Ruixue Jing scite author profile

High-throughput sequencing-based analysis of the composition and diversity of endophytic bacterial community in seeds of upland rice

Wang

¹

,

Zhu

²

,

Jing

³

et al. 2020

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Upland rice is an ecotype crop formed by long-term domestication and evolution of rice in the dry land without water layer. Generally, its stem and leaf are thick and luxuriant, its leaf is wide and light, its root system is developed, its root hair is abundant, its osmotic pressure of root and cell juice concentration of leaf are high, and it is drought resistant, heat-resistant and water absorbing. The purpose of this study is to reveal the "core flora" of endophytes in upland rice seeds by studying the diversity and community structure of endophytes in upland rice seeds, and to reveal the impact of soil environment on the formation of endophyte community structure in upland rice seeds by comparing with soil environment microorganisms in upland rice habitats. In this study, the high-throughput sequencing technology based on the Illumina Hiseq 2500 platform was used to study the structure and diversity of endophytic bacterial communities using upland rice varieties collected in different places and soil samples from their unified planting sites as materials. There are 42 endophytic OTUs coexisted in the 14 samples. At the phylum level, the first dominant phyla was Proteobacteria (93.81-99.99%) in all 14 samples. At the genus level, Pantoea (8.77%-87.77%), Pseudomonas (1.15-61.58%), Methylobacterium (0.40-4.64%), Sphingomonas (0.26-3.85%), Microbacterium (0.01-4.67%) and Aurantimonas (0.04-4.34%), which are probably the core microflora in upland rice seeds, served as the dominant genera that coexisted in all upland rice seeds tested. Compared with the soil microbial community structure in the upland rice uniform planting site, it was found that it had little effect on the endophytic community structure in upland rice seeds. This study is of great significance for the isolation, screening, functional evaluation and reaction of some functional microorganisms in upland rice in order to improve its agronomic traits. It also provides a certain reference for the interaction between microorganisms and plants. the adjacent plant tissues. Therefore, endophytes are ubiquitous in the plant host, including the aboveground and underground parts of the plant, even seeds, thus having a positive impact on the plant development (Zinniel et al. 2015; Chebotar et al. 2015). Endophytes can provide a variety of benefits to host plants, especially through multiple functions to improve the growth and health of plants, so that they can be protected from pathogens (Agler et al. 2016; Liu et al. 2017a,b; Xu et al. 2019; Afzal et al. 2019; Sánchez-Cruz et al. 2019). Under different environmental conditions, the communication and interaction between endophyte and plant is stronger than that between rhizosphere bacteria (Coutinho et al. 2015). A number of studies have shown that plant varieties, genotypes and geographical location have a great impact on the establishment of microbial diversity and community structure in plants (Liu et al. 2017a, 2019; Edwards et al. 2015). Although endophyte was discovered more than 100 years ago, its existe...

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High-throughput sequencing of the microbial diversity of roasted-sesame-like flavored Daqu with different characteristics

Wu

¹

,

Jing

²

,

Chen

³

et al. 2020

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The purpose of this experiment was to analyze the microbial community diversity in three Daqu samples displaying different characteristics in the same Daqu fermentation chamber. A high throughput sequencing technique was used to detect the microbial abundance and diversity in these Daqu samples. Of the three samples, the microbial diversity in the Black sample (sample B) was significantly higher than in the other two. At the genus level, Saccharopolyspora, Bacillus, Lentibacillus, Staphylococcus, Kroppenstedtia, and Thermoactinomyces were the primary bacterial groups in the sesame-flavored liquor, while Thermomyces, Thermoascus, and Aspergillus represented the main fungal groups. In sample B, the dominant bacteria were Thermoactinomyces, Saccharopolyspora, and Pseudomonas. In the White sample (sample W), Thermoactinomyces was the most abundant, followed by Saccharopolyspora and Lentibacillus. Staphylococcus dominated in the Yellow sample (sample Y), followed by Bacillus and Kroppenstedtia. Regarding the fungi in the three samples, Thermomyces accounted for 93.70% in sample B, and Aspergillus dominated in sample W, while the Thermoascus and Aspergillus content were similar in the sample Y. This study examined the microbial diversity in liquor Daqu with different sesame flavors, providing a foundation for microbial regulation, while investigating the relationship between flavored liquor compounds and microorganisms.

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High-throughput sequencing-based analysis of the composition and diversity of endophytic bacterial community in seeds of upland rice

Wang

¹

,

Zhu

²

,

Jing

³

et al. 2020

Preprint

View full text Add to dashboard Cite

Upland rice is an ecotype crop formed by long-term domestication and evolution of rice in the dry land without water layer. Generally, its stem and leaf are thick and luxuriant, its leaf is wide and light, its root system is developed, its root hair is abundant, its osmotic pressure of root and cell juice concentration of leaf are high, and it is drought resistant, heat-resistant and water absorbing. The purpose of this study is to reveal the “core flora” of endophytes in upland rice seeds by studying the diversity and community structure of endophytes in upland rice seeds, and to reveal the impact of soil environment on the formation of endophyte community structure in upland rice seeds by comparing with soil environment microorganisms in upland rice habitats. In this study, the high-throughput sequencing technology based on the Illumina Hiseq 2500 platform was used to study the structure and diversity of endophytic bacterial communities using upland rice varieties collected in different places and soil samples from their unified planting sites as materials. There are 42 endophytic OTUs coexisted in the 14 samples. At the phylum level, the first dominant phyla was Proteobacteria (93.81–99.99%) in all 14 samples. At the genus level, Pantoea (8.77% -87.77%), Pseudomonas (1.15–61.58%), Methylobacterium (0.40–4.64%), Sphingomonas (0.26–3.85%), Microbacterium (0.01–4.67%) and Aurantimonas (0.04–4.34%), which are probably the core microflora in upland rice seeds, served as the dominant genera that coexisted in all upland rice seeds tested. Compared with the soil microbial community structure in the upland rice uniform planting site, it was found that it had little effect on the endophytic community structure in upland rice seeds. This study is of great significance for the isolation, screening, functional evaluation and re-action of some functional microorganisms in upland rice in order to improve its agronomic traits. It also provides a certain reference for the interaction between microorganisms and plants.

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