Combined Effect of Spent Mushroom Substrate and Agro-Industrial Residues on Pleurotus columbinus Production and Intra-Cellular Polysaccharide Synthesis.

IF 3.1 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

BioTech Pub Date : 2025-05-02 DOI:10.3390/biotech14020034

Marianna Dedousi, Chrysavgi Gardeli, Seraphim Papanikolaou, Panagiota Diamantopoulou

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引用次数: 0

Abstract

Spent mushroom substrate (SMS), spent coffee grounds from espresso production (SCG), faba bean harvest residues (FBR), pistachio shells (PS) wheat straw (WS) (control) agro-industrial waste were combined in different ratios, with or without supplements (wheat bran, soybean flour), to create novel substrates for Pleurotus columbinus growth. The impact of the substrates on the mycelial growth rate (Kr), biomass production, laccase, total cellulases and carbohydrate synthesis, along with the C and N consumption by P. columbinus, were examined in fully colonized substrates. The incubation period, earliness and biological efficiency (B.E.) (%) were also determined. Then, the intracellular polysaccharide (ICP) contents of the P. columbinus produced mushrooms were evaluated in the most promising substrates. P. columbinus was grown successfully in a wide range of C/N ratios of substrates and the fastest Kr (7.6 mm/d) was detected on the 70 SMS-30 FBR, without supplements, whereas substrates consisting of SCG enhanced biomass production (700.0-803.7 mg/g d.w.). SMS and PS or SCG led to the shortest incubation and earliness period of P. columbinus. The C content was reduced and the N content was substantially increased in all the colonized substrates. The 70 SMS-30 FBR and 80 SMS considerably enhanced the laccase production (up to 59,933.4 U/g d.w.) and substrates consisting of PS promoted total cellulases activities. Greater amounts of carbohydrates (3.8-17.4 mg/g d.w.) than that in the control were recorded for all the substrates. The combination of SMS and SCG or WS led to the highest B.E. values (59.3-87.1%) and ICP amounts (34.7-45.9%, w/w), regardless of the supplement addition. These findings support the effective utilization of agro-industrial waste in P. columbinus cultivation, producing high-value-added compounds and supporting mushroom growth.

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食用菌废底物与农工残留物对侧耳生产及胞内多糖合成的联合影响

利用蘑菇废基质（SMS）、浓缩咖啡废渣（SCG）、蚕豆收获渣（FBR）、开心果壳（PS）、麦秸（WS）（对照）农工废弃物，在添加或不添加添加物（麦麸、大豆粉）的情况下，以不同比例组合为侧耳平菇（Pleurotus columbinus）创造新的生长基质。在完全定植的培养基中，研究了不同基质对柱状双歧杆菌菌丝生长速率（Kr）、生物量、漆酶、总纤维素酶和碳水化合物合成的影响，以及对C和N的消耗。测定其潜伏期、早期性和生物效率（B.E.） %。然后，在最有希望的底物上对柱状假单胞菌生产的蘑菇的胞内多糖（ICP）含量进行了评价。柱状芽孢杆菌在不同C/N比的基质中均能成功生长，在70个SMS-30 FBR中，在不添加添加剂的情况下，最快的Kr （7.6 mm/d）被检测到，而由SCG组成的基质提高了生物量产量（700.0-803.7 mg/g d.w）。SMS和PS或SCG使柱状假单胞菌的孵育期最短、早期。在所有定殖基质中，C含量降低，N含量显著增加。70个SMS-30 FBR和80个SMS显著提高了漆酶的产量（高达59,933.4 U/g d.w.），由PS组成的底物促进了总纤维素酶的活性。所有底物的碳水化合物含量（3.8 ~ 17.4 mg/g d.w.）均高于对照组。无论添加量如何，SMS与SCG或WS组合的B.E.值最高（59.3-87.1%），ICP值最高（34.7-45.9%,w/w）。这些发现支持了农业工业废弃物在柱状假单胞菌栽培中的有效利用，生产高附加值化合物并支持蘑菇生长。

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