An evolutionary conserved d-galacturonic acid metabolic pathway operates across filamentous fungi capable of pectin degradation.
about
Comparative genomics of citric-acid-producing Aspergillus niger ATCC 1015 versus enzyme-producing CBS 513.88Identification of a Novel L-rhamnose Uptake Transporter in the Filamentous Fungus Aspergillus nigerEngineering Aspergillus niger for galactaric acid production: elimination of galactaric acid catabolism by using RNA sequencing and CRISPR/Cas9Bioconversion of D-galacturonate to keto-deoxy-L-galactonate (3-deoxy-L-threo-hex-2-ulosonate) using filamentous fungiAn inventory of the Aspergillus niger secretome by combining in silico predictions with shotgun proteomics data.Conversion of orange peel to L-galactonic acid in a consolidated process using engineered strains of Aspergillus nigerA Transcriptome Meta-Analysis Proposes Novel Biological Roles for the Antifungal Protein AnAFP in Aspergillus niger.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.Identification and characterization of a galacturonic acid transporter from Neurospora crassa and its application for Saccharomyces cerevisiae fermentation processes.Engineering filamentous fungi for conversion of D-galacturonic acid to L-galactonic acid.Overexpression of the Aspergillus niger GatA transporter leads to preferential use of D-galacturonic acid over D-xylose.Metabolic engineering of fungal strains for conversion of D-galacturonate to meso-galactarateClustered Genes Encoding 2-Keto-l-Gulonate Reductase and l-Idonate 5-Dehydrogenase in the Novel Fungal d-Glucuronic Acid Pathway.The pathway intermediate 2-keto-3-deoxy-L-galactonate mediates the induction of genes involved in D-galacturonic acid utilization in Aspergillus niger.Combinatorial control of gene expression in Aspergillus niger grown on sugar beet pectin.The transcriptional activator GaaR of Aspergillus niger is required for release and utilization of d-galacturonic acid from pectin.Aspergillus niger membrane-associated proteome analysis for the identification of glucose transporters.An Evolutionarily Conserved Transcriptional Activator-Repressor Module Controls Expression of Genes for D-Galacturonic Acid Utilization in Aspergillus niger.NADPH-dependent 5-keto-D-gluconate reductase is a part of the fungal pathway for D-glucuronate catabolism.Inducer-independent production of pectinases in Aspergillus niger by overexpression of the D-galacturonic acid-responsive transcription factor gaaR.Evidence for rapid uptake of D-galacturonic acid in the yeast Saccharomyces cerevisiae by a channel-type transport system.
P2860
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P2860
An evolutionary conserved d-galacturonic acid metabolic pathway operates across filamentous fungi capable of pectin degradation.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
An evolutionary conserved d-ga ...... capable of pectin degradation.
@en
An evolutionary conserved d-ga ...... capable of pectin degradation.
@nl
type
label
An evolutionary conserved d-ga ...... capable of pectin degradation.
@en
An evolutionary conserved d-ga ...... capable of pectin degradation.
@nl
prefLabel
An evolutionary conserved d-ga ...... capable of pectin degradation.
@en
An evolutionary conserved d-ga ...... capable of pectin degradation.
@nl
P921
P1476
An evolutionary conserved d-ga ...... capable of pectin degradation.
@en
P304
P356
10.1016/J.FGB.2008.08.002
P577
2008-08-14T00:00:00Z