Biological Effects of Potato Plants Transformation with Glucose Oxidase Gene and their Resistance to Hyperthermia

Biological Effects of Potato Plants Transformation with Glucose Oxidase Gene and their Resistance to Hyperthermia

It is known that regulation of plant tolerance to adverse environmental factors is connected with short term increase of the concentration of endogenous reactive oxygen species (ROS), which are signalling molecules for the induction of protective mechanisms. Introduction and expression of heterologo...

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Main Authors: O.I. Grabelnych, O.A. Borovik, I.V. Lyubushkina, K.Z. Gamburg, A.V. Fedyaeva, I.V. Fedoseeva, A.V. Stepanov, E.G. Rikhvanov, D.V. Sauchyn, O.Yu. Urbanovich, G.B. Borovskii
Format: Article
Language:English
Published: "Vikol publishing" ST Kolesnichenko V.V. 2017-02-01
Series:Journal of Stress Physiology & Biochemistry
Subjects:
heat stress tolerance
high temperature
hydrogen peroxide
glucose oxidase
potato
Online Access:http://www.jspb.ru/issues/2017/N1/JSPB_2017_1_05-14.pdf
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spelling doaj-11edeb7cdcea482a891d21958c244b362020-11-24T23:06:36Zeng"Vikol publishing" ST Kolesnichenko V.V. Journal of Stress Physiology & Biochemistry1997-08381997-08382017-02-01131514Biological Effects of Potato Plants Transformation with Glucose Oxidase Gene and their Resistance to HyperthermiaO.I. Grabelnych0O.A. Borovik1I.V. Lyubushkina2K.Z. Gamburg3A.V. Fedyaeva4I.V. Fedoseeva5A.V. Stepanov6E.G. Rikhvanov7D.V. Sauchyn8O.Yu. Urbanovich9G.B. Borovskii10Siberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, RussiaSiberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, RussiaSiberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, RussiaSiberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, RussiaSiberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, RussiaSiberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, RussiaSiberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, RussiaSiberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, RussiaInstitute of Genetics and Cytology of NAS of Belarus, Minsk, BelarusInstitute of Genetics and Cytology of NAS of Belarus, Minsk, BelarusSiberian Institute of Plant Physiology and Biochemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, RussiaIt is known that regulation of plant tolerance to adverse environmental factors is connected with short term increase of the concentration of endogenous reactive oxygen species (ROS), which are signalling molecules for the induction of protective mechanisms. Introduction and expression of heterologous gox gene, which encodes glucose oxidase enzyme in plant genome, induce constantly higher content of hydrogen peroxide in plant tissues. It is not known how the introduction of native or modified gox gene affects the plant resistance to high-temperature stress, one of the most commonly used model for the study of stress response and thermal tolerance. In this study, we investigated biological effects of transformation and evaluated the resistance to temperature stress of potato plants with altered levels of glucose oxidase expression. Transformation of potato plants by gox gene led to the more early coming out from tuber dormancy of transformed plants and slower growth rate. Transformants containing the glucose oxidase gene were more sensitive to lethal thermal shock (50 °C, 90 min) than the transformant with the empty vector (pBI) or untransformed plants (CK). Pre-heating of plants at 37 °C significantly weakened the damaging effect of lethal thermal shock. This attenuation was more significant in the non-transformed plants.http://www.jspb.ru/issues/2017/N1/JSPB_2017_1_05-14.pdfheat stress tolerancehigh temperaturehydrogen peroxideglucose oxidasepotato
collection DOAJ
language English
format Article
sources DOAJ
author O.I. Grabelnych
O.A. Borovik
I.V. Lyubushkina
K.Z. Gamburg
A.V. Fedyaeva
I.V. Fedoseeva
A.V. Stepanov
E.G. Rikhvanov
D.V. Sauchyn
O.Yu. Urbanovich
G.B. Borovskii
spellingShingle O.I. Grabelnych
O.A. Borovik
I.V. Lyubushkina
K.Z. Gamburg
A.V. Fedyaeva
I.V. Fedoseeva
A.V. Stepanov
E.G. Rikhvanov
D.V. Sauchyn
O.Yu. Urbanovich
G.B. Borovskii
Biological Effects of Potato Plants Transformation with Glucose Oxidase Gene and their Resistance to Hyperthermia
Journal of Stress Physiology & Biochemistry
heat stress tolerance
high temperature
hydrogen peroxide
glucose oxidase
potato
author_facet O.I. Grabelnych
O.A. Borovik
I.V. Lyubushkina
K.Z. Gamburg
A.V. Fedyaeva
I.V. Fedoseeva
A.V. Stepanov
E.G. Rikhvanov
D.V. Sauchyn
O.Yu. Urbanovich
G.B. Borovskii
author_sort O.I. Grabelnych
title Biological Effects of Potato Plants Transformation with Glucose Oxidase Gene and their Resistance to Hyperthermia
title_short Biological Effects of Potato Plants Transformation with Glucose Oxidase Gene and their Resistance to Hyperthermia
title_full Biological Effects of Potato Plants Transformation with Glucose Oxidase Gene and their Resistance to Hyperthermia
title_fullStr Biological Effects of Potato Plants Transformation with Glucose Oxidase Gene and their Resistance to Hyperthermia
title_full_unstemmed Biological Effects of Potato Plants Transformation with Glucose Oxidase Gene and their Resistance to Hyperthermia
title_sort biological effects of potato plants transformation with glucose oxidase gene and their resistance to hyperthermia
publisher "Vikol publishing" ST Kolesnichenko V.V.
series Journal of Stress Physiology & Biochemistry
issn 1997-0838
1997-0838
publishDate 2017-02-01
description It is known that regulation of plant tolerance to adverse environmental factors is connected with short term increase of the concentration of endogenous reactive oxygen species (ROS), which are signalling molecules for the induction of protective mechanisms. Introduction and expression of heterologous gox gene, which encodes glucose oxidase enzyme in plant genome, induce constantly higher content of hydrogen peroxide in plant tissues. It is not known how the introduction of native or modified gox gene affects the plant resistance to high-temperature stress, one of the most commonly used model for the study of stress response and thermal tolerance. In this study, we investigated biological effects of transformation and evaluated the resistance to temperature stress of potato plants with altered levels of glucose oxidase expression. Transformation of potato plants by gox gene led to the more early coming out from tuber dormancy of transformed plants and slower growth rate. Transformants containing the glucose oxidase gene were more sensitive to lethal thermal shock (50 °C, 90 min) than the transformant with the empty vector (pBI) or untransformed plants (CK). Pre-heating of plants at 37 °C significantly weakened the damaging effect of lethal thermal shock. This attenuation was more significant in the non-transformed plants.
topic heat stress tolerance
high temperature
hydrogen peroxide
glucose oxidase
potato
url http://www.jspb.ru/issues/2017/N1/JSPB_2017_1_05-14.pdf
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