EFFECT OF SELECTED CHEMICAL CONTAMINANTS ON GROWTH, BIOCHEMICAL COMPOSITION, DNA DAMAGE AND SUPEROXIDE DISMUTASE ACTIVITY IN FOUR MARINE ALGAE EMIENOUR MUZALINA BINTI MUSTAFA FACULTY OF SCIENCE UNIVERSITY OF MALAYA KUALA LUMPUR MALAYSIA 2013 EFFECT OF SELECTED CHEMICAL CONTAMINANTS ON GROWTH, BIOCHEMICAL COMPOSITION, DNA DAMAGE AND SUPEROXIDE DISMUTASE ACTIVITY IN FOUR MARINE ALGAE EMIENOUR MUZALINA BINTI MUSTAFA THESIS SUBMITTED IN FULFILMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY INSTITUTE OF BIOLOGICAL SCIENCES FACULTY OF SCIENCE UNIVERSITY OF MALAYA KUALA LUMPUR MALAYSIA 2013 UNIVERSITI MALAYA PERAKUAN KEASLIAN PENULISAN Nama: (No. K.P/Pasport: ) No. Pendaftaran/Matrik: Nama Ijazah: Tajuk Kertas Projek/Laporan Penyelidikan/Disertasi/Tesis (“Hasil Kerja ini”): Bidang Penyelidikan: Saya dengan sesungguhnya dan sebenarnya mengaku bahawa: (1) Saya adalah satu-satunya pengarang/penulis Hasil Kerja ini; (2) Hasil Kerja ini adalah asli; (3) Apa-apa penggunaan mana-mana hasil kerja yang mengandungi hakcipta telah dilakukan secara urusan yang wajar dan bagi maksud yang dibenarkan dan apa-apa petikan, ekstrak, rujukan atau pengeluaran semula daripada atau kepada mana-mana hasil kerja yang mengandungi hakcipta telah dinyatakan dengan sejelasnya dan secukupnya dan satu pengiktirafan tajuk hasil kerja tersebut dan pengarang/penulisnya telah dilakukan di dalam Hasil Kerja ini; (4) Saya tidak mempunyai apa-apa pengetahuan sebenar atau patut semunasabahnya tahu bahawa penghasilan Hasil Kerja ini melanggar suatu hakcipta hasil kerja yang lain; (5) Saya dengan ini menyerahkan kesemua dan tiap-tiap hak yang terkandung di dalam hakcipta Hasil Kerja ini kepada Universiti Malaya (“UM”) yang seterusnya mula dari sekarang adalah tuan punya kepada hakcipta di dalam Hasil Kerja ini dan apa-apa pengeluaran semula atau penggunaan dalam apa jua bentuk atau dengan apa juga cara sekalipun adalah dilarang tanpa terlebih dahulu mendapat kebenaran bertulis dari UM; (6) Saya sedar sepenuhnya sekiranya dalam masa penghasilan Hasil Kerja ini saya telah melanggar suatu hakcipta hasil kerja yang lain sama ada dengan niat atau sebaliknya, saya boleh dikenakan tindakan undang-undang atau apa-apa tindakan lain sebagaimana yang diputuskan oleh UM. 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Candidate’s Signature Date Subscribed and solemnly declared before, Witness’s Signature Date Name: Designation: ABSTRACT One of the important tasks of environmental monitoring is the detection of potentially hazardous compounds such as chemical contaminants that can induce oxidative damage in aquatic organisms. Our objective is to investigate the effect of selected chemical contaminants (metals, textile dyes and organophosphate pesticides) on growth (chlorophyll a, carotenoid) , biochemical composition (carbohydrate, protein and lipid), DNA damage ([Random Amplified Polymorphic DNA (RAPD) and AP-site (Abasic-site)] and Superoxide dismutase (SOD) enzyme activity in four tropical marine algae, Chlorella vulgaris, Tetraselmis tetrahele, Boergesenia forbesii and Ventricaria ventricosa after short term (four days) and long term (ten days) exposure under laboratory conditions. Results will be used to assess the suitability of the different end- points (biomarker) and algal species for use in development of bioassays. The algae were exposed to different concentrations of twelve chemical contaminants including seven metals [Cadmium (Cd); Cobalt (Co); Chromium (Cr); Copper (Cu); Iron (Fe); Manganese (Mn) and Zinc (Zn)], three textile dyes [Supranol Br. Red 3Bur (Acidic dye); Astrazon Red FBL (Basic dye) and Lanaset Red 2GA (Metal complex dye)] and two organophosphate pesticides [Malathion and Dichlovos] in a range of concentrations (0.01, 0.1, 1, 10, 100 and 500 mg/L) in Provasoli medium without EDTA using conical flask (for microalgae: Chlorella vulgaris and Tetraselmis tetrahele) and multiwell plates (for macroalgae: Boergesenia forbesii and Ventricaria ventricosa) with test volumes of 500mL and 10mL respectively, for 4 and 10 days under controlled conditions. The growth rate and IC values (concentration of toxicants estimated to inhibit 50% algal 50 growth relative to control) were determined on day 4 and day 10 based on Chl a content. The biochemical composition (carbohydrate, protein and lipid) and SOD activity were ii also assessed. RAPD and AP-site content analysis was conducted on DNA extracted from the treated samples. The results showed that, the carbohydrate, protein, lipid and AP-site content decreased with increasing concentration of chemical contaminants. The SOD activity in the treated algae increased with increasing chemical contaminants concentration until the threshold, beyond which the cell lost their resistance and died. There are changes occurring in RAPD profiles (variation in band intensity as well as gain or loss of bands) in all treated samples compared with control. The results showed that, of the end-points, Genomic template stability was the most sensitive for Chlorella vulgaris, Tetraselmis tetrahele, Boergesenia forbesii and Ventricaria ventricosa. Chlorella vulgaris, appears to be the most useful bioassay organism because it was the most sensitive to toxicants. Finding from this study will contribute towards the development of bioassays for the detection and monitoring of metal, textile dye and organophosphate pesticide contamination based on DNA damage detection, growth, biochemical composition and stress enzyme response in tropical marine microalgae and macroalgae. iii ABSTRAK Salah satu tugas penting dalam pemonitoran alam sekitar ialah untuk mengesan bahan-bahan berpotensi berbahaya seperti bahan pencemar kimia yang boleh mengakibatkan kerosakan oksidatif pada organisma akuatik. Tujuan kami ialah untuk menyiasat kesan bahan pencemar kimia (logam, bahan pewarna pencelup kain dan bahan ubat pembunuh serangga organofosfat) ke atas pertumbuhan (klorofil a, karotenoid), komposisi biokimia (karbohidrat, protein dan lemak), kerosakan DNA [Amplifikasi Polimorfik DNA Secara Rawak (RAPD) dan Tapak-AP (Tapak Abasik)] dan aktiviti enzim Superoxide dismutase (SOD) di dalam empat alga marine tropika, Chlorella vulgaris, Tetraselmis tetrahele, Boergesenia forbesii and Ventricaria ventricosa selepas didedahkan untuk jangka pendek (empat hari) dan jangka panjang (sepuluh hari) di dalam makmal. Keputusan akan digunakan untuk menilai kesesuaian titik-akhir (petunjuk biologi) berbeza, dan spesis alga untuk digunakan dalam pembangunan ujian biologi. Alga didedahkan kepada dua belas jenis bahan pencemaran kimia termasuk tujuh logam [Cadmium (Cd); Cobalt (Co); Chromium (Cr); Kuprum (Cu); Ferum (Fe); Manganese (Mn) dan Zink (Zn)], tiga bahan pewarna pencelup kain [Supranol Br. Red 3Bur (Acidic dye); Astrazon Red FBL (Basic dye) dan Lanaset Red 2GA (Metal complex dye)] dan dua bahan ubat pembunuh serangga organofosfat [Malathion dan Dichlovos] dalam julat kepekatan berbeza (0.01, 0.1, 1, 10, 100 and 500 mg/L) di dalam medium Provasoli tanpa EDTA menggunakan kelalang konikal (untuk mikroalga: Chlorella vulgaris dan Tetraselmis tetrahele) dan piring pelbagai lubang (untuk makroalga: Boergesenia forbesii dan Ventricaria ventricosa) dengan isipadu ujian, 500mL and 10mL setiap satu, selama empat dan sepuluh hari di dalam keadaan terkawal. Kadar pertumbuhan, nilai IC (kepekatan bahan toksik dianggarkan merencat 50% 50 iv pertumbuhan alga dibandingkan dengan kontrol) telah ditentukan pada hari keempat dan kesepuluh berdasarkan kandungan klorofil a. Komposisi biokimia (karbohidrat, protein dan lemak) dan aktiviti enzim SOD juga dinilai. Analisis RAPD dan kandungan Tapak- AP dijalankan ke atas DNA yang telah diekstrak daripada sampel yang telah dirawat. Keputusan menunjukkan bahawa kandungan karbohidrat, protein, lemak dan tapak-AP menurun mengikut peningkatan kepekatan bahan pencemar kimia. Aktiviti SOD di dalam alga yang telah dirawat meningkat dengan peningkatan kepekatan bahan pencemar kimia sehingga peringkat ambang, melepasi keadaan dimana, sel kehilangan pertahanan dan mati. Terdapat perubahan ditunjukkan pada profil RAPD (variasi di dalam intensiti band, dan juga perolehan atau kehilangan band) di dalam sampel yang telah dirawat dibandingkan dengan sampel kontrol. Keputusan menunjukkan, diantara titik-akhir (petunjuk-bio), Kestabilan Templat Genomik adalah paling sensitif untuk Chlorella vulgaris, Tetraselmis tetrahele, Boergesenia forbesii dan Ventricaria ventricosa. Chlorella vulgaris, muncul sebagai organisma ujian biologi paling berguna kerana ia paling sensitif kepada bahan toksik. Penemuan daripada kajian ini akan menyumbangkan kearah pembangunan ujian biologi untuk mengesan dan memonitor pencemaran logam, bahan pewarna pencelup kain dan bahan ubat pembunuh serangga organofosfat berdasarkan pengesanan kerosakan DNA, pertumbuhan, komposisi biokimia dan tindakan balik enzim yang tertekan, didalam mikroalga dan makroalga tropika marin. v ACKNOWLEDGEMENTS First and foremost, I would like to express my sincerest gratitude and appreciation to my supervisor Prof. Dr. Phang Siew Moi for her guidance and encouragement throughout the period of study. I would like to express my heartfelt gratitude to my parents, En. Mustafa and Pn. Rohana and my siblings, Kamal, Tiar, Sikin, Shahrul, Fahmie and Eba for their continuous moral support and encouragement to me all the time in striving towards this achievement. I have been blessed with wonderful friends and thank them for their valuable help and friendship and all the enjoyable moments we have shared Lastly, I would like to express my thanks to the Ministry of Science,Technology and Innovation Malaysia (R & D Grant No: 03-01-01-001BTK/ER/020), National Science Fellowship and Institute of Biological Sciences, University Malaya (Vot F: F0222/2004B) for financial support to carry out my research work. vi
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