The priority of yeast to select among various DNA options to repair genome breaks by homologous recombination
Journal article, 2024

BACKGROUND: Horizontal gene transfer (HGT) is considered an important mechanism to contribute to the evolution of bacteria, plants, and animals by allowing the movement of genetic material between organisms, in difference to vertical inheritance. Thereby it can also play a significant role in spreading traits like antibiotic resistance among bacteria and virulence factors between pathogens. During the HGT, organisms take up free DNA from the environment and incorporate it into their genomes. Although HGT is known to be carried out by many organisms, there is limited information on how organisms select which genetic material for horizontal transfer. Here we have investigated the preference priority of Saccharomyces cerevisiae between different options of gene source presented under certain stress conditions to repair a double-strand break (DSB) in DNA via HR. RESULTS: Each genetic module was designed with appropriate sequences being homologous for two sides of the DSB, which is important for yeast to repair the fracture with HR. S. cerevisiae made a random selection between two heterologous T1 (44%) and T2 (56%) modules to repair DSB. Interestingly, yeast corrected the DNA break only with the T3 module (almost 100%) when the homologous T3 module was an option for the selection. It seems that S. cerevisiae tends to prefer T3 over alternatives to fix DSBs when it exists among the options. CONCLUSIONS: It seems that S. cerevisiae have a preference for priority to select a particular one under certain conditions when it has various DNA options to repair a DSB in its genome, further studies are required to support our findings.

Natural transformation

Saccharomyces

Yeast

Homologous recombination

Horizontal gene transfer

Author

Musa Tartik

Bingöl University

Chalmers, Life Sciences, Systems and Synthetic Biology

Molecular Biology Reports

0301-4851 (ISSN) 1573-4978 (eISSN)

Vol. 51 1 99

Subject Categories

Microbiology

Genetics

DOI

10.1007/s11033-023-09058-0

PubMed

38206425

More information

Latest update

1/24/2024