Your search keyword '"Xiao-Feng Dai"' showing total 3 results

1. Rhizosphere Microbiomes of Potato Cultivated under Bacillus subtilis Treatment Influence the Quality of Potato Tubers

Author

Jian Song, Zhi-Qiang Kong, Dan-Dan Zhang, Jie-Yin Chen, Xiao-Feng Dai, and Ran Li

Subjects

soil microbial communities, microbial diversity, biocontrol, potato, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Plants serve as a niche for the growth and proliferation of a diversity of microorganisms. Soil microorganisms, which closely interact with plants, are increasingly being recognized as factors important to plant health. In this study, we explored the use of high-throughput DNA sequencing of the fungal ITS and bacterial 16S for characterization of the fungal and bacterial microbiomes following biocontrol treatment (DT) with Bacillus subtilis strain Bv17 relative to treatments without biocontrol (DC) during the potato growth cycle at three time points. A total of 5631 operational taxonomic units (OTUs) were identified from the 16S data, and 2236 OTUs were identified from the ITS data. The number of bacterial and fungal OTU in DT was higher than in DC and gradually increased during potato growth. In addition, indices such as Ace, Chao, Shannon, and Simpson were higher in DT than in DC, indicating greater richness and community diversity in soil following the biocontrol treatment. Additionally, the potato tuber yields improved without a measurable change in the bacterial communities following the B. subtilis strain Bv17 treatment. These results suggest that soil microbial communities in the rhizosphere are differentially affected by the biocontrol treatment while improving potato yield, providing a strong basis for biocontrol utilization in crop production.

Published

2021

2. Biological Characteristics of Verticillium dahliae MAT1-1 and MAT1-2 Strains

Author

Lin Liu, Ya-Duo Zhang, Dan-Dan Zhang, Yuan-Yuan Zhang, Dan Wang, Jian Song, Jian Zhang, Ran Li, Zhi-Qiang Kong, Steven J. Klosterman, Xiao-Feng Dai, Krishna V. Subbarao, Jun Zhao, and Jie-Yin Chen

Subjects

Verticillium dahliae, MAT1-1 and MAT1-2 idiomorphs, Growth characteristics, Pathogenicity, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Verticillium dahliae is a soil-borne plant pathogenic fungus that causes Verticillium wilt on hundreds of dicotyledonous plant species. V. dahliae is considered an asexually (clonal) reproducing fungus, although both mating type idiomorphs (MAT1-1 and MAT1-2) are present, and is heterothallic. Most of the available information on V. dahliae strains, including their biology, pathology, and genomics comes from studies on isolates with the MAT1-2 idiomorph, and thus little information is available on the MAT1-1 V. dahliae strains in the literature. We therefore evaluated the growth responses of MAT1-1 and MAT1-2 V. dahliae strains to various stimuli. Growth rates and melanin production in response to increased temperature, alkaline pH, light, and H2O2 stress were higher in the MAT1-2 strains than in the MAT1-1 strains. In addition, the MAT1-2 strains showed an enhanced ability to degrade complex polysaccharides, especially starch, pectin, and cellulose. Furthermore, several MAT1-2 strains from both potato and sunflower showed increased virulence on their original hosts, relative to their MAT1-1 counterparts. Thus, compared to MAT1-1 strains, MAT1-2 strains derive their potentially greater fitness from an increased capacity to adapt to their environment and exhibit higher virulence. These competitive advantages might explain the current abundance of MAT1-2 strains relative to MAT1-1 strains in the agricultural and sylvicultural ecosystems, and this study provides the baseline information on the two mating idiomorphs to study sexual reproduction in V. dahliae under natural and laboratory conditions.

Published

2021

3. Lysin Motif (LysM) Proteins: Interlinking Manipulation of Plant Immunity and Fungi

Author

Shu-Ping Hu, Jun-Jiao Li, Nikhilesh Dhar, Jun-Peng Li, Jie-Yin Chen, Wei Jian, Xiao-Feng Dai, and Xing-Yong Yang

Subjects

lysin motif (LysM) protein, plant-fungus interactions, chitin, immunity manipulation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The proteins with lysin motif (LysM) are carbohydrate-binding protein modules that play a critical role in the host-pathogen interactions. The plant LysM proteins mostly function as pattern recognition receptors (PRRs) that sense chitin to induce the plant’s immunity. In contrast, fungal LysM blocks chitin sensing or signaling to inhibit chitin-induced host immunity. In this review, we provide historical perspectives on plant and fungal LysMs to demonstrate how these proteins are involved in the regulation of plant’s immune response by microbes. Plants employ LysM proteins to recognize fungal chitins that are then degraded by plant chitinases to induce immunity. In contrast, fungal pathogens recruit LysM proteins to protect their cell wall from hydrolysis by plant chitinase to prevent activation of chitin-induced immunity. Uncovering this coevolutionary arms race in which LysM plays a pivotal role in manipulating facilitates a greater understanding of the mechanisms governing plant-fungus interactions.

Published

2021