Analysis of Variance Components Reveals the Contribution of Sample Processing to Transcript Variation

Veen, Douwe van der; Oliveira, José Miguel; Berg, W.A.M. van den; Graaff, L.H. de

doi:10.1128/aem.02270-08

Cited by 26 publications

(39 citation statements)

References 38 publications

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“…To avoid excessive foam formation, 1 ml antifoam (Sigma-Aldrich, St. Louis, MO) was added to the medium. Inoculation of the cultures using 1 ϫ 10 6 spores per ml, cultivation conditions, and induction with 1 mM or 50 mM D-xylose were as previously published (43). After induction, the reference sample was taken within 30 s (preinduction sample, identical to the 0-h sample).…”

Section: Methodsmentioning

confidence: 99%

“…The use of a higher D-xylose concentration appears to be beneficial primarily for eglC transcript expression. According to microarray analysis data reported for A. niger, the expression of some genes coding for enzymes involved in the pentose metabolic pathway are upregulated on D-xylose compared to other carbon sources (1,43). In this study, we investigated the influence of the concentration of D-xylose, which is one of the two starting metabolites of the pentose metabolic pathway, on regulation.…”

Section: Response Of Xylan Backbone-degrading Enzyme Expression To DImentioning

confidence: 99%

“…In the past, the xylan backbone monosaccharide, D-xylose, was shown to trigger expression of xylanases and D-xylose-metabolizing enzymes in A. niger. Therefore, D-xylose is commonly used to induce the expression of these enzymes (1,7,13,43). Moreover, the coregulation of the xylanolytic and the cellulolytic systems via the inducer D-xylose has been reported (12,19,22).…”

mentioning

confidence: 99%

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d -Xylose Concentration-Dependent Hydrolase Expression Profiles and the Function of CreA and XlnR in Aspergillus niger

Mach-Aigner

Omony

Jovanović

et al. 2012

Appl Environ Microbiol

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ABSTRACTAspergillus nigeris an important organism for the production of industrial enzymes such as hemicellulases and pectinases. The xylan-backbone monomer,d-xylose, is an inducing substance for the coordinate expression of a large number of polysaccharide-degrading enzymes. In this study, the responses of 22 genes to low (1 mM) and high (50 mM)d-xylose concentrations were investigated. These 22 genes encode enzymes that function as xylan backbone-degrading enzymes, accessory enzymes, cellulose-degrading enzymes, or enzymes involved in the pentose catabolic pathway inA. niger. Notably, genes encoding enzymes that have a similar function (e.g., xylan backbone degradation) respond in a similar manner to different concentrations ofd-xylose. Although lowd-xylose concentrations provoke the greatest change in transcript levels, in particular, for hemicellulase-encoding genes, transcript formation in the presence of high concentrations ofd-xylose was also observed. Interestingly, a highd-xylose concentration is favorable for certain groups of genes. Furthermore, the repressing influence of CreA on the transcription and transcript levels of a subset of these genes was observed regardless of whether a low or high concentration ofd-xylose was used. Interestingly, the decrease in transcript levels of certain genes on highd-xylose concentrations is not reflected by the transcript level of their activator, XlnR. Regardless of thed-xylose concentration applied and whether CreA was functional,xlnRwas constitutively expressed at a low level.

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Section: Methodsmentioning

confidence: 99%

Section: Response Of Xylan Backbone-degrading Enzyme Expression To DImentioning

confidence: 99%

mentioning

confidence: 99%

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d -Xylose Concentration-Dependent Hydrolase Expression Profiles and the Function of CreA and XlnR in Aspergillus niger

Mach-Aigner

Omony

Jovanović

et al. 2012

Appl Environ Microbiol

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“…In a previous study, we established defined culture conditions for the induced expression of the cellulase and hemicellulase enzyme system of A. niger (56). The expression of the corresponding genes is controlled by the dedicated transcriptional activator XlnR and its inducer, D-xylose (58).…”

mentioning

confidence: 99%

Shotgun Proteomics of Aspergillus niger Microsomes upon d -Xylose Induction

Oliveira

Passel

Schaap

et al. 2010

Appl Environ Microbiol

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Protein secretion plays an eminent role in cell maintenance and adaptation to the extracellular environment of microorganisms. Although protein secretion is an extremely efficient process in filamentous fungi, the mechanisms underlying protein secretion have remained largely uncharacterized in these organisms. In this study, we analyzed the effects of the D-xylose induction of cellulase and hemicellulase enzyme secretion on the protein composition of secretory organelles in Aspergillus niger. We aimed to systematically identify the components involved in the secretion of these enzymes via mass spectrometry of enriched subcellular microsomal fractions. Under each condition, fractions enriched for secretory organelles were processed for tandem mass spectrometry, resulting in the identification of peptides that originate from 1,081 proteins, 254 of which-many of them hypothetical proteins-were predicted to play direct roles in the secretory pathway. D-Xylose induction led to an increase in specific small GTPases known to be associated with polarized growth, exocytosis, and endocytosis. Moreover, the endoplasmic-reticulum-associated degradation (ERAD) components Cdc48 and all 14 of the 20S proteasomal subunits were recruited to the secretory organelles. In conclusion, induction of extracellular enzymes results in specific changes in the secretory subproteome of A. niger, and the most prominent change found in this study was the recruitment of the 20S proteasomal subunits to the secretory organelles.Aspergillus niger is a soil-dwelling filamentous fungus with a high capacity for decomposing plant materials. Many of the secreted depolymerizing enzymes have important biotechnological applications, e.g., to modify plant-derived food products. Homologous protein secretion in filamentous fungi may yield up to 20 g per liter of extracellular medium (14). For this reason, A. niger has been used intensively as a cell factory for enzyme production (3,14,32). In contrast to this, yields are much lower for heterologous protein secretion, with exceptions (11,18,35,59).The secretory potential of A. niger is not well understood, and only a limited number of functional studies have been performed to investigate the major components of the fungal secretion pathway. These studies have addressed overall transcriptional and translational responses in A. niger by studying the impact of secretion stress-inducing chemicals, temperature shifts, protein overproduction, or growth on carbon sources that induce changes in secretory states (20,23,26).In recent years, high-throughput shotgun proteomics has been used to study cell organelle makeup and function. Through the combined use of liquid chromatography and tandem mass spectrometry (LC-MS/MS), various studies have identified many organelle-specific proteins, including proteins related to protein secretion (18,24,29,51,51). In the case of aspergilli, such studies have focused mainly on the secretome and not on the actual components of the secretory pathway (34,36,55).In a previous study, we...

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“…µL) contained 7.5 µL of 2x ABsolute QPCR SYBR Green mix, 100 nM forward and reverse primers and 2.5 µL cDNA (diluted 1:100). The primers used for qPCR analysis were designed using the software QuantPrime (Arvidsson et al, 2008), and are listed in S2 were used as reference for normalization of the expression data (Mach-Aigner et al, 2012;van der Veen et al, 2009). Dissociation (or melting) curve analysis was performed on each qPCR reaction to confirm that the primer pairs used produced a single amplification product.…”

Section: Construction Of Js14 (∆Rhar) Js16 (∆Rhta) and Js19 (∆Rhab)mentioning

confidence: 99%

Organic acid production in Aspergillus niger and other filamentous fungi

Odoni

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Propositions1. Medium acidification is primarily a cause, rather than an effect, of Aspergillus niger citrate secretion.(this thesis) 2. A holistic systems biology approach should consider the organism in the context of its environment.(this thesis) 3. Metabolism has more than two spacial dimensions and should be studied as a system rather than a map.4. Cancer cells behave as a microorganism in a foreign environment.5. Referrals to authors rather than researchers highlights the skewed perception of scientific worth.6. Reviews can both progress and regress a field.7. Recent history suggests that "common sense" is an oxymoron.8. True understanding, and thus friendship, arises from a common mindset rather than a common nationality.Propositions belonging to the thesis, entitled

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Analysis of Variance Components Reveals the Contribution of Sample Processing to Transcript Variation

Cited by 26 publications

References 38 publications

d -Xylose Concentration-Dependent Hydrolase Expression Profiles and the Function of CreA and XlnR in Aspergillus niger

d -Xylose Concentration-Dependent Hydrolase Expression Profiles and the Function of CreA and XlnR in Aspergillus niger

Shotgun Proteomics of Aspergillus niger Microsomes upon d -Xylose Induction

Organic acid production in Aspergillus niger and other filamentous fungi

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