The intestinal microbiota is a complex ecosystem consisting of various microorganisms that expands human genetic repertoire and therefore affects human health and disease. The metabolic processes and signal transduction pathways of the host and intestinal microorganisms are intimately linked, and abnormal progression of each process leads to changes in the intestinal environment. Alterations in microbial communities lead to changes in functional structures based on the metabolites produced in the gut, and these environmental changes result in various bacterial infections and chronic enteric inflammatory diseases. Here, we illustrate how antibiotics are associated with an increased risk of antibiotic-associated diseases by driving intestinal environment changes that favor the proliferation and virulence of pathogens. Understanding the pathogenesis caused by antibiotics would be a crucial key to the treatment of antibiotic-associated diseases by mitigating changes in the intestinal environment and restoring it to its original state.
Anti-Bacterial Agents/pharmacology ; Bacteria/drug effects ; Bacteria/growth & development ; Dysbiosis/microbiology ; Gastrointestinal Microbiome/drug effects ; Humans ; Intestines/drug effects ; Intestines/microbiology ; Symbiosis/drug effects

In order to obtain the fungicides with minimal impact on efficiency of mycorrhizal symbiosis, the effect of five fungicides including polyoxins, jinggangmycins, thiophanate methylate, chlorothalonil and carbendazim on the growth of medicinal plant and efficiency of mycorrhizal symbiosis were studied. Pot cultured Glycyrrhiza uralensis was treated with different fungicides with the concentration that commonly used in the field. 60 d after treated with fungicides, infection rate, infection density, biomass indexes, photosyn- thetic index and the content of active component were measured. Experimental results showed that carbendazim had the strongest inhibition on mycorrhizal symbiosis effect. Carbendazim significantly inhibited the mycorrhizal infection rate, significantly suppressed the actual photosynthetic efficiency of G. uralensis and the most indicators of biomass. Polyoxins showed the lowest inhibiting affection. Polyoxins had no significant effect on mycorrhizal infection rate, the actual photosynthetic efficiency of G. uralensis and the most indicators of biomass. The other three fungicides also had an inhibitory effect on efficiency of mycorrhizal symbiosis, and the inhibition degrees were all between polyoxins's and carbendazim's. The author considered that fungicide's inhibition degree on mycorrhizal effect might be related with the species of fungicides, so the author suggested that the farmer should try to choose bio-fungicides like polyoxins.
Fungi ; drug effects ; growth & development ; physiology ; Fungicides, Industrial ; pharmacology ; Glycyrrhiza uralensis ; chemistry ; growth & development ; microbiology ; physiology ; Mycorrhizae ; drug effects ; growth & development ; physiology ; Plant Extracts ; chemistry ; Symbiosis ; drug effects

OBJECTIVETo screen antifungal activity of endophytes from Pseudolarix kaempferi.

METHODEndophytes from P. kaempferi were separated. By means of microdilution method, antifungal active endophytes were fast screened by Pyricularia oryzae P-2b model, and activity of endophytes against pathogenic fungus was studied.

RESULT44.8% of endophytes showed activity against P. oryzae P-2b in Pseudolarix kaempferi. Among them JJ314, JJ323 introduced formation of characteristic beads and swellings on the growing hyphae, JJ324 inhibited the conidia germination. They all showed activity against Trichophyton rubrum, Cryptococcus neoformans and Candida albicans.

CONCLUSIONEndophytes from P. kaempferi are a potential resource for the development of antifungal agent.

Antifungal Agents ; isolation & purification ; pharmacology ; Candida albicans ; drug effects ; Cryptococcus ; drug effects ; Fungi ; chemistry ; classification ; isolation & purification ; Mitosporic Fungi ; drug effects ; Pinaceae ; microbiology ; Plants, Medicinal ; microbiology ; Symbiosis ; Trichophyton ; drug effects