Alanzor Puente José Manuel, Pons Barro Águeda Laura, González Ariza Antonio, Martínez Martínez María Del Amparo, Delgado Bermejo Juan Vicente, Navas González Francisco Javier
Institut de Reserca i Formaciò Agroalimentaria de les Illes Balears IRFAP, Conselleria d'Agricultura, Pesca i Alimentació, Govern Illes Balears, 07009 Palma, Spain.
Centro Agropecuario Provincial de Córdoba, Diputación Provincial de Córdoba, 14014 Córdoba, Spain.
Int J Mol Sci. 2024 Feb 26;25(5):2706. doi: 10.3390/ijms25052706.
The genetic diversity analysis of six dog breeds, including Ca de Bestiar (CB), Ca de Bou (CBOU), Podenco Ibicenco (PI), Ca Rater (CR), Ca Mè (CM), and Ca de Conills (CC), reveals insightful findings. CB showcases the highest mean number of alleles (6.17) and heterozygosity values, with significant deviations from Hardy-Weinberg equilibrium (HWE) observed in five markers, indicating high intra-racial genetic diversity (average observed heterozygosity (H) = 0.754, expected heterozygosity (H) = 0.761). In contrast, CBOU presents the lowest mean number of alleles (5.05) and heterozygosity values, coupled with moderate polymorphic information content (PIC) values and a moderate level of intra-racial genetic diversity (average H = 0.313, H = 0.394). PI demonstrates moderate genetic diversity with an average of 5.75 alleles and highly informative PIC values, while CR displays robust genetic diversity with an average of 6.61 alleles and deviations from equilibrium, indicating potential risks of inbreeding (average H = 0.563, H = 0.658). CM exhibits moderate genetic diversity and deviations from equilibrium, similar to CBOU, with an average of 6.5 alleles and moderate PIC values (average H = 0.598, H = 0.676). Conversely, CC shows a wider range of allelic diversity and deviations from equilibrium (average H = 0.611, H = 0.706), suggesting a more diverse genetic background. Inter-racial analysis underscores distinct genetic differentiation between breeds, emphasizing the importance of informed breeding decisions and proactive genetic management strategies to preserve diversity, promote breed health, and ensure long-term sustainability across all breeds studied.
对六种犬种进行的遗传多样性分析,其中包括贝斯蒂亚犬(CB)、斗牛犬(CBOU)、伊维萨猎犬(PI)、捕鼠梗犬(CR)、卡梅犬(CM)和康尼尔斯犬(CC),揭示了一些有价值的发现。CB展示出最高的平均等位基因数(6.17)和杂合度值,在五个标记中观察到显著偏离哈迪-温伯格平衡(HWE),表明其种族内遗传多样性高(平均观察杂合度(H)=0.754,预期杂合度(H)=0.761)。相比之下,CBOU的平均等位基因数(5.05)和杂合度值最低,同时具有中等多态信息含量(PIC)值和中等水平的种族内遗传多样性(平均H = 0.313,H = 0.394)。PI显示出中等遗传多样性,平均有5.75个等位基因且PIC值信息丰富,而CR则显示出较强的遗传多样性,平均有6.61个等位基因且偏离平衡,表明存在近亲繁殖的潜在风险(平均H = 0.563,H = 0.658)。CM表现出中等遗传多样性且偏离平衡,与CBOU类似,平均有6.5个等位基因和中等PIC值(平均H = 0.598,H = 0.676)。相反,CC显示出更广泛的等位基因多样性和偏离平衡(平均H = 0.611,H = 0.706),表明其遗传背景更加多样化。种族间分析强调了各犬种之间明显的遗传分化,凸显了做出明智育种决策和采取积极遗传管理策略对于保护多样性、促进犬种健康以及确保所有研究犬种长期可持续性的重要性。
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