Browsing by Author "Sun, Keping"
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- Activity of bacteria isolated from bats against Pseudogymnoascus destructans in ChinaLi, Zhongle; Li, Aoqiang; Hoyt, Joseph R.; Dai, Wentao; Leng, Haixia; Li, Yanfei; Li, Wei; Liu, Sen; Jin, Longru; Sun, Keping; Feng, Jiang (2021-02)White-nose syndrome, a disease that is caused by the psychrophilic fungus Pseudogymnoascus destructans, has threatened several North America bat species with extinction. Recent studies have shown that East Asian bats are infected with P. destructans but show greatly reduced infections. While several factors have been found to contribute to these reduced infections, the role of specific microbes in limiting P. destructans growth remains unexplored. We isolated three bacterial strains with the ability to inhibit P. destructans, namely, Pseudomonas yamanorum GZD14026, Pseudomonas brenneri XRD11711 and Pseudomonas fragi GZD14479, from bats in China. Pseudomonas yamanorum, with the highest inhibition score, was selected to extract antifungal active substance. Combining mass spectrometry (MS) and nuclear magnetic resonance (NMR) spectroscopy analyses, we identified the active compound inhibiting P. destructans as phenazine-1-carboxylic acid (PCA), and the minimal inhibitory concentration (MIC) was 50.12 mu g ml(-1). Whole genome sequencing also revealed the existence of PCA biosynthesis gene clusters. Gas chromatography-mass spectrometry (GC-MS) analysis identified volatile organic compounds. The results indicated that 10 ppm octanoic acid, 100 ppm 3-tert-butyl-4-hydroxyanisole (isoprenol) and 100 ppm 3-methyl-3-buten-1-ol (BHA) inhibited the growth of P. destructans. These results support that bacteria may play a role in limiting the growth of P. destructans on bats.
- Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndromeHoyt, Joseph R.; Langwig, Kate E.; Sun, Keping; Parise, Katy L.; Li, Aoqiang; Wang, Yujuan; Huang, Xiaobin; Worledge, Lisa; Miller, Helen; White, J. Paul; Kaarakka, Heather M.; Redell, Jennifer A.; Görföl, Tamás; Boldogh, Sándor András; Fukui, Dai; Sakuyama, Muneki; Yachimori, Syuuji; Sato, Akiyoshi; Dalannast, Munkhnast; Jargalsaikhan, Ariunbold; Batbayar, Nyambayar; Yovel, Yossi; Amichai, Eran; Natradze, Ioseb; Frick, Winifred E.; Foster, Jeffrey T.; Feng, Jiang; Kilpatrick, A. Marm (National Academy of Sciences, 2020-03-16)Disease outbreaks and pathogen introductions can have significant effects on host populations, and the ability of pathogens to persist in the environment can exacerbate disease impacts by fueling sustained transmission, seasonal epidemics, and repeated spillover events. While theory suggests that the presence of an environmental reservoir increases the risk of host declines and threat of extinction, the influence of reservoir dynamics on transmission and population impacts remains poorly described. Here we show that the extent of the environmental reservoir explains broad patterns of host infection and the severity of disease impacts of a virulent pathogen. We examined reservoir and host infection dynamics and the resulting impacts of Pseudogymnoascus destructans, the fungal pathogen that causes white-nose syndrome, in 39 species of bats at 101 sites across the globe. Lower levels of pathogen in the environment consistently corresponded to delayed infection of hosts, fewer and less severe infections, and reduced population impacts. In contrast, an extensive and persistent environmental reservoir led to early and widespread infections and severe population declines. These results suggest that continental differences in the persistence or decay of P. destructans in the environment altered infection patterns in bats and influencedwhether host populations were stable or experienced severe declines from this disease. Quantifying the impact of the environmental reservoir on disease dynamics can provide specific targets for reducing pathogen levels in the environment to prevent or control future epidemics.