Light-emitting diode enhances the biomass yield and antioxidant activity of Philippine wild mushroom Lentinus swartzii

IF 1.6 Q2 AGRICULTURE, MULTIDISCIPLINARY

Asian Journal of Agriculture and Biology Pub Date : 2021-02-08 DOI:10.35495/AJAB.2020.08.435

Reyna C. Tiniola

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引用次数: 3

Abstract

Lentinus swartzii is a basidiomycetous fungus that usually grows on fallen logs during rainy season. In this study, the effects of color light-emitting diode (LED) on the mycelial biomass, fruiting body production, and antioxidant properties of L. swartzii were evaluated. The inoculated culture bottles and fruiting bags were incubated under the three-color LEDs (red, green, and blue), and dark condition (control) in a chamber. Phenolic content and scavenging activity mycelia and fruiting bodies ethanol extracts were also analyzed. In liquid culture, red LED cultures produced the highest mycelial dry weight (0.464 g), while green LED cultures registered the highest number of primordia (6.0). The initiation of primordia was not stimulated under red LED and dark condition. However, in fruiting body production, fruiting bags exposed under red LED showed the shortest period of incubation for mycelial ramification (21.20 days), produced the maximum yield of fruiting body (35.73 g) and biological efficiency (7.14%). All LED mycelial extracts exhibited higher radical scavenging activities (RSA) than catechin, and green LED mycelial extract registered the highest phenolic content (PC) (34.21 mg GAE g sample). The red LED fruiting body extract recorded the highest RSA (28.06%) and PC (26.08 mg GAE g sample). Therefore, cultivation of L. swartzii in red LED chamber is a practical technique for enhancing biomass production and antioxidant properties.

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发光二极管提高了菲律宾野生香菇的生物量和抗氧化活性

香菇(Lentinus swartzii)是一种担子真菌，通常在雨季生长在倒下的原木上。研究了彩色发光二极管(LED)对水稻菌丝生物量、子实体产量和抗氧化性能的影响。接种后的培养瓶和果袋在三色led(红、绿、蓝)和暗色条件(对照)下在室内孵育。分析了菌丝和子实体乙醇提取物的酚含量和清除活性。在液体培养中，红色LED培养物产生的菌丝干重最高(0.464 g)，而绿色LED培养物产生的原基数量最高(6.0)。在红色LED和黑暗条件下，原基的起始不受刺激。而在子实体生产中，红色LED照射下的子袋菌丝分枝培养时间最短(21.20 d)，子实体产量最高(35.73 g)，生物效率最高(7.14%)。所有LED菌丝体提取物的自由基清除活性(RSA)均高于儿茶素，其中绿色LED菌丝体提取物的酚含量(PC)最高(34.21 mg GAE g样品)。红色LED子实体提取物的RSA(28.06%)和PC (26.08 mg GAE g样品)最高。因此，在红色LED室内培养swartzii是一种提高生物质产量和抗氧化性能的实用技术。

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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来源期刊

Asian Journal of Agriculture and Biology AGRICULTURE, MULTIDISCIPLINARY-

CiteScore

2.80

自引率

4.50%

发文量

审稿时长

6 weeks

期刊介绍： Asian Journal of Agriculture and Biology (AJAB) is a peer reviewed, open access, quarterly journal serving as a means for scientific information exchange in international and national fora. The scope encompasses all disciplines of agriculture and biology including animal, plant and environmental sciences. All manuscripts are evaluated for their scientific content and significance by the Editor-in-Chief &/or Managing Editor and at least two independent reviewers. All submitted manuscripts should contain unpublished original research which should not be under consideration for publication elsewhere. In order to avoid unnecessary delay in publication, authors are requested to comply the following guidelines; differing these, your submission will be returned for additional revision.