文献检索，用中文搜 PubMed

BACKGROUND

Nelore cattle play a key role in tropical production systems due to their resilience to harsh conditions, such as heat stress and seasonally poor nutrition. Monitoring their genetic diversity is essential to manage the negative impacts of inbreeding. Traditionally, inbreeding and inbreeding depression are assessed by pedigree-based coefficients (F), but recently, genetic markers have been preferred for their precision in capturing the inbreeding level and identifying animals at risk of reduced productive and reproductive performance. Hence, we compared the inbreeding and inbreeding depression for productive and reproductive performance traits in Nelore cattle using different inbreeding coefficient estimation methods from pedigree information (F), the genomic relationship matrix (F), runs of homozygosity (F) of different lengths (> 1 Mb (genome), between 1 and 2 Mb - F; 2-4 Mb F or > 8 Mb F) and excess homozygosity (F).

RESULTS

The correlation between F and F was lower when the latter was based on shorter segments (r = 0.15 with F, r = 0.20 with F and r = 0.28 with F). Meanwhile, the F had a moderate correlation with F (r = 0.47) and high correlation with F (r = 0.58) and F (r = 0.60). The F was highly correlated with inbreeding based on F (r = 0.93) and F (r = 0.88). The F exhibited a high correlation with F (r = 0.55) and F (r = 0.51) and a lower correlation with other inbreeding estimators varying from 0.30 for F to 0.37 for F. Increased levels of inbreeding had a negative impact on the productive and reproductive performance of Nelore cattle. The unfavorable inbreeding effect on productive and reproductive traits ranged from 0.12 to 0.51 for F, 0.19-0.59 for F, 0.21-0.58 for F, and 0.19-0.54 for F per 1% of inbreeding scaled on the percentage of the mean. When scaling the linear regression coefficients on the standard deviation, the unfavorable inbreeding effect varied from 0.43 to 1.56% for F, 0.49-1.97% for F, 0.34-2.2% for F, and 0.50-1.62% for F per 1% of inbreeding. The impact of the homozygous segments on reproductive and performance traits varied based on the chromosomes. This shows that specific homozygous chromosome segments can be signs of positive selection due to their beneficial effects on the traits.

CONCLUSIONS

The low correlation observed between F and genomic-based inbreeding estimates suggests that the presence of animals with one unknown parent (sire or dam) in the pedigree does not account for ancient inbreeding. The ROH hotspots surround genes related to reproduction, growth, meat quality, and adaptation to environmental stress. Inbreeding depression has adverse effects on productive and reproductive traits in Nelore cattle, particularly on age at puberty in young bulls and heifer calving at 30 months, as well as on scrotal circumference and body weight when scaled on the standard deviation of the trait.

BACKGROUND

RESULTS

CONCLUSIONS

背景

内罗罗牛在热带生产系统中起着关键作用，因为它们能够承受恶劣条件，如热应激和季节性营养不良。监测其遗传多样性对于管理近交的负面影响至关重要。传统上，通过系谱系数（F）评估近交和近交衰退，但最近，遗传标记因其在捕捉近交水平和识别生产和繁殖性能降低风险的动物方面的精确性而受到青睐。因此，我们使用不同的系谱信息（F）、基因组关系矩阵（F）、不同长度的纯合片段（> 1 Mb（基因组）、1-2 Mb 的 F 或 2-4 Mb F 或> 8 Mb F）和多余的纯合片段（F）比较了内罗罗牛的生产和繁殖性能性状的近交和近交衰退。

结果

当后者基于较短的片段时，F 与 F 的相关性较低（r = 0.15 与 F，r = 0.20 与 F 和 r = 0.28 与 F）。同时，F 与 F 有中等相关性（r = 0.47），与 F 有高度相关性（r = 0.58）和 F 有高度相关性（r = 0.60）。F 与基于 F 的近交高度相关（r = 0.93）和 F（r = 0.88）。F 与 F（r = 0.55）和 F（r = 0.51）有高度相关性，与其他近交估算值的相关性从 0.30 到 F 不等，0.37 到 F。近交水平的增加对内罗罗牛的生产和繁殖性能有负面影响。F 对生产和繁殖性状的不利近交效应范围为 0.12-0.51，F 为 0.19-0.59，F 为 0.21-0.58，F 为 0.19-0.54，每 1%的近交比例为平均水平的百分比。当按标准差对线性回归系数进行缩放时，F 的不利近交效应范围为 0.43-1.56%，F 为 0.49-1.97%，F 为 0.34-2.2%，F 为 0.50-1.62%，每 1%的近交比例为平均水平的百分比。纯合片段对繁殖和性能性状的影响因染色体而异。这表明特定的纯合染色体片段可能是由于它们对性状的有益影响而成为正选择的标志。

结论

F 与基于基因组的近交估计之间观察到的低相关性表明，系谱中存在一只未知父母（父本或母本）的动物并不能说明古代近交的存在。ROH 热点围绕着与繁殖、生长、肉质和适应环境压力相关的基因。近交衰退对内罗罗牛的生产和繁殖性状有不良影响，特别是对青年公牛的初情期和 30 月龄的小母牛产犊，以及按性状标准差衡量的睾丸围度和体重。