Project description:A potential origin that appears to stay dormant in its native host Haloferax volcanii lacking the main active origins becomes activated and competent for replication of the entire chromosome when integrated into the chromosome of the origin-deleted H. mediterranei. Measurement of replication dynamics (marker frequency analysis; MFA) for Haloferax mediterranei H13
Project description:We have comprehensively explored the origin utilisation in Haloferax mediterranei. Here we report three active chromosomal origins by genome-wide replication profiling, and demonstrate that when these three origins are deleted, a dormant origin becomes activated. Genomic DNA was extracted from the H. mediterranei cultures at specific time points(12h,18h,24h,36h,42h and stationary phase 66h), or during the exponential phase (OD600≈0.5) and stationary phase (OD600≈4.0)for the origin deletion strains. After being lablled, Genomic DNA from exponential phase and stationary phase were hybridized to Haloferax mediterranei genome array genechips.
Project description:We have comprehensively explored the origin utilisation in Haloferax mediterranei. Here we report three active chromosomal origins by genome-wide replication profiling, and demonstrate that when these three origins are deleted, a dormant origin becomes activated.
Project description:A potential origin that appears to stay dormant in its native host Haloferax volcanii lacking the main active origins becomes activated and competent for replication of the entire chromosome when integrated into the chromosome of the origin-deleted H. mediterranei.
Project description:Transcriptional profiling of Haloferax mediterranei comparing control wild-type strain with M-NM-^TphaA1 strain, in which phaA1 gene are knockouted. M-NM-^TphaA1 strain can accumulate PHB only. Goal was to explore the PHA biosynthetic pathway and to determine their impact on primary metabolism in H. mediterranei. Total RNA from the control Haloferax mediterranei and its M-NM-^TphaA1 strain were used to generate target cDNA, and then hybridized to 8*15K Haloferax mediterranei genome array genechips, representing about 3800 genes.
Project description:Transcriptional profiling of Haloferax mediterranei DF50 and M-NM-^TdeoR2 with induction by fructose comparing with the strains without this induction. Goal was to explore the effect of induction by fructose on Haloferax mediterranei. Total RNA from the Haloferax mediterranei DF50 and M-NM-^TdeoR2 with or without induction by fructose were used to generate target cDNA, and then hybridized to Haloferax mediterranei genome array genechips, representing about 3800 genes.
Project description:Transcriptional profiling of Haloferax mediterranei comparing control wild-type strain with M-NM-^TphaEC strain, in which PHA synthase genes are knockouted. M-NM-^TphaEC strain is deficient in PHBV accumulation. Goal was to explore the PHBV biosynthetic pathway and to determine their impact on primary metabolism in H. mediterranei. Total RNA from the control Haloferax mediterranei and its M-NM-^TphaEC strain were used to generate target cDNA, and then hybridized to 8*15K Haloferax mediterranei genome array genechips, representing about 3800 genes.
Project description:Transcriptional profiling of Haloferax mediterranei DF50 and ΔdeoR2 with induction by fructose comparing with the strains without this induction. Goal was to explore the effect of induction by fructose on Haloferax mediterranei.
Project description:Transcriptional profiling of Haloferax mediterranei comparing control wild-type strain with ΔphaA1 strain, in which phaA1 gene are knockouted. ΔphaA1 strain can accumulate PHB only. Goal was to explore the PHA biosynthetic pathway and to determine their impact on primary metabolism in H. mediterranei.