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1.
Noelle A. Granger Sheryl M. Niemiec Lawrence I. Gilbert Walter E. Bollenbacher 《Journal of insect physiology》1982,28(4):385-391
A radioimmunoassay (RIA) for juvenile hormone III has been established which quantifies the biosynthesis of this hormone in vitro by the corpora allata of larvae and pupae of the tobacco hornworm, Manduca sexta. The specificity of the RIA for homologues and metabolites of juvenile hormone III was determined and it was found that the antibody was specific for juvenile hormone III and its acid. The juvenile hormone III RIA activity synthesized in vitro by corpora allata from day-5 last-instar larvae was identified as juvenile hormone III by high pressure liquid chromatography. The kinetics of hormone synthesis by corpora allata from selected stages during larval-pupal development revealed differential rates of synthesis, suggesting that juvenile hormone III may have a hormonal function in the larva and that regulation of its synthesis may occur. The significance of these developmental fluctuations in rates of juvenile hormone III synthesis by the corpora allata is discussed in relation to the haemolymph titres of the hormone. 相似文献
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Fungal metabolic plasticity and sexual development mediate induced resistance to arthropod fungivory
Katharina D?ll Subhankar Chatterjee Stefan Scheu Petr Karlovsky Marko Rohlfs 《Proceedings. Biological sciences / The Royal Society》2013,280(1771)
Prey organisms do not tolerate predator attack passively but react with a multitude of inducible defensive strategies. Although inducible defence strategies are well known in plants attacked by herbivorous insects, induced resistance of fungi against fungivorous animals is largely unknown. Resistance to fungivory is thought to be mediated by chemical properties of fungal tissue, i.e. by production of toxic secondary metabolites. However, whether fungi change their secondary metabolite composition to increase resistance against arthropod fungivory is unknown. We demonstrate that grazing by a soil arthropod, Folsomia candida, on the filamentous fungus Aspergillus nidulans induces a phenotype that repels future fungivores and retards fungivore growth. Arthropod-exposed colonies produced significantly higher amounts of toxic secondary metabolites and invested more in sexual reproduction relative to unchallenged fungi. Compared with vegetative tissue and asexual conidiospores, sexual fruiting bodies turned out to be highly resistant against fungivory in facultative sexual A. nidulans. This indicates that fungivore grazing triggers co-regulated allocation of resources to sexual reproduction and chemical defence in A. nidulans. Plastic investment in facultative sex and chemical defence may have evolved as a fungal strategy to escape from predation. 相似文献
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Junko Yaegashi Berl R. Oakley Clay C. C. Wang 《Journal of industrial microbiology & biotechnology》2014,41(2):433-442
Fungi are prolific producers of secondary metabolites (SMs) that show a variety of biological activities. Recent advances in genome sequencing have shown that fungal genomes harbor far more SM gene clusters than are expressed under conventional laboratory conditions. Activation of these “silent” gene clusters is a major challenge, and many approaches have been taken to attempt to activate them and, thus, unlock the vast treasure chest of fungal SMs. This review will cover recent advances in genome mining of SMs in Aspergillus nidulans. We will also discuss current updates in gene annotation of A. nidulans and recent developments in A. nidulans as a molecular genetic system, both of which are essential for rapid and efficient experimental verification of SM gene clusters on a genome-wide scale. Finally, we will describe advances in the use of A. nidulans as a heterologous expression system to aid in the analysis of SM gene clusters from other fungal species that do not have an established molecular genetic system. 相似文献
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The velvet regulators VosA and VelB are primarily involved in spore maturation and dormancy. Previous studies found that the VosA-VelB hetero-complex coordinates certain target genes that are related to fungal differentiation and conidial maturation in Aspergillus nidulans. Here, we characterized the VosA/VelB-inhibited developmental gene vidD in A. nidulans. Phenotypic analyses demonstrated that the vidD deleted mutant exhibited defect fungal growth, a reduced number of conidia, and delayed formation of sexual fruiting bodies. The deletion of vidD decreased the amount of conidial trehalose, increased the sensitivity against heat stress, and reduced the conidial viability. Moreover, the absence of vidD resulted in increased production of sterigmatocystin. Together, these results show that VidD is required for proper fungal growth, development, and sterigmatocystin production in A. nidulans. 相似文献
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To investigate the effect of juvenile hormone deprivation on the growth of secondary follicles during the second gonotrophic cycle, female mosquitoes, Culex pipiens L., were allatectomized daily after the first blood meal. Allatectomy on days 1–3 suppressed growth of secondary follicles indicating that juvenile hormone was required for a second gonotrophic cycle. When allatectomy was performed 4 days or more after the first blood meal, secondary follicles grew, indicating the presence of juvenile hormone. However, if mosquitoes were allatectomized before oviposition, only 25% developed a second batch of eggs after a second blood meal.Allatectomies performed 1 and 24 h after oviposition indicated that additional juvenile hormone was released after deposition of the first batch of eggs, and that this second release was needed for secondary follicles to complete previtellogenic growth. Thus, in C. pipiens, secondary follicles undergo two periods of juvenile hormone-mediated growth-one before and one after oviposition. 相似文献
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Martin Tribus Ingo Bauer Johannes Galehr Gudrun Rieser Patrick Trojer Gerald Brosch Peter Loidl Hubertus Haas Stefan Graessle 《Molecular biology of the cell》2010,21(2):345-353
Acetylation of the N-terminal tails of core histones is an important regulatory mechanism in eukaryotic organisms. In filamentous fungi, little is known about the enzymes that modify histone tails. However, it is increasingly evident that histone deacetylases and histone acetyltransferases are critical factors for the regulation of genes involved in fungal pathogenicity, stress response, and production of secondary metabolites such as antibiotics or fungal toxins. Here, we show that depletion of RpdA, an RPD3-type histone deacetylase of Aspergillus nidulans, leads to a pronounced reduction of growth and sporulation of the fungus. We demonstrate that a so far unnoticed motif in the C terminus of fungal RpdA histone deacetylases is required for the catalytic activity of the enzyme and consequently is essential for the viability of A. nidulans. Moreover, we provide evidence that this motif is also crucial for the survival of other, if not all, filamentous fungi, including pathogens such as Aspergillus fumigatus or Cochliobolus carbonum. Thus, the extended C terminus of RpdA-type enzymes represents a promising target for fungal-specific histone deacetylase-inhibitors that may have potential as novel antifungal compounds with medical and agricultural applications. 相似文献
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《Fungal genetics and biology : FG & B》2009,46(5):436-440
Tryprostatin B, a prenylated diketopiperazine with anti-tubulin activity, has been overproduced in fungal culture by expression of genes of the fumitremorgin cluster from Aspergillus fumigatus in the naïve host Aspergillus nidulans using the alcA promoter. The products of the expressed genes catalyse the first two steps of fumitremorgin biosynthesis, namely the formation of brevianamide F and its conversion to tryprostatin B. Yields of tryprostatin B were up to 250 mg/l, a significant improvement in previously reported levels. This approach illustrates how the availability of fungal genome sequences and knowledge of gene function can be used to achieve the efficient production of biologically active secondary metabolites by genetic manipulation. 相似文献
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Hsu-Hua Yeh Yi-Ming Chiang Ruth Entwistle Manmeet Ahuja Kuan-Han Lee Kenneth S. Bruno Tung-Kung Wu Berl R. Oakley Clay C. C. Wang 《Applied microbiology and biotechnology》2012,96(3):739-748
Genome sequencing of Aspergillus species including Aspergillus nidulans has revealed that there are far more secondary metabolite biosynthetic gene clusters than secondary metabolites isolated from these organisms. This implies that these organisms can produce additional secondary metabolites, which have not yet been elucidated. The A. nidulans genome contains 12 nonribosomal peptide synthetase (NRPS), one hybrid polyketide synthase/NRPS, and 14 NRPS-like genes. The only NRPS-like gene in A. nidulans with a known product is tdiA, which is involved in terrequinone A biosynthesis. To attempt to identify the products of these NRPS-like genes, we replaced the native promoters of the NRPS-like genes with the inducible alcohol dehydrogenase (alcA) promoter. Our results demonstrated that induction of the single NRPS-like gene AN3396.4 led to the enhanced production of microperfuranone. Furthermore, heterologous expression of AN3396.4 in Aspergillus niger confirmed that only one NRPS-like gene, AN3396.4, is necessary for the production of microperfuranone. 相似文献
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《Fungal genetics and biology : FG & B》2009,46(2):113-125
Aflatoxins are notorious toxic secondary metabolites known for their impacts on human and animal health, and their effects on the marketability of key grain and nut crops. Understanding aflatoxin biosynthesis is the focus of a large and diverse research community. Concerted efforts by this community have led not only to a well-characterized biosynthetic pathway, but also to the discovery of novel regulatory mechanisms. Common to secondary metabolism is the clustering of biosynthetic genes and their regulation by pathway specific as well as global regulators. Recent data show that arrangement of secondary metabolite genes in clusters may allow for an important global regulation of secondary metabolism based on physical location along the chromosome. Available genomic and proteomic tools are now allowing us to examine aflatoxin biosynthesis more broadly and to put its regulation in context with fungal development and fungal ecology. This review covers our current understanding of the biosynthesis and regulation of aflatoxin and highlights new and emerging information garnered from structural and functional genomics. The focus of this review will be on studies in Aspergillus flavus and Aspergillus parasiticus, the two agronomically important species that produce aflatoxin. Also covered will be the important contributions gained by studies on production of the aflatoxin precursor sterigmatocystin in Aspergillus nidulans. 相似文献
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Normal rates of juvenile hormone synthesis, cell number and volume of corpora allata were measured in penultimate and final-instar male larvae of Diploptera punctata. The rate of juvenile hormone synthesis per corpus allatum cell was highest on the 4th day of the penultimate stadium, declined slowly for the remainder of that stadium, and rapidly after the first day of the final stadium.Regulation of the corpora allata in final-instar males was studied by experimental manipulation of the corpora allata followed by in vitro radiochemical assay of juvenile hormone synthesis. Nervous inhibition of the corpora allata during the final stadium is suggested by the observation that rates of juvenile hormone synthesis increased following denervation of the corpora allata at the start of the stadium; this operation induced a supernumerary larval instar. Juvenile hormone synthesis by corpora allata denervated at progressively later ages in the final stadium and assayed after 4 days decreased with age at operation. This suggests an increasingly unfavourable humoral environment in the final stadium, which was confirmed by the low rate of juvenile hormone synthesis of adult female corpora allata implanted into final-instar larvae. Thus, inhibitory factors or lack of stimulatory factors in the haemolymph may act with neural inhibition to suppress juvenile hormone synthesis in final-instar males. 相似文献
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Michał Jasiński Piotr Kachlicki Paweł Rodziewicz Marek Figlerowicz Maciej Stobiecki 《Plant Physiology and Biochemistry》2009,47(9):847-853
Medicago truncatula is a model species for the study of the unique secondary metabolism in legumes. LC/MS/MS analysis was used to identify and profile flavonoid glycoconjugates and free aglycones in leaves of M. truncatula (ecotype R108-1) infected with the fungal pathogen Phoma medicaginis. Use of a high resolution analyzer with a collision induced dissociation tandem mass spectrometer (CID MS/MS) permitted structural elucidation of target secondary metabolites and four new acylated flavone glycosides have been identified. Changes in the phytoalexin medicarpin and its isoflavone precursors were quantitatively monitored at various time points after fungal spore application. Application of spores induced disease symptoms in the leaves of infected plants and resulted in an increase in the medicarpin precursors formononetin 7-O-glucoside and malonylated formononetin 7-O-glucoside between one and three days post-infection. Relative concentrations of medicarpin were highest five days post-infection. The rapid increase of these molecules was clearly positively correlated to the infection process as certain of them were absent in uninfected leaves, suggesting that the relative rate of their synthesis is tightly related with the infection process. 相似文献
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Sporogenic Effect of Polyunsaturated Fatty Acids on Development of Aspergillus spp. 总被引:4,自引:0,他引:4 
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下载免费PDF全文 Ana M. Calvo Lori L. Hinze Harold W. Gardner Nancy P. Keller 《Applied microbiology》1999,65(8):3668-3673
Aspergillus spp. are frequently occurring seed-colonizing fungi that complete their disease cycles through the development of asexual spores, which function as inocula, and through the formation of cleistothecia and sclerotia. We found that development of all three of these structures in Aspergillus nidulans, Aspergillus flavus, and Aspergillus parasiticus is affected by linoleic acid and light. The specific morphological effects of linoleic acid include induction of precocious and increased asexual spore development in A. flavus and A. parasiticus strains and altered sclerotium production in some A. flavus strains in which sclerotium production decreases in the light but increases in the dark. In A. nidulans, both asexual spore production and sexual spore production were altered by linoleic acid. Spore development was induced in all three species by hydroperoxylinoleic acids, which are linoleic acid derivatives that are produced during fungal colonization of seeds. The sporogenic effects of these linoleic compounds on A. nidulans are similar to the sporogenic effects of A. nidulans psi factor, an endogenous mixture of hydroxylinoleic acid moieties. Light treatments also significantly increased asexual spore production in all three species. The sporogenic effects of light, linoleic acid, and linoleic acid derivatives on A. nidulans required an intact veA gene. The sporogenic effects of light and linoleic acid on Aspergillus spp., as well as members of other fungal genera, suggest that these factors may be significant environmental signals for fungal development. 相似文献
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《Insect Biochemistry》1989,19(3):243-249
Radioimmunoassay (RIA) of whole body extracts of Drosophila melanogaster males and females demonstrates that at eclosion all individuals contain high levels of ecdysteroid. Highly polar ecdysteroids (presumably metabolites) in the meconium represent approximately half of the total ecdysteroid RIA-activity present at this time and are subsequently eliminated. Ecdysteroids remaining after the elimination of the meconium are also highly polar as shown by reverse-phase high pressure liquid chromatography (RP-HPLC). The amount of ecdysteroid RIA-activity found in whole body extracts declines in both sexes until 18 h post-eclosion when levels begin to increase in the female and drop to undetectable levels in the male. In the female the ovaries are the major source of ecdysteroid. The increase in whole body ecdysteroid in the female coincides with the initiation of ovarian ecdysteroid production and accumulation. Topical application of methoprene, a juvenile hormone (JH) analog, stimulates ovarian ecdysteroid synthesis in apterous-ts 78j (apts 78j), a temperature-sensitive juvenile hormone-deficient mutant, corroborating previous results suggesting a role of juvenile hormone in ovarian ecdysteroid production. Stage 8–9 follicles, whose development is juvenile hormone dependent, are shown to be the most active in ecdysteroid production. The regulatory potential of these stages is discussed. 相似文献
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The female silkworm, Bombyx mori, rapidly accumulates two storage proteins, that are synthesized by the fat body, in the haemolymph during the feeding stage of the last-larval instar, and then sequesters them from the haemolymph into fat body during the larval-pupal transformation.The rapid synthesis and uptake of storage proteins by the fat body are shown to be induced by allatectomy in the early-penultimate larval instar. A juvenile hormone analogue, methoprene, is highly effective in inhibiting the allatectomy-induced synthesis, and, in a higher dosage, further blocks the uptake. Allatectomy in the late-penultimate larval instar shortly before moulting does not enhance the storage protein synthesis, but causes the uptake to occur two days earlier in the last-larval instar. Injection of 20-hydroxyecdysone is not stimulatory for synthesis of the proteins, but is effective to induce their uptake. Starvation during the early last-larval instar completely blocks the synthesis.From these results, it is suggested that storage protein synthesis is induced in the absence of juvenile hormone by some supplementary stimulus, possibly the supply of nutrient after feeding, and uptake is induced by ecdysteroids after a decline in the juvenile hormone level. 相似文献
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Jennifer Gerke ?zgür Bayram Kirstin Feussner Manuel Landesfeind Ekaterina Shelest Ivo Feussner Gerhard H. Braus 《Applied and environmental microbiology》2012,78(23):8234-8244
The genomes of filamentous fungi comprise numerous putative gene clusters coding for the biosynthesis of chemically and structurally diverse secondary metabolites (SMs), which are rarely expressed under laboratory conditions. Previous approaches to activate these genes were based primarily on artificially targeting the cellular protein synthesis apparatus. Here, we applied an alternative approach of genetically impairing the protein degradation apparatus of the model fungus Aspergillus nidulans by deleting the conserved eukaryotic csnE/CSN5 deneddylase subunit of the COP9 signalosome. This defect in protein degradation results in the activation of a previously silenced gene cluster comprising a polyketide synthase gene producing the antibiotic 2,4-dihydroxy-3-methyl-6-(2-oxopropyl)benzaldehyde (DHMBA). The csnE/CSN5 gene is highly conserved in fungi, and therefore, the deletion is a feasible approach for the identification of new SMs. 相似文献
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Jin Woo Bok Rosa Ye Kenneth D Clevenger David Mead Megan Wagner Amanda Krerowicz Jessica C Albright Anthony W Goering Paul M Thomas Neil L Kelleher Nancy P Keller Chengcang C Wu 《BMC genomics》2015,16(1)