Deciphering the roles of bacterial and fungal communities in the formation and quality of agarwood.

Chen-Chen Fu, Bao-Xing Huang, Shan-Shan Wang, Yu-Chen Song, Dolkar Metok, Yu-Xiang Tan, Tai-Ping Fan, Alisdair R Fernie, Meisam Zargar, Yan Wang, Mo-Xian Chen, Liang-Wen Yu, Fu-Yuan Zhu
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Abstract

Aquilaria sinensis is a significant resin-producing plant worldwide that is crucial for agarwood production. Agarwood has different qualities depending on the method with which it is formed, and the microbial community structures that are present during these methods are also diverse. Furthermore, the microbial communities of plants play crucial roles in determining their health and productivity. While previous studies have investigated the impact of microorganisms on agarwood formation, they lack comprehensiveness, particularly regarding the properties of the microbial community throughout the entire process from seedling to adult to incense formation. We collected roots, stems, leaves, flowers, fruits and other tissues from seedlings, healthy plants and agarwood-producing plants to address this gap and assess the dominant bacterial species in the microbial community structures of A. sinensis at different growth stages and their impacts on growth and agarwood formation. The bacteria and fungi in these tissues were classified and counted from different perspectives. The samples were sequenced using the Illumina sequencing platform, and sequence analyses and species annotations were performed using a range of bioinformatics tools to assess the plant community compositions. An additional comparison of the samples was conducted using diversity analyses to assess their differences. This research revealed that Listeria, Kurtzmanomyces, Ascotaiwania, Acinetobacter, Sphingobium, Fonsecaea, Acrocalymma, Allorhizobium, Bacillus, Pseudomonas, Peethambara, and Debaryomyces are potentially associated with the formation of agarwood. Overall, the data provided in this article help us understand the important roles played by bacteria and fungi in the growth and agarwood formation process of A. sinensis, will support the theoretical basis for the large-scale cultivation of A. sinensis, and provide a basis for further research on microbial community applications in agarwood production and beyond.

解密细菌和真菌群落在沉香木的形成和质量中的作用。
Aquilaria sinensis 是世界上重要的树脂生产植物,对沉香生产至关重要。沉香的品质因形成方法而异,形成过程中的微生物群落结构也各不相同。此外,植物的微生物群落在决定植物的健康和生产力方面发挥着至关重要的作用。虽然之前的研究已经调查了微生物对沉香形成的影响,但这些研究缺乏全面性,尤其是在从幼苗到成材再到沉香形成的整个过程中微生物群落的特性。为了填补这一空白,我们采集了幼苗、健康植株和产香植株的根、茎、叶、花、果实和其他组织,并评估了不同生长阶段中华侧柏微生物群落结构中的优势菌种及其对生长和沉香形成的影响。从不同角度对这些组织中的细菌和真菌进行了分类和计数。使用 Illumina 测序平台对样本进行测序,并使用一系列生物信息学工具进行序列分析和物种注释,以评估植物群落组成。此外,还利用多样性分析对样本进行了比较,以评估它们之间的差异。研究发现,李斯特菌、库尔兹曼霉菌、Ascotaiwania、醋酐菌、Sphingobium、Fonsecaea、Acrocalymma、Allorhizobium、芽孢杆菌、假单胞菌、Peethambara 和 Debaryomyces 可能与沉香木的形成有关。总之,本文提供的数据有助于我们了解细菌和真菌在中华楠木的生长和琼脂木形成过程中发挥的重要作用,将为中华楠木的大规模栽培提供理论依据,并为进一步研究微生物群落在琼脂木生产及其他方面的应用提供基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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