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Artykuły w czasopismach na temat „Cattle Genetics”

Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 20 lutego 2023

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1

Pirchner, F. "The Genetics of Cattle." Journal of Animal Breeding and Genetics 117, no. 6 (December 2000): 416. http://dx.doi.org/10.1046/j.1439-0388.2000.00259.x.

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Willis, Malcolm B. "The Genetics of Cattle." Heredity 84, no. 1 (January 2000): 131–32. http://dx.doi.org/10.1046/j.1365-2540.2000.0696b.x.

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Edwards, J. H. "The genetics of cattle." Journal of Genetics 80, no. 3 (December 2001): 155–58. http://dx.doi.org/10.1007/bf02717912.

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4

MacHugh, David E., Mark D. Shriver, Ronan T. Loftus, Patrick Cunningham, and Daniel G. Bradley. "Microsatellite DNA Variation and the Evolution, Domestication and Phylogeography of Taurine and Zebu Cattle (Bos taurus and Bos indicus)." Genetics 146, no. 3 (July 1, 1997): 1071–86. http://dx.doi.org/10.1093/genetics/146.3.1071.

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Genetic variation at 20 microsatellite loci was surveyed to determine the evolutionary relationships and molecular biogeography of 20 different cattle populations from Africa, Europe and Asia. Phylogenetic reconstruction and multivariate analysis highlighted a marked distinction between humpless (taurine) and humped (zebu) cattle, providing strong support for a separate origin for domesticated zebu cattle. A molecular clock calculation using bison (Bison sp.) as an outgroup gave an estimated divergence time between the two subspecies of 610,000-850,000 years. Substantial differences in the dis
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5

Stock, Frauke, and Diane Gifford-Gonzalez. "Genetics and African Cattle Domestication." African Archaeological Review 30, no. 1 (March 2013): 51–72. http://dx.doi.org/10.1007/s10437-013-9131-6.

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Bradley, Daniel G., Ronan T. Loftus, Patrick Cunningham, and David E. MacHugh. "Genetics and domestic cattle origins." Evolutionary Anthropology: Issues, News, and Reviews 6, no. 3 (1998): 79–86. http://dx.doi.org/10.1002/(sici)1520-6505(1998)6:3<79::aid-evan2>3.0.co;2-r.

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Bishop, M. D., S. M. Kappes, J. W. Keele, R. T. Stone, S. L. Sunden, G. A. Hawkins, S. S. Toldo, R. Fries, M. D. Grosz, and J. Yoo. "A genetic linkage map for cattle." Genetics 136, no. 2 (February 1, 1994): 619–39. http://dx.doi.org/10.1093/genetics/136.2.619.

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Abstract We report the most extensive physically anchored linkage map for cattle produced to date. Three-hundred thirteen genetic markers ordered in 30 linkage groups, anchored to 24 autosomal chromosomes (n = 29), the X and Y chromosomes, four unanchored syntenic groups and two unassigned linkage groups spanning 2464 cM of the bovine genome are summarized. The map also assigns 19 type I loci to specific chromosomes and/or syntenic groups and four cosmid clones containing informative microsatellites to chromosomes 13, 25 and 29 anchoring syntenic groups U11, U7 and U8, respectively. This map p
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8

Mannen, H., S. Tsuji, R. T. Loftus, and D. G. Bradley. "Mitochondrial DNA Variation and Evolution of Japanese Black Cattle (Bos taurus)." Genetics 150, no. 3 (November 1, 1998): 1169–75. http://dx.doi.org/10.1093/genetics/150.3.1169.

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Abstract This article describes complete mitochondrial DNA displacement loop sequences from 32 Japanese Black cattle and the analysis of these data in conjunction with previously published sequences from African, European, and Indian subjects. The origins of North East Asian domesticated cattle are unclear. The earliest domestic cattle in the region were Bos taurus and may have been domesticated from local wild cattle (aurochsen; B. primigenius), or perhaps had an origin in migrants from the early domestic center of the Near East. In phylogenetic analyses, taurine sequences form a dense tree w
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9

Crow, J. F. "Erwin Schrödinger and the hornless cattle problem." Genetics 130, no. 2 (February 1, 1992): 237–39. http://dx.doi.org/10.1093/genetics/130.2.237.

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10

Vermeersch, A., and G. Opsomer. "Digital dermatitis in cattle." Vlaams Diergeneeskundig Tijdschrift 88, no. 5 (October 31, 2019): 247–58. http://dx.doi.org/10.21825/vdt.v88i5.15996.

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Digital dermatitis or Mortellaro’s disease is a highly prevalent bovine dermatological disorder situated in the foot region that causes lameness and impairs animal welfare. In this first part of a twin paper, the role of genetics, immunity, bacteria and hygiene in the development of this complex disease are described. There is still no consensus regarding the role of the immune system and the typically isolated Treponema spp. in the pathogenesis of digital dermatitis. Moisture and dirt are undoubtedly important for disease transmission in and between dairy farms; furthermore, the genetic compo
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11

Carvajal-Carmona, Luis G., Nelson Bermudez, Martha Olivera-Angel, Luzardo Estrada, Jorge Ossa, Gabriel Bedoya, and Andrés Ruiz-Linares. "Abundant mtDNA Diversity and Ancestral Admixture in Colombian criollo Cattle (Bos taurus)." Genetics 165, no. 3 (November 1, 2003): 1457–63. http://dx.doi.org/10.1093/genetics/165.3.1457.

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Abstract Various cattle populations in the Americas (known as criollo breeds) have an origin in some of the first livestock introduced to the continent early in the colonial period (16th and 17th centuries). These cattle constitute a potentially important genetic reserve as they are well adapted to local environments and show considerable variation in phenotype. To examine the genetic ancestry and diversity of Colombian criollo we obtained mitochondrial DNA control region sequence information for 110 individuals from seven breeds. Old World haplogroup T3 is the most commonly observed CR lineag
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12

Murdoch, Brenda M., and Gordon K. Murdoch. "Genetics of Prion Disease in Cattle." Bioinformatics and Biology Insights 9S4 (January 2015): BBI.S29678. http://dx.doi.org/10.4137/bbi.s29678.

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Bovine spongiform encephalopathy (BSE) is a prion disease that is invariably fatal in cattle and has been implicated as a significant human health risk. As a transmissible disease of livestock, it has impacted food safety, production practices, global trade, and profitability. Genetic polymorphisms that alter the prion protein in humans and sheep are associated with transmissible spongiform encephalopathy susceptibility or resistance. In contrast, there is no strong evidence that nonsynonymous mutations in the bovine prion gene (PRNP) are associated with classical BSE (C-BSE) disease susceptib
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13

Crow, James F. "A Golden Anniversary: Cattle Twins and Immune Tolerance." Genetics 144, no. 3 (November 1, 1996): 855–59. http://dx.doi.org/10.1093/genetics/144.3.855.

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14

Decker, Jared E., Troy N. Rowan, Sara Nilson, Harly J. Durbin, Camila U. Braz, Robert D. Schnabel, and Christopher Seabury. "36 Matching cow’s genetics to the environment using genomics." Journal of Animal Science 97, Supplement_3 (December 2019): 34. http://dx.doi.org/10.1093/jas/skz258.067.

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Abstract Cattle poorly adapted to their environment result in lost revenue and jeopardize the stability of the food supply. Genomic data now allows us to rigorously analyze adaptations and avoid the generation of animals that will not thrive. We used selection scans for local adaptation, genotype-by-environment genome-wide association analyses, creation of hair shedding genomic predictions and environmental region-specific genomic predictions of growth traits to characterize and predict local adaptation in beef cattle. Analyzing ~40,000 cattle from three breed associations with ~850,000 high-a
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15

Lagziel, A., E. Lipkin, and M. Soller. "Association Between SSCP Haplotypes at the Bovine Growth Hormone Gene and Milk Protein Percentage." Genetics 142, no. 3 (March 1, 1996): 945–51. http://dx.doi.org/10.1093/genetics/142.3.945.

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Abstract The bovine Growth Hormone gene (bGH) is an attractive candidate gene for milk production in cattle. Single-strand conformation polymorphisms at bGH were identified and used to define haplotype configurations at this gene in the Israeli Holstein dairy cattle population (Bos taurus) and in the parent animals of the International Bovine Reference Family Panel (a collection of B. taurus and B. indicus crosses). B. taurus and B. indicus haplotypes at the bGH gene differed qualitatively, confirming the previously proposed long evolutionary separation of these cattle subraces. Only a small n
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16

Steinborn, Ralf, Pamela Schinogl, David N. Wells, Andreas Bergthaler, Mathias Müller, and Gottfried Brem. "Coexistence ofBos taurusandB. indicusMitochondrial DNAs in Nuclear Transfer-Derived Somatic Cattle Clones." Genetics 162, no. 2 (October 1, 2002): 823–29. http://dx.doi.org/10.1093/genetics/162.2.823.

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AbstractWe investigated the mitochondrial DNA (mtDNA) composition in one of the largest adult somatic mammalian clones (n = 20) reported so far. The healthy cloned cattle were derived from nuclear transfer of an identical nuclear genetic background (mural granulosa donor cells including surrounding cytoplasm) into enucleated oocytes with either Bos indicus or B. taurus mtDNA. Here we report the first cases of coexisting mtDNAs of two closely related subspecies following nuclear transfer. Heteroplasmy (0.6-2.8%) was found in 4 out of 11 cross-subspecies cloned cattle. Quantitation was performed
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17

Visscher, Peter M., and Michael E. Goddard. "Cattle gain stature." Nature Genetics 43, no. 5 (April 27, 2011): 397–98. http://dx.doi.org/10.1038/ng.819.

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18

Belikova, A. "Genetics of mastitis resistance in dairy cattle." Genetics and breeding of animals, no. 1 (March 25, 2022): 47–53. http://dx.doi.org/10.31043/2410-2733-2022-1-47-53.

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Mastitis is one of the most common diseases of dairy cattle that appreciates the enormous losses of farm worldwide. Current treatment and prevention developed at the moment does not guarantee the reliable protection of animals from the disease, given the polyethological nature of mastitis. An important method of combating this problem may be a selection aimed at improving the immunity of livestock to the inflammation of the breast.The purpose of the article was to search and systematize information on genes associated with the sustainability of dairy cattle towards the development of clinical
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19

Anderson, Dean M., Rick E. Estell, Alfredo L. Gonzalez, Andres F. Cibils, and L. Allen Torell. "Criollo cattle: Heritage Genetics for Arid Landscapes." Rangelands 37, no. 2 (April 2015): 62–67. http://dx.doi.org/10.1016/j.rala.2015.01.006.

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20

Taberlet, Pierre, Eric Coissac, Johan Pansu, and François Pompanon. "Conservation genetics of cattle, sheep, and goats." Comptes Rendus Biologies 334, no. 3 (March 2011): 247–54. http://dx.doi.org/10.1016/j.crvi.2010.12.007.

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21

Lyons, D. T., A. E. Freeman, and A. L. Kuck. "Genetics of Health Traits in Holstein Cattle." Journal of Dairy Science 74, no. 3 (March 1991): 1092–100. http://dx.doi.org/10.3168/jds.s0022-0302(91)78260-x.

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22

Yudin, N. S., and D. M. Larkin. "Whole genome studies of origin, selection and adaptation of the Russian cattle breeds." Vavilov Journal of Genetics and Breeding 23, no. 5 (August 24, 2019): 559–68. http://dx.doi.org/10.18699/vj19.525.

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Our review presents several recent studies on the genetic history and signatures of selection in genomes of the native Russian cattle breeds. Most of these works are not easily accessible for the Russian-speaking audience. We describe the origins of appearance of the Russian cattle breeds from the genetics perspective. We point to the links between most of the Russian breeds with the taurine breeds of the European origin and for some Russian breeds with the breeds of the Asian origin. We describe major phylogenetic clusters of the Russian breeds and point to those that still maintain their uni
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23

Mustafa, Hamid, Kim Eiusoo, Huson Heather, Adeela Ajmal, David Riley, Nasser Pasha, Afzal Ali, Khalid Javed, and Tad Sonstegard. "Genome-wide SNPs analysis of indigenous zebu breeds in Pakistan." Biotehnologija u stocarstvu 33, no. 1 (2017): 13–25. http://dx.doi.org/10.2298/bah1701013m.

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Prospects of high throughput technology in animal genetics makes easy to investigate hidden genetic variation in farm animal?s genetic resources. However, many SNPs technologies are currently practicing in animal genetics. In this study, we investigated genome wide SNPs variations and its distribution across the indigenous cattle population in Pakistan using Illumina Bovine HD (777K) SNPs bead chip. A total of 136 individuals from ten different breeds were genotyped and after filtration 500, 939 SNPs markers were used for further analysis. The mean minor allele frequency (MAF) was 0.23, 0.20,
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24

Burrow, H. M., and B. M. Bindon. "Genetics research in the Cooperative Research Centre for Cattle and Beef Quality." Australian Journal of Experimental Agriculture 45, no. 8 (2005): 941. http://dx.doi.org/10.1071/ea05069.

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In its first 7-year term, the Cooperative Research Centre (CRC) for the Cattle and Beef Industry (Meat Quality) identified the genetic and non-genetic factors that impacted on beef eating quality. Following this, the CRC for Cattle and Beef Quality was established in 1999 to identify the consequences of improving beef eating quality and feed efficiency by genetic and non-genetic means on traits other than carcass and beef quality. The new CRC also had the responsibility to incorporate results from the first Beef CRC in national schemes such as BREEDPLAN (Australia’s beef genetic evaluation sch
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25

Kramarenko, A. S. "Genetic structure of the Southern meat cattle breed based on microsatellite markers." Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies 21, no. 91 (November 6, 2019): 21–28. http://dx.doi.org/10.32718/nvlvet-a9104.

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The Southern Meat cattle is a composite breed developed by crossing Cuban zebu (Bos indicus) with different cattle breeds (Bos taurus) – local the Red Steppe, Hereford, Charolais, Santa Gertrudis, Dairy Shorthorn. Genetic structure of the Southern meat cattle breed from the State Enterprise Experimental Farm “Askaniyske” NAAS Ukraine (Kherson region) were investigated based on the microsatellite DNA loci. Analysis included 192 animals. A panel of 12 bovine-specific microsatellite markers (TGLA227, BM2113, TGLA53, ETH10, SPS115, TGLA122, INRA23, TGLA126, BM1818, ETH3, ETH225 and BM1824), recomme
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GN, Purohit. "Reproductive Biotechnologies in Indian Cattle." Open Access Journal of Veterinary Science & Research 3, no. 1 (2018): 1–4. http://dx.doi.org/10.23880/oajvsr-16000149.

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In recent years there have been immense improvements in application of reproductive biotechnologies in ca ttle and include artificial insemination, embryo transfer, ovum pick up and in vitro fertilization, semen sexing, cloning, transgenics and xenotransplantation. The purpose of these technologies had been improvement of the genetics of animals or producing a nimals of benefit to human beings. The application of these technologies in indigenous dairy cows of India had been slow. This manuscript describes the status of some of the reproductive biotechnologies as applied to Indian breeds of cow
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Mauki, David H., Adeniyi C. Adeola, Said I. Ng’ang’a, Abdulfatai Tijjani, Ibikunle Mark Akanbi, Oscar J. Sanke, Abdussamad M. Abdussamad, et al. "Genetic variation of Nigerian cattle inferred from maternal and paternal genetic markers." PeerJ 9 (March 5, 2021): e10607. http://dx.doi.org/10.7717/peerj.10607.

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The African cattle provide unique genetic resources shaped up by both diverse tropical environmental conditions and human activities, the assessment of their genetic diversity will shade light on the mechanism of their remarkable adaptive capacities. We therefore analyzed the genetic diversity of cattle samples from Nigeria using both maternal and paternal DNA markers. Nigerian cattle can be assigned to 80 haplotypes based on the mitochondrial DNA (mtDNA) D-loop sequences and haplotype diversity was 0.985 + 0.005. The network showed two major matrilineal clustering: the dominant cluster consti
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Koch, Linda. "African cattle adaptations." Nature Reviews Genetics 21, no. 12 (October 5, 2020): 718–19. http://dx.doi.org/10.1038/s41576-020-00293-w.

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Mohamad, K., M. Olsson, G. Andersson, B. Purwantara, HTA van Tol, H. Rodriguez-Martinez, B. Colenbrander, and JA Lenstra. "The Origin of Indonesian Cattle and Conservation Genetics of the Bali Cattle Breed." Reproduction in Domestic Animals 47 (December 29, 2011): 18–20. http://dx.doi.org/10.1111/j.1439-0531.2011.01960.x.

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Pryce, Jennie E., Ben J. Hayes, Sunduimijid Bolormaa, and Michael E. Goddard. "Polymorphic Regions Affecting Human Height Also Control Stature in Cattle." Genetics 187, no. 3 (January 6, 2011): 981–84. http://dx.doi.org/10.1534/genetics.110.123943.

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Mir, P. S., D. R. C. Bailey, Z. Mir, S. D. M. Jones, T. Entz, S. D. Husar, N. H. Shannon, and W. M. Robertson. "Effect of feeding barley based diets on animal performance, carcass characteristics and meat quality of crossbred beef cattle with and without Wagyu genetics." Canadian Journal of Animal Science 77, no. 4 (December 1, 1997): 655–62. http://dx.doi.org/10.4141/a97-029.

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Growth performance, carcass characteristics and meat quality of European and British crossbred (EBC; no Wagyu genetics; 28 heifers and 30 steers) cattle were compared with crossbred cattle with 75% Wagyu genetics (WC; seven heifers and 14 steers) to determine the influence of Wagyu genetics on marbling grade of beef cattle fed barley-based diets in a factorial design experiment. Weaned calves (250 d average age) were fed, one of two diets (diet 1, 35% barley grain; diet 2, 40% hay cubes on DM basis, with barley silage, protein and vitamin/mineral premix) for 84 d and then fed diet 1 until they
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Holečková, Beáta, Viera Schwarzbacherová, Martina Galdíková, Simona Koleničová, Jana Halušková, Jana Staničová, Valéria Verebová, and Annamária Jutková. "Chromosomal Aberrations in Cattle." Genes 12, no. 9 (August 27, 2021): 1330. http://dx.doi.org/10.3390/genes12091330.

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Chromosomal aberrations and their mechanisms have been studied for many years in livestock. In cattle, chromosomal abnormalities are often associated with serious reproduction-related problems, such as infertility of carriers and early mortality of embryos. In the present work, we review the mechanisms and consequences of the most important bovine chromosomal aberrations: Robertsonian translocations and reciprocal translocations. We also discuss the application of bovine cell cultures in genotoxicity studies.
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33

Georges, M., D. Nielsen, M. Mackinnon, A. Mishra, R. Okimoto, A. T. Pasquino, L. S. Sargeant, A. Sorensen, M. R. Steele, and X. Zhao. "Mapping quantitative trait loci controlling milk production in dairy cattle by exploiting progeny testing." Genetics 139, no. 2 (February 1, 1995): 907–20. http://dx.doi.org/10.1093/genetics/139.2.907.

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Abstract We have exploited "progeny testing" to map quantitative trait loci (QTL) underlying the genetic variation of milk production in a selected dairy cattle population. A total of 1,518 sires, with progeny tests based on the milking performances of &amp;gt; 150,000 daughters jointly, was genotyped for 159 autosomal microsatellites bracketing 1645 centimorgan or approximately two thirds of the bovine genome. Using a maximum likelihood multilocus linkage analysis accounting for variance heterogeneity of the phenotypes, we identified five chromosomes giving very strong evidence (LOD score &am
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Crawford, A. M., K. G. Dodds, A. J. Ede, C. A. Pierson, G. W. Montgomery, H. G. Garmonsway, A. E. Beattie, K. Davies, J. F. Maddox, and S. W. Kappes. "An autosomal genetic linkage map of the sheep genome." Genetics 140, no. 2 (June 1, 1995): 703–24. http://dx.doi.org/10.1093/genetics/140.2.703.

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Abstract We report the first extensive ovine genetic linkage map covering 2070 cM of the sheep genome. The map was generated from the linkage analysis of 246 polymorphic markers, in nine three-generation full-sib pedigrees, which make up the AgResearch International Mapping Flock. We have exploited many markers from cattle so that valuable comparisons between these two ruminant linkage maps can be made. The markers, used in the segregation analyses, comprised 86 anonymous microsatellite markers derived from the sheep genome, 126 anonymous microsatellites from cattle, one from deer, and 33 poly
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Konovalova, Elena, Olga Romanenkova, Olga Kostyunina, and Elena Gladyr. "The Molecular Bases Study of the Inherited Diseases for the Health Maintenance of the Beef Cattle." Genes 12, no. 5 (April 30, 2021): 678. http://dx.doi.org/10.3390/genes12050678.

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The article highlighted the problem of meat cattle genetic defects. The aim was the development of DNA tests for some genetic defects diagnostics, the determination of the animal carriers and their frequencies tracking in time. The 1490 DNA samples from the Aberdeen Angus (n = 701), Hereford (n = 385), Simmental (n = 286) and Belgian Blue (n = 118) cattle have been genotyped on the genetic defects by newly created and earlier developed DNA tests based on AS-PCR and PCR-RFLP methods. The Aberdeen Angus cattle genotyping has revealed 2.38 ± 0.31% AMC-cows and 1.67 ± 0.19 % AMC-bulls, 0.65 ± 0.07
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Larkin, Denis M., Annelie Everts-van der Wind, Mark Rebeiz, Peter A. Schweitzer, Sharon Bachman, Cheryl Green, Chris L. Wright, et al. "A Cattle–Human Comparative Map Built with Cattle BAC-Ends and Human Genome Sequence." Genome Research 13, no. 8 (August 2003): 1966–72. http://dx.doi.org/10.1101/gr.1560203.

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As a step toward the goal of adding the cattle genome to those available for multispecies comparative genome analysis, 40,224 cattle BAC clones were end-sequenced, yielding 60,547 sequences (BAC end sequences, BESs) after trimming with an average read length of 515 bp. Cattle BACs were anchored to the human and mouse genome sequences by BLASTN search, revealing 29.4% and 10.1% significant hits (E &lt; e-5), respectively. More than 60% of all cattle BES hits in both the human and mouse genomes are located within known genes. In order to confirm in silico predictions of orthology and their relat
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Meirelles, Flávio V., Vilceu Bordignon, Yeda Watanabe, Michelle Watanabe, André Dayan, Raysildo B. Lôbo, Joaquim M. Garcia, and Lawrence C. Smith. "Complete Replacement of the Mitochondrial Genotype in a Bos indicus Calf Reconstructed by Nuclear Transfer to a Bos taurus Oocyte." Genetics 158, no. 1 (May 1, 2001): 351–56. http://dx.doi.org/10.1093/genetics/158.1.351.

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Abstract Due to the exclusively maternal inheritance of mitochondria, mitochondrial genotypes can be coupled to a particular nuclear genotype by continuous mating of founder females and their female offspring to males of the desired nuclear genotype. However, backcrossing is a gradual procedure that, apart from being lengthy, cannot ascertain that genetic and epigenetic changes will modify the original nuclear genotype. Animal cloning by nuclear transfer using host ooplasm carrying polymorphic mitochondrial genomes allows, among other biotechnology applications, the coupling of nuclear and mit
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Hristov, Peter, Daniela Sirakova, Ivan Mitkov, Nikolai Spassov, and Georgi Radoslavov. "Balkan brachicerous cattle – the first domesticated cattle in Europe." Mitochondrial DNA Part A 29, no. 1 (December 8, 2016): 56–61. http://dx.doi.org/10.1080/24701394.2016.1238901.

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Lynn, David J., Abigail R. Freeman, Caitriona Murray, and Daniel G. Bradley. "A Genomics Approach to the Detection of Positive Selection in Cattle:." Genetics 170, no. 3 (March 31, 2005): 1189–96. http://dx.doi.org/10.1534/genetics.104.039040.

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Zhang, Qianqian, Mario P. L. Calus, Mirte Bosse, Goutam Sahana, Mogens Sandø Lund, and Bernt Guldbrandtsen. "Human-Mediated Introgression of Haplotypes in a Modern Dairy Cattle Breed." Genetics 209, no. 4 (May 30, 2018): 1305–17. http://dx.doi.org/10.1534/genetics.118.301143.

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Gautier, Mathieu, Thomas Faraut, Katayoun Moazami-Goudarzi, Vincent Navratil, Mario Foglio, Cécile Grohs, Anne Boland, et al. "Genetic and Haplotypic Structure in 14 European and African Cattle Breeds." Genetics 177, no. 2 (August 24, 2007): 1059–70. http://dx.doi.org/10.1534/genetics.107.075804.

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Stella, Alessandra, Paolo Ajmone-Marsan, Barbara Lazzari, and Paul Boettcher. "Identification of Selection Signatures in Cattle Breeds Selected for Dairy Production." Genetics 185, no. 4 (May 17, 2010): 1451–61. http://dx.doi.org/10.1534/genetics.110.116111.

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Rogic, Biljana, Bozo Vazic, Mihajla Djan, and Marina Stamenkovic-Radak. "Genetic diversity and structure of autochthonous cattle breeds from Bosnia and Herzegovina based on microsatellites." Genetika 51, no. 1 (2019): 335–45. http://dx.doi.org/10.2298/gensr1901335r.

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Genotype data from 21 microsatellites were used to evaluate genetic diversity and relationships of Gatacko cattle and Busha breeds. A total of 100 animals included in the study were divided into three groups: Gatacko cattle (GC), Busha from eastern Herzegovina (BEH) and Busha from western Herzegovina (BWH). Hardy-Weinberg equilibrium was observed for all loci in all groups, except for single locus (INRA35) in group of Busha from western Herzegovina. A total number of 166 alleles were detected in a total sample. The average number of alleles per locus was 7.9. The highest observed mean heterozy
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Mir, Z., L. J. Paterson, and P. S. Mir. "Fatty acid composition and conjugated linoleic acid content of intramuscular fat in crossbred cattle with and without Wagyu genetics fed a barley-based diet." Canadian Journal of Animal Science 80, no. 1 (March 1, 2000): 195–97. http://dx.doi.org/10.4141/a98-113.

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Fatty acid composition and conjugated linoleic acid (CLA) content in pars costalis diaphragmatis (PCD) muscle from European and British crossbred (EBC; no Wagyu genetics) and Wagyu crossbred (WC; 75% Wagyu genetics) beef cattle were determined. Conjugated linoleic acid contents of PCD muscle from EBC (1.7 mg CLA g−1 lipid) and WC (1.8 mg CLA g−1 lipid) cattle were similar (P &gt; 0.05), while WC cattle had higher (P &lt; 0.05) CLA content 100 g−1 of beef on a DM basis because the lipid content of meat from WC cattle was greater (P &lt; 0.05) than that from EBC cattle Key words: Conjugated lino
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Mwangi, Felista W., Edward Charmley, Christopher P. Gardiner, Bunmi S. Malau-Aduli, Robert T. Kinobe, and Aduli E. O. Malau-Aduli. "Diet and Genetics Influence Beef Cattle Performance and Meat Quality Characteristics." Foods 8, no. 12 (December 6, 2019): 648. http://dx.doi.org/10.3390/foods8120648.

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A comprehensive review of the impact of tropical pasture grazing, nutritional supplementation during feedlot finishing and fat metabolism-related genes on beef cattle performance and meat-eating traits is presented. Grazing beef cattle on low quality tropical forages with less than 5.6% crude protein, 10% soluble starches and 55% digestibility experience liveweight loss. However, backgrounding beef cattle on high quality leguminous forages and feedlot finishing on high-energy diets increase meat flavour, tenderness and juiciness due to improved intramuscular fat deposition and enhanced mono- a
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Bora, Shelema Kelbessa, Tesfaye Sisay Tessema, and Gebrerufael Girmay. "Genetic Diversity and Population Structure of Selected Ethiopian Indigenous Cattle Breeds Using Microsatellite Markers." Genetics Research 2023 (January 14, 2023): 1–12. http://dx.doi.org/10.1155/2023/1106755.

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Background. In Ethiopia, livestock contributes 45% of agricultural GDP. Despite the economic role played by the sector, there have been little efforts to genetically improve the indigenous cattle. Morphological characterization of selected Ethiopian indigenous cattle has been made for (Bonga, Jimma, and Kerayu) cattle types. But, the selected indigenous cattle were not characterized at molecular level (genetic diversity information). Hence, this work was initiated to detect and determine the genetic diversity and population structure of selected Ethiopian indigenous cattle ecotypes using micro
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Wegner, J., P. Huff, C. P. Xie, F. Schneider, F. Teuscher, P. S. Mir, Z. Mir, E. C. Kazala, R. J. Weselake, and K. Ender. "Relationship of plasma leptin concentration to intramuscular fat content in beef from crossbred Wagyu cattle." Canadian Journal of Animal Science 81, no. 4 (December 1, 2001): 451–57. http://dx.doi.org/10.4141/a00-111.

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Plasma leptin concentrations and beef cattle carcass characteristics in eight Continental Crossbred steers [0% Wagyu Cattle (WC)] were compared to crossbred cattle with 50 and 75% WC (eight steers each) genetic makeup to determine if a relationship exists between plasma leptin concentrations and intramuscular fat content (marbling) in beef cattle. Plasma leptin concentrations were measured at two stages of cattle growth, 16 and 4 wk prior to slaughter (W P S). Beef cattle characteristics including marbling score, ribeye area, i.m. total lipid content, and backfat depth were determined, and cor
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Rupp, Rachel, and Didier Boichard. "Genetics of resistance to mastitis in dairy cattle." Veterinary Research 34, no. 5 (September 2003): 671–88. http://dx.doi.org/10.1051/vetres:2003020.

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Bortoliero Costa, Camila, Tamires Korchovei Sanches, Mariana Moreira dos Anjos, Deborah Nakayama Yokomizo, and Marcelo Marcondes Seneda. "MAXIMIZING IN VITRO EMBRYO PRODUCTION IN CATTLE." SPERMOVA 11, no. 2 (December 31, 2021): 96–102. http://dx.doi.org/10.18548/aspe/0009.13.

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In vitro embryo production (IVEP) is used to develop high-quality genetics associated with intergenerational genetic gain. It is characterized by acquisition (in vivo or post-mortem) and maturation (MIV) of oocytes from donors, followed by fertilization (FIV) of matured oocytes and culture (IVC) of embryos, which are then sent to transferred or cryopreserved. Even with extensive knowledge on IVEP, some biochemical and hormonal regulations that involve embryonic development are still unknown, leading to a low overall efficiency of the biotechnological process. Although in vitro developed embryo
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Bögeholz, Anke, Clemens Falker-Gieske, Monika Guélat, Corinne Gurtner, Sibylle Hunziker, Anna Oevermann, Georg Thaller, Cord Drögemüller, and Jens Tetens. "GWAS Hits for Bilateral Convergent Strabismus with Exophthalmos in Holstein Cattle Using Imputed Sequence Level Genotypes." Genes 12, no. 7 (July 4, 2021): 1039. http://dx.doi.org/10.3390/genes12071039.

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Bilateral convergent strabismus with exophthalmos (BCSE) is a malformation of the eyes and is recognized as a mild but progressive disorder that affects cattle in the first two years of life. This most likely inherited disorder is rarely described in cattle resembling autosomal dominantly inherited forms of human progressive external ophthalmoplegia (PEO). In German Braunvieh cattle, two linked genome regions were found that could be responsible for the development and/or progression of BCSE. The goal of this study was to phenotypically characterize BCSE in Holstein cattle from Germany and Swi
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