biodicon Biological Diversity and Conservation 1308-5301 1308-8084 Ersin YÜCEL Assesment of genotoxicity induced by lead pollution in tomato Lycopersicum esculentum by molecular and population markers Domates Bitkisinde Lycopersicum esculentum L. Kurşun Kirliliği ile İndüklenen Genotoksisitenin Moleküler ve Populasyon Markörleri ile Değerlendirilmesi Soydam Aydın Semra Medical Biological Products Laboratories, Department of Medicine, Biological and Medical Products Laboratory,Turkish Medicines and Medical Device Agency, Ministry of Health of Turkey, Ankara, Turkey Kılıç Zeynep Ankara University, Faculty of Science, Department of Biology, Ankara, Turkey Gazi University, Faculty of Medicine, Department of Medical Biology and Genetic, Ankara, Turkey Dönmez Çiğdem Gazi University, Faculty of Medicine, Department of Medical Biology and Genetic, Ankara, Turkey Altunkaynak Ersin Ankara University, Faculty of Science, Department of Biology, Ankara, Turkey Gazi University, Faculty of Medicine, Department of Medical Biology and Genetic, Ankara, Turkey Aras Sümer Ankara University, Faculty of Science, Department of Biology, Ankara, Turkey Gazi University, Faculty of Medicine, Department of Medical Biology and Genetic, Ankara, Turkey 04 15 2015 8 1 83 89 Copyright © 2008, Biological Diversity and Conservation 2008 Biological Diversity and Conservation

Heavy metal contamination is an important environmental problem that may lead to alterations in vital growth processes, mineral nutrition, transpiration, photosynthesis, enzyme activity and nucleic acids. The effects of environmental pollutants on plants can be monitored using various techniques at different levels. Random amplified polymorphic DNA RAPD is a semi-quantitative technique that has been used for genetic mapping, taxonomy, phylogeny and the detection of various kinds of DNA damage and mutations that result from genotoxic agents such as heavy metal contamination. In this study, tomato Lycopersicum esculentum L. seeds that had germinated in various concentrations of Pb NO3 2 solutions were used for measuring population parameters such as dry weight, total soluble protein content, root length and, ultimately, inhibitory rate IR values. The seeds were also used to determine the genotoxic effect of the lead, reflected as the appearance or disappearance of bands in RAPD profiles. Inhibition or activation of root elongation was found to be the first effect of metal toxicity to show up in the plants that were tested. Also, total soluble protein content was significantly affected by increased Pb2+ concentrations. The data obtained from RAPD band profiles and genomic template stability GTS revealed results that were consistent with the population parameters

Ağır metal kirliliği bitkilerin gelişim süreci, mineral beslenme, terleme, fotosentez, enzim aktivitesi ve nükleik asit sentezi gibi bir çok alanda farklılaşmalara sebep olan çevresel bir problemdir. Çevresel kirleticilerin bitkiler üzerindeki etkileri çeşitli teknikler kullanılarak belirlenebilir. Rastgele çoğaltılmış polimorfik DNA RAPD yöntemi genetik haritalama, taksonomi, filogeni ve ağır metal kontaminasyonu gibi genotoksik ajanların neden olduğu çeşitli DNA hasarları veya mutasyonlarının belirlenmesinde kullanılan yarı-nicel bir tekniktir. Bu çalışmada, domates Lycopersicum esculentum L. tohumları farklı konsantrasyonlardaki Pb NO3 2 solüsyonu içerisinde çimlendirilmiş ve bu tohumların kuru ağırlık, toplam çözünebilir protein içeriği, kök uzunluğu ve sonuçta engelleyici oranı IR belirlenmiştir. Tohumlar aynı zamanda kurşun solüsyonunun RAPD profilinde yeni bir band oluşumu veya kayboluşu olarak akseden genotoksik etkisini belirlemek amacıyla kullanılmıştır. Kök uzamasının inhibisyonu veya aktivasyonu bitkilerde metal toksisitesinin ilk belirtisi olarak gözlenmiştir. Aynı zamanda toplam çözünebilir protein içeriği artan Pb2+ konsantrasyonundan önemi oranda etkilenmiştir. RAPD band profillerinden ve genomik kalıp stabilitesinden GTS elde edilen veriler populasyon parametreleri ile uyumludur

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