Annotated plastome of the temperate woody vine (G.Forst.) Meisn. (Polygonaceae).

We assembled the plastome of the temperate, Southern Hemisphere liana from high throughput sequencing data (paired-end Illumina reads) generated from total genomic DNA sequencing libraries. . ' chloroplast genome sequence (GenBank: MG604297) is 163,484 bp in length and composed of long single copy (LSC; 88,166 bp) and short single copy (SSC; 13,486 bp) regions flanked by inverted repeats (IR; 30,916 bp each) typical for angiosperms.

Directed evolution of a thermophilic beta-glucosidase for cellulosic bioethanol production.

Characteristics that would make enzymes more desirable for industrial applications can be improved using directed evolution. We developed a directed evolution technique called random drift mutagenesis (RNDM). Mutant populations are screened and all functional mutants are collected and put forward into the next round of mutagenesis and screening.

Molecular diversity and catalytic activity of Thermus DNA polymerases.

Thermus aquaticus DNA polymerase (Taq polymerase) made the polymerase chain reaction feasible and led to a paradigm shift in genomic analysis. Other Thermus polymerases were reported to have comparable performance in PCR and there was an analysis of their properties in the 1990s. We re-evaluated our earlier phylogeny of Thermus species on the basis of 16S rDNA sequences and concluded that the genus could be divided into eight clades.

Potential use of quantum dots in flow cytometry.

QDs may offer significant advantages in environmental and bead-based applications where the target cells need to be discriminated above background fluorescence. We have examined the possible applications of QDs for flow cytometric measurements (FCM) by studying their excitation - emission spectra and their binding to paramagnetic beads. We labelled beads with either QDs or a commonly-used fluorochrome (FITC) and studied their fluorescence intensity by FCM.

Identification of two novel xylanase-encoding genes (xyn5 and xyn6) from Acrophialophora nainiana and heterologous expression of xyn6 in Trichoderma reesei.

Two novel genes, xyn5 and xyn6, coding for family 11 xylanases, were isolated from the thermotolerant filamentous fungus, Acrophialophora nainiana, by PCR using degenerate primers. The xyn6 gene was further expressed in Trichoderma reesei. DNA sequence analysis of xyn6 revealed an open reading frame (ORF) of 708 bp, interrupted by an intron of 58 bp.

Reverse transcriptases: intron-encoded proteins found in thermophilic bacteria.

A number of thermophilic bacteria have been surveyed for possessing reverse transcriptase genes using a degenerate primer approach derived from an alignment of known group II intron encoded reverse transcriptases (RT) from mesophilic prokaryotes and eukaryotes. Six out of 34 thermophilic isolates gave a PCR product that was indicative of an RT internal fragment on sequencing. A putative RT from Bacillus caldolyticus strain EA1 was isolated by genomic walking and cloned into an Escherichia coli expression vector.

Degenerate oligonucleotide gene shuffling.

Improvement of the biochemical characteristics of enzymes has been aided by misincorporation mutagenesis and DNA shuffling. Shuffling techniques can be used on a collection of mutants of the same gene, or related families of genes can be shuffled to produce mutants encoding chimeric gene products. One difficulty with current shuffling procedures is the predominance of unshuffled ("parental") molecules in the pool of mutants.

Distribution of genes encoding the microbial non-oxidative reversible hydroxyarylic acid decarboxylases/phenol carboxylases.

Bacterial non-oxidative, reversible multi subunit hydroxyarylic acid decarboxylases/phenol carboxylases are encoded by the three clustered genes, B, C, and D, of approximately 0.6, 1.4, and 0.

Degenerate oligonucleotide gene shuffling (DOGS) and random drift mutagenesis (RNDM): two complementary techniques for enzyme evolution.

Improvement of the biochemical characteristics of enzymes has been aided by misincorporation mutagenesis and DNA shuffling. Many gene shuffling techniques result predominantly in the regeneration of unshuffled (parental) molecules. We describe a procedure for gene shuffling using degenerate primers that allows control of the relative levels of recombination between the genes that are shuffled, and reduces the regeneration of unshuffled parental genes.

Thermophilic bacterial DNA polymerases with reverse-transcriptase activity.

Conserved motifs found in known bacterial polI DNA polymerase sequences were identified, and degenerate PCR primers were designed for PCR amplification of an internal portion of polI genes from all bacterial divisions. We describe here a method that has allowed the rapid identification and isolation of 13 polI genes from a diverse selection of thermophilic bacteria and report on the biochemical characteristics of nine of the purified recombinant enzymes. Several enzymes showed significant reverse-transcriptase activity in the presence of Mg2+, particularly the polymerases from Bacillus caldolyticus EA1, Caldibacillus cellovorans CompA.

Isolation, characterization and expression of the hex1 gene from Trichoderma reesei.

Polymers of the HEX1 protein produce Woronin bodies in filamentous fungi. We have isolated and sequenced the hex1 gene and flanking regions from the industrially exploited fungus Trichoderma reesei. Multiple transcription start sites (TSS) and the 5' untranslated region (UTR) were identified by 5'RACE PCR.

A yeast intron as a translational terminator in a plasmid shuttle vector.

Plasmid shuttle vectors that contain both prokaryotic (Escherichia coli) and eukaryotic origins of replication are routinely used in molecular biology since E. coli is generally the organism of choice for manipulation of recombinant DNA. Initial transformation of the shuttle vector into E.

Prospecting for novel lipase genes using PCR.

A PCR method suitable for the isolation of lipase genes directly from environmental DNA is described. The problems associated with the low levels of similarity between lipase genes were overcome by extensive analysis of conserved regions and careful primer design. Using this method, a lipase gene (oli-lipase) was isolated directly from environmental DNA.

Expression of xylanase enzymes from thermophilic microorganisms in fungal hosts.

Bulk production of xylanases from thermophilic microorganisms is a prerequisite for their use in industrial processes. As effective secretors of gene products, fungal expression systems provide a promising, industrially relevant alternative to bacteria for heterologous enzyme production. We are currently developing the yeast Kluyveromyces lactis and the filamentous fungus Trichoderma reesei for the extracellular production of thermophilic enzymes for the pulp and paper industry.

Production of recombinant bleaching enzymes from thermophilic microorganisms in fungal hosts.

Cost-effective production of enzymes for industrial processes makes the appropriate selection of the host-vector expression system critical. We have developed two systems for the bulk production of bleaching enzymes from thermophiles. Kluyveromyces lactis has been developed as a secretion host employing expression vectors based on the 2mu-like plasmid pKD1 of Kluyveromyces drosophilarium.

A novel thermostable multidomain 1,4-beta-xylanase from 'Caldibacillus cellulovorans' and effect of its xylan-binding domain on enzyme activity.

The nucleotide sequence of the complete xynA gene, encoding a novel multidomain xylanase XynA of 'Caldibacillus cellulovorans', was determined by genomic-walking PCR. The putative XynA comprises an N-terminal domain (D1), recently identified as a xylan-binding domain (XBD), homologous to non-catalytic thermostabilizing domains from other xylanases. D1 is followed by a xylanase catalytic domain (D2) homologous to family 10 glycosyl hydrolases.