共查询到20条相似文献,搜索用时 15 毫秒
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Nahas SM Oraby HO Othman OE Hondt HA Bosma AA Womack JE 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》1997,114(1-6):451-455
A standard karyotype for the River Buffalo has recently been established. The largest five chromosomes are biarmed and, based on the banding homology between cattle and buffalo chromosomes, were suggested to originate from the fusion of cattle acrocentric chromosomes. The origin of buffalo chromosome 1 is controversial due to the difficulty in differentiating between the small acrocentric cattle chromosomes. Using molecular markers assigned to cattle chromosomes, synteny between CD18, a marker for BTA1, and markers for small acrocentric cattle chromosomes BTA 24 to BTA 29 was investigated in buffalo/hamster somatic cell hybrids. The investigation revealed that CD18 is syntenic with ANT1, a marker for cattle chromosome 27. The present results confirm that buffalo BBU1 results from fusion of cattle BTA 1 and BTA 27. They also underline the importance of biarmed buffalo chromosomes for the identification of small cattle acrocentrics. 相似文献
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Tetsuo KUNIEDA 《Animal Science Journal》2005,76(6):525-533
In the breeding of domestic animals, selection of economically desired traits has been the most important consideration for the improvement of animals, but excluding negative factors in animal production, such as causative genes for hereditary diseases, is also required for the genetic improvement of domestic animals. The incidence of various hereditary diseases has been reported in Japanese beef cattle and these diseases have caused serious problems in the breeding and raising of healthy beef cattle. This article reviews the identification of causative genes for the following three hereditary diseases in Japanese beef cattle: (i) Chediak–Higashi syndrome; (ii) renal tubular dysplasia; and (iii) bovine chondrodysplastic dwarfism. Chediak–Higashi syndrome is a hereditary bleeding disorder reported in Japanese black cattle. To identify the cause of this disease, we cloned and sequenced the bovine LYST gene, which has been found to be involved in Chediak–Higashi syndrome in humans, and found that an amino acid substitution of histidine to arginine at amino acid residue 2015 is the causative mutation in the cattle disease. Renal tubular dysplasia is a hereditary disease of Japanese black cattle showing renal failure and growth retardation. We mapped the locus for this disease to the 4 cM region of bovine chromosome 1 by linkage analysis and found a large deletion in this region. The deleted region contained the PCLN1 gene encoding a tight‐junction protein of renal epithelial cells, and we concluded that deletion of the PCLN1 gene is responsible for the disease. Bovine chondrodysplastic dwarfism is a hereditary disease of Japanese brown cattle, displayed by short limbs and joint abnormalities. We mapped the locus for the disease to a region of bovine chromosome 6 by linkage analysis. By constructing YAC and BAC contigs covering this region and sequence analysis, we identified a novel gene (LIMBIN), which plays an essential role in bone formation in this region, and found two mutations responsible for the disease. The identification of these mutations provided the basis for DNA‐based diagnostic systems for these three diseases, and after development of the diagnosis systems, the incidences of these hereditary diseases have dramatically decreased. 相似文献
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The nuclear mitochondrial pseudogenes (numts), originated from mtDNA insertions into the nuclear genome, have been detected to exist in many species. However, the distribution of numts in cattle nuclear genome yet has not been fully reported. By referring to the whole cattle mtDNA sequence and to the recently released cattle nuclear genome by Human Genome Sequencing Center (HGSC), 303 numts were identified by BLAST with 55 numts unmapped to cattle nuclear genome. Further analysis found that the size of the numts ranges from 37 to 1932 bp, and the homologous identity between numts and their corresponding mtDNA fragments varies from 73 to 98%. Furthermore, the identified cattle numts cover nearly all the mitochondrial genes including mtDNA control region, distributing over all the chromosomes with the exception of the chromosome 23 and Y chromosome (in the latter the sequence data are not available). In the discovered numts, 29 relatively complete mitochondrial genes, which were distributed in 72 numts, were detected. Undoubtedly, this research would provide some valuable information for successive research related to mitochondrial genes and the evolution of cattle. 相似文献
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试验旨在研究牦牛角蛋白关联蛋白1(keratin associated protein 1,KAP1)家族基因长度多态与重复序列特点。研究对牦牛和黄牛KAP1家族基因进行测序,并与绵羊已知序列进行比较分析。结果发现,牛KAP1家族位于19号染色体,根据绵羊KAP1家族基因在染色体上的位置与相似性,重新命名了牛KAP1家族基因B2D、B2A、KAP1-1和B2C为KAP1-4、KAP1-1、KAP1-2、KAP1-3(按照染色体上的基因顺序)。KAP1家族基因之间在3'和5'端区域高度保守,中间有重复序列长度差异,其中牦牛KAP1-KAP4基因发现有30 bp的长度多态。研究其蛋白序列发现5个氨基酸为基序的重复序列B(CCQTS)A1(CCQPT),以及一个新的重复序列C(SIQTS)。本研究结果说明重复序列是KAP1家族基因间和基因内的主要差异区域,这可能与其角蛋白结合螺旋数相关。 相似文献
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This study was aimed to understand the characteristics of length polymorphism with repeat sequence of keratin associated protein 1 (KAP1) family genes in yak. KAP1 family genes of yak and cattle were sequenced, and compared with sheep KAP1 family gene sequences. The results showed that cattle KAP1 family genes were located in chromosome 19, according to location of sheep KAP1 family genes in the chromosome and similarity with cattle KAP1 family genes, renaming the cattle KAP1 family (according to the gene location of chromosome) B2D, B2A, KAP1-1 and B2C genes into KAP1-4, KAP1-1, KAP1-2 and KAP1-3 gene, respectively. KAP1 family genes in the 3'and 5' flank were highly conserved, the difference between family genes mainly in the the repeat sequence region, which yak KAP1 to KAP4 genes were found 30 bp length polymorphism. There were B(CCQTS)A1(CCQPT) repeat sequence and a new repeat sequence C(SIQTS). The results indicated that the repeat sequence was the key of the polymorphism of KAP1 family genes, which might be relate to combination with keratin protein. 相似文献
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西藏黄牛染色体的研究 总被引:5,自引:0,他引:5
研究了西藏黄牛的普通核型和C带核型,着重分析了Y染色体的形态。结果表明,西藏黄牛核型为2N=60,公牛为XY,母牛为XX,常染色体为近端着丝粒染色体。X染色体为亚中着丝粒染色体,Y染色体中中部着丝粒杂色体。根据Y染色体的形态讨论了西藏黄牛的起源。 相似文献
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F E Eldridge 《The Veterinary record》1975,97(4):71-73
Chromosome preparations were made from lymphocyte cultures on 52 head of British White park cattle. A translocation chromosome was found at a frequency of 60 per cent. The translocation was concluded to be 1/27, but was assumed to be the same translocation identified as 1/29 in several breeds of European continental cattle. 相似文献
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H. Khatib I. Zaitoun Y.M. Chang C. Maltecca & P. Boettcher 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2007,124(1):26-28
In dairy cattle, many studies have reported quantitative trait loci (QTL) on the centromeric end of chromosome 14 that affect milk production traits. One of the candidate genes in this QTL region – thyroglobulin (TG) – was previously found to be significantly associated with marbling in beef cattle. Thus, based on QTL studies in dairy cattle and because of possible effects of this gene on fat metabolism, we investigated the association of TG with milk yield and composition in Holstein dairy cattle. A total of 1279 bulls from the Cooperative Dairy DNA Repository Holstein population were genotyped for a single nucleotide polymorphism in TG used previously in beef cattle studies. Analysis of 29 sire families showed no significant association between TG variants and milk production traits. Within‐sire family analysis suggests that TG is neither the responsible gene nor a genetic marker in association with milk production traits. 相似文献
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[目的]通过Y-SNP分子标记方法研究湘西黄牛的遗传多样性、群体遗传结构及父系起源。[方法]采用PCR扩增、测序与生物信息学方法,对24头湘西黄牛的2个Y-SNPs(UTY-19和ZFY-10)标记进行多态性分析。[结果]结果表明,湘西黄牛有Y1和Y3两种单倍型组,频率分别为12.5%和87.5%,表明湘西黄牛可能有普通牛和瘤牛2个父系起源。湘西黄牛的Y-SNP遗传多样度为0.2283±0.0978,表明湘西黄牛具有较低的父系遗传多样性,品种纯度较高。[结论]湘西黄牛的父系起源为瘤牛Y3单倍型组,其Y1单倍型组为国外肉牛杂交所致。 相似文献
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McDaneld TG Kuehn LA Thomas MG Snelling WM Sonstegard TS Matukumalli LK Smith TP Pollak EJ Keele JW 《Journal of animal science》2012,90(7):2142-2151
Reproductive efficiency is of economic importance in commercial beef cattle production, since failure to achieve pregnancy reduces the number of calves marketed. Identification of genetic markers with predictive merit for reproductive success would facilitate early selection of females and avoid inefficiencies associated with sub-fertile cows. To identify regions of the genome harboring variation affecting reproductive success, we applied a genome-wide association approach based on the >700,000 SNP marker assay. To include the largest number of individuals possible under the available budget, cows from several populations were assigned to extremes for reproductive efficiency, and DNA was pooled within population and phenotype before genotyping. Surprisingly, pools prepared from DNA of low reproductive cattle returned fluorescence intensity data intermediate between fertile females and males for SNP mapped to the Y chromosome (i.e., male sex chromosome). The presence of Y-associated material in low reproductive heifers or cows was confirmed by Y-directed PCR, which revealed that 21 to 29% of females in the low reproductive category were positive by a Y chromosome PCR test normally used to sex embryos. The presence of the Y chromosome anomaly was further confirmed with application of additional Y-specific PCR amplicons, indicating the likelihood of the presence of some portion of male sex chromosome in female cattle in various beef cattle herds across the U.S. Discovery of this Y anomaly in low reproductive females may make an important contribution to management of reproductive failures in beef cattle operations. 相似文献
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Differences in genetic structure assessed using Y‐chromosome and mitochondrial DNA markers do not shape the contributions to diversity in African sires 
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下载免费PDF全文 A. Traoré D.O. Koudandé I. Fernández A. Soudré S. Diarra M. Sanou H. Boussini F. Goyache 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2017,134(5):393-404
Up to 173 African sires belonging to 11 different subpopulations representative of four cattle groups were analysed for six Y‐specific microsatellite loci and a mitochondrial DNA fragment. Differences in Y‐chromosome and mtDNA haplotype structuring were assessed. In addition, the effect of such structuring on contributions to total genetic diversity was assessed. Thirty‐five Y‐chromosome and 71 mtDNA haplotypes were identified. Most Y‐chromosomes analysed (73.4%) were of zebu origin (11 haplotypes). Twenty‐two Y‐haplotypes (44 samples) belonged to the African taurine subfamily Y2a. All mtDNA haplotypes belonged to the “African” taurine T1 haplogroup with 16 samples and nine haplotypes belonging to a recently identified subhaplogroup (T1e). Median‐joining networks showed that Y‐chromosome phylogenies were highly reticulated with clear separation between zebu and taurine clusters. Mitochondrial haplotypes showed a clear star‐like shape with small number of mutations separating haplotypes. Mitochondrial‐based FST‐statistics computed between cattle groups tended to be statistically non‐significant (p > .05). Most FST values computed among groups and subpopulations using Y‐chromosome markers were statistically significant. AMOVA confirmed that divergence between cattle groups was only significant for Y‐chromosome markers (ΦCT = 0.209). At the mitochondrial level, African sires resembled an undifferentiated population with individuals explaining 94.3% of the total variance. Whatever the markers considered, the highest contributions to total Nei's gene diversity and allelic richness were found in West African cattle. Genetic structuring had no effect on patterns of contributions to diversity. 相似文献
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科尔沁牛染色体14/24易位的初步研究 总被引:1,自引:0,他引:1
对内蒙古哲盟地区的5头科尔沁牛进行了细胞遗传学检查。结果:3♀和1♂核型全为2n=60,可配成30对,29对常染色体和1对性染色体,性染色体X为大型亚中着丝粒,Y为小型亚中着丝粒染色体;1♂的核型为异常核型,59,XY,t(14:24)。14/24易位是单独发生的。 相似文献
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Casas E White SN Riley DG Smith TP Brenneman RA Olson TA Johnson DD Coleman SW Bennett GL Chase CC 《Journal of animal science》2005,83(1):13-19
Objective of this study was to assess the association of SNP in the diacylglycerol O-acyltransferase 1 (DGAT1), thyroglobulin (TG), and micromolar calcium-activated neutral protease (CAPN1) genes with carcass composition and meat quality traits in Bos indicus cattle. A population of Brahman calves (n = 479) was developed in central Florida from 1996 to 2000. Traits analyzed were ADG, hip height, slaughter weight, fat thickness, HCW, marbling score, LM area, estimated KPH fat, yield grade, retail yield, sensory panel tenderness score, carcass hump height, and cooked meat tenderness measured as Warner-Bratzler shear force at 7, 14, and 21 d postmortem. Single nucleotide polymorphisms previously reported in the TG and DGAT1 genes were used as markers on chromosome 14. Two previously reported and two new SNP in the CAPN1 gene were used as markers on chromosome 29. One SNP in CAPN1 was uninformative, and another one was associated with tenderness score (P < 0.05), suggesting the presence of variation affecting meat tenderness. All three informative SNP at the CAPN1 gene were associated with hump height (P < 0.02). The TG marker was associated with fat thickness and LMA (P < 0.05), but not with marbling score. No significant associations of the SNP in the DGAT1 gene were observed for any trait. Allele frequencies of the SNP in TG and CAPN1 were different in this Brahman population than in reported allele frequencies in Bos taurus populations. The results suggest that the use of molecular marker information developed in Bos taurus populations to Bos indicus populations may require development of appropriate additional markers. 相似文献
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D. Kolbehdari Z. Wang J.R. Grant B. Murdoch A. Prasad Z. Xiu E. Marques P. Stothard & S.S. Moore 《Zeitschrift für Tierzüchtung und Züchtungsbiologie》2009,126(3):216-227
The detection and mapping of genetic markers linked to quantitative trait loci (QTL) can be utilized to enhance genetic improvement of livestock populations. With the completion of the bovine genome sequence assembly, single nucleotide polymorphisms (SNP) assays spanning the whole bovine genome and research work on large scale identification, validation and analysis of genotypic variation in cattle has become possible. The objective of the present study was to perform a whole genome scan to identify and map QTL affecting milk production traits and somatic cell scores using linkage disequilibrium (LD) regression and 1536 SNP markers. Three and 18 SNP were found to be associated with only milk yield (MY) at a genome and chromosome wise significance (p < 0.05) level respectively. Among the 21 significant SNP, 16 were in a region reported to have QTL for MY in other dairy cattle populations and while the rest five were new QTL finding. Four SNP out of 21 are significant for the milk production traits (MY, fat yield, protein yield (PY), and milk contents) in the present study. Six and nine SNP were associated with PY at a genome and chromosome wise significant (p < 0.05) level respectively. Three and 17 SNP were found to be associated with FY at a genome and chromosome wise significant (p < 0.05) level. Five and seven SNP were mapped with somatic cell score at a genome and chromosome wise significant (p < 0.05) level respectively. The results of this study have revealed QTL for MY, PY, protein percentage, FY, fat percentage, somatic cell score and persistency of milk in the Canadian dairy cattle population. The chromosome regions identified in this study should be further investigated to potentially identify the causative mutations underlying the QTL. 相似文献
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Bolormaa S Hayes BJ Hawken RJ Zhang Y Reverter A Goddard ME 《Journal of animal science》2011,89(7):2050-2060
Cattle in breeds formed by recent crossing of Bos taurus (Bt) and Bos indicus (Bi) subspecies should contain chromosomes that are a composite of Bt and Bt segments. Using data from a 50K SNP chip, we were able to identify whether a chromosome segment of 11 SNP in a composite animal descended from a Bt or a Bi ancestor. When the method was tested in purebred Bt or Brahman cattle, about 94% of segments were assigned correctly. About 10% of the genome in Australian Brahman cattle appears to be of Bt origin, as might be expected from their history. We then examined the effect of the origin of each chromosome segment on BW in a population of 515 Bt × Bi composite cattle and found 67 chromosome segments with a significant (P<0.01) effect. We confirmed these effects by examining these 67 segments in a population of Brahman cattle and in a population of mixed breeds including composite breeds such as Santa Gertrudis and Brahman cattle. About 66% of the 67 segments had an effect in the same direction in the confirmation analyses as in the discovery population. However, the effect on BW and other traits of chromosome segment origin is small, indicating that we had low power to detect these effects with the number of animals available. Consequently, when chromosome segment origin was used in genomic selection to predict BW, the accuracy was low (0.08). Chromosome segments that had a positive effect on BW tend to be at greater frequency in composite breeds than chromosome segments with a negative effect on BW. 相似文献
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DeAtley KL Rincon G Farber CR Medrano JF Luna-Nevarez P Enns RM VanLeeuwen DM Silver GA Thomas MG 《Journal of animal science》2011,89(7):2031-2041
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Allan MF Thallman RM Cushman RA Echternkamp SE White SN Kuehn LA Casas E Smith TP 《Journal of animal science》2007,85(2):341-347
Continued validation of genetic markers for economically important traits is crucial to establishing marker-assisted selection as a tool in the cattle industry. The objective of the current study was to evaluate the association of a SNP (T(9)/T(10)) in the osteopontin gene (SPP1) with growth rate in a large cattle population spanning multiple generations and representing alleles from 12 founding breeds. This population has been maintained at the US Meat Animal Research Center since 1981 and subjected to selection for twinning rate. Phenotypic records for this population included twinning rate and ovulation rate, providing an opportunity to examine the potential effects of SPP1 genotype on reproductive traits. A set of 2,701 animals was geno-typed for the T(9)/T(10) polymorphism at SPP1. The geno-typic data, including previously genotyped markers on chromosome 6 (BTA6), were used in conjunction with pedigree information to estimate genotypic probabilities for all 14,714 animals with phenotypic records. The genotypic probabilities for females were used to calculate independent variables for regressions of additive, dominance, and imprinting effects. Genotypic regressions were fit as fixed effects in a mixed model analysis, in which each trait was analyzed in a 2-trait model where single births were treated as a separate trait from twin births. The association of the SPP1 marker with birth weight (P < 0.006), weaning weight (P < 0.007), and yearling weight (P < 0.003) was consistent with the previously reported effects of SPP1 genotype on yearling weight. Our data supports the conclusion that the SNP successfully tracks functional alleles affecting growth in cattle. The previously undetected effect of the SNP on birth and weaning weight suggests this particular SPP1 marker may explain a portion of the phenotypic variance explained by QTL for birth and HCW on BTA6. 相似文献
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Moore SS Li C Basarab J Snelling WM Kneeland J Murdoch B Hansen C Benkel B 《Journal of animal science》2003,81(8):1919-1925
Backfat thickness is one of the major quantitative traits that affect carcass quality in beef cattle. In this study, we have fine mapped a QTL for backfat EBV on bovine chromosome 14, using an identical-by-descent haplotype-sharing analysis, in a commercial line of Bos taurus. We also examined the association between gene-specific single nucleotide polymorphism (SNP) markers of the genes diacylgcerol acyltransferase 1 (DGAT1) and thyroglobulin (TG) and the backfat EBV. The results indicate that the QTL region for backfat identified on chromosome 14 is in agreement with previous studies. However, neither of the two polymorphisms of candidate genes tested, DGAT1 nor TG, showed a significant (P > 0.10) association with the backfat EBV in the cattle populations examined. However, a strong association (P = 0.0058) was detected between a microsatellite marker (CSSM66) lying approximately mid-way between the two candidate genes and the backfat EBV. These results suggest that other SNP of DGAT1, TG, or other gene(s) in the chromosomal region should be examined to test whether they have a significant effect on lipid metabolism. 相似文献