Gene silencing of stearoyl-ACP desaturase enhances the stearic acid content in Chlamydomonas reinhardtii.

In this study, stearoyl-ACP desaturase (SAD), the enzyme that converts stearic acid into oleic acid, is silenced by artificial microRNA in the green microalga Chlamydomonas reinhardtii. Two different constructs, which target different positions on the mRNA of stearoyl-ACP desaturase, were tested. The mRNA levels for SAD were reduced after the silencing construct was induced. In one of the strains, the reduction in SAD mRNA resulted in a doubling of the stearic acid content in triacylglycerol molecules, which shows that stearic acid production in microalgae is possible.

Draft Genome Sequence of the Oleaginous Green Alga Tetradesmus obliquus UTEX 393.

The microalgae Tetradesmus obliquus is able to maintain a high photosynthetic efficiency under nitrogen limitation and is considered a promising green microalgae for sustainable production of diverse compounds, including biofuels. Here, we report the first draft whole-genome shotgun sequencing of T. obliquus The final assembly comprises 108,715,903 bp with over 1,368 scaffolds.

Germination of Bacillus cereus spores adhered to stainless steel.

Adhered spores of Bacillus cereus represent a significant part of the surface-derived contamination in processing equipment used in the dairy industry. As germinated spores lose their resistance capacities instantaneously, efficient germination prior to a cleaning in place treatment could aid to the disinfecting effect of such a treatment. Therefore, spores of B. cereus ATCC 14579 and that of the environmental isolate B. cereus CMCC 3328 were assessed for their germination behaviour when adhered to a stainless steel surface. A mixture of l-alanine and inosine initiated germination of adhered spores efficiently, resulting in 3.2 decimal logarithms of germination. Notably, implementation of a germination-inducing step prior to a representative cleaning in place procedure reduced the number of survivors with over 3 decimal log units, while an alkali treatment alone, as part of the cleaning in place procedure, did not show any effect on B. cereus spore viability. These results show that implementation of a germination step enhances the disinfection effect of currently used cleaning in place procedures.

Enhanced expression in tobacco of the gene encoding green fluorescent protein by modification of its codon usage.

The gene encoding green fluorescent protein (GFP) from Aequorea victoria was resynthesized to adapt its codon usage for expression in plants by increasing the frequency of codons with a C or a G in the third position from 32 to 60%. The strategy for constructing the synthetic gfp gene was based on the overlap extension PCR method using 12 long oligonucleotides as the starting material and as primers. The new gene contains 101 silent nucleotide changes compared to its wild-type counterpart used in this study. Several transgenic tobacco lines containing the wild-type gfp gene contained minute amounts of a smaller protein cross-reacting with GFP antiserum, whereas only one protein of the expected size was found in transgenics with the synthetic gfp gene. The smaller protein was probably encoded by a truncated gfp mRNA created by splicing of a 84 bp cryptic intron as detected by a reverse transcription-PCR technique. A comparison of GFP production in transgenics with the wild-type and the synthetic gfp gene under the control of the enhanced CaMV 35S promoter showed that the large-scale alterations in the gfp gene increased the frequency of high expressors in the transgenic population but hardly changed the maximum GFP concentrations. The latter phenomenon may be attributed to a reduced regeneration capacity of transformed cells with higher GFP concentrations.

Cloning, sequence and expression in Escherichia coli of the gene encoding phosphofructokinase from Bacillus macquariensis.

A chromosomal DNA fragment containing the Bacillus macquariensis (Bm) ATP-dependent phosphofructokinase-encoding gene (pfk) was cloned from a subgenomic library in pUC19 using a PCR-derived probe. The region containing pfk, including flanking sequences, was sequenced and the deduced amino acid sequence (aa) was found to be homologous to other PFK, but it contained two single-aa changes conserved in a range of other organisms from pro- and eukaryotic origins. Enzymatic studies with PFK purified from overproducing Escherichia coli (Ec) host cells showed that the Bm enzyme is similar to B. stearothermophilus (Bs) PFK in many respects and that it is relatively cold stable.

Simultaneous mutagenesis of multiple sites: application of the ligase chain reaction using PCR products instead of oligonucleotides.

A method is described for preparing mutants with multiple, site-directed mutations by ordered coupling of PCR-generated fragments catalyzed by a thermostable DNA ligase. Annealing of the sense strands of the fragments to a single-stranded (antisense) template created a full-length sense strand leaving only nicks that were closed by ligation. Mutations were introduced in the PCR primers. Following 40 cycles of denaturation and annealing, tags on the flanking primers of the ligase chain reaction product were used specifically to amplify the mutated product with specific primers that could not amplify the original template. The amplified ligation product was cloned and was found to contain the desired restriction sites introduced by way of the mutagenic primers.