Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Phylogenetic analysis and evolution of RNase P RNA in proteobacteria
View through CrossRef
The secondary structures of the eubacterial RNase P RNAs are being elucidated by a phylogenetic comparative approach. Sequences of genes encoding RNase P RNA from each of the recognized subgroups (alpha, beta, gamma, and delta) of the proteobacteria have now been determined. These sequences allow the refinement, to nearly the base pair level, of the phylogenetic model for RNase P RNA secondary structure. Evolutionary change among the RNase P RNAs was found to occur primarily in four discrete structural domains that are peripheral to a highly conserved core structure. The new sequences were used to examine critically the proposed similarity (C. Guerrier-Takada, N. Lumelsky, and S. Altman, Science 246:1578-1584, 1989) between a portion of RNase P RNA and the "exit site" of the 23S rRNA of Escherichia coli. Phylogenetic comparisons indicate that these sequences are not homologous and that any similarity in the structures is, at best, tenuous.
Title: Phylogenetic analysis and evolution of RNase P RNA in proteobacteria
Description:
The secondary structures of the eubacterial RNase P RNAs are being elucidated by a phylogenetic comparative approach.
Sequences of genes encoding RNase P RNA from each of the recognized subgroups (alpha, beta, gamma, and delta) of the proteobacteria have now been determined.
These sequences allow the refinement, to nearly the base pair level, of the phylogenetic model for RNase P RNA secondary structure.
Evolutionary change among the RNase P RNAs was found to occur primarily in four discrete structural domains that are peripheral to a highly conserved core structure.
The new sequences were used to examine critically the proposed similarity (C.
Guerrier-Takada, N.
Lumelsky, and S.
Altman, Science 246:1578-1584, 1989) between a portion of RNase P RNA and the "exit site" of the 23S rRNA of Escherichia coli.
Phylogenetic comparisons indicate that these sequences are not homologous and that any similarity in the structures is, at best, tenuous.
Related Results
Phylogenetic Analysis of Canonical/non-canonical Dicers and RNase III Containing Proteins in Fungal Kingdom
Phylogenetic Analysis of Canonical/non-canonical Dicers and RNase III Containing Proteins in Fungal Kingdom
Abstract
Background: Dicers were member of RNase III containing proteins family with important RNAi function in eukaryotes. In this study, we tried to address the potential...
Proceedings for RNA extraction from cell cultures using phenol-chloroform method with TRIzol ® (Ambion) reagent v1
Proceedings for RNA extraction from cell cultures using phenol-chloroform method with TRIzol ® (Ambion) reagent v1
Goal This document has the objective of establishing a proceeding for RNA extraction from eukaryotic cells through phenol-chloroform method using TRIzol (Ambion) reagent. Gene...
Genome-wide identification of stable RNA-chromatin interactions
Genome-wide identification of stable RNA-chromatin interactions
Summary
RNA-chromatin interactions play crucial roles in gene regulation and genome organization, but the interaction landscape remains poorly understood. In this study, we conduct...
Genome-wide identification of stable RNA-chromatin interactions
Genome-wide identification of stable RNA-chromatin interactions
Summary
RNA-chromatin interactions play crucial roles in gene regulation and genome organization, but the interaction landscape remains poorly understood. In this study, we conduct...
Genome-wide identification of stable RNA-chromatin interactions
Genome-wide identification of stable RNA-chromatin interactions
SummaryRNA-chromatin interactions play crucial roles in gene regulation and genome organization, but the interaction landscape remains poorly understood. In this study, we conducte...
B-247 BLADE-R: streamlined RNA extraction for clinical diagnostics and high-throughput applications
B-247 BLADE-R: streamlined RNA extraction for clinical diagnostics and high-throughput applications
Abstract
Background
Efficient nucleic acid extraction and purification are crucial for cellular and molecular biology research, ...
Detection of Multiple Types of Cancer Driver Mutations Using Targeted RNA Sequencing in NSCLC
Detection of Multiple Types of Cancer Driver Mutations Using Targeted RNA Sequencing in NSCLC
ABSTRACTCurrently, DNA and RNA are used separately to capture different types of gene mutations. DNA is commonly used for the detection of SNVs, indels and CNVs; RNA is used for an...
Accurate in silico predictions of modified RNA interactions to a prototypical RNA-binding protein with λ-dynamics
Accurate in silico predictions of modified RNA interactions to a prototypical RNA-binding protein with λ-dynamics
RNA-binding proteins shape biology through their widespread functions in RNA biochemistry. Their function requires the recognition of specific RNA motifs for targeted binding. Thes...