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Engineering Aspergillus niger for galactaric acid production: elimination of galactaric acid catabolism by using RNA sequencing and CRISPR/Cas9Glycolic acid production in the engineered yeasts Saccharomyces cerevisiae and Kluyveromyces lactisIdentification of the first fungal NADP-GAPDH from Kluyveromyces lactis.Identification in the mold Hypocrea jecorina of the first fungal D-galacturonic acid reductase.Conversion of orange peel to L-galactonic acid in a consolidated process using engineered strains of Aspergillus nigerCategorisation of sugar acid dehydratases in Aspergillus niger.Pectinase activity determination: an early deceleration in the release of reducing sugars throws a spanner in the works!A novel pathway for fungal D-glucuronate catabolism contains an L-idonate forming 2-keto-L-gulonate reductase.The introduction of the fungal D-galacturonate pathway enables the consumption of D-galacturonic acid by Saccharomyces cerevisiae.Purification, crystallization and preliminary X-ray diffraction analysis of a novel keto-deoxy-D-galactarate (KDG) dehydratase from Agrobacterium tumefaciens.Effect of C-terminal protein tags on pentitol and L-arabinose transport by Ambrosiozyma monospora Lat1 and Lat2 transporters in Saccharomyces cerevisiae.Overexpression of PAD1 and FDC1 results in significant cinnamic acid decarboxylase activity in Saccharomyces cerevisiae.Engineering a filamentous fungus for L-rhamnose extraction.Engineering filamentous fungi for conversion of D-galacturonic acid to L-galactonic acid.Identification in the mould Hypocrea jecorina of a gene encoding an NADP(+): d-xylose dehydrogenaseL-xylo-3-hexulose reductase is the missing link in the oxidoreductive pathway for D-galactose catabolism in filamentous fungiMetabolic engineering of fungal strains for conversion of D-galacturonate to meso-galactarateCharacterization of a novel Agrobacterium tumefaciens galactarolactone cycloisomerase enzyme for direct conversion of D-galactarolactone to 3-deoxy-2-keto-L-threo-hexarate.Clustered Genes Encoding 2-Keto-l-Gulonate Reductase and l-Idonate 5-Dehydrogenase in the Novel Fungal d-Glucuronic Acid Pathway.Reconstitution of CF0F1 into liposomes using a new reconstitution procedure.Metabolic engineering of Saccharomyces cerevisiae for conversion of D-glucose to xylitol and other five-carbon sugars and sugar alcohols.The missing link in the fungal D-galacturonate pathway: identification of the L-threo-3-deoxy-hexulosonate aldolase.The GDI1 genes from Kluyveromyces lactis and Pichia pastoris: cloning and functional expression in Saccharomyces cerevisiae.Identification of an L-arabinose reductase gene in Aspergillus niger and its role in L-arabinose catabolismSaccharomyces cerevisiae engineered to produce D-xylonate.The 'true' L-xylulose reductase of filamentous fungi identified in Aspergillus niger.Blocking one non-catalytic ADP binding site results in complete inhibition of the F-type ATPase from the thermophilic Bacillus PS3.Metabolic engineering of the fungal D-galacturonate pathway for L-ascorbic acid production.Cloning and expression of a fungal L-arabinitol 4-dehydrogenase gene.The missing link in the fungal L-arabinose catabolic pathway, identification of the L-xylulose reductase gene.Production of ethanol from L-arabinose by Saccharomyces cerevisiae containing a fungal L-arabinose pathway.Identification in the yeast Pichia stipitis of the first L-rhamnose-1-dehydrogenase gene.NADPH-dependent 5-keto-D-gluconate reductase is a part of the fungal pathway for D-glucuronate catabolism.Control and regulation of metabolic fluxes in microbes by substrates and enzymes.Synchronized Heat Flux Oscillations in Yeast Cell PopulationsYeast cells with a specific cellular make-up and an environment that removes acetaldehyde are prone to sustained glycolytic oscillationsAround the growth phase transition S. cerevisiae's make-up favours sustained oscillations of intracellular metabolitesIdentification of the galactitol dehydrogenase, LadB, that is part of the oxido-reductive D-galactose catabolic pathway in Aspergillus nigerSorbitol dehydrogenase of Aspergillus niger, SdhA, is part of the oxido-reductive D-galactose pathway and essential for D-sorbitol catabolismMicrobial hexuronate catabolism in biotechnology
P50
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P50
description
hulumtues
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onderzoeker
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researcher
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հետազոտող
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name
Peter Richard
@ast
Peter Richard
@en
Peter Richard
@es
Peter Richard
@nl
Peter Richard
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type
label
Peter Richard
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Peter Richard
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Peter Richard
@es
Peter Richard
@nl
Peter Richard
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prefLabel
Peter Richard
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Peter Richard
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Peter Richard
@es
Peter Richard
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Peter Richard
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P106
P1153
7201985479
P21
P31
P496
0000-0003-0922-6092