van den Hombergh JP

References (3)

Title : Genome sequencing and analysis of the versatile cell factory Aspergillus niger CBS 513.88 - Pel_2007_Nat.Biotechnol_25_221
Author(s) : Pel HJ , de Winde JH , Archer DB , Dyer PS , Hofmann G , Schaap PJ , Turner G , de Vries RP , Albang R , Albermann K , Andersen MR , Bendtsen JD , Benen JA , van den Berg M , Breestraat S , Caddick MX , Contreras R , Cornell M , Coutinho PM , Danchin EG , Debets AJ , Dekker P , van Dijck PW , van Dijk A , Dijkhuizen L , Driessen AJ , d'Enfert C , Geysens S , Goosen C , Groot GS , de Groot PW , Guillemette T , Henrissat B , Herweijer M , van den Hombergh JP , van den Hondel CA , van der Heijden RT , van der Kaaij RM , Klis FM , Kools HJ , Kubicek CP , van Kuyk PA , Lauber J , Lu X , van der Maarel MJ , Meulenberg R , Menke H , Mortimer MA , Nielsen J , Oliver SG , Olsthoorn M , Pal K , van Peij NN , Ram AF , Rinas U , Roubos JA , Sagt CM , Schmoll M , Sun J , Ussery D , Varga J , Vervecken W , van de Vondervoort PJ , Wedler H , Wosten HA , Zeng AP , van Ooyen AJ , Visser J , Stam H
Ref : Nat Biotechnol , 25 :221 , 2007
Abstract : The filamentous fungus Aspergillus niger is widely exploited by the fermentation industry for the production of enzymes and organic acids, particularly citric acid. We sequenced the 33.9-megabase genome of A. niger CBS 513.88, the ancestor of currently used enzyme production strains. A high level of synteny was observed with other aspergilli sequenced. Strong function predictions were made for 6,506 of the 14,165 open reading frames identified. A detailed description of the components of the protein secretion pathway was made and striking differences in the hydrolytic enzyme spectra of aspergilli were observed. A reconstructed metabolic network comprising 1,069 unique reactions illustrates the versatile metabolism of A. niger. Noteworthy is the large number of major facilitator superfamily transporters and fungal zinc binuclear cluster transcription factors, and the presence of putative gene clusters for fumonisin and ochratoxin A synthesis.
ESTHER : Pel_2007_Nat.Biotechnol_25_221
PubMedSearch : Pel_2007_Nat.Biotechnol_25_221
PubMedID: 17259976
Gene_locus related to this paper: aspna-g3yal2 , aspnc-a2q8r7 , aspnc-a2q814 , aspnc-a2qb93 , aspnc-a2qbd3 , aspnc-a2qbh3 , aspnc-a2qbx7 , aspnc-a2qdj6 , aspnc-a2qe77 , aspnc-a2qf54 , aspnc-a2qfe9 , aspnc-a2qg33 , aspnc-a2qgj6 , aspnc-a2qgm6 , aspnc-a2qh52 , aspnc-a2qh76 , aspnc-a2qh85 , aspnc-a2qhe2 , aspnc-a2qi32 , aspnc-a2qib2 , aspnc-a2qk14 , aspnc-a2ql23 , aspnc-a2ql89 , aspnc-a2ql90 , aspnc-a2qla0 , aspnc-a2qlz0 , aspnc-a2qm14 , aspnc-a2qmk5 , aspnc-a2qms0 , aspnc-a2qn29 , aspnc-a2qn56 , aspnc-a2qn70 , aspnc-a2qnw9 , aspnc-a2qr21 , aspnc-a2qs22 , aspnc-a2qt50 , aspnc-a2qti9 , aspnc-a2qtz0 , aspnc-a2quc1 , aspnc-a2qw06 , aspnc-a2qwz6 , aspnc-a2qx92 , aspnc-a2qyf0 , aspnc-a2qys7 , aspnc-a2qz72 , aspnc-a2qzn6 , aspnc-a2qzr0 , aspnc-a2qzs1 , aspnc-a2qzx0 , aspnc-a2qzx4 , aspnc-a2r0p4 , aspnc-a2r0u0 , aspnc-a2r1p3 , aspnc-a2r1r5 , aspnc-a2r2i5 , aspnc-a2r2l0 , aspnc-a2r3s8 , aspnc-a2r4c0 , aspnc-a2r4j8 , aspnc-a2r5r4 , aspnc-a2r6g3 , aspnc-a2r6h5 , aspnc-a2r6h8 , aspnc-a2r7q1 , aspnc-a2r8r3 , aspnc-a2r8z3 , aspnc-a2r9y8 , aspnc-a2r032 , aspnc-a2r040 , aspnc-a2r273 , aspnc-a2r496 , aspnc-a2r502 , aspnc-a2ra07 , aspnc-a2rap4 , aspnc-a2raq2 , aspnc-a2rav1 , aspnc-a5aaf4 , aspnc-a5ab63 , aspnc-a5abc6 , aspnc-a5abe5 , aspnc-a5abe8 , aspnc-a5abf0 , aspnc-a5abh9 , aspnc-a5abk1 , aspnc-a5abt2 , aspnc-a5abz1 , aspnc-atg15 , aspnc-axe1 , aspnc-cuti1 , aspnc-cuti2 , aspnc-faec , aspng-a2q8w0 , aspng-a2qs46 , aspng-a2qst4 , aspng-a2qv27 , aspng-a2qzk9 , aspng-a2r0p8 , aspng-a2r225 , aspng-DAPB , aspng-DPP5 , aspng-faeb , aspni-APSC , aspni-EstA , aspni-FAEA , aspni-PAPA , aspkw-g7y0v7 , aspnc-a2qt47 , aspnc-a2qt66 , aspnc-a2r199 , aspnc-a2r871 , aspnc-a2qbp6 , aspnc-a2qqa1 , aspnc-a2qt70 , aspna-g3y5a6 , aspna-g3xpw9 , aspnc-a2qw57 , aspaw-a0a401kcz4 , aspna-alba , aspnc-kex1 , aspnc-cbpya , aspnc-a2qbg8

Title : The faeA genes from Aspergillus niger and Aspergillus tubingensis encode ferulic acid esterases involved in degradation of complex cell wall polysaccharides - de Vries_1997_Appl.Environ.Microbiol_63_4638
Author(s) : de Vries RP , Michelsen B , Poulsen CH , Kroon PA , van den Heuvel RH , Faulds CB , Williamson G , van den Hombergh JP , Visser J
Ref : Applied Environmental Microbiology , 63 :4638 , 1997
Abstract : We report the cloning and characterization of a gene encoding a ferulic acid esterase, faeA, from Aspergillus niger and Aspergillus tubingensis. The A. niger and A. tubingensis genes have a high degree of sequence identity and contain one conserved intron. The gene product, FAEA, was overexpressed in wild-type A. tubingensis and a protease-deficient A. niger mutant. Overexpression of both genes in wild-type A. tubingensis and an A. niger protease-deficient mutant showed that the A. tubingensis gene product is more sensitive to degradation than the equivalent gene product from A. niger. FAEA from A. niger was identical to A. niger FAE-III (C. B. Faulds and G. Williamson, Microbiology 140:779-787, 1994), as assessed by molecular mass, pH and temperature optima, pI, N-terminal sequence, and activity on methyl ferulate. The faeA gene was induced by growth on wheat arabinoxylan and sugar beet pectin, and its gene product (FAEA) released ferulic acid from wheat arabinoxylan. The rate of release was enhanced by the presence of a xylanase. FAEA also hydrolyzed smaller amounts of ferulic acid from sugar beet pectin, but the rate was hardly affected by addition of an endo-pectin lyase.
ESTHER : de Vries_1997_Appl.Environ.Microbiol_63_4638
PubMedSearch : de Vries_1997_Appl.Environ.Microbiol_63_4638
PubMedID: 9406381
Gene_locus related to this paper: aspni-FAEA , asptu-FAEA

Title : Cloning, characterization and expression of pepF, a gene encoding a serine carboxypeptidase from Aspergillus niger - van den Hombergh_1994_Gene_151_73
Author(s) : van den Hombergh JP , Jarai G , Buxton FP , Visser J
Ref : Gene , 151 :73 , 1994
Abstract : We have cloned a gene (pepF) encoding a serine carboxypeptidase, proteinase F (PEPF), from Aspergillus niger. The sequences were identified in a phage lambda genomic DNA library using a synthetic probe based on the N-terminal sequence of PEPF. Nucleotide sequence data from pepF genomic and cDNA clones reveals that it is composed of four exons of 199, 283, 227 and 881 bp, interrupted by three introns of 53, 69 and 59 bp. The sequence of pepF codes for a polypeptide of 530 amino acids (aa), of which the first 52 aa are not present in the mature PEPF. This region may represent a prepro sequence that is removed by proteolytic cleavage as a monobasic cleavage site (Lys52). Northern blot analysis of total cellular RNA extracted from A. niger cells indicates that pepF is transcribed as a single 1.8-kb mRNA, which is regulated by nitrogen and carbon repression, specific induction and the pH of the culture medium.
ESTHER : van den Hombergh_1994_Gene_151_73
PubMedSearch : van den Hombergh_1994_Gene_151_73
PubMedID: 7828908
Gene_locus related to this paper: aspng-pepf