Radioprotective Effect of Food in the Assimilation of Carbohydrate Substrates by Two Generations of Posterity From the Radiationexposed Male Rats

Ov, Storchilo

doi:10.15407/fz61.01.078

Cited by 2 publications

(1 citation statement)

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“…There was a question about what kind of role in the protection of functional systems bowel of the offspring of irradiated animals may play a presence of food in the gastrointestinal tract of parents at the time of exposure. Previously, we have shown a protective effect of satiety status of parents at the time of irradiation on the activity of the hydrolytic and transport systems of carbohydrate substrates of different degree of polymerization in the small intestine of their posterity of two generations [11]. Therefore, the aim of this work was the study of indicators of digestion and absorption of protein origin substrates varying degrees of polymerization in the posterity of two generations of irradiated in satiety status male rats.…”

Section: Introductionmentioning

confidence: 98%

Analysis of the Role of Satiety of the Parents during Irradiation in the Assimilation of Substrates of the Protein Origin in two Generations of their Posterity

Storchylo¹

2016

Anat Physiol

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Thanks to the use of nuclear energy a society lives under the conditions of increased radiation background. Malformations and other inherited diseases caused by damage to the genetic apparatus by low doses of irradiation appear even in the remote generations. It determines the need for research of the remote effects of irradiation of parents on their posterity. One of the most radiosensitive tissues is small intestine which is responsible for the last stages of digestion and absorption of nutrients. Therefore the aim of our work was the analysis of the role of satiety of the parents during irradiation in the assimilation of substrates of the protein origin in two generations of their posterity. Materials and methods: In vitro were studied parameters of transport of free glycine and "peptide" glycine formed from glycyl-glycine in the small intestine of the 2nd generation of posterity of male rats, that were irradiated by a dose 0,5 Gy after taking meal, and intact females. Results: Parameters of the transport of the free glycine and "peptide" glycine in the small intestine of the 2nd generation of posterity of irradiated satiety male rats are lower than corresponding parameters in the 1st generation and in the intact groups but are in the borders of active component of transport. Stability of transport of the free glycine and "peptide" glycine are higher than in the corresponding intact groups. Conclusions: In comparison with the corresponding data for 2nd generation of irradiated fasting male rats, satiety of the male-predecessors lead to the stabilization of the activity of transport system as for free glycine, so for the "peptide" glycine both in the small intestine of their posterity. Apparently, the protective effect of the presence of food in the gastrointestinal tract of precursor at exposure is realized by stabilizing of the activity of transport system for free glycine and "peptide" glycine both in the small intestine of two generations of posterity, and maintaining its work at the level necessary and sufficient for normal body functioning.

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Section: Introductionmentioning

confidence: 98%

Analysis of the Role of Satiety of the Parents during Irradiation in the Assimilation of Substrates of the Protein Origin in two Generations of their Posterity

Storchylo¹

2016

Anat Physiol

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Mechanisms of radioprotective and radiocorrective effects of dietary phytoadditive of milk thistle fruits

O.V.¹

2019

Dovkil Zdor

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Radioprotective Effect of Food in the Assimilation of Carbohydrate Substrates by Two Generations of Posterity From the Radiationexposed Male Rats

Cited by 2 publications

References 1 publication

Analysis of the Role of Satiety of the Parents during Irradiation in the Assimilation of Substrates of the Protein Origin in two Generations of their Posterity

Analysis of the Role of Satiety of the Parents during Irradiation in the Assimilation of Substrates of the Protein Origin in two Generations of their Posterity

Mechanisms of radioprotective and radiocorrective effects of dietary phytoadditive of milk thistle fruits

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