Optimization of Biomass and Secondary Metabolite Production in Gynura procumbens (Lour.) Merr. Adventitious Roots Culture by Using the Method of Subculture and Fed-batch Cultivation in a Bioreactor

Q3 Agricultural and Biological Sciences

HAYATI Journal of Biosciences Pub Date : 2023-05-30 DOI:10.4308/hjb.30.5.797-807

D. Y. Kusuma, A. Kristanti, A. T. Wibowo, B. Tan, Yosephine Sri, W. Manuhara

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引用次数: 1

Abstract

The valuable extract of bioactive compounds from Gynura procumbens has been widely manufactured into various health products. The demand for these compounds is continuously increasing, but production through conventional farming methods is insufficient due to limited agricultural land and environmental stresses. An alternative to producing plant biomass is in vitro cultivation methods. This method requires less space and enables biomass propagation in a controlled condition that can facilitate stable and efficient production of plant secondary metabolites. This study evaluated the effect of inoculum subculture periods and culture methods on G. procumbens biomass and secondary metabolite production in a bioreactor. The 3-L airlift balloon type-bubble bioreactors was modified in this study to adopt the treatment of 1st-5th subculture periods and fed- and batch-cultivation strategies. We found the G. procumbens adventitious root culture was optimally derived from the 1st subculture produced biomass of 148.02±1.45 g FW and 8.59±0.12 g DW, and TPC (14.48±1.08 mg GAE/g DW) and TFC (116.89±0.44 mg KE/g DW and 33.97±0.13 mg QE/g DW). Additionally, the fed method after 28 days of culture using double distilled water replenishment improved adventitious root biomass (213.75±35.00 g FW and 11.21±0.18 g DW), while nutrient replenishment improved TFC (52.14±0.44 mg KE/g DW and 14.54±0.13 mg QE/g DW). These results can be used to optimize the cultivation of G. procumbens adventitious roots in a large-scale bioreactor.

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平菇生物量和次生代谢产物生产的优化。生物反应器中亚培养和补料分批培养不定根的方法

从猪苓中提取的有价值的生物活性化合物已被广泛生产成各种保健品。对这些化合物的需求不断增加，但由于农业用地有限和环境压力，传统耕作方法的生产不足。生产植物生物质的一种替代方法是体外培养方法。这种方法需要更少的空间，并且能够在可控的条件下繁殖生物质，从而促进植物次生代谢产物的稳定高效生产。本研究评估了接种物继代培养时间和培养方法对生物反应器中平菇生物量和次级代谢产物产生的影响。本研究对3-L气升气球型气泡生物反应器进行了改进，采用第1-5次传代处理和补料和分批培养策略。我们发现，平菇不定根培养的最佳来源于第一次继代产生的生物量为148.02±1.45 G FW和8.59±0.12 G DW，以及TPC（14.48±1.08 mg GAE/G DW）和TFC（116.89±0.44 mg KE/G DW和33.97±0.13 mg QE/G DW）。此外，在使用双蒸馏水补充培养28天后，补饲法提高了不定根生物量（213.75±35.00 g FW和11.21±0.18 g DW），而营养补充提高了TFC（52.14±0.44 mg KE/g DW和14.54±0.13 mg QE/g DW）。这些结果可用于优化在大型生物反应器中培养平菇不定根。

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来源期刊

HAYATI Journal of Biosciences Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.10

自引率

0.00%

发文量

审稿时长

24 weeks

期刊介绍： HAYATI Journal of Biosciences (HAYATI J Biosci) is an international peer-reviewed and open access journal that publishes significant and important research from all area of biosciences fields such as biodiversity, biosystematics, ecology, physiology, behavior, genetics and biotechnology. All life forms, ranging from microbes, fungi, plants, animals, and human, including virus, are covered by HAYATI J Biosci. HAYATI J Biosci published by Department of Biology, Bogor Agricultural University, Indonesia and the Indonesian Society for Biology. We accept submission from all over the world. Our Editorial Board members are prominent and active international researchers in biosciences fields who ensure efficient, fair, and constructive peer-review process. All accepted articles will be published on payment of an article-processing charge, and will be freely available to all readers with worldwide visibility and coverage.