Abstract
Haloarchaeon Natrinema sp. J7, the first reported archaeon harboring both plasmid and chromosome-based temperate viruses, is a useful model for investigating archaeal virus-host and virus-virus interactions. However, the lack of genetic tools has limited such studies. On the basis of the automatically replicating sequences of the J7 chromosome and the pyrF marker, we constructed seven vectors, six of which were confirmed to possess replication ability in a pyrF-deletion derivative of J7 (J7-F). Among these vectors, pFJ1, pFJ4, and pFJ6 could be transformed into the host strain with relatively high efficiency (approximately 103 colony-forming units/μg DNA) and were present at about one copy per chromosome. These three vectors could be stably maintained in J7-F without selection and were used for heterologous protein expression. Only pFJ6 was found to be present in the transformed cells in an exclusively episomal, nonintegrated state (one copy per chromosome). In contrast, some pFJ1 and pFJ4 DNA was probably integrated into the J7-F chromosome. In addition, pFJ6 was found to be compatible with pYCJ in J7 cells, suggesting that these two vectors could be used for further studies of virus-virus and virus-host interactions.
Highlights
Halophilic archaea constitute a group of microorganisms that thrive in hypersaline environments, including solar salterns and natural salt lakes
The efficient production of SNJ2 could only be achieved in J7 strains coinfected with SNJ1, indicating that SNJ1 promoted the replication of SNJ2 [30]
Little is known about the mechanism behind this virus-virus interaction
Summary
Halophilic archaea constitute a group of microorganisms that thrive in hypersaline environments, including solar salterns and natural salt lakes. This group consists of approximately 48 genera and 177 species [1], forming an important part of archaea [2]. Compared to other groups of archaea, these haloarchaea are suitable for research purposes, as they are cultured and manipulated in the laboratory. They serve as useful models for studying archaeal viruses, which exhibit striking morphological diversity and unique gene contents. Considering that no single archaeal species is representative of the domain as a whole, or even its own specific group, it will be important to develop genetic tools for the many haloarchaea that still lack such resources
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