Genome-wide Identification of PMEI Genes in Wild Olives (Olea europaea sylvestris L.) by Bioinformatic Analysis

Turkish Journal of Agriculture - Food Science and Technology Pub Date : 2024-06-10 DOI:10.24925/turjaf.v12i6.1005-1018.6757

Tevfik Hasan Can, Tamer Kuşaksız, Emine Berberoğlu, E. D. Yeğenoğlu

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Abstract

In the present study, 47 PMEI type 1 genes and 57 PMEI type 2 genes were identified with bioinformatic analysis. The PMEI genes were localized separately on chromosomes 1, 2, 3, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 20, 21 and 22, but mainly at the level of the scaffold. The biological functions of the PMEI type 1 genes were found to be in the areas of biological regulation, metabolism and cellular functions. Their cellular localization appears to be associated with cell parts. For the PMEI type 2 genes, the biological functions were determined as biological regulation, metabolic and cellular functions. A total of 393 Arabidopsis miRNAs targeting 47 olive PMEI type 1 genes were identified. Two specific miRNAs targeting the OePMEI1-07 gene were found (ath-miR8168 and ath-miR774b-5p). For the PMEI type 2 genes, 269 Arabidopsis miRNAs were found, including 14 specific miRNAs targeting OPMEI2-02, OPMEI2-03, OPMEI2-27, OPMEI2-28, OPMEI2-29, OPMEI2-30, OPMEI2-40 and OPMEI2-54. These results suggest that PMEI genes in olives may not only play a role in cell development, germ cell formation and plant growth, but also play an important role in abiotic and biotic stress conditions in the olive.

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通过生物信息学分析鉴定野生橄榄（Olea europaea sylvestris L.）中的全基因组 PMEI 基因

本研究通过生物信息学分析确定了 47 个 PMEI 1 型基因和 57 个 PMEI 2 型基因。PMEI基因分别定位于1、2、3、7、8、9、10、11、12、13、14、15、16、17、18、20、21和22号染色体上，但主要定位于支架水平。研究发现，PMEI 1 型基因的生物功能涉及生物调节、新陈代谢和细胞功能等领域。它们的细胞定位似乎与细胞部位有关。PMEI 2 型基因的生物功能被确定为生物调节、新陈代谢和细胞功能。共鉴定了 393 个针对 47 个橄榄 PMEI 1 型基因的拟南芥 miRNA。发现了两个针对 OePMEI1-07 基因的特异 miRNA（ath-miR8168 和 ath-miR774b-5p）。在 PMEI 2 型基因中，发现了 269 个拟南芥 miRNA，包括 14 个靶向 OPMEI2-02、OPMEI2-03、OPMEI2-27、OPMEI2-28、OPMEI2-29、OPMEI2-30、OPMEI2-40 和 OPMEI2-54 的特异 miRNA。这些结果表明，橄榄中的 PMEI 基因不仅可能在细胞发育、生殖细胞形成和植物生长中发挥作用，还可能在橄榄的非生物和生物胁迫条件下发挥重要作用。

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Turkish Journal of Agriculture - Food Science and Technology

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