Impact of environmental variables on the isolation, diversity and antibacterial activity of endophytic fungal communities from Madhuca indica Gmel. at different locations in India
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- 作者:Satish K. Verma (2)
Surendra K. Gond (2)
Ashish Mishra (1)
Vijay K. Sharma (1)
Jitendra Kumar (1)
Dheeraj K. Singh (1)
Anuj Kumar (3)
Jyoti Goutam (1)
Ravindra Nath Kharwar (1) - 关键词:Antimicrobial ; GenBank ; Mycoflora ; Phylogeny ; Secondary metabolites ; Symbiosis
- 刊名:Annals of Microbiology
- 出版年:2014
- 出版时间:June 2014
- 年:2014
- 卷:64
- 期:2
- 页码:721-734
- 全文大小:
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Surendra K. Gond (2)
Ashish Mishra (1)
Vijay K. Sharma (1)
Jitendra Kumar (1)
Dheeraj K. Singh (1)
Anuj Kumar (3)
Jyoti Goutam (1)
Ravindra Nath Kharwar (1)
2. Department of Botany, Visva Bharati, Santiniketan, 731235, India
1. Mycopathology Laboratory, Department of Botany, Banaras Hindu University, Varanasi, 221005, India
3. Department of Botany, Buddha Post Graduate College, Kushinagar, India, 274403 - ISSN:1869-2044
文摘
A total of 1,897 isolates of endophytic fungi from Madhuca indica Gmel., representing 40 morphologically distinct fungal taxa were obtained from 2,700 segments of stem, bark and leaf from three different locations (Loc 1, Loc 2 and Loc 3) in Uttar Pradesh, India. Out of 40 taxa, 28 were identified microscopically and the remaining 12 by molecular methods. Coelomycetes (62.41?%) were the most prevalent fungal group followed by hyphomycetes (28.89?%) and ascomycetes (8.70?%). Colonisation frequency (CF) was greater in stem (82.55?%) than in leaf (65.00?%) and bark (63.22?%). Due to the dominance of a few taxa, species richness and Shannon and Simpson diversity indices were lower in stem than in leaf and bark at each location. Interestingly, less rainfall and lower temperatures disfavoured the overall colonisation of fungal endophytes at Loc 2. The stem samples from all locations were very similar in their endophytic composition, whereas bark and leaf samples showed differences. The dominant endophytic fungi isolated were Phomopsis sp. 1 (9.185?%), and Colletotrichum gloeosporioides (7.00?%). Principal component analysis showed 55?% tissue specificity with 51.08?% maximum variance. Antibacterial activity revealed that 58.33?% endophytic fungi were active against at least one or more bacterial pathogens, whereas the crude extract of five endophytic fungi inhibited the growth of five or more than five (50?%) of the pathogens tested. This report illustrates the value of having an adequate sample size from different tissues and different locations for species and chemical diversity in search of novel natural products.