Endophytic Bacteria and Fungi Associated with Polygonum cuspidatum in the Russian Far East

, alternatively known as or , is a perennial herb belonging to the Polygonaceae family. Commonly called Japanese knotweed or Asian knotweed, this plant is native to East Asia, particularly in regions such as Korea, China, and Japan. It has successfully adapted to a wide range of habitats, resulting...

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Bibliographic Details
Published in:Plants (Basel) 2024-09, Vol.13 (18), p.2618
Main Authors: Aleynova, Olga A, Ananev, Alexey A, Nityagovsky, Nikolay N, Suprun, Andrey R, Zhanbyrshina, Nursaule Zh, Beresh, Alina A, Ogneva, Zlata V, Tyunin, Alexey P, Kiselev, Konstantin V
Format: Article
Language:English
Subjects:
Actinobacteria
Alternaria
Aquatic plants
Asian knotweed
Bacteria
Bacteroidia
Biodiversity
Cell cycle
China
Cladosporium
Comamonadaceae
endophyte diversity
Endophytes
Exobasidiomycetes
Fallopia japonica
family
Flowers & plants
Fungi
gamma-Proteobacteria
Introduced species
Invasive species
Japan
Japanese knotweed
Korean Peninsula
Leotiomycetes
Marasmius
Metabolism
microbiome
Next-generation sequencing
Nonnative species
North America
Parastagonospora
Pediomelum cuspidatum
Pezizomycetes
Polygonaceae
Polygonum cuspidatum
Reynoutria japonica
Russia
Schizothyrium
Seeds
Sordariomycetes
Sphingomonas
Vishniacozyma
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Description
Summary:, alternatively known as or , is a perennial herb belonging to the Polygonaceae family. Commonly called Japanese knotweed or Asian knotweed, this plant is native to East Asia, particularly in regions such as Korea, China, and Japan. It has successfully adapted to a wide range of habitats, resulting in it being listed as a pest and invasive species in several countries in North America and Europe. This study focuses on analysing the composition of the bacterial and fungal endophytic communities associated with Japanese knotweed growing in the Russian Far East, employing next-generation sequencing (NGS) and a cultivation-based method (microbiological sowing). The NGS analysis showed that the dominant classes of endophytic bacteria were Alphaproteobacteria (28%) and Gammaproteobacteria (28%), Actinobacteria (20%), Bacteroidia (15%), and Bacilli (4%), and fungal classes were Agaricomycetes (40%), Dothideomycetes (24%), Leotiomycetes (10%), Tremellomycetes (9%), Pezizomycetes (5%), Sordariomycetes (3%), and Exobasidiomycetes (3%). The most common genera of endophytic bacteria were - - , , , - , , and , and genera of fungal endophytes were , , , , , , , and . The present data showed that the roots, leaves, and stems of have a greater number and diversity of endophytic bacteria and fungi compared to the flowers and seeds. Thus, the biodiversity of endophytic bacteria and fungi of was described and analysed for the first time in this study.
ISSN:2223-7747
2223-7747
DOI:10.3390/plants13182618