Breed Ancestry, Divergence, Admixture, and Selection Patterns of the Simbra Crossbreed

Nest, Magriet A. van der; Hlongwane, Nompilo Lucia; Hadebe, Khanyisile; Chan, Wai-Yin; Merwe, Nicolaas Albertus Van der; Vos, Lieschen De; Greyling, Ben; Kooverjee, Bhaveni B.; Soma, P.; Dzomba, E. F.; Bradfield, Michael; Muchadeyi, Farai C.

doi:10.3389/fgene.2020.608650

Cited by 5 publications

(6 citation statements)

References 94 publications

(149 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Studies including African crossbred cattle with exotic breeds (e.g. Cheruiyot et al, 2018; Van der Nest et al, 2021) and/or studies addressing non‐environmental adaptative traits (Nanaei et al, 2020) were excluded. Henceforth, the review was compiled from 22 studies selected using three main criteria: (i) genome‐wide scanning for positive selection; (ii) genome‐wide analysis using genome sequences or SNP‐Chip data; and (iii) inclusion of indigenous African cattle (taurine, zebu, sanga, zenga).…”

Section: Discussionmentioning

confidence: 99%

Candidate signatures of positive selection for environmental adaptation in indigenous African cattle: A review

Kambal,

Tijjani,

Ibrahim

et al. 2023

Animal Genetics

View full text Add to dashboard Cite

Environmental adaptation traits of indigenous African cattle are increasingly being investigated to respond to the need for sustainable livestock production in the context of unpredictable climatic changes. Several studies have highlighted genomic regions under positive selection probably associated with adaptation to environmental challenges (e.g. heat stress, trypanosomiasis, tick and tick‐borne diseases). However, little attention has focused on pinpointing the candidate causative variant(s) controlling the traits. This review compiled information from 22 studies on signatures of positive selection in indigenous African cattle breeds to identify regions under positive selection. We highlight some key candidate genome regions and genes of relevance to the challenges of living in extreme environments (high temperature, high altitude, high infectious disease prevalence). They include candidate genes involved in biological pathways relating to innate and adaptive immunity (e.g. BoLAs, SPAG11, IL1RL2 and GFI1B), heat stress (e.g. HSPs, SOD1 and PRLH) and hypoxia responses (e.g. BDNF and INPP4A). Notably, the highest numbers of candidate regions are found on BTA3, BTA5 and BTA7. They overlap with genes playing roles in several biological functions and pathways. These include but are not limited to growth and feed intake, cell stability, protein stability and sweat gland development. This review may further guide targeted genome studies aiming to assess the importance of candidate causative mutations, within regulatory and protein‐coding genome regions, to further understand the biological mechanisms underlying African cattle's unique adaption.

show abstract

Section: Discussionmentioning

confidence: 99%

Candidate signatures of positive selection for environmental adaptation in indigenous African cattle: A review

Kambal,

Tijjani,

Ibrahim

et al. 2023

Animal Genetics

View full text Add to dashboard Cite

show abstract

“…We found that the observed heterozygosity of Huaxi cattle exceeded the expected heterozygosity under the Hardy–Weinberg equilibrium. Hence, crossbreeding is still an important method to expand the genetic variation of modern cattle breeds [ 4 ]. High-intensity artificial selection might promote genetic progress, but it could lead to an increase in the population inbreeding level [ 52 ].…”

Section: Discussionmentioning

confidence: 99%

“…Hybridization is an important method for improving the desirable performance and overall genetic variation of cattle breeds [ 2 ]. Crossbreeding breeds combine the beneficial traits/genes of their purebred parental breeds, and have more superior production capacity than their parental inbred lines under the effect of heterosis [ 3 , 4 ]. Therefore, the introduction of excellent beef cattle breeds to cultivate specialized beef cattle breeds has become an important way to elevate the individual production efficiency of beef cattle.…”

Section: Introductionmentioning

confidence: 99%

“…Recently, various statistical methods have been developed to detect footprints of recent selection, including integrated haplotype score (iHS), composite likelihood ratio (CLR), cross-population extended haplotype homozygosity (XPEHH), and relative integrated EHH of a site between populations (Rsb). Application of these methods has greatly promoted the identification of candidate genes related to important economic traits in composite populations, such as Simbra crossbred [ 4 ], Vrindavani cattle [ 26 ], East African Shorthorn Zebu [ 27 ], and Swiss Fleckvieh cattle [ 25 ].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Assessing the Genetic Background and Selection Signatures of Huaxi Cattle Using High-Density SNP Array

Jun

Gao

et al. 2021

Animals

View full text Add to dashboard Cite

Huaxi cattle, a specialized beef cattle breed in China, has the characteristics of fast growth, high slaughter rate, and net meat rate, good reproductive performance, strong stress resistance, and wide adaptability. In this study, we evaluated the genetic diversity, population structure, and genetic relationships of Huaxi cattle and its ancestor populations at the genome-wide level, as well as detecting the selection signatures of Huaxi cattle. Principal component analysis (PCA) and phylogenetic analysis revealed that Huaxi cattle were obviously separated from other cattle populations. The admixture analysis showed that Huaxi cattle has distinct genetic structures among all populations at K = 4. It can be concluded that Huaxi cattle has formed its own unique genetic features. Using integrated haplotype score (iHS) and composite likelihood ratio (CLR) methods, we identified 143 and 199 potentially selected genes in Huaxi cattle, respectively, among which nine selected genes (KCNK1, PDLIM5, CPXM2, CAPN14, MIR2285D, MYOF, PKDCC, FOXN3, and EHD3) related to ion binding, muscle growth and differentiation, and immunity were detected by both methods. Our study sheds light on the unique genetic feature and phylogenetic relationship of Huaxi cattle, provides a basis for the genetic mechanism analysis of important economic traits, and guides further intensive breeding improvement of Huaxi cattle.

show abstract

“…With the expansion of agricultural society and human activities, extensive blending has occurred between different taurine and indicine populations, so there are more than over 800 live cattle breeds in the world [4]. Hybridization is a common strategy for the formation of modern livestock breeds and improving the undesirable performance of some cattle breeds, which leads to the superiority of a heterozygote over their purebred parental breeds in one or more traits [5]. In China, breeding specialized breeds through crossbreeding with commercial breeds has become an important way to improve the production efficiency of Chinese indigenous breeds.…”

Section: Introductionmentioning

confidence: 99%

Assessing Genomic Diversity and Signatures of Selection in Chinese Red Steppe Cattle Using High-Density SNP Array

Jiang

Lai

et al. 2023

Animals

View full text Add to dashboard Cite

Chinese Red Steppe Cattle (CRS), a composite cattle breed, is well known for its milk production, high slaughter rate, carcass traits, and meat quality. Nowadays, it is widely bred in Jilin and Hebei Province and the Inner Mongolia Autonomous region. However, the population structure and the genetic basis of prominent characteristics of CRS are still unknown. In this study, we systematically describe their population structure, genetic diversity, and selection signature based on genotyping data from 61 CRS individuals with GGP Bovine 100 K chip. The results showed that CRS cattle had low inbreeding levels and had formed a unique genetic structure feature. Using two complementary methods (including comprehensive haplotype score and complex likelihood ratio), we identified 1291 and 1285 potentially selected genes, respectively. There were 141 genes annotated in common 106 overlapping genomic regions covered 5.62 Mb, including PLAG1, PRKG2, DGAT1, PARP10, TONSL, ADCK5, and BMP3, most of which were enriched in pathways related to muscle growth and differentiation, milk production, and lipid metabolism. This study will contribute to understanding the genetic mechanism behind artificial selection and give an extensive reference for subsequent breeding.

show abstract

Breed Ancestry, Divergence, Admixture, and Selection Patterns of the Simbra Crossbreed

Cited by 5 publications

References 94 publications

Candidate signatures of positive selection for environmental adaptation in indigenous African cattle: A review

Candidate signatures of positive selection for environmental adaptation in indigenous African cattle: A review

Assessing the Genetic Background and Selection Signatures of Huaxi Cattle Using High-Density SNP Array

Assessing Genomic Diversity and Signatures of Selection in Chinese Red Steppe Cattle Using High-Density SNP Array

Contact Info

Product

Resources

About