Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Mechanochemical regulations of RPA's binding to ssDNA
View through CrossRef
AbstractReplication protein A (RPA) is a ubiquitous eukaryotic single-stranded DNA (ssDNA) binding protein that serves to protect ssDNA from degradation and annealing and as a template for recruitment of many downstream factors in virtually all DNA transactions in cell. During many of these transactions, DNA is tethered and is likely subject to force. Previous studies of RPA's binding behavior on ssDNA were conducted in the absence of force; therefore the RPA-ssDNA conformations regulated by force remain unclear. Here, using a combination of atomic force microscopy imaging and mechanical manipulation of single ssDNA tethers, we show that force mediates a switch of the RPA bound ssDNA from amorphous aggregation to a much more regular extended conformation. Further, we found an interesting non-monotonic dependence of the binding affinity on monovalent salt concentration in the presence of force. In addition, we discovered that zinc in micromolar concentrations drives ssDNA to a unique, highly stiff and more compact state. These results provide new mechanochemical insights into the influences and the mechanisms of action of RPA on large single ssDNA.
Springer Science and Business Media LLC
Title: Mechanochemical regulations of RPA's binding to ssDNA
Description:
AbstractReplication protein A (RPA) is a ubiquitous eukaryotic single-stranded DNA (ssDNA) binding protein that serves to protect ssDNA from degradation and annealing and as a template for recruitment of many downstream factors in virtually all DNA transactions in cell.
During many of these transactions, DNA is tethered and is likely subject to force.
Previous studies of RPA's binding behavior on ssDNA were conducted in the absence of force; therefore the RPA-ssDNA conformations regulated by force remain unclear.
Here, using a combination of atomic force microscopy imaging and mechanical manipulation of single ssDNA tethers, we show that force mediates a switch of the RPA bound ssDNA from amorphous aggregation to a much more regular extended conformation.
Further, we found an interesting non-monotonic dependence of the binding affinity on monovalent salt concentration in the presence of force.
In addition, we discovered that zinc in micromolar concentrations drives ssDNA to a unique, highly stiff and more compact state.
These results provide new mechanochemical insights into the influences and the mechanisms of action of RPA on large single ssDNA.
Related Results
BRCA2 chaperones RAD51 to single molecules of RPA-coated ssDNA
BRCA2 chaperones RAD51 to single molecules of RPA-coated ssDNA
Abstract
Mutations in the breast cancer susceptibility gene, BRCA2, greatly increase an individual’s lifetime risk of developing breast and ovarian cancers. BRCA2 s...
Rapid detection of porcine encephalomyocarditis virus (EMCV) by isothermal reverse transcription recombinase polymerase amplification assays
Rapid detection of porcine encephalomyocarditis virus (EMCV) by isothermal reverse transcription recombinase polymerase amplification assays
Reverse transcription recombinase polymerase amplification assays
combined with the fluorescence detection platform (qRT-RPA) and lateral
flow biosensor (LFB RT-RPA) were developed...
Research on retarding potential analyzer aboard China seismo-electromagnetic satellite
Research on retarding potential analyzer aboard China seismo-electromagnetic satellite
China seismoelectromagnetic satellite (CSES) is the first space-based platform of three-dimensional earthquake monitoring system in china. Plasma analyzing package (PAP) is one of ...
Abstract 1420: Long-read sequencing of single-stranded DNA of colorectal cancer patients
Abstract 1420: Long-read sequencing of single-stranded DNA of colorectal cancer patients
Abstract
Introduction:
The presence of single-stranded (ss) DNA in biological samples has been known for many years, but whole-g...
Molecular basis and functional consequences of the interaction between the Base Excision Repair DNA glycosylase NEIL1 and RPA
Molecular basis and functional consequences of the interaction between the Base Excision Repair DNA glycosylase NEIL1 and RPA
Abstract
NEIL1 is a DNA glycosylase that recognizes and initiates base excision repair of oxidized bases. The ubiquitous ssDNA binding scaffoldin...
RPA Implementation in Banking
RPA Implementation in Banking
In recent years, Robotic Process Automation (RPA) has attracted much attention. With predetermined programs, it can execute tasks that are rule-based, high-information, and repetit...
Integrating AI and RPA in Pega for Intelligent Process Automation: A Comparative Study
Integrating AI and RPA in Pega for Intelligent Process Automation: A Comparative Study
The integration of Artificial Intelligence (AI) and Robotic Process Automation (RPA) within Pega’s Intelligent Process Automation (IPA) framework is fundamentally transforming ente...
A hypothetical new role for single-stranded DNA binding proteins in the immune system
A hypothetical new role for single-stranded DNA binding proteins in the immune system
Abstract
The breadth of the host range of single-stranded DNA (ssDNA) viruses is roughly comparable to the host range of double-stranded DNA viruses (dsDNA). Yet, g...