Redox Homeostasis Managers in Plants under Environmental Stresses

2021 ◽  
pp. 31-70
Author(s):  
Vaseem Raja ◽  
Sami ullah Qadir ◽  
Umer Majeed ◽  
Tariq Ahmad Dar
Keyword(s):  
Redox Homeostasis ◽  
Environmental Stresses

scholarly journals The role of hydrogen peroxide in regulation of plant metabolism and cellular signalling in response to environmental stresses.

2007 ◽  
Vol 54 (1) ◽  
pp. 39-50 ◽  
Author(s):  
Ireneusz Slesak ◽  
Marta Libik ◽  
Barbara Karpinska ◽  
Stanislaw Karpinski ◽  
Zbigniew Miszalski
Keyword(s):  
Hydrogen Peroxide ◽  
Redox Homeostasis ◽  
Carbon Assimilation ◽  
Environmental Stresses ◽  
Oxygenic Photosynthesis ◽  
C3 Plants ◽  
Physiological Processes ◽  
Signalling Molecule ◽  
Defence Responses

Hydrogen peroxide (H2O2) is produced predominantly in plant cells during photosynthesis and photorespiration, and to a lesser extent, in respiration processes. It is the most stable of the so-called reactive oxygen species (ROS), and therefore plays a crucial role as a signalling molecule in various physiological processes. Intra- and intercellular levels of H2O2 increase during environmental stresses. Hydrogen peroxide interacts with thiol-containing proteins and activates different signalling pathways as well as transcription factors, which in turn regulate gene expression and cell-cycle processes. Genetic systems controlling cellular redox homeostasis and H2O2 signalling are discussed. In addition to photosynthetic and respiratory metabolism, the extracellular matrix (ECM) plays an important role in the generation of H2O2, which regulates plant growth, development, acclimatory and defence responses. During various environmental stresses the highest levels of H2O2 are observed in the leaf veins. Most of our knowledge about H2O2 in plants has been obtained from obligate C3 plants. The potential role of H2O2 in the photosynthetic mode of carbon assimilation, such as C4 metabolism and CAM (Crassulacean acid metabolism) is discussed. We speculate that early in the evolution of oxygenic photosynthesis on Earth, H2O2 could have been involved in the evolution of modern photosystem II.

scholarly journals Editorial: Redox Homeostasis Managers in Plants under Environmental Stresses

2016 ◽  
Vol 4 ◽  
Author(s):  
Naser A. Anjum ◽  
Nafees A. Khan ◽  
Adriano Sofo ◽  
Margarete Baier ◽  
Rene Kizek
Keyword(s):  
Redox Homeostasis ◽  
Environmental Stresses

Element and redox homeostasis in rats after red wine consumption

2011 ◽  
Vol 49 (05) ◽  
Author(s):  
K Szentmihályi ◽  
Z May ◽  
H Fébel ◽  
G Bekő ◽  
A Blázovics
Keyword(s):  
Red Wine ◽  
Redox Homeostasis ◽  
Wine Consumption

The Effect of Long-Term Antioxidant Treatments on Redox Homeostasis in Clinical Studies

2007 ◽  
Vol 1 (1) ◽  
pp. 83-95
Author(s):  
Anna Blázovics ◽  
Ágota Kovács ◽  
Andrea Lugasi
Keyword(s):  
Clinical Studies ◽  
Redox Homeostasis

Features of redox homeostasis in patients with liver cirrhosis (literature review and clinical case description)

2020 ◽  
Vol 26 (1) ◽  
pp. 70-86
Author(s):  
M.O. Abrahamovych ◽  
◽  
O.O. Abrahamovych ◽  
O.P. Fayura ◽  
L.R. Fayura ◽  
...  
Keyword(s):  
Liver Cirrhosis ◽  
Literature Review ◽  
Clinical Case ◽  
Redox Homeostasis ◽  
Case Description

Analysis of the involvement of single nucleotide polymorphisms of redox-homeostasis genes in the development of isolated and comorbid cardioand cerebrovascular diseases

2020 ◽  
pp. 37-49
Author(s):  
О.Ю. Бушуева
Keyword(s):  
Single Nucleotide Polymorphisms ◽  
Redox Homeostasis ◽  
Total Sample ◽  
Cerebrovascular Diseases ◽  
Cerebral Stroke ◽  
Nucleotide Polymorphisms ◽  
Single Nucleotide ◽  
Gender And Age ◽  
Additive Regression Model ◽  
Additive Regression

Распространенные и зачастую сочетающиеся кардио- и цереброваскулярные заболевания (КЦВЗ), включающие артериальную гипертензию (АГ), ишемическую болезнь сердца (ИБС) и мозговой инсульт (МИ), представляют собой основную причину смертности во всем мире. Окислительный стресс имеет множество патологических эффектов на сосудистый гомеостаз и в настоящее время рассматривается как один из общих механизмов развития КЦВЗ. Целью исследования было изучение ассоциации однонуклеотидных полиморфизмов генов редокс-гомеостаза rs2070424 SOD1, rs4880 SOD2, rs769214 CAT, rs713041 GPX4, rs41303970 GCLM, rs17883901 GCLC, rs854560 PON1, rs7493 PON2, rs1695 GSTP1, rs2266782 FMO3 с развитием изолированных и сочетанных форм КЦВЗ. Материалом для исследования послужила выборка неродственных индивидов славянского происхождения, общей численностью 2702 человека. В исследование вошли 1815 пациентов с различными кардио- и цереброваскулярными заболеваниями и их сочетаниями: с изолированной АГ (иАГ), с изолированной ишемической болезнью сердца (иИБС), с сочетанием АГ и ИБС (АГ+ИБС), с мозговым инсультом (МИ) на фоне АГ (АГ+МИ); с коморбидной кардио- и цереброваскулярной патологией (АГ+ИБС+МИ). Из общей выборки здоровых лиц (N=887) были сформированы 5 контрольных групп, соответствующих по полу и возрасту каждой из групп нозологических форм заболеваний. Генотипирование SNP проводили методом ПЦР в режиме реального времени путем дискриминации аллелей с помощью TaqMan-зондов. Для анализа ассоциаций генотипов с развитием заболеваний пользовались лог-аддитивной регрессионной моделью. Все расчеты выполнены относительно минорного аллеля; введены поправки на пол и возраст. SNP rs1695 GSTP1 был связан исключительно с развитием иАГ (OR=1,19, 95%CI=1,01-1,39, р=0,034). SNP rs7493 PON2 был связан с развитием всех исследованных коморбидных кардио- и цереброваскулярных заболеваний: АГ+ИБС (adjOR=1,32, adj95%CI=1,07-1,63, adjp=0,01); АГ+МИ (adjOR=1,79, adj95%CI=1,45-2,21, adjp<0,0001); АГ+ИБС+МИ (adjOR=1,51, adj95%CI=1,09-2,09, adjp=0,01), а также с укорочением протромбинового времени (adjDifference=-0,35; adjp=0,01). SNP rs2266782 FMO3 был связан с фенотипом АГ+МИ (adjOR=1,24, adj95%CI=1,02-1,51, adjp=0,03), а также снижал возраст манифестации МИ (adjDifference=-2,31; adjp=0,03). Таким образом, установлено, что однонуклеотидные полиморфизмы генов редокс-гомеостаза могут представлять важную генетическую компоненту формирования дифференцированности кардио- и цереброваскулярных фенотипов. Common and often comorbid cardio- and cerebrovascular diseases (CCVD), including arterial hypertension (AH), coronary heart disease (CHD), and cerebral stroke (CS), are the leading cause of death worldwide. Oxidative stress has many pathological effects on vascular homeostasis and is currently regarded as one of the common mechanisms for the development of CCVD. The aim of our study was to investigate the association of single nucleotide polymorphisms of the redox-homeostasis genes rs2070424 SOD1, rs4880 SOD2, rs769214 CAT, rs713041 GPX4, rs41303970 GCLM, rs17883901 GCLC, rs854560 PON1, rs7493 PON2, rs1695 GSTP1, rs2266782 FMO3 with the development of isolated and comorbid CCVD. A total 2702 individuals of Slavic origin were included for this study. The patients group included 1815 subjects with various CCVD and their combinations: isolated AH (IAH); isolated IHD (IIHD), combination of AH and IHD (AH+IHD); combination of AH and CS (AH+CS); comorbid cardio- and cerebrovascular pathology (AH+IHD+CS). From the total sample of healthy individuals (N=887), 5 sex- and age-matched control groups were formed. Genotyping was performed using TaqMan-based PCR. To analyze the associations of genotypes with the risk of diseases, a log-additive regression model was used. All calculations were performed relative to the minor allele; corrections for gender and age have been introduced. SNP rs1695 GSTP1 was associated with IAH exclusively (OR=1.19, 95%CI=1.01-1.39, P=0.034). SNP rs7493 PON2 was associated with the development of all studied comorbid CCVD: AH+IHD (adjOR=1.32, adj95%CI=1.07-1.63, adjP=0.01); AH+CS (adjOR=1.79, adj95%CI=1.45-2.21, adjP<0.0001); AH+IHD+CS (adjOR=1.51, adj95%CI=1.09-2.09, adjP=0.01), as well as shortening of prothrombin time (adjDifference=-0.35; adjP=0.01). SNP rs2266782 FMO3 was associated with the development of AH+CS (adjOR=1.24, adj95%CI=1.02-1.51, adjP=0.03), as well as decreased age of manifestation of CS (adjDifference=-2.31; adjP=0.03). Thus, it was found that genes involved in regulation of redox-homeostasis, can represent an important genetic component in the formation of differentiation of cardio- and cerebrovascular phenotypes.

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