Maryam Tavana scite author profile

Maryam Tavana

5Publications

42Citation Statements Received

65Citation Statements Given

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Affiliations

Shiraz University, Ferdowsi University of Mashhad

Publications

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Yield Performance of Lingzhi or Reishi Medicinal Mushroom, Ganoderma lucidum (W.Curt.:Fr.) P. Karst. (Higher Basidiomycetes), Using Different Waste Materials as Substrates

et al. 2012

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In this research the effect of sawdust, malt extract, and wheat bran on yield, biological efficiency (BE), and mycelia growth of Ganoderma lucidum was investigated. Three kinds of sawdust (beech, poplar, and hornbeam) as basal medium were mixed with two levels of wheat bran (5% and 10% w/w) and malt extract (2.5% and 5% w/w) as medium supplement for production of G. lucidum in factorial experiments on the basis of completely randomized design with three replications. The results showed that various kinds of sawdust affect fruiting body yield, BE, and mycelia growth rate significantly. The highest fruiting body yield and BE (102.58 g/kg and 12.89%, respectively) were found using hornbeam sawdust. The beech sawdust promotes the mycelia growth rate more than other sawdust. Analysis of variance showed that there is a significant interaction between the sawdust type and wheat bran, sawdust type and malt extract, and wheat bran and malt extract as far as yield and BE of G. lucidum was concerned. A final comparison of the different formulae indicated that the best combinations for high yield (142.44 g/kg) and BE (18.68%) were obtained in a combination of poplar sawdust with 5% malt extract and 10% wheat bran. The highest mycelia growth rate (10.6 mm/day) was obtained in a combination of beech sawdust with 2.5% malt extract and 10% wheat bran.

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Production and Application of Lysozyme-Gum Arabic Conjugate in Mayonnaise as a Natural Preservative and Emulsifier

Hashemi¹,

Aminlari²,

Forouzan³

et al. 2018

Pol. J. Food Nutr. Sci.

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Distribution of the enzyme rhodanese in tissues of the cat (Felis catus)

Shahbazkia

Aminlari

Tavana

2009

Journal of Feline Medicine and Surgery

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The enzyme rhodanese (EC 2.8.1.1) is an ubiquitous enzyme which is present in all living organisms, from bacteria to man. It is speculated that this enzyme plays a central role in cyanide detoxification. However, its wide tissue distribution suggests this enzyme might perform other functions beside cyanide detoxification. Although the distribution of rhodanese in different tissues of human and domestic animals has been studied, little is known about the pattern of distribution and physiological roles of this enzyme in the cat. The purpose of this investigation was to determine the enzyme levels and compare the distribution of this enzyme in different tissues of the cat. A selection of tissue samples was assayed for rhodanese activity. The protein content of tissue extracts and enzymatic activities were calculated as units per gram tissue and units per milligram protein of the tissue. Results showed that in terms of units per milligram protein of the tissue (specific activity of the enzyme), colon and rectum mucosal layers and testis were the richest sources of the enzyme followed by ovary, mucosal layer of jejunum and liver. With respect to units/gram tissue, liver followed by testis, colon and rectum mucosal layers, ovary and mucosa of jejunum exhibited highest activities. The results of this study will allow one to speculate on the involvement of rhodanese in several biochemical and physiological functions in different tissues and organs of this species.

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Rhodanese activity in different tissues of the ostrich

Eskandarzade¹,

Aminlari²,

Golami

et al. 2012

British Poultry Science

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1. The purpose of this investigation was to determine the activity, and compare the pattern of distribution, of rhodanese (thiosulphate: cyanide sulphurtransferase, EC. 2.8.1.1) in different tissues of male and female ostriches. 2. Tissue samples from male and female Blue Neck ostriches were assayed for rhodanese activity by the determination of thiocyanate formed by the action of the enzyme on thiosulphate and KCN. 3. Rhodanese was present in all tissues, and the highest activity was observed in the kidney and liver. Other tissues which contained significant activities of rhodanese were the duodenum, pancreas, heart, caecum and rectum. 4. Unlike other birds, the proventiculus does not appear to have an important role in cyanide detoxification in ostrich and, like mammals, the kidney and liver perform this function. 5. The results suggest that the main organs harbouring high rhodanese activity in the ostrich are associated with sites likely to be required in rhodanese mediated cyanide detoxification.

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Rhodanese distribution in different tissues of rabbits

2013

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Maryam Tavana

Yield Performance of Lingzhi or Reishi Medicinal Mushroom, Ganoderma lucidum (W.Curt.:Fr.) P. Karst. (Higher Basidiomycetes), Using Different Waste Materials as Substrates

Production and Application of Lysozyme-Gum Arabic Conjugate in Mayonnaise as a Natural Preservative and Emulsifier

Distribution of the enzyme rhodanese in tissues of the cat (Felis catus)

Rhodanese activity in different tissues of the ostrich

Rhodanese distribution in different tissues of rabbits

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