GENETIC DIFFERENTIATION OF CULTIVATED CITRUS FRUITS (Citrus spp.) IN COLOMBIA USING SSR MOLECULAR MARKERS

IF 0.5 4区农林科学 Q4 AGRICULTURE, MULTIDISCIPLINARY

Agrociencia Pub Date : 2024-03-05 DOI:10.47163/agrociencia.v58i2.2950

Mauricio Fernando Martínez, Diana Milena Rodríguez-Mora, Nubia Murcia-Riaño

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引用次数: 0

Abstract

Citrus is the second most important fruit crop in Colombia after bananas, with production taking place in 26 of the country’s 32 departments. Oranges, sour limes, and mandarins are the most economically important crops in terms of area planted and production. Microsatellites were used to assess the genetic differentiation of oranges, mandarins, tangelos, grapefruits, and acid limes from the Colombian Agricultural Research Corporation AGROSAVIA germplasm bank and collection of micro-grafted plants at Palmira Research Center in Colombia. A total of 121 samples from eight citrus groups were analyzed with 30 fluoromarked simple sequence repeats (SSR) microsatellites. The mean expected heterozygosity and mean observed heterozygosity were 0.58 and 0.57, respectively, and the coefficient of genetic differentiation was 0.558, confirming very high genetic differentiation among the citrus groups evaluated. Microsatellites mCrCIR01B02, AMB5, Ci01C09, mCrCIR08B08, and Ci01C07 were the most informative, presenting a high number of alleles and polymorphic loci percentages of more than 45 %; in addition, they allowed the identification of unique alleles, which can be used to establish the genetic fingerprint of citrus. Genetic differentiation was achieved for seven out of the eight groups evaluated. The SSRs used failed to differentiate the orange groups, possibly due to genetic origin; for this group, other molecular markers are recommended.

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利用 SSR 分子标记对哥伦比亚栽培柑橘（柑橘属）进行遗传分化

柑橘是哥伦比亚仅次于香蕉的第二大水果作物，在全国 32 个省中有 26 个省生产柑橘。就种植面积和产量而言，柑橘、酸橙和柑橘是经济上最重要的作物。微卫星被用来评估来自哥伦比亚农业研究公司 AGROSAVIA 种质库和哥伦比亚 Palmira 研究中心收集的微嫁接植物中的橙子、柑橘、切橘、葡萄柚和酸橙的遗传分化。我们用 30 个荧光标记的简单序列重复（SSR）微卫星对来自 8 个柑橘组的 121 个样本进行了分析。平均预期杂合度和平均观察到的杂合度分别为 0.58 和 0.57，遗传分化系数为 0.558，证实所评估的柑橘群体之间具有很高的遗传分化。微卫星 mCrCIR01B02、AMB5、Ci01C09、mCrCIR08B08 和 Ci01C07 的信息量最大，等位基因数量多，多态位点百分比超过 45%；此外，它们还能鉴定出独特的等位基因，可用于建立柑橘的遗传指纹。在所评估的 8 个群体中，有 7 个群体实现了遗传分化。所使用的 SSR 无法区分柑橘组，这可能是由于遗传起源造成的；对于该组，建议使用其他分子标记。

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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来源期刊

Agrociencia 农林科学-农业综合

CiteScore

0.50

自引率

33.30%

发文量

审稿时长

18-36 weeks

期刊介绍： AGROCIENCIA is a scientific journal created and sponsored by the Colegio de Postgraduados. Its main objective is the publication and diffusion of agricultural, animal and forestry sciences research results from mexican and foreign scientists. All contributions are peer reviewed. Starting in the year 2000, AGROCIENCIA became a bimonthly and fully bilingual journal (Spanish and English versions in the same issue). Since 2007 appears every month and a half (eight issues per year). In addition to the printed issues, the full content is available in electronic format.