[Identification of the phaB genes and analysis of the PHBV precursor supplying pathway in Haloferax mediterranei].

OBJECTIVE: Identification and characterization of the genes involved in precursor supplying for poly (3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) biosynthesis in the haloarchaeon Haloferax mediterranei. METHODS: By using BLAST (Basic Local Alignment Search Tool) search methodology, we obtained five genes (phaB1, phaB2, phaJ1, phaJ2 and phaJ3) that were possibly involved in the 3-hydroxyacyl-CoA precursor supplying for PHBV biosynthesis in H. mediterranei. Firstly, we proved that these five genes were all transcribed under the PHBV-accumulating condition in H. mediterranei. Then, we knocked out these genes individually or in combination, by double-crossover homologous recombination, resulting in the following mutants: deltaphaB1, deltaphaB2, AphaJ1, deltaphaJ2, deltaphaJ3, deltaphaB1phaB2, deltaphaJ1phaJ2 and deltaphaJ1phaJ2phaJ3. Finally, we performed the complementation analysis of the deltaphaB1phaB2 strain, with the phaB1 and phaB2 genes, respectively. RESULTS: Whenever the three phaJ genes were knocked out individually or in combination, there was no obvious influence on PHBV accumulation in H. mediterranei. Knockout of phaB1 also did not affect the PHBV accumulation obviously. However, when phaB2 was knocked out, the yield of PHBV and the fraction of the 3-HV monomer decreased significantly. Notably, when the phaB1 and phaB2 were knocked out in combination, the CONCLUSIONS: The PHBV-specific acetoacetyl-CoA reductases mutant deltaphaB1phaB2 no longer produced PHBV. (PhaB) involved in the precursor supplying for PHBV biosynthesis are encoded by phaB1 and phaB2 in H. mediterranei.

Nucleotide sequence of the 235 rRNA from Haloferax mediterranei and phylogenetic analysis of halophilic archaea based on LSU rRNA.

23S rRNA gene from the halophilic archaeon Haloferax mediterranei (strain ATCC 33500) was cloned and sequenced. Proceeding from the 2,912 nucleotides long sequence, the secondary structure of Haloferax genus large subunit rRNA was proposed. Haloferax mediterranei intergenic spacers 16S/23S and 23S/5S were also sequenced, and found to be 382 and 116 nucleotides long respectively. The 16S/23S spacer showed an Ala-tRNA intervening sequence, which is a common feature in Euryarchaeota. Sequence analysis of 23S rRNA and 16S rRNA was performed for the six organisms from the family Halobacteriaceae with both available gene sequences. Phylogenetic trees with completely different topology were obtained using both molecules.