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Copper induced oxidative stress in tea (Camellia sinensis) leaves.
J Environ Biol. 2012 Sep; 33(5):861-6.JE

Abstract

Tea [Camellia sinensis L. (O.) Kuntze] is an economically important plantation crop of India but is prone to attack by several fungal pathogens. Copper based fungicides are being used for decades to control fungal diseases in tea which may lead to accumulation of copper in the soil. The biochemical responses to increasing concentrations of copper (50 to 700 microM) were investigated in the leaves of two cultivars of tea commonly grown in the Darjeeling hills. Exposure to excess Cu resulted in increased lipid peroxidation (level of TBARS increased from 3.5 micromol g(-1) f.wt. in control to 12 micromol g(-1) f.wt. in TS-520 plants exposed to 700 mM of Cu), reduced chlorophyll content (from 83.7 microg g(-1) f.wt. in control to 22.5 microg g(-1) f.wt. in TS-520 plants exposed to 700 mM of Cu), higher levels of phenolic compounds(total phenol content increased from 4.54 mg g(-1) f.wt. in control to 5.79 mg g(-1) f.wt. in TS-520 plants exposed to 400 mM of Cu) and an increase in peroxidase enzyme levels. Two new peroxidase isozymes (POD1 and POD2) were detected in plants exposed to Cu. In addition, biochemical responses in two tested cultivars, TS-462 and TS-520 differed significantly. TS-520 was found to be more sensitive to increasing concentrations of Cu. Superoxide dismutase activity increased progressively from 2.55 U mg(-1) protein in control to 5.59 U mg(-1) protein in TS-462 but declined from 4.75 U mg(-1) protein in control to 3.33 U mg(-1) protein in TS-520 when exposed to Cu concentrations higher than 400 microM. Asharp increase in the activity of ascorbate peroxidase (from 0.53 units in control to 2.37 units in plants exposed to 400 mM of Cu) was noticed at the 10th day of exposure in the more tolerant cultivar. On the other hand, catalase levels increased only marginally (from 8.4 to 10.1 units in TS 520 and 8.7 to 10.9 units in TS 462) in both the cultivars. From this study, it appears that Cu exposure led to the production of reactive oxygen species in the leaves resulting in significant lipid peroxidation. Tea plants try to mitigate this oxidative damage through accumulation of phenolic compounds and induction of antioxidant enzymes.

Authors+Show Affiliations

Saha D
Plant Biotechnology Laboratory, Department of Biotechnology, University of North Bengal, Siliguri - 734 013, India. dsahanbu@yahoo.com
Mandal S
No affiliation info available
Saha A
No affiliation info available

MeSH

Ascorbate PeroxidasesCamellia sinensisCatalaseChlorophyllCopperLipid PeroxidationOxidative StressPeroxidasePhenolsPlant LeavesReactive Oxygen SpeciesSuperoxide DismutaseThiobarbituric Acid Reactive Substances

Pub Type(s)

Journal Article
Research Support, Non-U.S. Gov't

Language

eng

PubMed ID

23734451

Citation

Saha, D, et al. "Copper Induced Oxidative Stress in Tea (Camellia Sinensis) Leaves." Journal of Environmental Biology, vol. 33, no. 5, 2012, pp. 861-6.
Saha D, Mandal S, Saha A. Copper induced oxidative stress in tea (Camellia sinensis) leaves. J Environ Biol. 2012;33(5):861-6.
Saha, D., Mandal, S., & Saha, A. (2012). Copper induced oxidative stress in tea (Camellia sinensis) leaves. Journal of Environmental Biology, 33(5), 861-6.
Saha D, Mandal S, Saha A. Copper Induced Oxidative Stress in Tea (Camellia Sinensis) Leaves. J Environ Biol. 2012;33(5):861-6. PubMed PMID: 23734451.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Copper induced oxidative stress in tea (Camellia sinensis) leaves. AU - Saha,D, AU - Mandal,S, AU - Saha,A, PY - 2013/6/6/entrez PY - 2013/6/6/pubmed PY - 2013/7/19/medline SP - 861 EP - 6 JF - Journal of environmental biology JO - J Environ Biol VL - 33 IS - 5 N2 - Tea [Camellia sinensis L. (O.) Kuntze] is an economically important plantation crop of India but is prone to attack by several fungal pathogens. Copper based fungicides are being used for decades to control fungal diseases in tea which may lead to accumulation of copper in the soil. The biochemical responses to increasing concentrations of copper (50 to 700 microM) were investigated in the leaves of two cultivars of tea commonly grown in the Darjeeling hills. Exposure to excess Cu resulted in increased lipid peroxidation (level of TBARS increased from 3.5 micromol g(-1) f.wt. in control to 12 micromol g(-1) f.wt. in TS-520 plants exposed to 700 mM of Cu), reduced chlorophyll content (from 83.7 microg g(-1) f.wt. in control to 22.5 microg g(-1) f.wt. in TS-520 plants exposed to 700 mM of Cu), higher levels of phenolic compounds(total phenol content increased from 4.54 mg g(-1) f.wt. in control to 5.79 mg g(-1) f.wt. in TS-520 plants exposed to 400 mM of Cu) and an increase in peroxidase enzyme levels. Two new peroxidase isozymes (POD1 and POD2) were detected in plants exposed to Cu. In addition, biochemical responses in two tested cultivars, TS-462 and TS-520 differed significantly. TS-520 was found to be more sensitive to increasing concentrations of Cu. Superoxide dismutase activity increased progressively from 2.55 U mg(-1) protein in control to 5.59 U mg(-1) protein in TS-462 but declined from 4.75 U mg(-1) protein in control to 3.33 U mg(-1) protein in TS-520 when exposed to Cu concentrations higher than 400 microM. Asharp increase in the activity of ascorbate peroxidase (from 0.53 units in control to 2.37 units in plants exposed to 400 mM of Cu) was noticed at the 10th day of exposure in the more tolerant cultivar. On the other hand, catalase levels increased only marginally (from 8.4 to 10.1 units in TS 520 and 8.7 to 10.9 units in TS 462) in both the cultivars. From this study, it appears that Cu exposure led to the production of reactive oxygen species in the leaves resulting in significant lipid peroxidation. Tea plants try to mitigate this oxidative damage through accumulation of phenolic compounds and induction of antioxidant enzymes. SN - 0254-8704 UR - https://www.unboundmedicine.com/medline/citation/23734451/Copper_induced_oxidative_stress_in_tea__Camellia_sinensis__leaves_ DB - PRIME DP - Unbound Medicine ER -