Pattana Kakumyan scite author profile

A large amount of agro-industrial waste is produced worldwide in various agricultural sectors and by different food industries. The disposal and burning of this waste have created major global environmental problems. Agro-industrial waste mainly consists of cellulose, hemicellulose and lignin, all of which are collectively defined as lignocellulosic materials. This waste can serve as a suitable substrate in the solid-state fermentation process involving mushrooms. Mushrooms degrade lignocellulosic substrates through lignocellulosic enzyme production and utilize the degraded products to produce their fruiting bodies. Therefore, mushroom cultivation can be considered a prominent biotechnological process for the reduction and valorization of agro-industrial waste. Such waste is generated as a result of the eco-friendly conversion of low-value by-products into new resources that can be used to produce value-added products. Here, we have produced a brief review of the current findings through an overview of recently published literature. This overview has focused on the use of agro-industrial waste as a growth substrate for mushroom cultivation and lignocellulolytic enzyme production.

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Current status of global Ganoderma cultivation, products, industry and market

Hapuarachchi¹,

Elkhateeb²,

Karunarathna³

et al. 2018

Mycosphere

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Among many traditional medicines, Ganoderma has been used in Asian countries for over two millennia as a traditional medicine for maintaining vivacity and longevity. Research on various metabolic activities of Ganoderma have been performed both in vitro and in vivo studies. However, it is debatable whether Ganoderma is a food supplement for health maintenance or a therapeutic "drug" for medical purposes. Over the past two decades, the Ganoderma industry has developed greatly and today offers thousands of products to the markets. Despite the large market, there are problems with the industry which prevent it from establishing an effective market. This paper describes the current status of the world Ganoderma cultivation, products, industry and provides suggestions for facilitating further research.

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Volatile Oxylipins and Related Compounds Formed Under Stress in Plants

Matsui

Sugimoto

Kakumyan

et al. 2009

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Plants form volatile oxylipins and related compounds under stress. Some of them are important flavor chemicals and give big impact on the flavor quality of food made from plant materials. They are also involved in defense responses of plants against pathogens and herbivores. Furthermore, in some instances, they cause harmful effects on plants themselves. Because of these significances of volatile oxylipins and related compounds, demands to perform comprehensive analyses of these compounds are increasing. In this chapter, we describe the simple but efficient procedures to reveal profiles of volatile oxylipins and related compounds by using HPLC and GC-MS. They are simple and can be performed in biochemical laboratories equipped with common facilities.

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Bioprocess for Production, Characteristics, and Biotechnological Applications of Fungal Phytases

et al. 2020

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Phytases are a group of enzymes that hydrolyze the phospho-monoester bonds of phytates. Phytates are one of the major forms of phosphorus found in plant tissues. Fungi are mainly used for phytase production. The production of fungal phytases has been achieved under three different fermentation methods including solid-state, semi-solid-state, and submerged fermentation. Agricultural residues and other waste materials have been used as substrates for the evaluation of enzyme production in the fermentation process. Nutrients, physical conditions such as pH and temperature, and protease resistance are important factors for increasing phytase production. Fungal phytases are considered monomeric proteins and generally possess a molecular weight of between 14 and 353 kDa. Fungal phytases display a broad substrate specificity with optimal pH and temperature ranges between 1.3 and 8.0 and 37-67 • C, respectively. The crystal structure of phytase has been studied in Aspergillus. Notably, thermostability engineering has been used to improve relevant enzyme properties. Furthermore, fungal phytases are widely used in food and animal feed additives to improve the efficiency of phosphorus intake and reduce the amount of phosphorus in the environment.

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