Ryszard Kosson scite author profile

Anthocyanins of Fruits and Vegetables - Their Occurrence, Analysis and Role in Human NutritionAnthocyanins are one of the largest and most important group of water-soluble pigments in most species in the plant kingdom. They are accumulated in cell vacuoles and are largely responsible for diverse pigmentation from orange to red, purple and blue in flowers, fruits, such as: blackberry, red and black raspberries, blueberries, bilberries, cherries, currants, blood orange, elderberries, grapes, and vegetables such as: red onion, radish, red cabbage, red lettuce, egg-plant, red-skinned potato and purple sweet potato. Anthocyanins in fruits and vegetables are present in glycosylated forms. The qualitative and quantitative determination of anthocyanins in plant can be performed by classical (spectro-photometric) or contemporary methods - HPLC coupled with a various types of mass spectrometers or NMR apparatus. Anthocyanins are widely ingested by humans, mainly due to consumption of fruits, vegetables and red wines. Depending on the nutritional habits, the daily intake of anthocyanins for individuals has been estimated from several milligrams to hundreds of milligrams per person. Anthocyanins as well as other flavonoids occuring in fruits, and vegetables are protective against a variety of diseases, particularly cardiovascular disease and some types of cancer. Also the visual acuity can be markedly improved through administration of anthocyanin pigments to animals and humans.

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High-Level Secretion of Glycosylated Invertase in the Methylotrophic Yeast, Pichia Pastoris

Tschopp

et al. 1987

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Fermentation Development of Recombinant Pichia pastoris Expressing the Heterologous Gene: Bovine Lysozyme

Brierley

Bussineau²,

Kosson

et al. 1990

Annals of the New York Academy of Sciences

147

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Nondestructive Optical Sensing of Flavonols and Chlorophyll in White Head Cabbage (Brassica oleracea L. var. capitata subvar. alba) Grown under Different Nitrogen Regimens

Agati

Tuccio

Kusznierewicz

et al. 2015

J. Agric. Food Chem.

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A multiparametric optical sensor was used to nondestructively estimate phytochemical compounds in white cabbage leaves directly in the field. An experimental site of 1980 white cabbages (Brassica oleracea L. var. capitata subvar. alba), under different nitrogen (N) treatments, was mapped by measuring leaf transmittance and chlorophyll fluorescence screening in one leaf/cabbage head. The provided indices of flavonols (FLAV) and chlorophyll (CHL) displayed the opposite response to applied N rates, decreasing and increasing, respectively. The combined nitrogen balance index (NBI = CHL/FLAV) calculated was able to discriminate all of the plots under four N regimens (0, 100, 200, and 400 kg/ha) and was correlated with the leaf N content determined destructively. CHL and FLAV were properly calibrated against chlorophyll (R(2) = 0.945) and flavonol (R(2) = 0.932) leaf contents, respectively, by using a homographic fit function. The proposed optical sensing of cabbage crops can be used to estimate the N status of plants and perform precision fertilization to maintain acceptable crop yield levels and, additionally, to rapidly detect health-promoting flavonol antioxidants in Brassica plants.

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The effect of methyl jasmonate on accumulation of 2-phenylethylamine and putrescine in seedlings of common buckwheat (Fagopyrum esculentum)

Horbowicz

Kosson²,

Wiczkowski

et al. 2010

Acta Physiol Plant

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The effects of exogenously applied methyl jasmonate on content of biogenic amines: putrescine, spermidine, tyramine, cadaverine and 2-phenylethylamine in seedlings of common buckwheat (Fagopyrum esculentum Moench) were investigated. The studies have shown that methyl jasmonate stimulates the conversion of L-phenylalanine into 2-phenylethylamine and increases the endogenous levels of putrescine in hypocotyls and cotyledons of buckwheat seedlings. Simultaneous feeding the seedlings with L-phenylalanine and methyl jasmonate has indicated that conversion of L-phenylalanine into 2-phenylethylamine can be one of possible reasons, caused by the methyl jasmonate suppression of anthocyanins synthesis in hypocotyls. To our knowledge, the stimulation of conversion of L-phenylalanine into 2-phenylethylamine by methyl jasmonate, as found in the present study, is described for the first time in higher plants.

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Smooth and wrinkled peas. 2. Distribution of protein, lipid, and fatty acids in seed and milling fractions

Kosson¹,

Czuchajowska²,

Pomeranz³

1994

J. Agric. Food Chem.

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Smooth and wrinkled peas. 1. General physical and chemical characteristics

Kosson¹,

Czuchajowska²,

Pomeranz³

1994

J. Agric. Food Chem.

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Biochemical interactions between triticale (Triticosecale; Poaceae) amines and bird cherry-oat aphid (Rhopalosiphum padi; Aphididae)

Sempruch

Horbowicz

Kosson

et al. 2012

Biochemical Systematics and Ecology

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Ryszard Kosson

Anthocyanins of Fruits and Vegetables - Their Occurrence, Analysis and Role in Human Nutrition

High-Level Secretion of Glycosylated Invertase in the Methylotrophic Yeast, Pichia Pastoris

Fermentation Development of Recombinant Pichia pastoris Expressing the Heterologous Gene: Bovine Lysozyme

Nondestructive Optical Sensing of Flavonols and Chlorophyll in White Head Cabbage (Brassica oleracea L. var. capitata subvar. alba) Grown under Different Nitrogen Regimens

The effect of methyl jasmonate on accumulation of 2-phenylethylamine and putrescine in seedlings of common buckwheat (Fagopyrum esculentum)

Smooth and wrinkled peas. 2. Distribution of protein, lipid, and fatty acids in seed and milling fractions

Smooth and wrinkled peas. 1. General physical and chemical characteristics

Biochemical interactions between triticale (Triticosecale; Poaceae) amines and bird cherry-oat aphid (Rhopalosiphum padi; Aphididae)

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