Nutrition Value and Phytochemical Determination of Oyster Mushroom (Pleurotus spp.)

Year 2024, Volume: 8 Issue: 2, 134 - 150

Hassan Gouda , Mahmoud A. A. Rashwan

Abstract

Oyster mushrooms, the common name for the species pleurotus ostreatus, are one of the most common types of an edible cultivated mushroom in the world that are necessary for a body health. The data obtained, from this research clearly show that cultivated Pleurotus spp. on Zea mays waste gave high level phytochemical compounds, carbohydrates, soluble proteins and amino acids indicating that Zea mays have been given mushroom more quality and more rich from these compounds than the other two wastes tested. It was observed that during this study, ethanolic extract from mycelia and fresh fruiting bodies have higher phytochemical contents than filtrate from liquid medium for all five Pleurotus spp. cultivated on the three agro- wastes.

Keywords

Bioactive compounds, Antioxidants, Flavonoids, Phenolic Compounds

References

• Ahmed S.A., Kadam J.A., Mane V.P., Patil S.S. & Baig M.M.V. 2009. Biological efficiency and nutritional contents of Pleurotus florida (Mont.) Singer cultivated on different agro-wastes. Nature and science, 7 (1), 44-48.
• ‏ Alam N., Amin R., Khan A., Ara I., Shim M.J., Lee M. W. & Lee T. S. 2008. Nutritional analysis of cultivated mushrooms in Bangladesh–Pleurotus ostreatus, Pleurotus sajor- caju, Pleurotus florida and Calocybe indica. Mycobiology, 36 (4), 228-232.
• ‏ ‏Anjana S.K.G., Balamurugan T.S.B., Manivasagan V. & Babu N. G.R. 2016. Phytochemical, antioxidant and antitumor activity of edible mushroom Pleurotus ostreatus. International Journal of Advanced Research in Biological Sciences, 3, 170-177.
• ‏ Barfoed C. 1873. Ueber die Nachweisung des Traubenzuckers neben Dextrin und verwandten Körpern. Zeitschrift für analytische Chemie, 12, 27-32.
• ‏ Bello I.A., Ndukwe G.I., Audu O.T. & Habila J.D. 2011. A bioactive flavonoid from Pavetta crassipes K. Schum. Organic and medicinal chemistry letters, 1(1), 1-5.
• ‏ Bradford M.M. 1976. A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. Analytical biochemistry, 72 (1-2), 248-254.
• ‏ Chirinang P. & Intarapichet K.O. 2009. Amino acids and antioxidant properties of the oyster mushrooms, Pleurotus ostreatus and Pleurotus sajor-caju. Science Asia, 35, 326-331.
• ‏ Da Silva M.C., Naozuka J., da Luz J.M.R., de Assunção L.S., Oliveira P.V., Vanetti M.C., ... & Kasuya M.C. 2012. Enrichment of Pleurotus ostreatus mushrooms with selenium in coffee husks. Food chemistry, 131(2), 558-563.
• ‏ Dundar A., Acay H. & Yildiz A. 2008. Yield performances and nutritional contents of three oyster mushroom species cultivated on wheat stalk. African Journal of Biotechnology, 7(19).
• ‏ Elisashvili V., Kachlishvili E. & Penninckx M. 2008. Effect of growth substrate, method of fermentation, and nitrogen source on lignocellulose-degrading enzymes production by white-rot basidiomycetes. Journal of Industrial Microbiology and Biotechnology, 35(11), 1531-1538.
• ‏ Evans W.C. 1997. Trease and Evans' pharmacognosy. General Pharmacology, 2(29), 291.
• ‏ Fales F. 1951. The assimilation and degradation of carbohydrates by yeast cells. Journal of Biological Chemistry, 193(1), 113-124.
• ‏ Friel M.T. & McLoughlin A.J. 2000. Production of a liquid inoculum/spawn of Agaricus bisporus. Biotechnology Letters, 22, 351-354.
• ‏ Gahan P.B. 1984. Plant histochemistry and cyctochemistry: An introduction. Florida, USA: Academic press.
• Golak-Siwulska I., Kałużewicz A., Spiżewski T., Siwulski M. & Sobieralski K. 2018. Bioactive compounds and medicinal properties of Oyster mushrooms (Pleurotus sp.). Folia Horticulturae, 30 (2), 191-201.
• ‏ Gomez A.C. & Gomez A.A. 1984. Statistical Procedures for Agricultural Research (2nd Edn.). John Wiley and Sons, New York. p. 680.
• Gregori A., Švagelj M. & Pohleven J. 2007. Cultivation techniques and medicinal properties of Pleurotus spp. Food Technology and Biotechnology, 45(3), 238-249.
• ‏ Gupta A., Sharma S., Saha S. & Walia S. 2013. Yield and nutritional content of Pleurotus sajor caju on wheat straw supplemented with raw and detoxified mahua cake. Food chemistry, 141(4), 4231-4239.
• ‏ Hamzah R.U., Jigam A.A., Makun H.A. & Egwim E.C. 2014. Phytochemical screening and antioxidant activity of methanolic extract of selected wild edible nigerian mushrooms Asian Pacific Journal of Tropical Biomedicine journal homepage: www.elsevier.com/locate/apjtb
• Hölker U. & Lenz J. 2005. Solid-state fermentation—are there any biotechnological advantages ?. Current opinion in microbiology, 8(3), 301-306.
• ‏ Hossain M.S., Alam N., Amin S., Basunia M. & Rahman A. 2007. Essential fatty acids content of Pleurotus ostreatus, Ganoderma lucidum and Agaricus bisporus. Bangladesh Journal of Mushroom, 1(2), 1-7.
• Jagota S.K. & Dani H.M. 1982. A new colorimetric technique for the estimation of vitamin C using Folin phenol reagent. Analytical biochemistry, 127(1), 178-182.
• ‏ Jayakumar T., Thomas P.A. & Geraldine P. 2009. In-vitro antioxidant activities of an ethanolic extract of the oyster mushroom, Pleurotus ostreatus. Innovative Food Science & Emerging Technologies, 10 (2), 228-234.
• ‏ Jin Z., Li Y., Ren J. & Qin N. 2018. Yield, nutritional content, and antioxidant activity of Pleurotus ostreatus on corncobs supplemented with herb residues. Mycobiology, 46 (1), 24-32.
• ‏ Khan M. & Tania M. 2012. Nutritional and medicinal importance of Pleurotus mushrooms: an overview. Food Reviews International, 28(3), 313-329.
• ‏ Kim M.Y., Seguin P., Ahn J.K., Kim J.J., Chun S.C., Kim E.H. ... & Chung I.M. 2008. Phenolic compound concentration and antioxidant activities of edible and medicinal mushrooms from Korea. Journal of Agricultural and Food Chemistry, 56(16), 7265-7270. ‏
• Kofalvi S.A. & Nassuth A. 1995. Influence of wheat streak mosaic virus infection on phenylpropanoid metabolism and the accumulation of phenolics and lignin in wheat. Physiological and Molecular Plant Pathology, 47(6), 365-377.
• Li H., Zhang, Z., Li, M., Li, X. & Sun, Z. 2017. Yield, size, nutritional value, and antioxidant activity of oyster mushrooms grown on perilla stalks. Saudi Journal of Biological Sciences, 24(2), 347-354
• Linga Rao M., Savithramma N., Michael David K. & Suvarnalatha Devi P. 2012. Pharmacognostical study on Svensonia hyderobadensis (Walp.) Mold: A rare medicinal plant taxon. Pharmacy, 5, 541-543.
• ‏ Mace Gorbach S.L. 1963. Anaerobic bacteriology for clinical laborites. Pharmacognosy, 23; 89-91.
• Mattila P., Salo-Väänänen P., Könkö K., Aro H. & Jalava T. 2002. Basic composition and amino acid contents of mushrooms cultivated in Finl and. Journal of Agricultural and Food Chemistry, 50(22), 6419-6422. ‏
• Mendez L.A., Castro C.S., Casso R.B. & Leal C.C. 2005. Effect of substrate and harvest on the amino acid profile of Oyster mushroom (Pleurotus ostreatus). Journal of Food Composition and Analysis, 18(5), 447-450.
• ‏ Mohamed E.M. & Farghaly F.A. 2014. Bioactive compounds of fresh and dried Pleurotus ostreatus mushroom. International journal of biotechnology for wellness industries, 3(1), 4.
• ‏ Moore S. & Stein W.H. 1948. Photometric nin-hydrin method for use in the ehromatography of amino acids. Journal of biological chemistry, 176, 367-388.
• ‏ Morris H.J., Beltrán Y., Llauradó G., Batista P.L., Perraud I.G., García N. & Diez J. 2017. Mycelia from Pleurotus sp. (oyster mushroom): a new wave of antimicrobials, anticancer and antioxidant bio-ingredients. International Journal of Phytocosmetics and Natural Ingredients, 4(1), 3.
• ‏ Naraian R. & Dixit B. 2017. Nutritional value of three different oyster mushrooms grown on cattail weed substrate. Archives of Biotechnology and Biomedicine, 1(1), 061-066.
• ‏ Obodai M., Owusu E., Shiwenger G.O., Asante I.K. & Dzomeku M. 2014. Phytochemical and mineral analysis of 12 cultivated oyster mushrooms (Pleurotus species).
• ‏ Okwulehie I.C., Okwujiako I.A. & Edeoga H.O. 2008. Proximate, macro element and vitamin composition of the fruit bodies of Pleurotus ostreatus (var florida) Eger grown on different substrate and substrates supplementation. Global sci books, 2, 184-188.
• ‏ Okwulehie I.C., Urama J. & Okorie D.O. 2014. Chemical composition and nutritional value of mature and young fruiting bodies of Pleurotus pulmonarius produced on Andropogon gayanus straw and Khaya ivorensis sawdust. IOSR. Journal of Pharmaceutical and Biological Sciences, 9 (3), 72-77.
• ‏ Oseni T.O., Dube S.S., Wahome P.K., Masarirambi M.T. & Earnshaw D.M. 2012. Effect of wheat bran supplement on growth and yield of oyster mushroom (Pleurotus ostreatus) on fermented pine sawdust substrate. Experimental Agriculture & Horticulture, 30, 40.
• ‏ Salkowski E. 1904. A Laboratory manual of physiological and pathological chemistry. J. Wiley & Sons.
• ‏ Sarma D., Saha A.K. & Datta B. K. 2018. Bioactive compounds with special references to anticancer property of oyster mushroom Pleurotus ostreatus. Journal of Pharmacognosy and Phytochemistry, 7(4), 2694-2698.
• ‏ Schlegel H.G. 1956. Die Verwertung organischer Säuren durch Chlorella im Licht. Planta, 47, (5) 510- 526.
• Sharma S.K. & Gautam N. 2015. Chemical, Bioactive, and Antioxidant Potential of Twenty Wild Culinary Mushroom Species. BioMed Research International.
• Shirmila J.G. & Radhamany P.M. 2013. In vitro antioxidant activities, total phenolics and flavonoid of wild edible mushroom Macrolepiota mastoidea (fr.) Singer. International Journal of Pharmacy and Pharmaceutical Sciences, 5 (2), 161-166.
• Singh M.P., Pandey A.K., Vishwakarma S.K., Srivastava A.K. & Pandey V.K. 2012. Extracellular Xylanase Production by Pleurotus species on Lignocellulosic Wastes under in vivo Condition using Novel Pretreatment., Cellular and Molecular Biology, 58 (1), 170-173.
• Singh M.P., Vishwakarma S.K. & Srivastava A.K. 2013. Bioremediation of direct blue 14 and extracellular ligninolytic enzyme production by white rot fungi: Pleurotus spp. BioMed Research, 1-4.
• Trevelyan W.E., Procter D.P. & Harrison JS. 1950. Detection of sugars on paper chromatograms. Nature, 166 (4219), 444-445.
• ‏ Vishwakarma K., Upadhyay N., Kumar N., Yadav G., Singh J., Mishra R. K. ... & Sharma S. 2017. Abscisic acid signaling and abiotic stress tolerance in plants: a review on current knowledge and future prospects. Frontiers in plant science, 8, 161.
• ‏ Yang F.C. & Liau C.B. 1998. The influence of environmental conditions on polysaccharide formation by Ganoderma lucidum in submerged cultures. Process biochemistry, 33(5), 547-553.
• ‏ Yasuma A. & Ichikawa T. 1953. Ninhydrin-Schiff and alloxan-Schiff staining: a new histochemical staining method for protein. The Journal of Laboratory and Clinical Medicine, 41(2), 296-299.
• ‏ Zou Y., Lu Y. & Wei D. 2004. Antioxidant activity of a flavonoid-rich extract of Hypericum perforatum L. in vitro. Journal of Agricultural and Food Chemistry, 52(16), 5032- 5039.