Hi
I try to maintain a page about myself and my work on google sites:
https://sites.google.com/site/metabolicengineeringgroup/ Phone: 253601517 Address: Campus de Gualtar
Carbohydrate rich substrates such as lignocellulosic hydrolysates remain one of the primary sourc... more Carbohydrate rich substrates such as lignocellulosic hydrolysates remain one of the primary sources of potentially renewable fuel and bulk chemicals. The pentose sugard-xylose is often present in significant amounts along with hexoses.Saccharomyces cerevisiaecan acquire the ability to metabolized-xylose through expression of heterologousd-xylose isomerase (XI). This enzyme is notoriously difficult to express inS. cerevisiaeand only fourteen XIs have been reported to be active so far. We cloned a newd-xylose isomerase derived from microorganisms in the gut of the wood-feeding beetleOdontotaenius disjunctus. Although somewhat homologous to the XI fromPiromycessp. E2, the new gene was identified as bacterial in origin and the host as aParabacteroidessp. Expression of the new XI inS. cerevisiaeresulted in faster aerobic growth than the XI fromPiromycesond-xylose media. Thed-xylose isomerization rate conferred by the new XI was also 72% higher, while absolute xylitol production was ident...
Lignocellulosic hydrolysates remain one of the most abundantly used substrates for the sustainabl... more Lignocellulosic hydrolysates remain one of the most abundantly used substrates for the sustainable production of second generation fuels and chemicals with Saccharomyces cerevisiae. Nevertheless, fermentation inhibitors such as acetic acid, furfural and hydroxymethylfurfural are formed during the process and can lead to slow or stuck fermentations and/or act as genotoxic agents leading to production strain genetic instability. We have developed a novel dominant deletion (DEL) cassette assay for quantification of DNA damage in both wild-type and industrial yeast strains. Using this assay, the ethanol production strain S. cerevisiae PE-2 was shown to be more resistant to hydrogen peroxide and furfural than the laboratory DEL strain RS112. Indeed, the PE-2 strain also showed a lower tendency for recombination, consistent with a more efficient DNA protection. The dominant DEL assay presented herein should prove to be a useful tool in the selection of robust yeast strains and process con...
Applied microbiology and biotechnology, Jan 2, 2018
Acetic acid tolerance and xylose consumption are desirable traits for yeast strains used in indus... more Acetic acid tolerance and xylose consumption are desirable traits for yeast strains used in industrial biotechnological processes. In this work, overexpression of a weak acid stress transcriptional activator encoded by the gene HAA1 and a phosphoribosyl pyrophosphate synthetase encoded by PRS3 in a recombinant industrial Saccharomyces cerevisiae strain containing a xylose metabolic pathway was evaluated in the presence of acetic acid in xylose- or glucose-containing media. HAA1 or PRS3 overexpression resulted in superior yeast growth and higher sugar consumption capacities in the presence of 4Â g/L acetic acid, and a positive synergistic effect resulted from the simultaneous overexpression of both genes. Overexpressing these genes also improved yeast adaptation to a non-detoxified hardwood hydrolysate with a high acetic acid content. Furthermore, the overexpression of HAA1 and/or PRS3 was found to increase the robustness of yeast cell wall when challenged with acetic acid stress, sug...
A prerequisite to the use of any enzyme in any industrial process is an understanding of its acti... more A prerequisite to the use of any enzyme in any industrial process is an understanding of its activity and stability under process conditions. Glycoside hydrolase family 8 enzymes include many important biotechnological biocatalysts yet little is known of the performance of these with respect to pH. A better understanding of this parameter and its relationship to structure and function in these enzymes will allow for an improved use of these in industry as well as an enhanced ability in their engineering and optimisation for a particular application. An in-depth analysis of the pH induced changes in activity, irreversible inactivation, conformation, stability and solubility of a commercial glycoside hydrolase family 8 xylanase was carried out with the aim of identifying the factors determining the pH dependence of this enzyme. Our study showed that different phenomena play different roles at the various pHs examined. Both reversible and irreversible processes are involved at acidic p...
Methods in molecular biology (Clifton, N.J.), 2004
Multiple gene expression can be introduced in a yeast strain with using only two markers by means... more Multiple gene expression can be introduced in a yeast strain with using only two markers by means of the two new vectors described, the expression vector pB3 PGK and the CRE recombinase vector pCRE3. The pB3 PGK has a zeocin-selectable marker flanked by loxP sequences and an expression cassette consisting of the strong PGK1 promoter and the GCY1 terminator. The gene of interest (YFG1) is cloned between the promoter and terminator of pB3 PGK. The pB3 PGK-YFG1 is integrated into the genome by a single restriction cut within the YFG1 gene and integrated in the YFG1 locus. The strain is further transformed with the pCRE3 vector. The CRE recombinase expressed from this vector removes the zeocin marker and makes it possible to use the pB3 PGK vector over again in the same strain after curing of the pCRE3 vector. The 2 micro -based pCRE3 carries the aureobasidin A, zeocin and URA3 markers. pCRE3 is easily cured by growth in nonselective medium without active counterselection. The screening...
Saccharomyces cerevisiae has been reported to die, under certain conditions, from programmed cell... more Saccharomyces cerevisiae has been reported to die, under certain conditions, from programmed cell death with apoptotic markers. One of the most important markers is chromosomal DNA fragmentation as indicated by terminal deoxynucleotidyl transferase dUTP nick-end labeling (TUNEL) staining. We found TUNEL staining in S. cerevisiae to be a consequence of both single- and double-strand DNA breaks, whereas in situ ligation specifically stained double-strand DNA breaks. Cells treated with hydrogen peroxide or acetic acid staining positively for TUNEL assay stained negatively for in situ ligation, indicating that DNA damage in both cases mainly consists of single-strand DNA breaks. Pulsed field gel electrophoresis of chromosomal DNA from cells dying from hydrogen peroxide, acetic acid, or hyperosmotic shock revealed DNA breakdown into fragments of several hundred kilobases, consistent with the higher order chromatin degradation preceding DNA laddering in apoptotic mammalian cells. DNA frag...
Carbohydrate rich substrates such as lignocellulosic hydrolysates remain one of the primary sourc... more Carbohydrate rich substrates such as lignocellulosic hydrolysates remain one of the primary sources of potentially renewable fuel and bulk chemicals. The pentose sugard-xylose is often present in significant amounts along with hexoses.Saccharomyces cerevisiaecan acquire the ability to metabolized-xylose through expression of heterologousd-xylose isomerase (XI). This enzyme is notoriously difficult to express inS. cerevisiaeand only fourteen XIs have been reported to be active so far. We cloned a newd-xylose isomerase derived from microorganisms in the gut of the wood-feeding beetleOdontotaenius disjunctus. Although somewhat homologous to the XI fromPiromycessp. E2, the new gene was identified as bacterial in origin and the host as aParabacteroidessp. Expression of the new XI inS. cerevisiaeresulted in faster aerobic growth than the XI fromPiromycesond-xylose media. Thed-xylose isomerization rate conferred by the new XI was also 72% higher, while absolute xylitol production was ident...
Lignocellulosic hydrolysates remain one of the most abundantly used substrates for the sustainabl... more Lignocellulosic hydrolysates remain one of the most abundantly used substrates for the sustainable production of second generation fuels and chemicals with Saccharomyces cerevisiae. Nevertheless, fermentation inhibitors such as acetic acid, furfural and hydroxymethylfurfural are formed during the process and can lead to slow or stuck fermentations and/or act as genotoxic agents leading to production strain genetic instability. We have developed a novel dominant deletion (DEL) cassette assay for quantification of DNA damage in both wild-type and industrial yeast strains. Using this assay, the ethanol production strain S. cerevisiae PE-2 was shown to be more resistant to hydrogen peroxide and furfural than the laboratory DEL strain RS112. Indeed, the PE-2 strain also showed a lower tendency for recombination, consistent with a more efficient DNA protection. The dominant DEL assay presented herein should prove to be a useful tool in the selection of robust yeast strains and process con...
Applied microbiology and biotechnology, Jan 2, 2018
Acetic acid tolerance and xylose consumption are desirable traits for yeast strains used in indus... more Acetic acid tolerance and xylose consumption are desirable traits for yeast strains used in industrial biotechnological processes. In this work, overexpression of a weak acid stress transcriptional activator encoded by the gene HAA1 and a phosphoribosyl pyrophosphate synthetase encoded by PRS3 in a recombinant industrial Saccharomyces cerevisiae strain containing a xylose metabolic pathway was evaluated in the presence of acetic acid in xylose- or glucose-containing media. HAA1 or PRS3 overexpression resulted in superior yeast growth and higher sugar consumption capacities in the presence of 4Â g/L acetic acid, and a positive synergistic effect resulted from the simultaneous overexpression of both genes. Overexpressing these genes also improved yeast adaptation to a non-detoxified hardwood hydrolysate with a high acetic acid content. Furthermore, the overexpression of HAA1 and/or PRS3 was found to increase the robustness of yeast cell wall when challenged with acetic acid stress, sug...
A prerequisite to the use of any enzyme in any industrial process is an understanding of its acti... more A prerequisite to the use of any enzyme in any industrial process is an understanding of its activity and stability under process conditions. Glycoside hydrolase family 8 enzymes include many important biotechnological biocatalysts yet little is known of the performance of these with respect to pH. A better understanding of this parameter and its relationship to structure and function in these enzymes will allow for an improved use of these in industry as well as an enhanced ability in their engineering and optimisation for a particular application. An in-depth analysis of the pH induced changes in activity, irreversible inactivation, conformation, stability and solubility of a commercial glycoside hydrolase family 8 xylanase was carried out with the aim of identifying the factors determining the pH dependence of this enzyme. Our study showed that different phenomena play different roles at the various pHs examined. Both reversible and irreversible processes are involved at acidic p...
Methods in molecular biology (Clifton, N.J.), 2004
Multiple gene expression can be introduced in a yeast strain with using only two markers by means... more Multiple gene expression can be introduced in a yeast strain with using only two markers by means of the two new vectors described, the expression vector pB3 PGK and the CRE recombinase vector pCRE3. The pB3 PGK has a zeocin-selectable marker flanked by loxP sequences and an expression cassette consisting of the strong PGK1 promoter and the GCY1 terminator. The gene of interest (YFG1) is cloned between the promoter and terminator of pB3 PGK. The pB3 PGK-YFG1 is integrated into the genome by a single restriction cut within the YFG1 gene and integrated in the YFG1 locus. The strain is further transformed with the pCRE3 vector. The CRE recombinase expressed from this vector removes the zeocin marker and makes it possible to use the pB3 PGK vector over again in the same strain after curing of the pCRE3 vector. The 2 micro -based pCRE3 carries the aureobasidin A, zeocin and URA3 markers. pCRE3 is easily cured by growth in nonselective medium without active counterselection. The screening...
Saccharomyces cerevisiae has been reported to die, under certain conditions, from programmed cell... more Saccharomyces cerevisiae has been reported to die, under certain conditions, from programmed cell death with apoptotic markers. One of the most important markers is chromosomal DNA fragmentation as indicated by terminal deoxynucleotidyl transferase dUTP nick-end labeling (TUNEL) staining. We found TUNEL staining in S. cerevisiae to be a consequence of both single- and double-strand DNA breaks, whereas in situ ligation specifically stained double-strand DNA breaks. Cells treated with hydrogen peroxide or acetic acid staining positively for TUNEL assay stained negatively for in situ ligation, indicating that DNA damage in both cases mainly consists of single-strand DNA breaks. Pulsed field gel electrophoresis of chromosomal DNA from cells dying from hydrogen peroxide, acetic acid, or hyperosmotic shock revealed DNA breakdown into fragments of several hundred kilobases, consistent with the higher order chromatin degradation preceding DNA laddering in apoptotic mammalian cells. DNA frag...
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Papers by Bjorn Johansson