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1.
A. Ardiyanti F. Abe H. Kobashikawa T. Hirayama T. Sugino K. Suzuki K. Katoh 《Domestic animal endocrinology》2009,37(4):243-249
Bovine growth hormone (bGH) gene polymorphism of leucine (Leu)-threonine (Thr) (allele A), valine (Val)-Thr (allele B), and Val-methionine (Met) (allele C) at codons 127 and 172 was shown to relate with carcass trait variations in Japanese Black cattle. In this study, 10-mo-old Japanese Black heifers with growth hormone (GH) genotypes AA, AB, BB, AC, BC, and CC (N = 141) were compared for basal GH, insulin-like growth factor-1 (IGF-1), insulin, ghrelin, glucose, and nonesterified fatty acid (NEFA) concentrations. Growth hormone release was also measured as response to growth hormone–releasing hormone (GHRH) (0.4 μg/kg body weight [BW]) using 18 heifers with GH genotypes AA, BB, and CC (n = 6 for each group). The genotype AA heifers showed the greatest BW among genotypes (P < 0.05). Genotype AC, BC, and CC heifers showed greater GH concentrations than genotype AA, AB, or BB heifers, in which genotype CC heifers had the highest concentrations (P < 0.05). However, IGF-1 concentrations did not significantly differ. The genotype AA and BB heifers had a greater GH release at 60 min following GHRH injection than did the genotype CC heifers. The area under the curve (AUC; P < 0.07) and incremental area (IA; P < 0.08) of GH responses to the GHRH challenge tended to be the highest in the genotype AA heifers and the lowest in the genotype CC heifers. In conclusion, GH gene polymorphism altered GH, which may have contributed to differences in BW and carcass traits among genotypes. 相似文献
2.
In two experiments, Black Angus bulls were challenged at weaning with GHRH analog and evaluated for their GH response to determine whether GH response can predict subsequent growth characteristics. The GH response was determined by measuring GH in blood serum collected 0 and 10 min after GHRH injection (Exp. 1: 1.5 microg/100 kg BW human GHRH, n = 34; Exp. 2: 1.5 and 4.5 microg/100 kg BW bovine GHRH [treatments LGHRH and HGHRH, respectively] administered 3 h after a 4.5 microg/100 kg BW "clearance dose" of GHRH, n = 38]. In Exp. 1, GH response did not predict growth or carcass measurements. In Exp. 2, GH response to LGHRH was positively related to ADG (R2 = .18; P = .007) during a 112-d controlled feeding trial. In addition, there was a tendency for bulls with a greater GH response to HGHRH to exhibit greater ADG than animals with a low response. However, GH response to GHRH was not related to changes in hip height (HH) or carcass ultrasound measurements at d 112 of the growth performance trial. Response of GH to repeated GHRH challenges was consistent within animal over time (r = .47; P = .003). The use of a clearance dose 3 h prior to GHRH challenge improved the relationship between GH response and ADG. Results of this study suggest that GH response to GHRH challenge is a useful tool for identifying beef bulls with superior growth potential. 相似文献
3.
Previously, GH response to GHRH challenge at weaning has been shown to be indicative of ADG during a standard postweaning growth performance test in Angus cattle. In this study, we tested the hypothesis that GH response to GHRH before weaning would predict postweaning ADG. Bulls with the highest and lowest GH responses to GHRH over a 3-yr period, relative to their contemporaries, were used as sires, to allow for examination of the persistence of GH response to GHRH through selection. The selected calves in this study were sired by one of four Angus bulls chosen based on their GH response to GHRH (high response, n = 2; low response, n = 2). Forty-nine Angus calves (bulls, n = 24; heifers, n = 25) were challenged with GHRH at approximately 60, 105, and 150 d of age and at weaning (219 d; SD = 25). Blood samples were taken immediately prior to and 10 min following an i.v. clearance dose of 4.5 microg of GHRH/100 kg BW and, 2 h later, immediately prior to and 10 min following a challenge dose of either 1.5 or 4.5 microg of GHRH/100 kg BW. Two hours later, the procedure was repeated, with each calf receiving the other challenge dose. Body weight was measured every 28 d and ADG was calculated over a 140-d growth performance test (heifers and bulls maintained separately). Data were log-transformed for statistical analyses. In the selected bulls and heifers, response of GH to 1.5 microg of GHRH/100 kg BW at 60 and 105 d of age was positively related (P < 0.05) to postweaning ADG. Response to 4.5 microg of GHRH/100 kg BW at 105 d of age and at weaning was positively related (P < 0.01) to postweaning ADG. Inclusion of sire in the analysis improved the relationship between GH response and ADG for calves of sires with high GH responses from R2 = 0.18 (P = 0.01) to R2 = 0.33 (P = 0.02). When the GH response to GHRH of the unselected calves at weaning was added to the data from the selected animals and analyzed, the GH response of the bulls was related to postweaning ADG (R2 = 0.09; P = 0.04). In conclusion, GH response to GHRH as early as 60 d of age is indicative of postweaning ADG in beef cattle. In addition, the relationship between GH response to GHRH and postweaning ADG is improved with selection for greater GH response to GHRH. 相似文献
4.
为探讨GHRH基因作为绵羊生长性状候选基因的可能性,寻找与绵羊生长性状相关的分子标记,对萨福克羊与哈萨克羊杂交成年母羊GHRH基因rs400079090和rs419322328位点的多态性及其与生长性状的关联性进行了研究。结果表明:rs400079090位点检测到3个基因型,rs419322328位点TT基因型缺失;rs419322328位点GG基因型个体胸宽显著大于GT基因型个体(P〈0.05),体斜长极显著小于GT基因型个体(P〈0.01)。说明GHRH基因2个SNP位点多态性对萨福克羊与哈萨克羊杂交成年母羊生长性状有一定的影响,可以作为进行绵羊生长性状分子标记辅助选择的候选基因。 相似文献
5.
We assessed the interaction of GH gene polymorphisms (AA, AB and BB genotypes) with body weight and measures of endocrine function in Japanese black calves at 10 months of age. The average body weight for the BB genotype (281+/-5 kg) was significantly lower (P=0.0017, ANOVA) than those for the AA (324+/-9 kg) and AB (317+/-7 kg) genotypes. Plasma concentrations of insulin and IGF-I were greater for the AA genotype than for the AB genotype, and AB and BB genotypes, respectively. There were significant differences in the triglyceride and cholesterol concentrations among the GH genotypes. The area under the basal GH concentration was significantly greater (P=0.0314) for the AA genotype than for the two other genotypes. The incremental area over the basal GH concentrations in response to intravenous GHRH injection (0.4 microg/kg BW) was significantly smaller (P=0.0005) for the BB genotype than for the two other genotypes. In addition, linear regression analysis between GH incremental area induced by GHRH and body weight demonstrated that there was a positive linear correlation (r=0.6496, P<0.002) for incremental areas less than 600 ng min/ml, but a negative correlation (r=0.6473, P<0.05) for incremental areas over 600 ng min/ml. These findings indicate that the GH genotypes of the animals could be associated with difference in the GH response in Japanese black cattle at 10 months of age. We also observed a relationship between genotype and animal performances, but other studies on more animals in different conditions must be realized to make a definite conclusion. 相似文献
6.
【目的】探究外源性RF-酰胺相关肽3(RF-amide related peptide 3,RFRP-3)和褪黑素(melatonin,MLT)对雄性昆明小鼠初情期生长、繁殖性能的影响及两者之间的关系。【方法】以初情期雄性昆明小鼠为研究对象,单独给予雄鼠生理盐水、外源性RFRP-3或MLT以及混合给予RFRP-3、MLT,检测其对雄鼠平均增重、平均采食量、料重比、睾丸发育情况,血清生长激素(growth hormone,GH)、黄体生成素(luteinizing hormone,LH)水平,以及生长、生殖相关基因表达的影响。【结果】外源性RFRP-3能抑制雄鼠GH基因表达,并抑制体重增长,提高料重比;而外源性MLT促进雄鼠GH基因表达,使体重增长较快,料重比降低;RFRP-3和MLT共同处理下,GH基因表达增加,体重增长速度与单独给予MLT组接近。RFRP-3可抑制褪黑素受体1A(melatonin receptor 1A,Mtnr1A)、LH基因表达及睾酮分泌,小鼠睾丸各级生精细胞和间质细胞数量减少;MLT可促进Mtnr1A、LH基因表达及睾酮分泌,睾丸间质细胞密度极显著增加(P<0.01);MLT和RFRP-3共同处理下,小鼠睾丸各级生精细胞和间质细胞数量减少,睾酮分泌显著减少(P<0.05)。【结论】外源性RFRP-3能一定程度抑制雄性小鼠初情期的生长及繁殖性能,外源性MLT可促进初情期雄性小鼠的生长及繁殖性能。 相似文献
7.
R.A. Curi D.A. Palmieri L. Suguisawa A.L.J. Ferraz H.N. de Oliveira L.R. Furlan A.C. Silveira C.R. Lopes 《Livestock Science》2006,101(1-3):94-100
The growth hormone receptor (GHR) is the cell surface receptor for growth hormone (GH) and is required for GH to carry out its effects on target tissues. The objectives of the present study were to estimate the allele and genotype frequencies of the GHR/Alu I gene polymorphism located in the regulatory region in beef cattle belonging to different genetic groups and to determine associations between this polymorphism and growth and carcass traits. Genotyping was performed on 384 animals, including 79 Nellore (Zebu), 30 Canchim (5/8 Charolais + 3/8 Zebu), 30 Simmental × Nellore crossbred and 245 Angus × Nellore crossbred cattle. Alleles Alu I(+), Alu I(−) and Alu I(N)–null allele–were evidenced for the GHR/Alu I polymorphism and the frequency of the Alu I(N) allele was significantly higher than the frequency of the Alu I(+) and Alu I(−) alleles in all genetic groups. Genotype Alu I(N/N) of the GHR/Alu I predominated in Nellore animals, while the Alu I(N/+) and Alu I(N/−) predominated in the other genetic groups. In the association studies, traits of interest were analyzed using the General Linear Model (GLM) procedure of the SAS program and least squares means of the genotypes were compared by the Tukey test. Significant associations (P < 0.05) were observed between the Alu I(N/N) genotype of the GHR/Alu I polymorphism and lower weight gain and body weight at slaughter, although a confounding between genotypes and genetic groups may have occurred. 相似文献
8.
T L Auchtung E E Connor S M Barao L W Douglass G E Dahl 《Journal of animal science》2001,79(6):1566-1572
The response of GH to GHRH at weaning is known to predict postweaning growth and body composition in beef bulls. The objective of this study was to determine whether GH response to a challenge of GHRH and plasma IGF-I can predict growth rate and body composition in the beef heifer. Growth hormone response to a challenge with two doses of GHRH was measured in 67 Angus heifers averaging 225 d of age (SD = 21) and 217 kg BW (SD = 32). Blood samples were collected at 0 and 10 min relative to an initial "clearance dose" (4.5 micrograms GHRH/100 kg BW) and again, 3 h later, relative to a challenge dose (1.5 or 4.5 micrograms GHRH/100 kg BW). Each animal received each of the two challenge doses, which were randomly assigned across 2 d of blood collection. Serum GH concentration was measured by RIA. Plasma was collected every 28 d during a 140-d growth test and assayed for IGF-I by RIA. Body weight was measured every 28 d and hip height was measured at weaning and at the end of a 140-d growth test. Average daily gain was calculated on d 140 of the growth test and body composition measurements were estimated by ultrasound 2 wk after completion of the growth test. Responses to the two GHRH challenges were dose-dependent (P < 0.05). Average daily gain tended to be related to GH response to the 1.5 micrograms GHRH/100 kg BW dose (R2 = 0.05; P = 0.06), but no relationship was observed at the 4.5 micrograms GHRH/100 kg BW dose (R2 = 0.00; P = 0.93). An inverse relationship (R2 = 0.06; P = 0.02) was observed between response to the 1.5 micrograms GHRH/100 kg BW dose and intramuscular fat percentage. Mean plasma IGF-I concentration was positively associated with ADG (R2 = 0.06; P < 0.01). Growth hormone response to GHRH is modestly related to body composition but not to ADG in weanling beef heifers and likely has limited use in evaluation of growth performance in replacement beef heifers. 相似文献
9.
In dairy cattle, increased circulating growth hormone has been associated with selection for greater milk yield. This study tested the hypothesis that beef cows divergently selected for milk production would have differing GH responses to a challenge dose of GHRH. Growth hormone response to a challenge of GHRH was measured in 36 Angus-sired cows ranging from 6 to 10 yr of age. The cows were classified as high milking (n = 16) or low milking (n = 20), on the basis of their sires' milk EPD. Mean milk EPD (in kilograms) were 16.6 and -14.4 for high and low milking cows, respectively. Milk production was estimated by the weigh-suckle-weigh procedure. Blood samples were taken immediately before and 10 min after a clearance dose of 4.5 microg of GHRH/100 kg BW (injected i.v.) and, 3 h later, immediately before and 10 min after a challenge dose of either 1.5 or 4.5 microg of GHRH/100 kg BW. Each animal received both challenge doses, and the doses were randomly assigned across 2 d of blood collection. Serum concentrations of GH and IGF-I were measured by RIA. Serum IGF-I was measured in the baseline blood sample on d 1 of blood collection. A positive relationship (r = 0.35; P = 0.03) was observed between the cows' rankings for each dose of GHRH; that is, high responders to the low dose were high responders to the high dose. Growth hormone response to the 4.5 microg/100 kg BW challenge dose of GHRH was positively related to sire milk EPD (R2 = 0.09; P = 0.03). Response of GH to the 1.5 microg GHRH/100 kg BW challenge dose also tended to be related (P = 0.08) to sire milk EPD of high milking cows. In addition, IGF-I concentrations of high milking cows were inversely related (R2 = 0.24; P = 0.04) to sire milk EPD. Growth hormone response to GHRH challenge may have potential as an additional tool in the evaluation of milk production in beef cattle. 相似文献
10.
《Domestic animal endocrinology》1996,13(3):251-258
The effects of growth hormone-releasing peptide-6 (GHRP-6) on peripheral plasma concentrations of growth hormone (GH) and hypophysial portal plasma concentrations of growth hormone-releasing hormone (GHRH) and somatostatin (SRIF) were investigated in conscious ewes. Paired blood samples were collected from the hypophysial portal vessels and from the jugular vein of nine ewes for at least 2 hr. The sheep were then given a bolus injection of 10 μg of GHRP-6 per kg followed by a 2-hr infusion of GHRP-6 (0.1 μ/kg · hr). Blood sampling continued throughout the infusion and for 2 hr afterwards. An increase in plasma GH concentration was observed in the jugular samples of six of the nine ewes (1.4 ± 0.3 vs 7.4 ± 2.0 ng/ml, P < 0.05) 5–10 min after the GHRP-6 bolus injection, but in no case did we observe a significant coincident release of GHRH. During the infusion period, mean plasma GHRH levels were not significantly increased but there was a 50% increase (P < 0.05) in GHRH pulse frequency; GHRH pulse amplitude was not changed. Mean SRIF concentration, pulse frequency, and pulse amplitude were unchanged by GHRP-6 treatment. These data indicate that GHRP-6 causes a small, but significant effect on the pulsatile secretion of GHRH, indicating action at the hypothalamus or higher centers of the brain. The large initial GH secretory response to GHRP-6 injection does not appear to be the result of GHRP-6 action on GHRH or SRIF secretion. 相似文献
11.
Field trials were undertaken to compare nematode population dynamics, lamb productivity and levels of breech soiling in experimental flocks of Romney lambs selectively bred for increased resistance or susceptibility to nematode infection. In each year of the 2 year study, spring-born ewe lambs derived from Wallaceville Animal Research Centre's divergent nematode-resistant and nematode-susceptible breeding lines were grazed as separate flocks on matched farmlets from weaning (at 3 months old) until they were approximately 10–11 months old. Allocation of farmlets was reversed between Years 1 and 2 of the study to account for any possible paddock-related effects. Within each year both flocks were subjected to identical management conditions, including anthelmintic treatment (which was administered only when the overall mean faecal worm egg count measured across both genotypes reached 1500 eggs g−1). In both years, by mid-autumn (April) nematode larval infestation levels on pasture were approximately 5–6-fold greater on the farmlet grazed by susceptible (S) genotype lambs than on that grazed by their resistant (R) counterparts (Year 1: 2506 cf. 544 larvae Kg−1 herbage; Year 2: 431 cf. 74 larvae kg−1 herbage). This led to 51-fold and 56-fold differences in faecal egg count between R and S lambs by late autumn (May) and winter (July) in Years 1 and 2, respectively. Although mean growth rates were similar in the R and S lambs over summer (while pasture infestation levels on the farmlets were still in the process of diverging), significantly higher growth rates occurred in the R than in the S lambs over autumn-winter in both years of the study (P < 0.01). In contrast, no significant differences in growth rate occurred in either year between male lambs derived from the nematode-resistant and nematode-susceptible breeding lines which were grazed together on another area of the Wallaceville farm from weaning until late autumn. Despite the substantially lower pasture infestation levels encountered by the R ewe lambs, they nevertheless temporarily suffered more breech soiling (dags) than their S counterparts (P < 0.01) in both years. Yearling fleece-weights of the R and S genotypes did not differ significantly in either year. Although the results of our study confirmed that there are potentially significant epidemiological benefits to be derived from breeding sheep for resistance to nematode infection, these benefits did not appear to be associated with large advantages in animal performance. Further work is needed to establish how these results should be interpreted with respect to anthelmintic drench requirements of genetically resistant animals. 相似文献
12.
试验旨在探讨PRKAA2基因在摩拉水牛群体中的遗传多态性及其与生长性状的关联性,进而得到显著相关的遗传标记,为摩拉水牛的分子标记辅助选择提供理论依据。利用DNA测序法等技术进行候选基因PRKAA2外显子4及部分内含子3单核苷酸多态性(SNPs)检测,并采用生物信息学方法结合统计软件分析PRKAA2基因与摩拉水牛生长性状的关联性。结果显示,摩拉水牛PRKAA2基因中共检测到4个SNPs位点:c.462 G>A、IVS3.557 T>C、IVS3.560 C>T和IVS3.565 G>A,均包含3种基因型,且符合Hardy-Weinberg平衡。4个SNPs位点在水牛群体中均为中度多态,可以构建3种单倍型,T-C-G-G为优势单倍型,其中IVS3.560 C>T与c.462 G>A位点之间存在完全连锁不平衡,关联分析结果显示,单倍型H2与摩拉水牛体斜长和腰角宽呈显著相关(P<0.05)。c.462 G>A位点与摩拉水牛体高、十字部高、尻长、坐骨端宽和腰角宽呈显著相关,其中GG和AA基因型个体的体高和十字部高均显著高于GA基因型个体,GG基因型个体的尻长显著高于GA和AA基因型个体,AA基因型个体的坐骨端宽和腰角宽显著高于GA基因型个体(P<0.05);IVS3.557 T>C位点与摩拉水牛的生长性状指标未达到显著相关(P>0.05);IVS3.560 C>T位点与摩拉水牛体高、十字部高和尻长呈显著相关,其中CC和TT基因型个体的体高和十字部高均显著高于CT基因型个体,CC基因型个体的尻长显著高于CT基因型个体(P<0.05);IVS3.565 G>A位点与体斜长呈显著相关,其中GG和GA基因型个体的体斜长显著高于AA基因型个体(P<0.05)。综上,PRKAA2基因的c.462 G>A、IVS3.560 C>T和IVS3.565 G>A位点对摩拉水牛部分生长性状均有显著影响,可作为摩拉水牛品种早期选育的候选基因和分子辅助标记。 相似文献
13.
The relationship between in vitro somatotroph function and growth was examined in piglets demonstrating a continuous range of growth characteristics. Twenty barrows were sacrificed at 3 weeks of age for the collection of pituitary tissue and blood. Pituitary cells from each animal were cultured and exposed to vehicle (culture medium); .1, 1, and 10 nM growth hormone-releasing hormone (GHRH); 2 mM 8-Br-cAMP (cAMP); 100 nM phorbol myristate acetate (PMA); and 59 mM KCl. All secretagogue treatments stimulated growth hormone (GH) secretion (p < .0001). Basal and stimulated GH secretion in culture, intracellular GH content (icGH), and serum insulin-like growth factor-1 (IGF-1) concentrations were all positively correlated with 3-week weight gain (p < .05). Concentrations of GH in the serum sample taken at sacrifice were not related to growth (p < .3). Intracellular GH content was correlated with in vitro GH secretion (p < .01) and serum IGF-1 concentrations (p < .001). Somatotroph function was contrasted in the 7 largest and 7 smallest piglets (large, 8.3 ± .3 kg, n = 7; small, 4.5 ± .2 kg, n = 7). Treatment with GHRH produced a dose-related increase in GH secretion in both experimental groups (p < .0001). No significant size × GHRH interaction was detected (p = .09). When contrasted with the small group, the large group demonstrated elevated GH secretion in culture (p < .01), icGH content (p < .001), and circulating IGF-1 (p < .001). The results of this study raise the possibility of a functional relationship between porcine somatotroph secretory activity and growth, mediated by IGF-1, which may be regulated by the quantity of GH available for release. 相似文献
14.
【目的】 试验旨在研究多形性腺瘤基因1(plemorphic adenoma gene 1,PLAG1)基因序列特征、多态性以及对山羊出生体重、体尺的影响。【方法】 以波尔山羊为研究对象,克隆PLAG1基因序列并测序,采用实时荧光定量PCR鉴定其在不同年龄和体重波尔山羊组织中的表达模式,采用Western blotting方法检测PLAG1在不同体重羔羊腿肌中的表达水平,进一步筛选PLAG1基因CDS和3'-UTR区SNP,并分析各位点不同基因型与波尔山羊出生体重、体尺的相关性。【结果】 波尔山羊PLAG1基因CDS全长1 500 bp,编码499个氨基酸,PLAG1蛋白相对保守。组织表达谱显示,PLAG1基因在出生体重较大的羔羊心脏、小肠和腿肌中表达水平显著或极显著高于出生体重较小的羔羊,在胎羊各组织中mRNA表达水平均显著或极显著高于成年母羊(P<0.05;P<0.01);PLAG1蛋白在出生体重较大的羔羊腿肌中表达量极显著高于出生体重较小的羔羊(P<0.01)。在波尔山羊PLAG1基因3'-UTR区共筛选到6个SNPs位点,分别为:2664 A>G、2712 A>G、2721 T>C、2879 T>A、2990 A>T和3270 A>G。关联分析发现,2664 A>G位点AG基因型个体出生管围显著大于GG基因型(P<0.05);2721 T>C位点TT基因型个体出生体长显著大于TC基因型(P<0.05);2879 T>A位点TA基因型个体出生管围显著大于AA基因型(P<0.05);2990 A>T位点AA基因型个体出生体重显著高于AT基因型(P<0.05);3270 A>G位点GG基因型个体出生体长显著大于AA基因型,AG基因型个体出生胸围显著大于AA基因型(P<0.05)。【结论】 PLAG1基因在波尔山羊胎羊各组织中表达水平均高于成年母羊,发育早期的表达水平与出生羔羊体重相关。PLAG1基因可作为分子标记用于波尔山羊早期生长选育。 相似文献
15.
Vonika NOU Kyouko TOMOSHI Hiroaki INOUE Hideto KUWAYAMA Hisashi HIDARI 《Animal Science Journal》2003,74(2):129-136
To investigate the effects of high and low somatostatinergic tone on GH-releasing peptide-2 (GHRP-2) and GH-releasing hormone (GHRH)-induced growth hormone (GH) secretion in swine, we examined GHRP-2- and GHRH-induced GH secretion after pretreatment with atropine or pyridostigmine. Pretreatment of swine with atropine (80 µg/kg bodyweight (BW), intravenous (i.v.)) 15 min before i.v. administration of saline, GHRP-2 (30 µg/kg BW), GHRH (1 µg/kg BW) or a combination of GHRP-2 and GHRH, reduced plasma GH area under the curve ( P < 0.05), completely blocked GH response to GHRH, and attenuated GH response to GHRP-2 and GHRH combined ( P < 0.05), without affecting GH response to GHRP-2 only. A synergistic effect of GHRP-2 and GHRH was not observed. In contrast, pretreatment of swine with pyridostigmine (100 µg/kg BW, i.v.), under the same pretreatment conditions as above, increased plasma GH concentration ( P < 0.01), augmented GH response to GHRP-2 ( P < 0.05), and GHRP-2 and GHRH combined ( P < 0.05), but did not affect GH response to GHRH. These results suggest that the cholinergic muscarinic agents atropine and pyridostigmine modulate the GH response to GHRP-2 and GHRH, and that GHRP-2 acts antagonistically on the inhibitory effect of somatostatin in swine. 相似文献
16.
17.
Growth hormone-releasing hormone (GHRH) is secreted by the hypothalamus and stimulates growth hormone (GH) released from the pituitary. Mutations detected in GHRH gene showed associations with animal production traits. The purpose of this study was to investigate the association of the GHRH gene with growth traits in Chinese native cattle. PCR-SSCP and sequencing were used to detect mutations of the GHRH gene in this study. One novel mutation 4251nt (C>T) was found and the frequencies of C allele were 0.8778 and 0.8476 for Qinchuan and Nanyang cattle, respectively. Body weight with the CT genotype was significantly higher (P<0.05 or P<0.01) than those with CC genotype for different growth periods (6, 12, 18, and 24 months old) in Nanyang cattle. Our findings suggested that polymorphism in bovine GHRH might be one of the important genetic factors to influence body weight. 相似文献
18.
The study describes the changes with time in gene and genotype frequencies of a closed Chios herd. Genomic DNA was isolated and purified from peripheral blood leucocytes using standard procedures. The identification of the allelic variants present in the DNA samples, was performed in a simple multiplex PCR reaction and melting curve analysis of the PrP gene. Only ARR/ARR female genotypes were kept for breeding, and only males of the same genotype were used following year 2 of the study. As a result of planned individual matings and selection, the susceptible ARQ/ARQ genotype was eliminated from the flock in 4 years. The gene frequency of the R allele from a low 0.056 at year 1 reached a high 0.911 at year 6 of the study. Data from first lactation ewes of known genotypes were used to examine possible associations between PrP genotypes and ewe reproductive (litter size at birth and at weaning) and production traits (litter weight at birth and at weaning and 60-day milk yield after weaning). No effects of the sire genotype (ARR/ARR and ARR/ARQ) were found for any of the traits studied. The ewe genotype was associated with performance for reproductive traits but not with total weight of lamb output at birth or at weaning. ARR/ARR ewes had a higher litter size at birth (2.09) compared to ARQ/ARQ ewes (1.79) and higher litter size at weaning (1.84) compared to ARR/ARQ ewes (1.59). 60-day milk yield after weaning was not influenced by genotype (114.8, 105.8 and 114.8 kg for ARR/ARR, ARR/ARQ and ARQ/ARQ genotypes, respectively). Birth weight and 98-day weight were not influenced by the lamb genotype. ARQ/ARQ lambs were slightly heavier (P < 0.05) than ARR/ARR lambs at weaning as a result of faster pre-weaning growth. Post weaning growth was similar for the homozygous genotypes. 相似文献
19.
试验旨在探讨解耦联蛋白1(UCP1)基因核苷酸变异对绵羊生长性状的性别差异和胴体性状的影响,以期能够筛选出可以提升绵羊生长及胴体性状的核苷酸变异,为提高绵羊相关重要经济性状的分子遗传标记提供材料。以9个绵羊品种为研究对象,用PCR-SSCP方法检测不同性别绵羊中UCP1基因内含子5区和外显子6区变异。利用Minitab 16.0软件中一般线性模型分析内含子5区等位基因与不同性别绵羊生长性状、公羔胴体性状的关联性。结果显示,绵羊UCP1基因内含子5区和外显子6区共检测到8个核苷酸变异,其中位点c.910 G/A突变导致p.Ala304Thr氨基酸变异。生长性状关联分析结果表明,内含子5区等位基因对绵羊生长性状的影响存在性别特异性,母羔中携带等位基因A1的群体较缺失群体具有较低的初生重(P<0.05),公羔中携带等位基因C1的群体较缺失群体具有较高的断尾重(P<0.05),未发现其他等位基因与羔羊的生长性状存在性别特异性。胴体性状关联分析结果表明,携带等位基因A1的群体具有较低后腿瘦肉量、腰部瘦肉量和较高的肩部瘦肉比例(P<0.05),携带等位基因C1的群体具有较低的后腿瘦肉比例(P<0.05),其他胴体性状均没有发现与等位基因存在显著相关,基因型分析结果与等位基因分析结果一致。结果提示,UCP1基因对绵羊的生长性状影响具有性别特异性,且携带等位基因A1的公羔群体具有较低的胴体生产性状,为提高公羔胴体生产性能提供了理论依据。 相似文献
20.
试验研究不同能氮水平的营养限制与补偿对蒙古羔羊体重和血液生长相关的激素影响。选用内蒙古草原上健康的、平均体重15 kg左右的蒙古羔羊64只,随机分为对照组(CG)、限制1组(RG1)和限制2组(RG2)三个组,营养限制期(60 d)分别饲喂ME 10.88 MJ/kg、CP 13.0%(CG),ME10.88 MJ/kg、CP 8.9%(RG1),ME 8.62 MJ/kg、CP 5.7%(RG2)三个营养水平的日粮;营养补偿期(90 d)各组饲喂同一能氮水平饲粮(ME 9.75 MJ/kg,CP 12%)。结果表明:①随着营养水平的逐步降低,在限制末期,RG1组和RG2组羔羊的平均体重显著低于CG组(P<0.05),在补偿期,RG2组平均日增重显著高于CG组(P<0.05)。②在限制末期RG2组血液中GHRH及RG1、RG2组血液中GH浓度显著高于CG组(P<0.05),而RG2组血液中SS、IGF-I浓度显著低于CG组(P<0.05)。在补偿期,RG1、RG2组血液中IGF-I浓度有升高的趋势(P>0.05)。结果提示,营养限制所导致的羔羊血液中GHRH浓度升高和SS浓度降低可能是其在限制期血液中GH浓度升高及其在补偿期快速生长的原因之一。 相似文献