Cho Du Yong, Jang Mu Yeun, Lee Hee Yul, Jeong Jong Bin, Kim Da Hyun, Bang Do Yun, Kim Hye Rim, Jeong Ye Rim, Haque Md Azizul, Lee Jin Hwan, Cho Kye Man
Department of GreenBio Science, Agri-Food Bio Convergence Institute, Gyeongsang National University, Jinju 52727, Republic of Korea.
Gyeongnam Anti-Aging Research Institute, Sancheong-gun 52215, Republic of Korea.
Plants (Basel). 2025 Jul 19;14(14):2238. doi: 10.3390/plants14142238.
This study investigates how root color in soybeans affects isoflavone composition, rhizosphere bacterial diversity, total phenolics, total flavonoids, and antioxidant activity under a hydroponic cultivation system. Notably, soybean-brown roots (SBRs) accumulated significantly higher contents of isoflavones, exhibiting approximately a 14.9-fold increase in total glycosides (141.75 to 2121.59 µg/g), 7.3-fold increase in total malonyl-β-glycosides (127.52 to 930.45 µg/g), 2.8-fold increase in total aglycones (1825.90 to 5145.21 µg/g), and 3.9-fold increase in total isoflavones (2095.16 to 8197.26 µg/g) than soybean-white roots (SWRs). Isolated rhizosphere bacteria profiling revealed γ- as the predominant class in both root types, constituting 77.6% and 73.9% of the bacterial community in SWRs and SBRs, respectively. However, SBRs supported a more diverse bacterial ecosystem, harboring thirteen genera compared to only eight genera in SWRs. Enhanced total phenolics, total flavonoids, and radical scavenging activity were also associated with the SBRs. These findings shed light on the dynamic interplay between root traits, bacterial interactions, and secondary metabolite biosynthesis in hydroponically grown soybeans. This work not only advances our understanding of plant root-microbiome-metabolite relationships but also offers a novel approach to exploring the potential of enhancing secondary metabolites in soybean plants through precision cultivation.
本研究调查了水培种植系统下大豆根颜色如何影响异黄酮组成、根际细菌多样性、总酚、总黄酮和抗氧化活性。值得注意的是,大豆棕色根(SBR)积累的异黄酮含量显著更高,总糖苷(141.75至2121.59μg/g)增加了约14.9倍,总丙二酰-β-糖苷(127.52至930.45μg/g)增加了7.3倍,总苷元(1825.90至5145.21μg/g)增加了2.8倍,总异黄酮(2095.16至8197.26μg/g)增加了3.9倍,均高于大豆白色根(SWR)。对分离出的根际细菌进行分析发现,γ-变形菌纲在两种根类型中均为主要类群,分别占SWR和SBR细菌群落的77.6%和73.9%。然而,SBR支持更为多样的细菌生态系统,其含有13个属,而SWR仅含有8个属。总酚、总黄酮和自由基清除活性的增强也与SBR相关。这些发现揭示了水培大豆中根性状、细菌相互作用和次生代谢物生物合成之间的动态相互作用。这项工作不仅增进了我们对植物根-微生物群-代谢物关系的理解,还提供了一种新方法,通过精准种植探索提高大豆植株中次生代谢物含量的潜力。
