Evolutionary Fate of the Opine Synthesis Genes in the Arachis L. Genomes

Biology Pub Date : 2024-08-09 DOI:10.3390/biology13080601

Olesja D. Bogomaz, V. D. Bemova, Nikita A. Mirgorodskii, T. Matveeva

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Abstract

Naturally transgenic plants are plants that have undergone Agrobacterium-mediated transformation under natural conditions without human involvement. Among Arachis hypogaea L., A. duranensis Krapov. & W.C. Greg, A. ipaensis Krapov. & W.C. Greg, A. monticola Krapov. & Rigoni, and A. stenosperma Krapov. & W.C. Greg are known to contain sequences derived from the T-DNA of “Agrobacterium”. In the present study, using molecular genetics and bioinformatic methods, we characterized natural transgenes in 18 new species from six sections of the genus Arachis. We found that small fragments of genes for enzymes of the agropine synthesis pathway were preserved only in some of the studied samples and were lost in the majority of the species during evolution. At the same time, genes, similar to cucumopine synthases (cus-like), remained intact in almost all of the investigated species. In cultivated peanuts, they are expressed in a tissue-specific manner. We demonstrated the intraspecific variability of the structure and expression of the cus-like gene in cultivated peanuts. The described diversity of gene sequences horizontally transferred from Agrobacterium to plants helps to shed light on the phylogeny of species of the genus Arachis and track possible hybridization events. Data on the ability of certain species to hybridize are useful for planning breeding schemes aimed at transferring valuable traits from wild species into cultivated peanuts.

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罂粟基因组中鸦片碱合成基因的进化命运

天然转基因植物是指在自然条件下，在无人参与的情况下，通过农杆菌介导转化的植物。据了解，在Arachis hypogaea L.中，A. duranensis Krapov. & W.C. Greg、A. ipaensis Krapov. & W.C. Greg、A. monticola Krapov. & Rigoni和A. stenosperma Krapov. & W.C. Greg含有源自 "农杆菌 "T-DNA的序列。在本研究中，我们利用分子遗传学和生物信息学方法，鉴定了 Arachis 属 6 个部分 18 个新品种中天然转基因的特征。我们发现，只有在一些研究样本中保留了农杆菌素合成途径酶基因的小片段，而在大多数物种中，这些基因在进化过程中丢失了。与此同时，与葫芦巴碱合成酶（cus-like）类似的基因在几乎所有研究物种中都保持完整。在栽培花生中，它们以组织特异性的方式表达。我们证明了栽培花生中 cus-like 基因结构和表达的种内差异性。所描述的从农杆菌水平转移到植物的基因序列的多样性有助于揭示花生属物种的系统发育，并追踪可能的杂交事件。有关某些物种杂交能力的数据有助于规划育种计划，以便将野生物种的宝贵性状转移到栽培花生中。

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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Biology

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