Enantiomeric Polyketides from the Starfish‐Derived Symbiotic Fungus Penicillium sp. GGF16‐1‐2

One new racemic mixture, penicilliode A ( 1 ) and four pairs of enantiomeric polyketides, penicilliode B and C ( 2 and 3 ) and coniochaetone B and C ( 4 and 5 ), were obtained from the starfish‐derived symbiotic fungus Penicillium sp. GGF16‐1‐2. Interestingly, the strain GGF16‐1‐2 can produce enantiomers. The absolute configuration of 1 was determined by X‐ray diffraction (XRD) analysis, and the absolute configurations of 2 – 4 were determined by the optical rotation (OR) values and electronic circular dichroism (ECD) calculations. Compounds 1 – 5 were firstly isolated from the marine‐derived fungus Penicillium as racemates, and 2 – 5 were separated by HPLC with a chiral stationary phase. All the compounds were evaluated for their antibacterial, cytotoxic and inhibitory activities against PDE4D2.     

Dominant fungi in the rhizosphere of established tea bushes and their interaction with the dominant bacteria under in situ conditions.

Species of Penicillium and Trichoderma were found to dominate the rhizosphere of established tea bushes in a detailed study conducted from various tea growing locations in India. Penicillium erythromellis, P. janthinellum, P. raistrickii, Trichoderma pseudokoningii and T. koningii were found to be closely associated with tea roots. While seasonal fluctuation was observed in the case of Penicillium spp., the population of Trichoderma spp. showed less variation during the year. Both species were sensitive to low temperatures. In general, fungi associated with the tea rhizosphere were found to prefer a mesophillic temperature range (15 °C to 35 °C). The dominant species of Penicillium and Trichoderma also exhibited tolerance to lower temperatures, i.e., 5 to 10 °C on agar plates. Most fungi were able to grow in a wide range of pH (4 to 12). Lowering of soil pH in the rhizosphere of tea bushes was positively correlated with the age of the bush and may have affected the development of a specific microbial community in the rhizosphere.

The populations of Penicillium and Trichoderma species were inversely correlated with the populations of two most dominant rhizosphere bacteria, Bacillus subtilis and B. mycoides. Both Bacillus species have been shown to have antagonistic activity against these two fungi under in vitro conditions. The present study demonstrates the existence of a similar antagonism under in situ conditions in the rhizosphere of established tea bushes.     

Commensalism during submerged mixed culture of Geotrichum candidum and Penicillium camembertii on glutamate and lactate

Geotrichum candidum and Penicillium camembertii were cultivated in pure and mixed cultures on glutamate- and lactate-based medium. In pure culture, P. camembertii assimilated simultaneously glutamate, as a nitrogen and carbon source for biosynthesis, and lactate as an energy source. On the contrary, G. candidum grew on glutamate alone. The mixed culture led to higher growth rates and then higher rates of substrate consumption and metabolite production than each pure culture; however, the behaviour recorded was similar to that observed during G. candidum pure culture, in particular the absence of lactate assimilation during growth, illustrating a commensalism between both species. The presence of G. candidum induced a form of “competition” and then a better assimilation by P. camembertii of the sole nitrogen source, glutamate, which was therefore used as an energy source in addition to be a carbon (and nitrogen) source. Lactate was only used for energy supply during stationary state, as also recorded during G. candidum pure culture.     

Molecular cloning and characterization of the trpC gene from Penicillium chrysogenum

Summary We cloned the Penicillium chrysogenum trpC gene from a genomic library by complementation of an Escherichia coli trpC mutant lacking phosphoribosylanthranilate isomerase activity. The gene ecodes a 2.7 kb poly(A)⁺ RNA. We localized the gene by sequence analysis in a 2.9 kb DNA insert found in the smallest plasmid selected from the library. Sequence data strongly suggest that the organization of the gene is similar to that described in other Ascomycetes. We found that a DNA fragment which codes only for the carboxy-terminal protion of the polypeptide is sufficient for complementation of the E. coli trpC9830 mutation.     

Molecular phylogeny of four selected species of the strictly anamorphic genus <Emphasis Type="Italic">Thysanophora</Emphasis> using nuclear ribosomal DNA sequences

To estimate the phylogenetic position of the strictly anamorphic genus Thysanophora among the class Ascomycetes sensu Kirk et al. and to examine the phylogenetic relationships among T. penicillioides and other Thysanophora species, 18S and 28S rDNA (D1 and D2 regions) sequences of 22 strains of four known and two unidentified Thysanophora species were determined and phylogenetically analyzed. The 18S rDNA analysis suggested that all Thysanophora species examined were members of Eurotiomycetidae, Eurotiales, Trichocomaceae. The 28S rDNA analysis indicated that these species were clustered together with Chromocleista, Eupenicillium, Geosmithia, and Penicillium assignable to three subgenera – Aspergilloides, Furcatum, and Penicillium. In the Eupenicillium lineage, a monophyly of T. penicillioides, T. longispora, T. taxi, T. canadensis, and T. cf. canadensis was supported by comparatively high bootstrap values. However, the ex-type strain and two strains of T. longispora isolated in Japan were of different phylogenetic positions. Thysanophora sp. was positioned at the base of the Thysanophora clade, although it was not supported by significant bootstrap values. From the results of this study, we consider that two anamorphic genera, Penicillium and Thysanophora, are clearly distinct in morphology but that they are not phylogenetically separable. Received: August 13, 2001 / Accepted: January 11, 2002     

四个嗜热真菌中国新记录种

报道四个嗜热真菌中国新记录种:嗜热子囊菌光孢变种Thermoascus aurantiacus var.levisporus;埃默森篮状菌Talaromyces emersonii;杜邦青霉Penicillium dupontii及丝衣霉状拟青霉Paecilomyces byssochlamydioides,对其进行了描述和讨论。研究标本保存在山东农业大学植物病理学标本室(HSAUP)。     

Expression and homology modeling of sterol 14alpha-demethylase from Penicillium digitatum

Green mold of citrus, caused by Penicillium digitatum, is the most serious postharvest disease of citrus. Sterol 14alpha-demethylase (CYP51) is one of the key enzymes of sterol biosynthesis in biological kingdoms and is a prime target of antifungal drugs. To exploit novel 14alpha-demethylase inhibitor (DMI) fungicides, DNA and total RNA were isolated from P. digitatum. The CYP51 of P. digitatum was cloned and expressed in Escherichia coli, yielding recombinant protein with a molecular weight of c. 59 kDa. The P. digitatum CYP51 protein (PdCYP51) was purified and polyclonal antibodies were prepared. Compared with the sequence of P. digitatum PD5 in GenBank, there were four mutated nucleotides which resulted in four mutated amino acids. The three-dimensional (3D) model of P. digitatum CYP51 was established based on structure template of 1e9x.pdb and diniconazole was docked into the active site by FlexX. According to spectral data, it is suggested that the purified soluble protein had high affinity with diniconazole, a potent inhibitor of CYP51 reaction in fungi. At the same time, these spectral data suggested that the 3D model and the docking model were reasonable, which we hope can be used to provide a virtual screening of novel DMI drugs.     

Regulation of specific activity of glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase in Penicillium chrysogenum

Abstract The specific activity of glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase changed when Penicillium chrysogenum was grown on different carbon sources. In the presence of 2% lactose, the activities of these enzymes were approximately 25–35% lower than those in media containing 2% glucose or 2% fructose. We assume that an increase in cAMP concentration was responsible for the observed decreases in the enzyme activities, because a higher cAMP concentration could be detected when the mycelium was grown in a medium containing solely lactose as carbon source. The likely role played by cAMP in the regulation was also demonstrated by the addition of either cAMP or caffeine to the medium.     

Purification and characterization of two novel β-glucosidases from Penicillium oxalicum and their application in bioactive ginsenoside production

Abstract

The fungus Penicillium oxalicum is able to selectively metabolize the 20(S)-protopanaxadiol ginsenosides Rb1, Rb2 and Rc to the bioactive ginsenoside compound K using extracellular glycosidases. In this study, two novel extracellular ginsenoside-hydrolyzing enzymes GH3-1 and GH3-2 were purified and characterized from P. oxalicum culture. Using ginsenosides as substrates, GH3-1 and GH3-2 synergistically catalyzed the hydrolysis of Rb1, Rb2 and Rc to yield the final product Compound K (C-K). The hydrolysis pathways were determined to be: Rb1→Rd→F2→C-K, Rb2→CO→CY→C-K and Rc→Mb→Mc→C-K for GH3-1 and GH3-2, respectively. The two enzymes differ, especially in composition, molecular weight, stability and substrate specificity, from GH1, a glycosidase previously purified from the same fungus. These enzymes could be of interest in glycoside degradation, especially in the production of minor ginsenosides.