The medicinal fungi, which are of great importance in traditional medicine, are facing the problems of wild resources scarcity and low concentration of bioactive compounds. Velvet family and LaeA global regulator play a vital role in secondary metabolism and developmental programs, which are found in a wide variety of fungi ranging from Chytridiomycota to Basidiomycota. This review elaborates the structures and functions between Velvet family and LaeA protein. The Velvet family which shares the Velvet protein domain, including VeA (Velvet), VelB (Velvet like B), VosA (viability of spores A) and VelC (Velvet like C), acts on the regulation function is secondary metabolism and developmental programs such as asexual and sexual development. Furthermore, the function is affected by environmental factors such as light and temperature. LaeA protein which owns S-adenosylmethionine-dependent methyltransferase domain, coordinately regulates development and secondary metabolism by regulating and modifying the Velvet proteins. The regulation of LaeA is mediated by light receptor proteins. Therefore, clarifying the mechanism of Velvet and LaeA proteins in medicinal fungi will pave the way for nurturing medicinal fungi and improving production of bioactive compounds.
Fungal Proteins ; metabolism ; Fungi ; chemistry ; Gene Expression Regulation, Fungal ; Genes, Regulator ; Protein Structure, Tertiary ; Secondary Metabolism ; Structure-Activity Relationship

Aspergillus niger is an important industrial workhorse with extensive application in the sectors of industrial enzymes, heterogeneous proteins, organic acids and etc. The disclosure of its genomic sequence to the public brought the study of A. niger into the post-genomic era. Diverse omic data are being produced massively and rapidly, which largely upgrades our understanding to the hyperproduction mechanism of A. niger to a systems and molecular level. At meanwhile, its genetic operating system is becoming mature, which enables genome-scale genetic perturbation within A. niger. In conclusion, we are on the right way to redesign and engineer A. niger to an omnipotent cellular factory.
Aspergillus niger ; genetics ; metabolism ; Biotechnology ; methods ; Enzymes ; genetics ; secretion ; Gene Expression Regulation, Fungal ; Genes, Fungal ; Genome, Fungal ; Protein Biosynthesis ; genetics ; Recombinant Proteins ; secretion ; Transcription, Genetic

Appressorium is an infection structure of the phytopathogenic fungus Magnaporthe grisea. Analysis of gene expression profiles of appressorium development provides insight into the molecular basis of pathogenicity and control of this fungal plant disease. A cDNA array representing 2927 unique genes based on a large EST (expressed sequence tag) database of M. grisea strain Y34 was constructed and used to profile the gene expression patterns at mycelium and appressorium maturation stages. Compared with mycelia, 55 up-regulated and 22 down-regulated genes were identified in mature appressoria. Among 77 genes, 16 genes showed no similarity to the genome sequences of M. grisea. A novel homologue of peptidyl-prolyl cis-trans isomerase was found to be expressed at low-level in mature appressoria of M. grisea. The results indicated that the genes such as pyruvate carboxylase, phospholipid metabolism-related protein and glyceraldehyde 3-phosphate dehydrogenase involved in gluconeogenesis, lipid metabolism and glycolysis, showed differential expression in mature appressoria. Furthermore, genes such as PTH11, beta subunit of G protein and SGT1 involved in cell signalling, were expressed differentially in mature appressoria. Northern blot analysis was used to confirm the cDNA array results.
Cell Proliferation ; Fungal Proteins ; metabolism ; Fungal Structures ; metabolism ; Gene Expression Profiling ; methods ; Magnaporthe ; metabolism ; Oligonucleotide Array Sequence Analysis ; methods ; Proteome ; metabolism

Anidulafungin is an effective antifungal medicine, which can inhibit activities of candida in vitro and in vivo. Echinocandin B (ECB) is the key precursor of Anidulafungin, thus the price and market prospect of Anidulafungin is directly due to the fermentation titer of ECB. In this study, Aspergillus nidulans was used for ECB fermentation, and the influence of adding microparticles on ECB fermentation was studied, such as talcum powder, Al2O3, and glass beads. The particle size and concentration were the key factors for mycelium morphology and ECB production, and ECB production could reach 1 262.9 mg/L and 1 344.1 mg/L by adding talcum powder of 20 g/L (d50 = 14.2 μm) and 7 glass beads (6 mm), an increase by 33.2% and 41.7%, respectively. The results indicated that the mycelium morphology of filamentous microorganisms and the product yield of fermentation could be improved by adding microparticles remarkably, and it provide an important method for the fermentative optimization of filamentous microorganisms.
Antifungal Agents ; metabolism ; Aspergillus nidulans ; metabolism ; Echinocandins ; biosynthesis ; Fermentation ; Fungal Proteins ; biosynthesis ; Industrial Microbiology ; methods

BACKGROUNDGlucocorticoid is speculated to be able to have Aspergillus fumigatus (A. fumigatus) being more susceptible to reactive oxygen species (ROS) by inhibiting Afyap1, the transcription factor activating protein-1 (AP-1) homologue in A. fumigatus, which may provide a clue to expand the clinical use of glucocorticoid in patients with fungal infections. In this study, we used dexamethasone to determine the direct effect on oxidative killing susceptibility of A. fumigatus in vitro, as well as the expression level of Afyap1 gene and its target genes (catalase and superoxide dismutase (SOD) genes).

METHODSA. fumigatus spores were treated with different concentrations (0, 0.02, 0.2 mg/ml) of glucocorticoids and assigned to four groups (A: 0.5 hour, B: 2 hours, C: 7 hours, D: 16 hours) according to the time of treatment. The H2O2 oxidative killing assay was done, using the standard method-spot test, in each group of A. fumigatus. We measured the oxidative killing susceptibility as well as the expression level of the gene Afyap1, CATA, SOD1 and SOD2 in A. fumigatus at each group. The antifungal susceptibility to itraconazole and amphotericin B in each group of A. fumigatus was also measured with M38-A2 method.

RESULTSThe oxidative killing susceptibility of A. fumigatus was increased, consistent with the reduction of Afyap1, CATA, SOD1 and SOD2 gene expression level after being treated with dexamethasone for 0.5 hours. However, these observations were disappeared along with being treated for longer time. The antifungal susceptibility to itraconazole and amphotericin B in the A. fumigatus strains treated with dexamethasone indicated no change, compared with those without dexamethasone treatment.

CONCLUSIONDexamethasone can have A. fumigatus being more susceptible to ROS when treated for shorter period (0.5 to 2 hours) via the reduction of Afyap1 gene expression as well as the down-stream enzyme-coding gene expression.

Aspergillus fumigatus ; drug effects ; genetics ; metabolism ; Dexamethasone ; pharmacology ; Fungal Proteins ; genetics ; metabolism ; Hydrogen Peroxide ; pharmacology

Northern corn leaf blight, caused by the fungus Exserohirum turcicum Pass. (Leonard and Suggs), is one of the major diseases in most corn-growing areas of the world. Research on gene tagging of E. turcicum has been limited due to the lack of an efficient transformation system. Since E. turcicum produces and accumulates melamin in cell walls during vegetative growth, it is difficult to efficiently isolate its protoplast. To isolate the protoplast of this pathogen with a high frequency, the effects of cell wall degradation enzymes, including beta-1,3-glucanase (Fungase, Funcelase, Novozyme and Glucanex) and beta-glucuronidase (Driselase, Uskizyme and Kitalase), enzyme concentrations, combinations, strains and medium on the isolation frequency were tested. The isolation frequencies were high enough for transformation when the combinations of (Kitalase + Glucanex + Driselase), (Kitalase + Glucanex) or (Kitalase + Uskizyme) were used. Moreover, the isolation frequencies of protoplast were significantly affected by the cultural morphologies of strain and the growth stage of mycelia. Among the plasmids tested, only plasmid pAN71 is efficient for transformation of E. turcicum. This result will provide some useful information for gene tagging of E. turcicum and other species in Exserohirum.
Ascomycota ; cytology ; metabolism ; Cell Wall ; metabolism ; Fungal Proteins ; metabolism ; Glycoside Hydrolases ; metabolism ; Protoplasts ; cytology ; metabolism ; Transformation, Genetic ; genetics

In Candida albicans, adaptation to environmental pH is relevant to its pathogenicity. Calcium signaling pathway involves in many stress responses and often accompany with Ca2+ fluctuation. We constructed CCH1 and MID1 mutant strains and studied their effect on calcium influx and further investigated the regulation by Crz1p transcription factor. We used PCR-directed gene disruption to construct cch1delta/delta and mid1delta/delta null mutant. By using a flow cytometry-based method we monitored the free cytosolic Ca2+ levels under alkaline stress. Moreover, we constructed pPHO89-LacZ plasmids and by beta-Galactosidase assays, we analyzed the changes of LacZ activities after gene disruption. The results showed that alkaline stress induced calcium burst reduced obviously in cch1delta/delta and mid1delta/delta mutant strains, also for LacZ activities, and fully abolished in crz1delta/delta mutant strain. Finally, by realtime PCR, we confirmed the regulation role of Crz1p in CCH1 and MID1 genes but in a calcineurin independent way. Studies on the effect of calcium pathway on response to alkaline stress will provide an important theoretical basis for Candida albicans infection-oriented treatment and new drug targets.
Calcium Channels ; metabolism ; Candida albicans ; genetics ; metabolism ; physiology ; Fungal Proteins ; genetics ; physiology ; Gene Expression Regulation, Fungal ; Hydrogen-Ion Concentration ; Signal Transduction ; Stress, Physiological ; Transcription Factors ; metabolism ; physiology

OBJECTIVETo compare the difference in protome expression between yeast form and mould form of Penicillium marneffei.

METHODSSurface enhanced laser desorption/ionization (SELDI) time-of-flight mass spectra were performed to compare the expressed proteins between yeast form and mould form of Penicillium marneffei. Protein profiling was read by PBSIIC ProteinChip Reader and the proteome database was analyzed by Proteinchip Software 3.2.0.

RESULTSSeventy-five distinct proteins were found in the yeast form and mould form of Penicillium marneffei, in which 10 proteins were up-regulated in yeast form and 3 in mould form. The proteins 2900 and 3151 were only expressed in the yeast form and the proteins 13,151 and 13,285 only in mould form.

CONCLUSIONSELDI technique can identify the difference of the expressed low-molecular-mass proteins between the mould form and yeast form of Penicillium marneffei.

Fungal Proteins ; analysis ; Penicillium ; growth & development ; metabolism ; Protein Array Analysis ; methods ; Proteome ; analysis ; Proteomics ; methods ; Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization ; methods ; Spores, Fungal ; metabolism ; Yeasts ; metabolism

In this study, we analyzed the physical interactions of the dominant negative isoform of MoYpt7. Our results show that MoYpt7 interacts with MoGdi1. The dominant negative isoform of MoYpt7 (dominant negative isoform, N125I) is essential for colony morphology, conidiation, and pathogenicity in the rice blast fungus. These results further demonstrate the biological functions of MoYpt7 in Magnaporthe oryzae.
DNA Mutational Analysis ; Fungal Proteins/metabolism* ; Gene Expression Regulation, Fungal ; Genes, Fungal ; Green Fluorescent Proteins/metabolism* ; Magnaporthe/genetics* ; Microscopy, Fluorescence ; Mutation ; Oryza/microbiology* ; Phenotype ; Plant Diseases/microbiology* ; Protein Isoforms

In order to investigate the effects of fungal elicitor and macroporous adsorption resin on shikonin accumulation in hairy roots of arnebia euchroma (Royle) Johnst, we used spectrophotometry to determine the total naphthoquinone content of the hairy roots, by adding different volume ratio of Aspergillus niger elicitor, Aspergillus oryzae elicitor, and the macroporous resin into the M-9 liquid medium at different culture time. The results show that the total naphthoquinone content was 2.28 times higher than the control when we added mixed elicitors of Aspergillus niger and Aspergillus oryzae at the ratio of 2.5:50 in the 10th day of hairy roots cultivating. The total naphthoquinone content was 3.71 times higher than that of the control, when we added macroporous adsorption resin NKA-9. Aspergillus niger elicitor exhibited synergistic effect with Aspergillus oryzae elicitor to enhance the naphthoquinone. Also, the total naphthoquinone level was 4.17 times higher than that of the control by adding mixed fungal elicitor and macroporous adsorption resin NKA-9 in the bioreactor. Aspergillus oryzae and mixed elicitor could promote the hairy roots proliferation, and macroporous adsorption resin NKA-9 and mixed elicitor increased the total naphthoquinone content. In summary, the measure developed for Arnebia euchroma (Royle) Johnst hairy roots cultivating in bioreactors may potential for large-scale production of naphthoquinone.
Aspergillus niger ; metabolism ; Boraginaceae ; metabolism ; Fungal Proteins ; pharmacology ; Naphthoquinones ; analysis ; metabolism ; Plant Roots ; chemistry ; metabolism ; Porosity ; Resins, Synthetic ; pharmacology