Pseudouridine in RNA: Enzymatic Synthesis Mechanisms and Functional Roles in Molecular Biology

Khan, Adil

doi:10.22161/ijeab.86.25

IJEAB

2023

DOI: 10.22161/ijeab.86.25

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Pseudouridine in RNA: Enzymatic Synthesis Mechanisms and Functional Roles in Molecular Biology

Adil Khan

Abstract: Pseudouridine, a common modified nucleotide, is prevalent in bacterial tRNA, rRNA, and snRNA. Initially identified in rRNA and tRNA, its presence extends to snRNA. Despite being the first identified and most prevalent RNA modification, its biosynthesis and diverse roles remain insufficiently understood. This extensively occurring modified nucleotide influences structural and functional attributes in various RNA categories. The isomerization process involves a carbon–carbon bond formation, and Pumilio family pr… Show more

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2024

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Cited by 1 publication

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Uncovering the transcriptome-wide RNA modifications in Acinetobacter baumannii

Ten,

Rahman,

Tan

2024

Microbial Genomics

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Despite being a major human pathogen, limited studies have reported RNA modifications in Acinetobacter baumannii. These post-transcriptional modifications play crucial regulatory roles in bacteria and have also been shown to modulate bacterial virulence. Using nanopore sequencing, we characterized RNA modifications in a virulent A. baumannii strain (Ab-C98) under free-living (mid-exponential phase in vitro culture) and during an early stage of infection (3 h post-infection) in Galleria mellonella larvae. Analysis revealed that m5C methylations are essential for ribosome synthesis, while m6A and Ψ are involved in metabolic pathways and translation processes. Iron-chelating genes exbD (m5C and m6A) and feoB (m6A and Ψ) and RNA polymerase subunit rpoC (m6A and Ψ) were selectively modified during infection. This first transcriptome-wide study highlights the potential regulatory roles of m5C, m6A and Ψ modifications in A. baumannii during infection.

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Uncovering the transcriptome-wide RNA modifications in Acinetobacter baumannii

Ten,

Rahman,

Tan

2024

Microbial Genomics

View full text Add to dashboard Cite

show abstract

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Pseudouridine in RNA: Enzymatic Synthesis Mechanisms and Functional Roles in Molecular Biology

Cited by 1 publication

References 41 publications

Uncovering the transcriptome-wide RNA modifications in Acinetobacter baumannii

Uncovering the transcriptome-wide RNA modifications in Acinetobacter baumannii

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