ANALYSES of P-Tst-1, P-Tst-3 and P-Tst-6 RETROTRANSPOSONS IN CONVENTIONALLY AND ORGANICALLY PRODUCED TOMATOES

The Journal of Animal and Plant Sciences Pub Date : 2023-06-20 DOI:10.36899/japs.2023.5.0697

E. Haji, M. Abed, Y. E. Arvas, S. Marakli, Y. Kaya

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Abstract

Tomato is one of the best-studied cultivated dicotyledonous plants in molecular studies. Mobile genetic elements constitute large parts of plant genomes. Retrotransposons are mobile genetic elements within the genome and constitute more than 60% of the tomato genome. Transposable elements (TE) or transposons are DNA sequences that can alter their position within a genome, cause mutations and change the genetic identity of the cells and genome size. We aimed to analyze potato specific-P-Tst-1, P-Tst-3 and P-Tst-6 retrotransposon movements in tomatoes at different developmental stages (mature seedling, flowering stage and fruiting stage) under different cultural conditions (organic and conventional) by IRAP (Inter-Retrotransposon Amplified Polymorphism) technique. We found polymorphism rates between 1-100% for P-Tst-1, P-Tst-3 and 0-86% for P-Tst-6 . When compared to organically tomatoes, conventionally produced tomatoes showed high polymorphism. Moreover, polymorphism ratios were different at developmental stages. This is the first report to analyze potato-specific retrotransposon movements in tomatoes grown under different conditions. Obtaining findings are expected to understand the evolutionary relationships between tomato and potato, and even the effects of different growing conditions on tomato genome to increase yield in agriculture

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传统和有机生产番茄中P-Tst-1、P-Tst-3和P-Tst-6反转录转座子的分析

番茄是在分子研究方面研究最多的栽培双子叶植物之一。可移动的遗传因子构成了植物基因组的很大一部分。逆转录转座子是基因组中可移动的遗传元件，占番茄基因组的60%以上。转座因子(TE)或转座子是可以改变其在基因组中的位置，引起突变并改变细胞遗传特性和基因组大小的DNA序列。利用IRAP (Inter-Retrotransposon amplification Polymorphism)技术，分析了不同培养条件(有机和常规)下番茄不同发育阶段(成熟苗期、开花期和结实期)p - tst -1、P-Tst-3和P-Tst-6反转录转座子的运动规律。我们发现P-Tst-1、P-Tst-3的多态性率为1-100%，P-Tst-6的多态性率为0-86%。与有机番茄相比，常规生产的番茄表现出较高的多态性。此外，不同发育阶段的多态性比例也不同。这是第一份分析在不同条件下生长的番茄中马铃薯特异性反转录转座子运动的报告。研究结果将有助于了解番茄和马铃薯的进化关系，甚至不同生长条件对番茄基因组的影响，从而提高农业产量

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of Animal and Plant Sciences

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