Using single-molecule approaches to study archaeal DNA-binding protein Alba1
Journal
Biochemistry
Journal Volume
52
Journal Volume
52
Journal Issue
44
Journal Issue
44
Pages
7714-7722
Start Page
7714
End Page
7722
ISSN
15204995
Date Issued
2013-11-05
Author(s)
Abstract
Thermophilic and hyperthermophilic archaea have one or more copies of the Alba gene, which encodes Alba, a dimeric, highly basic protein that binds cooperatively to DNA. However, the functions of Alba and how it interacts with DNA remain unclear. In this study, we have used single-molecule tethered particle motion (TPM) and optical tweezers (OT) experiments to study the interactions between DNA molecules and Alba1. When Alba1 binds to double-stranded DNA, the Brownian motion (BM) amplitude for DNA tethers increases continuously, suggesting that Alba1 binds cooperatively. The OT study confirmed that a 5-fold increase in the persistence length of the Alba1 nucleoprotein filament is the major factor causing the increase in the BM amplitude for DNA tethers, while the contour length remained mostly unchanged. Moreover, the rate of the increase in the BM amplitude and the BM plateau value are both DNA length-dependent, indicating that the number of Alba1 initiation binding sites increases as the DNA becomes longer. Using the incoming-strand TPM experiment to monitor the interaction between Alba1 nucleoprotein filaments, we found that significant dimer-dimer contacts between two Alba1 nucleoprotein filaments are present, and the interaction is regulated by the concentration of Alba1.
SDGs
Type
journal article
