BIOCHEMICAL STUDIES ON ALLEVIATION OF CADMIUM INDUCED TOXICITY IN PEA (Pisum sativum L.) AND PALAK (Beta vulgaris var. orientalis) Dissertation Submitted to the Punjab Agricultural University in partial fulfillment of the requirements for the degree of DOCTOR OF PHILOSOPHY in BIOCHEMISTRY (Minor Subject: Biotechnology) By Prabhjot Kaur Saini (L-2008-BS-24-D) Department of Biochemistry College of Basic Sciences and Humanities © PUNJAB AGRICULTURAL UNIVERSITY LUDHIANA-141 004 2013 CERTIFICATE I This is to certify that the dissertation entitled, “Biochemical studies on alleviation of cadmium induced toxicity in pea (Pisum sativum L.) and palak (Beta vulgaris var. orientalis)”, submitted for the degree of Ph.D in the subject of Biochemistry (Minor subject: Biotechnology) of the Punjab Agricultural University, Ludhiana, is a bonafide research work carried out by Prabhjot Kaur Saini (L-2008-BS-24-D) under my supervision and that no part of this dissertation has been submitted for any other degree. The assistance and help received during the course of investigation have been fully acknowledged. ______________________ (Dr. A. K. Gupta) Major Advisor Professor and Head Department of Biochemistry Punjab Agricultural University Ludhiana - 141004 CERTIFICATE II This is to certify that the dissertation entitled, “Biochemical studies on alleviation of cadmium induced toxicity in pea (Pisum sativum L.) and palak (Beta vulgaris var. orientalis)”, submitted by Prabhjot Kaur Saini (L-2008-BS-24-D) to the Punjab Agricultural University, Ludhiana, in partial fulfillment of the requirements for the degree of Ph.D, in the subject of Biochemistry (Minor subject: Biotechnology) has been approved by the student’s Advisory Committee along with Head of the Department after an oral examination on the same. _________________________ _______________________ (Dr. A. K. Gupta) (Dr. Balwant Singh) Major Advisor External Examiner Professor (Retired) Department of Molecular Biology and Biochemistry Guru Nanak Dev University Amritsar-143005 _________________________ (Dr. (Mrs.) Bavita Asthir) Senior Biochemist and Head of the Department _________________________ (Dr. Gursharan Singh) Dean Post-Graduate Studies Acknowledgements Foremost, I bow before THE ALMIGHTY GOD for vesting freedom to all my wishes and standing by me at every step. A precious debt as that of learning is the only debt that is difficult to repay except perhaps through gratitude. I feel privileged to express my deep sense of gratitude to my esteemed Major Advisor – Dr. Anil Kumar Gupta, Professor of Biochemistry and Head, Department of Biochemistry, Punjab Agricultural University, Ludhiana for his unceasing encouragement, impeccable and benevolent guidance during the pursuance of this study. I shall remain forever indebted to him for training my mind to think systematically and logically. It is my profound privilege to express my deep sense of gratitude to Dr. (Mrs.) Narinder Kaur, Emeritus Scientist, CSIR for her moral encouragement and valuable suggestions rendered during the course of my study. I owe my sincere thanks to Dr. B. S. Sohal, Professor of Biochemistry, Controller of Examinations and Dean PGS Nominee, Department of Biochemistry and Late Dr. J. S. Sital, Professor of Biochemistry, Department of Biochemistry for their encouraging attitude and valuable suggestions during the period of my investigation. I record my cordial thanks to Dr. S. S. Gosal, Professor of Biotechnology and Director of Research, PAU, Ludhiana for his apt suggestions and cooperation during this investigation. I am grateful to Dr. (Mrs.) Satvir Kaur, Assistant Biochemist, Department of Biochemistry, Dr. (Mrs.) Anita Garg, Chemist, Department of Chemistry and Dr. M. L. Sharma, Professor of Chemistry (Retired), Department of Chemistry for their help to elucidate and eliminate my problems with unprecedented enthusiasm, perceptive encouragement and deep affection to make this study a success. Words seem inadequate to express deep sense of regards towards my grandparents, parents, sister and brother whose invaluable blessings and constant encouragement brought me upto this stage of my career. A word of appreciation will not compensate for the ever-willing help and cooperation provided to me by Dr. (Mrs.) Kamaljit Kaur, Dr. (Mrs.) Rachana, Dr. (Mrs.) Harinderjeet, Dr. Vishal, Dr. (Mrs.) Smriti, Dr. Sondeep, Dr. Harpreet, Dr. Arvind, Imran bhaiya, Yadhu, Sarabjit, Rimaljeet, Patil and Vivek. Deep and inexpressible thanks to my dear friends Meenakshi, Navdeep, Shashi, Shweta, Parminder, Abhay, Jaspreet and Balrinder whose special affection and ever-willing support always inspired me. I am very thankful to my classmates Reeti and Gurpreet for their sincere and in time help. Financial assistance in the form of Bharti Field Fresh Fellowship, Ladhowal, Ludhiana is gratefully acknowledged. I owe my sincere thanks to Mr. Saroop Singh, Mr. Amarjeet, Mr. Ramesh and Mr. Rajinder Kumar for their generous help in the laboratory. Prabhjot Kaur Saini Title of Dissertation : Biochemical studies on alleviation of cadmium induced toxicity in pea (Pisum sativum L.) and palak (Beta vulgaris var. orientalis) Name of the Student : Prabhjot Kaur Saini Admission Number : L-2008-BS-24-D Major Subject : Biochemistry Minor Subject : Biotechnology Name and designation : Dr. Anil Kumar Gupta of Major Advisor Professor and Head Degree to be awarded : Ph.D Year of award of Degree : 2013 Total pages in Dissertation : 219 + Vita Name of the University : Punjab Agricultural University, Ludhiana-141004 ABSTRACT The present study was carried out on pea (Pisum sativum L.) seedlings and palak (Beta vulgaris var. orientalis) plants to determine the effect of exogenous cadmium on their growth and antioxidative defence system, and to explore the role of different amendments like calcium chloride, potassium chloride, calcium hydrogen phosphate, calcium sulphate and sodium nitroprusside in ameliorating the effects of cadmium toxicity. P. sativum seedlings grown on agar supplemented with different amending agents like calcium chloride, potassium chloride and sodium nitroprusside showed higher activities of H O scavenging enzymes. P. sativum seedlings also showed lower contents of H O and 2 2 2 2 malondialdehyde in these cases suggesting a role for the amendments in increasing seedling tolerance towards cadmium. Out of the three amendments calcium chloride was most effective in lowering cadmium content. In B. vulgaris plants grown in pots, addition of cadmium (0-100 mg Cd kg-1 soil) led to increase in the contents of hydrogen peroxide and malondialdehyde and activities of superoxide dismutase, catalase and glutathione reductase in leaves and roots. On addition of calcium chloride, potassium chloride, calcium hydrogen phosphate and calcium sulphate to the soil, a reduction in the activities of antioxidative enzymes was observed at higher doses of amendments along with reduction in hydrogen peroxide, malondialdehyde and cadmium content. Also improved growth was observed in these cases. In B. vulgaris, leaves are the edible parts and results in lowering cadmium with CaSO were 4 almost as good as that of KCl while in roots CaHPO was found to be more effective. 4 Keywords: Pisum sativum L., Beta vulgaris, antioxidative enzymes, cadmium, hydrogen peroxide _______________________ ____________________ Signature of Major Advisor Signature of the Student Koj pRbMD dw isrlyK : mtr (pweIsm sYtIvm AYl.) 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INTRODUCTION 1-3 II. REVIEW OF LITERATURE 4-44 III. MATERIALS AND METHODS 45-56 IV. RESULTS AND DISCUSSION 57-188 V. SUMMARY 189-191 REFERENCES 192-219 VITA ____________________________________________________________________________________ LIST OF ABBREVIATIONS BSA : Bovine serum albumin cm : Centimeter FW : Fresh weight EDTA : Ethylene diamine tetra acetic acid g : Gram GSH : Reduced glutathione GSSG : Oxidised glutathione kg : Kilogram µg : Microgram(s) µl : Microlitre(s) µM : Micromolar µmol : Micromole(s) mg : Milligram(s) ml : Millilitre(s) mM : Millimolar min : Minute NADPH : Reduced nicotinamide adenine dinucleotide phosphate nmole : Nanomole(s) nm : Nanometer PAGE : Polyacrylamide gel electrophoresis pH : Potentia hydrogenii PVP : Polyvinylpyrrolidone ROS : Reactive oxygen species SD : Standard deviation TBA : Thiobarbituric acid TCA : Trichloroacetic acid v/v : volume/volume w/v : weight/volume CHAPTER- I INTRODUCTION Environmental pollution by metals became extensive as mining and industrial activities increased in the late nineteenth and early twentieth century. Heavy metals are environmental pollutants and their toxicity is a problem of increasing significance from ecological, nutritional and environmental point of view. Elements naturally occur in the earth’s crust in a range of background levels that are generally below the critical load i.e. the amount of the element above which there is a negative effect on biodiversity and ecosystem function. However, the concentrations of elements in localized, naturally occurring metalliferous soils or in depositions from anthropogenic activity (eg. mining, waste disposal etc.) are considerably higher. The most important factor responsible for groundwater pollution in Punjab is urban and industrial waste water. This water is often not treated before its release into sewerage drains. The most common disposal of waste water is its use as crop irrigation. The application of sewage sludge to agricultural soils, and irrigation of field crops with sewage water and untreated industrial effluents are common practices used in Punjab especially in vicinity of large cities, as these are considered reusable sources of essential plant nutrients and organic carbon (Aulakh et al 2009). Singh and Kansal (1985) reported that the concentration of potentially toxic elements was higher in sewage water of industrial towns of Ludhiana, Jalandhar and Amritsar as compared with less or non-industrial towns of Sangrur and Abohar. Studies conducted by PAU, Ludhiana have indicated the presence of mercury, cadmium, chromium, copper and lead in vegetables being grown alongside the length of Buddha Nullah. Increase in international concern about the risks associated with long-term consumption of crops with cadmium (Cd) concentrations has led the international food standards organization, Codex Alimentarius Commission, to propose a 0.1 mg Cd kg-1 limit for cereals, pulses and legumes (Harris and Taylor 2001). Uptake of Cd by crop plants is the main entry pathway into the food chain causing serious problems to human health (Buchet et al 1990). Exposure to Cd can result in damage to kidney, lung and bone tissue. Cd has been found responsible for the itai-itai disease in Japan, osteoporosis and renal stones (Nordberg 2004, Hassan et al 2006). The maximum tolerable intake of Cd for humans recommended by FAO/ WHO is 70 µg/day (Sarwar et al 2010). Heavy metal pollutants like Cd are readily taken up by plants and can interfere with many physiological processes associated with normal growth and development (Artexe et al 2002). 1 Cadmium inhibits root and shoot growth and yield production, affects nutrient uptake and homeostasis, and is accumulated by agriculturally important crops including pea with a significant potential to impair animal and human health (Sanita di Toppi and Gabrielli 1999). In pea, a number of toxic effects of Cd on metabolism have been reported, such as decreased uptake of nutrient elements (Sandalio et al 2001), inhibition of various enzyme activities (Chugh et al 1992, Obata et al 1996), and induction of oxidative stress (Lozano-Rodriguez et al 1997, Sandalio et al 2001) including alterations in enzymes of the antioxidant defence system (Dalurzo et al 1997, Sandalio et al 2001, Romero-Puertas et al 2002, Skorzynska-Polit et al 2004). Metal toxicity is ascribed to three main reasons, though these three mechanisms might not exclusively account for their toxicity : (i) direct interaction with proteins due to their affinities for thioyl-, histidyl- and carboxyl-groups, causing the metals to target structural, catalytic and transport sites of the cell; (ii) stimulated generation of reactive oxygen species (ROS) that modify the antioxidant defence and elicit oxidative stress; and (iii) displacement of essential cations from specific binding sites, causing functions to collapse (Hossain et al 2012). Oxidative stress is a condition in which ROS or free radicals, are generated extra- or intra-cellularly, which can exert their toxic effects to the cells. These species may affect cell membrane properties and cause oxidative damage to nucleic acids, lipids and proteins that may make them nonfunctional. However in order to overcome oxidative stress, plants have developed very efficient antioxidative defense machinery. This machinery comprises of a ROS detoxifying enzymatic system (superoxide dismutase, ascorbate peroxidase, catalase, glutathione reductase and guaicol peroxidase) and an antioxidative non-enzymatic system (such as vitamin A, vitamin C, vitamin E, glutathione, carotenoids and phenolics) which work in concert to control the cascades of uncontrolled oxidation and protect plant cells from oxidative damage by scavenging of ROS. In order to cope with highly toxic metals, or to maintain the level of essential metals within physiological ranges, plants have evolved complex mechanisms that serve to control the uptake, accumulation and detoxification of metals. Plants species significantly differ in their tolerance to and uptake of Cd and other heavy metals. Legume crops are less tolerant to Cd toxicity than cereals and grasses and frequently encounter strong inhibition of biomass production in the less than micro molar range of Cd (Inouhe et al 1994). To curb this environmental deterioration arising from agricultural production, some management practices and remediation techniques have been evaluated and recommended. Among the remediation techniques, the use of chemical amendments to immobilize contaminants of interest has been on the rise. Several of the plant nutrients like phosphorus, sulphur and calcium can be used to alleviate Cd toxicity by different mechanisms like Cd sequestration in the vegetative parts to avoid its accumulation in 2