Abstract Background The degradation of plant materials by enzymes is an industry of increasing importance. For sustainable production of second generation biofuels and other products of industrial biotechnology, efficient degradation of non-edible plant polysaccharides such as hemicellulose is required. For each type of hemicellulose, a complex mixture of enzymes is required for complete conversion to fermentable monosaccharides. In plant-biomass degrading fungi, these enzymes are regulated and released by complex regulatory structures. In this study, we present a methodology for evaluating the potential of a given fungus for polysaccharide degradation. Results Through the compilation of information from 203 articles, we have systematized knowledge on the structure and degradation of 16 major types of plant polysaccharides to form a graphical overview. As a case example, we have combined this with a list of 188 genes coding for carbohydrate-active enzymes from <it>Aspergillus niger</it>, thus forming an analysis framework, which can be queried. Combination of this information network with gene expression analysis on mono- and polysaccharide substrates has allowed elucidation of concerted gene expression from this organism. One such example is the identification of a full set of extracellular polysaccharide-acting genes for the degradation of oat spelt xylan. Conclusions The mapping of plant polysaccharide structures along with the corresponding enzymatic activities is a powerful framework for expression analysis of carbohydrate-active enzymes. Applying this network-based approach, we provide the first genome-scale characterization of all genes coding for carbohydrate-active enzymes identified in <it>A. niger</it>.</p

Andersen, Mikael Rørdam

de Vries, Ronald P.

Giese, Malene

Nielsen, Jens

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A tri-species Aspergillus micro array: comparative transcriptomics of three Aspergillus species. ProcNatlAcadSciUSA

A xyloglucanspeciﬁc family 12 glycosyl hydrolase from Aspergillus niger: recombinant expression, puriﬁcation and characterization. BiochemJ

A: Aspergillusniger genome-wide analysis reveals a large number of novel α-glucan acting enzymes with unexpected expression proﬁles. MolGenetGenomics

A: Cloning and expression of xylanase genes from fungal origin . EuropeanPatentApplication

A: Database mining and transcriptional analysis of genes encoding inulin-modifying enzymes of Aspergillusniger.

A: Identiﬁcation of InuR, a new Zn(II)2Cys6 transcriptional activator involved in the regulation of inulinolytic genes in Aspergillusniger. MolGenetGenomics

A: Isolation and structural characterization of endo-rhamnogalacturonase-generated fragments of the backbone of rhamnogalacturonan I. CarbohydrRes

A: Puriﬁcation and properties of two β-glucosidases isolated from Aspergillusniger. ActaBiotechnol

A: Structural analysis of tamarind seed xyloglucan oligosaccharides using β-galactosidase digestion and spectroscopic methods. Carbohydr Res

Abdel-Fattah AF: Puriﬁcation and properties of three cellobiases from Aspergillusniger A20. ApplBiochemBiotechnol

Action patterns and mapping of the substrate-binding regions of endo-(1->5)-α-L-arabinanases from Aspergillusniger and Aspergillusaculeatus. CarbohydrRes

Aﬀymetrix: GeneChipExpressionAnalysisTechnicalManual-WithSpeciﬁc ProtocolsforUsingtheGeneChipHybridization,Wash,andStainKit.

AG: Partially esteriﬁed oligogalacturonides are the preferred substrates for pectin methylesterase of Aspergillusniger. BiochemJ

AG: Two general branching patternsofxyloglucan,XXXGandXXGG.PlantPhysiol1997,114:9–13.Andersen etal. BMCGenomics 2012, 13:313

AGJ: Puriﬁcation and characterization of an acetyl xylan esterase from Aspergillusniger. JBiotechnol

AGJ: Puriﬁcation and characterization of endo-1,4-β-galactanases from Aspergillusniger and Aspergillusaculeatus:U s e in combination with arabinanases from Aspergillusniger in enzymic conversion of potato arabinogalactan. CarbohydrPolym

Amad` o R, Neukom H: Puriﬁcation of an α-L-arabinofuranosidase from Aspergillus niger by substrate aﬃnity chromatography. JChromatogr

An acetylated galactoglucomannan from Piceaabies

Analysis of the molecular construction of xylogalacturonan isolated from soluble soybean polysaccharides. BiosciBiotechnolBiochem

Appu Rao AG: A simple fractionation protocol for, and a comprehensive study of the molecular properties of two major endopolygalacturonases from Aspergillusniger. BiotechnolAppl Biochem

Aspergillus enzymes involved in degradation of plant cell wall polysaccharides. MicrobiolMolBiolRev

Augur C: A novel tannase from Aspergillusniger with β-glucosidase activity.

Azizan MN: Puriﬁcation and properties of two forms of glucoamylase from Aspergillus niger. FoliaMicrobiol(Praha)

Bacic A: Structural characterisation of galactoglucomannan secreted by suspension-cultured cells of Nicotianaplumbaginifolia. CarbohydrRes

Balogh E: Properties of an extracellular glycosidase of Aspergillusniger suitable for removal of oligosaccharides from cowpea meal. EnzymeMicrobTechnol

Bezbodorow AM: β-Xylosidase from Aspergillusniger 15: Puriﬁcation and Properties. JApplBiochem

Biely P: Reaction pathways of substrate degradation by an acidic endo-1,4-β-xylanase of Aspergillusniger. BiochimBiophysActa

BS: Saccharomyces cerevisiae cells secreting an Aspergillusniger β-galactosidase grow on whey permeate. Biotechnology(NY)

CA: Cloning and expression of a member of the Aspergillusniger gene family encoding α-galactosidase. MolGenGenet

CA: Isolation and characterization of a 1,4-β-endoxylanase gene of A.awamori. CurrGenet

Characterisation and puriﬁcation of a cinnamate esterase from Aspergillusniger industrial pectinase preparation. JSciFoodAgric

Characterization and expression of a genomic pectin methyl esterase-encodinggeneinAspergillusniger.Gene1991,106(1):71–77.

Characterization of a novel endopolygalacturonase from Aspergillus niger with unique kinetic properties. FEBSLett

Characterization of a polygalacturonase gene of Aspergillusniger RH5344. MolMicrobiol

Characterization of Aspergillusniger pectate lyase A. Biochem

Characterization of endopolygalacturonase (EC 3.2.1.15) from Aspergillusniger as glycoprotein by electrophoretic methods and lectin aﬃnoblotting. Electrophoresis

Characterization of galactosidases from Aspergillusniger: puriﬁcation of a novel α-galactosidase activity. EnzymeMicrobTechnol

Characterization of the Aspergillusniger pelB gene: structure and regulation of expression. MolGenGenet

Characterization of the β-glucosidase activity associated with immobilized cellulase of Aspergillus niger. AnnNYAcadSci

Characterization of α-D-xylosidase II from A.niger. AgricBiolChem

CL: Puriﬁcation and characterization of a glucose-tolerant β- glucosidase from Aspergillusniger CCRC 31494. BiosciBiotechnolBiochem

CL: Puriﬁcation and characterization of an extracellular β-glucosidase II with high hydrolysis and transglucosylation activities from Aspergillusniger. JAgricFood Chem

Cloning and characterization of Aspergillusniger genes encoding an α-galactosidase and a β-mannosidase involved in galactomannan degradation. EurJBiochem

Cloning and characterization of two rhamnogalacturonan hydrolase genes from Aspergillusniger. ApplEnvironMicrobiol

Cloning and expression of a second Aspergillusniger pectin lyase gene (pelA): indications of a pectin lyase gene family in A.niger. CurrGenet

Cloning and expression of xylanase B. InternationalPatentApplication

Cloning, characterization, and expression of two α-amylase genes from Aspergillus niger var. awamori. CurrGenet

Controlling the false discovery rate: a practical and powerful approach to multiple testing. JRoyStatSocB

Core Team: R:ALanguageandEnvironmentforStatistical Computing.

Darmwal NS: General and kinetic properties of endoglucanase from Aspergillusniger. FEMSMicrobiol Lett

Darmwal NS: Properties of exoglucanase from A.niger. JGenApplMicrobiol 1990, 36:245–253.Andersen etal. BMCGenomics 2012, 13:313

de Bruyne CK: Partial puriﬁcation and properties of an Aspergillusniger β-Dxylosidase. Enzymologia

de Graaf LH: EglC, a new endoglucanase from Aspergillusniger with major activity towards xyloglucan. ApplEnvironMicrobiol

de Graaﬀ L: Arabinase gene expression in Aspergillusniger: indications for coordinated regulation.

de Graaﬀ L: Cloning of the Aspergillusniger gene encoding α-L-arabinofuranosidase A. ApplMicrobiolBiotechnol

de Graaﬀ L: The transcriptional activator XlnR regulates both xylanolytic and endoglucanase gene expression in Aspergillusniger. ApplEnviron Microbiol

de Graaﬀ LH: Arabinoxylan degradation by fungi: characterization of the arabinoxylanarabinofuranohydrolase encoding genes from Aspergillusniger and Aspergillustubingensis. CurrGenet

de Graaﬀ LH: betaxylosidase activity, encoded by xlnD, is essential for complete hydrolysis of xylan by Aspergillusniger but not for induction of the xylanolytic enzyme spectrum. EurJBiochem

de Graaﬀ LH: Cloning and characterization of the abfB gene coding for the major α-L-arabinofuranosidase (AbfB) of Aspergillusniger. CurrGenet

de Graaﬀ LH: CreA modulates the XlnR-induced expression on xylose of Aspergillusniger genes involved in xylan degradation. ResMicrobiol

de Graaﬀ LH: Molecular cloning, expression and structure of the endo-1,5-α-L-arabinase gene of Aspergillusniger. ApplMicrobiol Biotechnol

de Graaﬀ LH: Two cellobiohydrolase-encoding genes from Aspergillus niger require D-xylose and the xylanolytic transcriptional activator XlnR for their expression. ApplEnvironMicrobiol

de Vries R: Fungal enzyme sets for plant polysaccharide degradation. ApplMicrobiolBiotechnol

de Vries RP, P A vanKuyk GJR, Visser J: Isolation and characterization of two speciﬁc regulatory Aspergillusniger mutants shows antagonistic regulation of arabinan and xylan metabolism.

de Vries RP: Ab r o a d e r role for AmyR in Aspergillus niger: regulation of the utilisation of D-glucose or D-galactose containing oligo- and polysaccharides. ApplMicrobiolBiotechnol

de Vries RP: Analysis of regulation of pentose utilisation in Aspergillus niger reveals evolutionary adaptations in Eurotiales. StudMycol

de Vries RP: Post-genomic insights into the plant polysaccharide degradation potential of Aspergillus nidulans and comparison to Aspergillus niger and Aspergillus oryzae. Fungal GenetBiol 2009, 46(Suppl 1):S161–S169.

de Vries RP: Regulation of pentose utilisation by AraR, but not XlnR, diﬀers in Aspergillus nidulans and Aspergillus niger. ApplMicrobiol Biotechnol

Detection of endogenous β-glucuronidase activity in Aspergillusniger. ApplMicrobiol Biotechnol

Diﬀerential expression of three α-galactosidase genes and as i n g l eβ-galactosidase gene from Aspergillusniger. ApplEnviron Microbiol

Dijkstra BW: 1.68 ˚ A crystal structure of endopolygalacturonase II from Aspergillusniger and identiﬁcation of active site residues by site-directed mutagenesis. JBiolChem

Dijkstra BW: Crystallization and preliminary crystallographic characterization of endo-polygalacturonase II from Aspergillusniger. JMolBiol

Dijkstra BW: Structural insights into the processivity of endopolygalacturonase I from Aspergillusniger. FEBSLett

Dijkstra BW: Threedimensional structure of Endo-1,4-β-xylanase I from Aspergillusniger: molecular basis for its low pH optimum. JMolBiol

Doco T: A complex plant cell wall polysaccharide: rhamnogalacturonan II. A structure in quest of a function. Biochimie

Doutheau A: Tandem mass spectrometric analysis of Aspergillusniger pectin methylesterase: mode of action on fully methyl-esteriﬁed oligogalacturonates. BiochemJ

EF: Determination of the structure of an endoglucanase from Aspergillusniger and its mode of inhibition by palladium chloride. ActaCrystallogrDBiolCrystallogr

Egami F: α-L-Rhamnosidases of the liver of Turbo cornutus and Aspergillusniger. JBiochem

Elbein AD: Glucoprotein enzymes secreted by Aspergillus niger: Puriﬁcation and properties of α-galactosidase. JBacteriol

Endo-1,4-β-xylanase B from Aspergillus cf. niger BCC14405 isolated in Thailand: puriﬁcation, characterization and gene isolation. JBiochemMolBiol

Exploration, normalization, and summaries of high density oligonucleotide array probe level data. Biostatistics

Expression and sequence comparison of the Aspergillusniger and Aspergillustubigensis genes encoding polygalacturonase II. CurrGenet

Expression proﬁling of pectinolytic genes from Aspergillusniger. FEBSLett

F: The three dimensional structure of A.niger pectin lyase B at 1.7-˚ A resolution.

FavelaTorres E: Production and properties of three pectinolytic activities produced by Aspergillusniger in submerged and solid-state fermentation. ApplMicrobiolBiotechnol

Ferulic acid esterase from Aspergillusniger: puriﬁcation and partial characterization of two forms from a commercial source of pectinase. BiotechnolApplBiochem

Fiil NP: Glucoamylases G1 and G2 from Aspergillusniger are synthesized from two diﬀerent but closely related mRNAs. EMBOJ

Fiil NP: Two diﬀerent types of intervening sequences in the glucoamylase gene from Aspergillus niger. EMBOJ

G: Ferulic acid esterase-III from Aspergillusniger does not exhibit lipase activity. JSciFoodAgric

Genome sequencing and analysis of the versatile cell factory Aspergillusniger CBS 513.88. NatBiotechnol

Glucosidases of Aspergillusniger: II. Puriﬁcation and general properties of 1,2-α-L-fucosidase. JBiolChem

Gorbacheva IV: The active site of an acidic endo-1,4-β- xylanase of Aspergillusniger. BiochimBiophysActa

Gravesen T: Crystallization and preliminary X-ray analysis of pectin l y a s eAf r o mAspergillusniger. ActaCrystallogrDBiolCrystallogr

Gunnarsson A: Characterization of a glucoamylase G2 from Aspergillusniger. EurJBiochem

Hahn-Hagerdal B: Fungal cellulolytic enzyme production: A review. ProcessBiochem

Hemming FW, Peberdy JF: Galactofuranoicoligomannose N-linked glycans of α-galactosidase A from Aspergillusniger. EurJBiochem 2001, 268(15):4134–4143.Andersen etal. BMCGenomics 2012, 13:313

Hemming FW, Peberdy JF: Secretion of two β-fructofuranosidases by Aspergillusniger growing in sucrose. Arch BiochemBiophys

Henrissat B: The Carbohydrate-Active EnZymes database (CAZy): an expert resource for Glycogenomics. NucleicAcidsRes 2009, 37(Database issue):D233–D238.

HH: On the galactosyl distribution of commercial galactomannans. CarbohydrRes

High recovery puriﬁcation and some properties of a β-glucosidase from A.niger. BiosciBiotechnolBiochem

Mapping the polysaccharide degradation potential of Aspergillus niger