene expression. These findings indicate that epigenetic switches driven by invertases in the epigenetic invertons broadly operate in the host-associated bacteria, which may broadly contribute to bacterial host adaptation and virulence beyond the role of the Type I R-M systems against phage infection.
Author Lan, Xun
Zhang, Jing-Ren
Escobar-Gonzalez, Sara
Wang, Juanjuan
Huang, Xueting
De Ste Croix, Megan
Li, Jing
Oggioni, Marco R
Li, Chunhao
Wang, Guilin
Ralph, Joseph D
Kurniyati, Kurni
Liu, Xue
Li, Zeyao
Deng, Yijie
Roberts, Richard J
Liu, Yanni
Veening, Jan-Willem
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SSID ssj0014154
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Snippet Abstract Type I restriction-modification (R-M) systems consist of a DNA endonuclease (HsdR, HsdM and HsdS subunits) and methyltransferase (HsdM and HsdS...
Type I restriction-modification (R-M) systems consist of a DNA endonuclease (HsdR, HsdM and HsdS subunits) and methyltransferase (HsdM and HsdS subunits). The...
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SubjectTerms Bacterial Proteins - genetics
Bacteroides fragilis - genetics
DNA Methylation
DNA Restriction-Modification Enzymes - genetics
DNA, Bacterial - chemistry
Enterococcus faecalis - genetics
Epigenesis, Genetic
Gene Expression Regulation, Bacterial
Gene regulation, Chromatin and Epigenetics
Inverted Repeat Sequences
Streptococcus agalactiae - genetics
Treponema denticola - genetics
Title Prevalence of phase variable epigenetic invertons among host-associated bacteria
URI https://www.ncbi.nlm.nih.gov/pubmed/33119758
https://search.proquest.com/docview/2456411307
https://pubmed.ncbi.nlm.nih.gov/PMC7672463
Volume 48
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