Developing a liquid capture chip to accelerate the genetic progress of cattle

Chen, Yan; Guo, Yingwei; Ge, Fei; Gao, Han; Zhou, Jinghang; Wu, Xiaonv; Qian, Changsong; Wang, Zhiquan; Wang, Zezhao; Zhu, Bo; Xu, Lingyang; Gao, Xue; Zhang, Lupei; Gao, Huijiang; Li, Junya

doi:10.1002/aro2.58

Animal Research and One Health

2024

DOI: 10.1002/aro2.58

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Developing a liquid capture chip to accelerate the genetic progress of cattle

Yan Chen,

Yingwei Guo,

Fei Ge

et al.

Abstract: Large‐scale genotyping at a low cost is crucial for molecular breeding of livestock. In this study, the Cattle110K capture chip was developed, based on the genotyping by target sequencing system. The chip panel included 112,180 single necleotide polymorphisms (SNPs), from potential functional regions screened by genome‐wide associated study, BayesB, expression quantitative trait loci‐mapping, ATAC‐seq, and reported functional markers. All the SNPs on the panel were distributed evenly on the cattle genome, with… Show more

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Cited by 6 publications

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Genome-wide association study of myofiber type composition traits in a yellow-feather broiler population

Fan,

Shan,

Zhang

et al. 2025

Poultry Science

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Genome-wide association study of myofiber type composition traits in a yellow-feather broiler population

Fan,

Shan,

Zhang

et al. 2025

Poultry Science

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Evaluation of genomic mating approach based on genetic algorithms for long-term selection in Huaxi cattle

Wang,

Zhu,

Wang

et al. 2024

BMC Genomics

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Background Genomic mating (GM) can effectively control the growth rate of inbreeding in population and achieve long-term sustainable genetic progress. However, the design of GM method and assessment of its effects during long-term selection have not been fully explored in beef cattle breeding. Results In this study, we constructed a simulated population based on the real genotypes of Huaxi cattle, where five generations of simulated breeding were carried out using the genomic optimal contribution selection (GOCS), genetic algorithms strategy and three traditional mating strategies. During the breeding process, genetic parameters including average genomic estimated breeding value (GEBV), genetic gain values ( ), the rate of inbreeding values ( ) were calculated and compared across generations. Our results showed that the GM method could significantly improve the genetic gain while effectively controlling the inbreeding accumulation within the population. When using the GM method, there was an increase in genetic gain for Huaxi cattle ranging from 1.1% to 25.6% compared to traditional mating strategy, with inbreeding decreasing in the range of 5.8% to 36.2%. Validation using the real dataset from Huaxi cattle further confirmed our findings from the simulated study, offspring populations using the GM strategy exhibited a 7.3% increase in genetic gain compared to positive assortative mating. Conclusions These findings suggest that the GM method shows potential for achieving sustainable genetic gain and could be utilized during long-term selection in beef cattle breeding.

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Local Ancestry and Adaptive Introgression in Xiangnan Cattle

Yan,

Li,

Zhang

et al. 2024

Biology

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Exploring the genetic landscape of native cattle is an exciting avenue for elucidating nuanced patterns of genetic variation and adaptive dynamics. Xiangnan cattle, a native Chinese cattle breed mainly produced in Hunan Province, are well adapted to the high temperature and humidity of the local environment and exhibit strong disease resistance. Herein, we employed whole-genome sequences of 16 Xiangnan cattle complemented by published genome data from 81 cattle. Our findings revealed that Xiangnan cattle are pure East Asian indicine cattle with high genetic diversity and low inbreeding. By annotating the selection signals obtained by the CLR, θπ, FST, and XP-EHH methods, genes associated with immunity (ITGB3, CD55, OTUD1, and PRLH) and heat tolerance (COX4I2, DNAJC18, DNAJC1, EIF2AK4, and ASIC2) were identified. In addition, the considerable introgression from banteng and gaur also contributed to the rapid adaptation of Xiangnan cattle to the environment of Southern China. These results will provide a basis for the further conservation and exploitation of Xiangnan cattle genetic resources.

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Developing a liquid capture chip to accelerate the genetic progress of cattle

Cited by 6 publications

References 61 publications

Genome-wide association study of myofiber type composition traits in a yellow-feather broiler population

Genome-wide association study of myofiber type composition traits in a yellow-feather broiler population

Evaluation of genomic mating approach based on genetic algorithms for long-term selection in Huaxi cattle

Local Ancestry and Adaptive Introgression in Xiangnan Cattle

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