Identification of Nematicidal Metabolites from Purpureocillium lavendulum.

Purpureocillium lavendulum is a fungus with promising biocontrol applications. Here, transcriptome data acquired during the infection of Caenorhabditis elegans by Purpureocillium lavendulum showed that the transcription of metabolite synthesis genes was significantly up-regulated after 24 and 48 h of the fungus-nematode interaction. Then, the up-regulated transcription level of lipoxygenase was confirmed by RT-qPCR. The ultra-performance liquid chromatography-mass spectrometry (UPLC-MS) analysis of differential metabolites revealed that this interaction resulted in the emergence of new metabolites or enhanced the production of metabolites. The results of the UPLC-MS analysis and the nematicidal assay were used to establish optimal culturing conditions under which 12 metabolites, including 3 hydroxylated C18 fatty acids and 9 steroids, were isolated and identified. Among them, hydroxylated fatty acids showed pronounced nematicidal activity against Meloidogyne incognita, and two degradative sterols showed chemotaxis activity to M. incognita. This study lays a foundation for the function of lipoxygenase and its products during the infection of Purpureocillium lavendulum.

Pathogenicity and Metabolites of Purpureocillium lavendulum YMF1.00683 against Meloidogyne incognita.

Purpureocillium lavendulum is a biological control agent with several registered products that can parasitize the eggs and larvae of various pathogenic nematodes. In this study, the pathogenicity and secondary metabolites of the fungus P. lavendulum YMF1.00683 were investigated. The strain YMF1.00683 had infection efficiency against the plant root-knot nematode Meloidogyne incognita. The strain's process of infecting nematodes was observed under a microscope. Moreover, seven metabolites, including a new sterol (1), were isolated and identified from cultures of YMF1.0068 in Sabouraud's dextrose agar. A bioassay showed that 5-methoxymethyl-1H-pyrrole-2-carboxaldehyde (7) is toxic to M. incognita and affects the egg hatching. It caused 98.23% mortality in M. incognita and could inhibit 80.78% of the hatching eggs at 400 µg/mL over a period of 96 h. Furthermore, 5-methoxymethyl-1H-pyrrole-2-carboxaldehyde (7) showed a strong avoidance effect at 40 ppm, and its chemotactic index value was -0.37. The results indicate that P. lavendulum could produce active metabolites against M. incognita.

Activities and metabolomics of Cordyceps gunnii under different culture conditions.

Many active metabolites have been identified from various species of the fungal genus Cordyceps. A predominant species of this genus is Cordyceps gunnii, but there are limited reports on the active ingredients from this species. This study aimed to conduct activity assays and metabolome analysis on extracts of C. gunnii obtained under different culture conditions. Five different solid media were selected to culture the mycelium of C. gunnii and the metabolites were extracted with organic solvents; concurrently, the wild stroma and host complexes of C. gunnii were extracted by ethyl acetate. Extracts were subsequently assayed for various biological activities and were analyzed by untargeted metabolomics. There were significant differences in the activities and metabolites of C. gunnii extracts from different culture conditions and from wild stroma and host complexes. The extracts of stroma and host complexes and mycelia cultured on WGA medium for 21 days exhibited similar effective inhibitory activity against five cell lines. A total of 51 metabolites were annotated and included various structural types. The literatures indicate that most of the identified compounds have a variety of different biological activities. These findings provide the basis for further systematic excavation of C. gunnii and improved utilization of this fungal species.

Pattern of mutation rates in the germline of Drosophila melanogaster males from a large-scale mutation screening experiment.

The sperm or eggs of sexual organisms go through a series of cell divisions from the fertilized egg; mutations can occur at each division. Mutations in the lineage of cells leading to the sperm or eggs are of particular importance because many such mutations may be shared by somatic tissues and also may be inherited, thus having a lasting consequence. For decades, little has been known about the pattern of the mutation rates along the germline development. Recently it was shown from a small portion of data that resulted from a large-scale mutation screening experiment that the rates of recessive lethal or nearly lethal mutations differ dramatically during the germline development of Drosophila melanogaster males. In this paper the full data set from the experiment and its analysis are reported by taking advantage of a recent methodologic advance. By analyzing the mutation patterns with different levels of recessive lethality, earlier published conclusions based on partial data are found to remain valid. Furthermore, it is found that for most nearly lethal mutations, the mutation rate at the first cell division is even greater than previous thought compared with those at other divisions. There is also some evidence that the mutation rate at the second division decreases rapidly but is still appreciably greater than those for the rest of the cleavage stage. The mutation rate at spermatogenesis is greater than late cleavage and stem-cell stages, but there is no evidence that rates are different among the five cell divisions of the spermatogenesis. We also found that a modestly biased sampling, leading to slightly more primordial germ cells after the eighth division than those reported in the literature, provides the best fit to the data. These findings provide conceptual and numerical basis for exploring the consequences of differential mutation rates during individual development.

Highly variable recessive lethal or nearly lethal mutation rates during germ-line development of male Drosophila melanogaster.

Each cell of higher organism adults is derived from a fertilized egg through a series of divisions, during which mutations can occur. Both the rate and timing of mutations can have profound impacts on both the individual and the population, because mutations that occur at early cell divisions will affect more tissues and are more likely to be transferred to the next generation. Using large-scale multigeneration screening experiments for recessive lethal or nearly lethal mutations of Drosophila melanogaster and recently developed statistical analysis, we show for male D. melanogaster that (i) mutation rates (for recessive lethal or nearly lethal) are highly variable during germ cell development; (ii) first cell cleavage has the highest mutation rate, which drops substantially in the second cleavage or the next few cleavages; (iii) the intermediate stages, after a few cleavages to right before spermatogenesis, have at least an order of magnitude smaller mutation rate; and (iv) spermatogenesis also harbors a fairly high mutation rate. Because germ-line lineage shares some (early) cell divisions with somatic cell lineage, the first conclusion is readily extended to a somatic cell lineage. It is conceivable that the first conclusion is true for most (if not all) higher organisms, whereas the other three conclusions are widely applicable, although the extent may differ from species to species. Therefore, conclusions or analyses that are based on equal mutation rates during development should be taken with caution. Furthermore, the statistical approach developed can be adopted for studying other organisms, including the human germ-line or somatic mutational patterns.

[Effects of L-arginine on the function of platelet aggregation during hepatic ischemia/reperfusion injury].

OBJECTIVE: To explore the effects of L-arginine (L-Arg) on the function of platelet aggregation during hepatic ischemia-reperfusion injury (HIRI). METHODS: The changes in maximum aggregating rate of circulating platelets (Pt(max)), its maximum aggregating time (PtT) as well as its aggregating slopes (PtS) were measured. Effects of L-Arg on those parameters were observed during HIRI in 20 rabbits and 18 patients who were scheduled for elective hepatic surgery. RESULTS: Pt max and PtS all increased significantly (P<0.05 and P<0.01), while PtT decreased remarkably (both P<0.05) during HIRI of rabbits and patients. After treatment with L-Arg, the abnormal changes of parameters as above were all alleviated remarkably (P<0.05 and P<0.01). CONCLUSION: It is indicated that L-Arg can effectively regulate the function of platelet aggregation during HIRI.