Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Exploring the folding landscape of a structured RNA
View through CrossRef
Structured RNAs achieve their active states by traversing complex,
multidimensional energetic landscapes. Here we probe the folding
landscape of the
Tetrahymena
ribozyme by using a
powerful approach: the folding of single ribozyme molecules is followed
beginning from distinct regions of the folding landscape. The
experiments, combined with small-angle x-ray scattering results, show
that the landscape contains discrete folding pathways. These pathways
are separated by large free-energy barriers that prevent
interconversion between them, indicating that the pathways lie in deep
channels in the folding landscape. Chemical protection and mutagenesis
experiments are then used to elucidate the structural features that
determine which folding pathway is followed. Strikingly, a specific
long-range tertiary contact can either help folding or hinder folding,
depending on when it is formed during the process. Together these
results provide an unprecedented view of the topology of an RNA folding
landscape and the RNA structural features that underlie this
multidimensional landscape.
Proceedings of the National Academy of Sciences
Title: Exploring the folding landscape of a structured RNA
Description:
Structured RNAs achieve their active states by traversing complex,
multidimensional energetic landscapes.
Here we probe the folding
landscape of the
Tetrahymena
ribozyme by using a
powerful approach: the folding of single ribozyme molecules is followed
beginning from distinct regions of the folding landscape.
The
experiments, combined with small-angle x-ray scattering results, show
that the landscape contains discrete folding pathways.
These pathways
are separated by large free-energy barriers that prevent
interconversion between them, indicating that the pathways lie in deep
channels in the folding landscape.
Chemical protection and mutagenesis
experiments are then used to elucidate the structural features that
determine which folding pathway is followed.
Strikingly, a specific
long-range tertiary contact can either help folding or hinder folding,
depending on when it is formed during the process.
Together these
results provide an unprecedented view of the topology of an RNA folding
landscape and the RNA structural features that underlie this
multidimensional landscape.
Related Results
Detecting RNA–RNA interactome
Detecting RNA–RNA interactome
AbstractThe last decade has seen a robust increase in various types of novel RNA molecules and their complexity in gene regulation. RNA molecules play a critical role in cellular e...
Cotranslational protein folding can promote the formation of correct folding intermediate
Cotranslational protein folding can promote the formation of correct folding intermediate
Abstract
Cotranslational folding is vital for proteins to form correct structures in vivo. However, it is still unclear how a nascent chain folds at atomic resoluti...
RMalign: an RNA structural alignment tool based on a size independent scoring function
RMalign: an RNA structural alignment tool based on a size independent scoring function
ABSTRACT
RNA-protein 3D complex structure prediction is still challenging. Recently, a template-based approach PRIME is proposed in our team to build RNA-protein co...
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, ...
Molecular Drivers of RNA Phase Separation
Molecular Drivers of RNA Phase Separation
Abstract
RNA molecules are essential in orchestrating the assembly of biomolecular condensates and membraneless compartments in cells. Many condensates form via the...
A new way to view biophysical forces in cancer biology, cancer cell biology and cancer genes
A new way to view biophysical forces in cancer biology, cancer cell biology and cancer genes
An ‘RNA Base2 Half Base Color Progression’ applies to approaches for the whole genome level: functional, genetic, proteomic, biochemical, and cell biological. Our work combines vis...
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...