环江香猪FSHβ、ESR及ZAR1基因多态性分析

环江香猪是广西著名的地方品种,本研究采用PCR-RFLP、HRM结合测序的方法分析了广西环江香猪繁殖状相关基因FSHβ、ESR和ZAR1基因的多态性。结果显示,首次成功克隆测序了环江香猪ZAR1基因的外显子3,与Gen Bank中的ZAR1基因(DQ231443,gi:83727928)外显子3序列100%同源。针对134头环江香猪检测样本中均未发现FSHβ和ESR基因的多态突变位点。对ZAR1基因的外显子3和部分内含子3测序后发现5个新突变SNP位点,未见有已报道的对猪产仔数产生显著影响的外显子3(C54T)突变。论文显示不同品种猪基因突变多态性亦呈现为不同的模式,研究结果对建立环江香猪基因标记辅助选择方法具有重要意义。     

藏猪3个繁殖性状主效基因多态性研究

藏猪是我国高海拔特有猪种,为了解藏猪繁殖性能的遗传潜力和基因多样性,利用PCR－RFLP技术测定了202头藏猪ESR、FSHβ和PRLR 3个繁殖性状主效基因位点的基因型多态性,并与文献报道的国内外猪种进行比较。结果显示藏猪群体ESR、FSHβ和PRLR优势基因型分别为BB型、AB型和AA型,3个位点基因型分布均符合哈迪－温伯格平衡。藏猪群体3个繁殖性状主效基因位点都有报道的有利基因型,且有利等位基因频率较高,说明藏猪在这3个基因位点可能具有优良繁殖性能的遗传潜力。     

利用DNA池技术研究猪GH基因启动子序列的多态性

目的:分析猪GH基因启动子区序列的多态性,期望筛选出对猪生长性状有显著影响的SNP位点,为地方猪种的选育及选种提供一定的理论依据.方法:以大约克、可乐猪、香猪和黔北黑猪为试验对象,构建品种DNA池,采用PCR产物直接测序法对猪GH基因启动子区-856～+171片段共1 027bp进行单核苷酸多态性检测.结果:除香猪外,在其他3个猪种5'-端侧翼序列发现5个SNP位点:C22T、A- 26T、G- 219A、T- 385A和C-391T,并且在大约克GH基因启动子区-640处发现了一个12bp碱基序列(GGCAAAGTGTAG)的缺失.结论:DNA池结合PCR产物直接测序技术能够很好的筛选SNP位点,本研究采用该技术在猪GH基因启动子区- 856～+171片段检测到了5个SNP位点.     

猪UCP3基因部分编码区序列分析及其单核苷酸多态与胴体、肉质性状的遗传效应

以猪解耦联蛋白基因 3(UCP3)作为控制猪胴体与肉质性状主基因的候选基因。利用直接测序法对 4个品种猪骨骼肌中UCP3基因的部分编码区序列 (第 4外显子部分及第 5、6、7外显子全部片段 )进行比较分析 ,发现3个cSNP位点 ,其中ORF中第 84 2碱基的突变可导致相应编码氨基酸序列的改变 :甲硫氨酸→苏氨酸 ,选取此位点作为猪UCP3基因的多态位点。用PCR SSCP检测方法在 3个品种猪中进行该cSNP位点多态性片段的基因型分型 ,结果显示在 3个猪群中表现出 3种基因型 (AA、AB、BB) ,χ2 独立性检验结果表明 3种基因型在各品种间分布不一致 ,梅山猪同大白、长白猪分别比较差异极显著 (P <0 0 1) ;对大白×梅山资源家系F2 代 139头个体进行了该多态片段的基因型鉴定 ,并对其基因型与所检测个体相应的胴体、肉质性状采用GLM分析进行遗传效应研究 ,结果表明 :该基因对一些胴体、肉质性状有显著性影响 ,并且该基因以加性效应为主 (如 ,眼肌高度、背最长肌色值、系水力的加性效应都达显著水平 )。因此 ,推测UCP3基因可能是影响猪胴体及肉质性状的主效基因或与主效基因紧密连锁的标记基因 ,并且能够在分子标记辅助选择中用于对猪胴体、肉质性状的遗传改良及固定     

猪Pit-1基因多态性及其与生长性状的关联分析

利用现代分子标记技术寻找影响猪生长性状的标记基因座,为应用标记辅助选择培育高生产性能猪的品种或品系提供帮助。本试验采用PCR-RFLP(RsaⅠ限制性内切酶)分子标记技术,分析了杜洛克、长白、大白及长大二元杂交4个品种共381头猪Pit-1基因exon 5至intron 5内多态性,并采用最小二乘法分析了Pit-1基因多态性对生长性状影响的遗传效应。经检测,4个品种Pit-1基因RsaⅠ位点均存在多态性。等位基因A的基因频率分别为0.831 7、0.830 2、0.676 7、0.752 3,A为优势基因。被测猪群Pit-1基因的基因频率在被测猪群中均处于Hardy-Weinberg平衡状态(p0.05)。最小二乘分析表明:Pit-1基因3种基因型的猪在出生重、断奶重及70日龄重性状上均呈现BBABAA趋势(其中,长白猪只存在AB,AA 2种基因型),B为优势基因。Pit-1基因exon 5至intron 5 RsaⅠ位点多态性对测试猪群生长性状有一定影响,但是否是影响生长性状的一个候选基因之一或是与影响猪生长性状的QTL连锁的基因,还需进一步研究。     

猪钙蛋白酶抑制蛋白基因的基因型与肉质性状的关联性分析

钙蛋白酶抑制蛋白基因是影响猪肉质性状的候选基因之一。本研究以125头地方猪和117头外来猪为材料,研究CAST基因的多态性。结果在CAST基因上检测到一个多态性位点(A876G),并引起了氨基酸残基的改变Lys250 Arg。在地方猪种中仅检测到G (Arg)等位基因,而在外来猪种中A (Lys) 和 G (Arg)两个等位基因均检测到。基因型与肉质性状的关联性分析结果表明,CAST基因型与肌肉的嫩度,屠宰45 min后的pH值及滴水损失存在强相关,又由于地方猪种与外来猪种的肉质性状间存在显著差异。因此,在CAST基因上检测到的多态型位点Lys250Arg的基因型效应有待于进一步研究,并将其有效应用于商品猪生产中。     

苏姜猪OLR1基因多态性及其与肉质性状的关联分析

探讨OLR1基因在苏姜猪群内的遗传多态性,以及该基因多态对苏姜猪猪肉质性状的影响。采用PCR-RFLP技术检测OLR1基因在苏姜猪试验群体中的PstⅠ酶切遗传多态性,运用单因素方差分析方法分析了该多态位点对苏姜猪肉质性状的影响。结果发现,苏姜猪试验群体OLR1基因内含子5区域内发现一个PstⅠ酶切多态性,检测到CC、CD和DD三种基因型,多态信息含量呈现中度多态性。CC型与DD型个体的肌肉失水率、大理石纹间的差异达到显著水平(P<0.05),CD型个体用色差仪测得的b值显著高于DD型(P<0.05)。因此,检测到的OLR1基因PCR-RFLP-PstⅠ多态性与大理石纹等肉质性状存在着显著的相关关系,可以作为肉质性状候选基因在苏姜猪的持续选育中加以应用。     

不同品种猪HSL基因5′-UTR和外显子Ⅰ片段的克隆测序及多态性分析

激素敏感脂肪酶(Hormone sensitivelipase,HSL)是负责分解脂肪组织中甘油三酯释放游离脂肪酸的关键和限速酶,也是影响动物脂肪沉积的关键酶。将HSL基因作为影响猪脂肪代谢和沉积相关性状的候选基因,对不同品种猪HSL基因 5′ UTR和外显子Ⅰ片段进行了克隆测序并开展多态性与性状间的关系研究。序列比较发现,在测定的HSL基因靠近起始密码子(ATG)的 419bp中,杜洛克、梅山猪、大白猪和清平猪序列完全一致,与长白猪序列比较,在-13 ~-12bp位置存在GC→CG的碱基变异;梅山猪(3个体)、通城猪(3个体 )、长白猪 (3个体 )、大白猪(3个体)HSL基因外显子Ⅰ的 442bp位置有G→A碱基间的变异,G→A的转换改变了限制性内切酶BsaHⅠ酶识别位点,且导致了编码氨基酸Val→Ile的替换。经PCR RFLP分析,HSL基因外显子ⅠBsaHⅠ位点多态性有AA、AG和GG 3种基因型。“大白×梅山”F2 代资源家系猪BsaHⅠ位点不同基因型个体背膘厚、肌内脂肪等性状协方差统计分析发现,AG基因型和GG基因型在眼肌面积上存在显著差异。     

丙酸通路基因多态性与猪肉质及胴体性状的关联分析

为了挖掘新的猪肉品质及胴体性状的候选基因,揭示猪肉质及胴体性状的遗传机制,文章将丙酸代谢通路作为候选通路,将通路内基因与猪肉质及胴体性状进行关联分析。实验采用37头三元杂交商品猪作为研究对象,首次针对丙酸通路中7个基因的36个SNP位点利用SNaPshot方法进行基因分型,分别用最小二乘模型及MB-MDR模型与肉质及胴体性状进行关联分析。结果发现,基因PCCB、MUT、MCEE及ACSS2上的4个SNP位点分别与肌内脂肪含量、背膘厚等性状显著相关(P<0.05),ACSS2与猪脂肪含量显著相关;MCEE及MUT与猪的背膘厚显著相关;PCCB基因与脂重显著相关。通过MB-MDR方法检测到多个SNP位点具有互作效应,并与背膘厚、水分含量、脂肪含量显著相关(P<0.05)。另外,丙酸代谢通路中的基因间的互作效应对猪肉品质有显著影响。     

猪雌激素受体（ESR）基因对产仔数性状的影响

猪产仔数是重要的经济性状,产仔数的提高将会大大地增加商品肉猪的产量,给现代养猪生产带来巨大的经济效益。ＥＳＲ基因是影响猪产仔数的主效基因,而且与猪的生长发育性状及酮体性状之间不存在负的基因多效性影响。采用ＰＣＲ－ＲＦＬＰｓ的方法,通过对５个不同品种的、特别是我国地方品种的２６２头母猪进行了基因多态性分析,研究表明ＥＳＲ基因在这种种群对产仔数均有极显著影响,ＥＳＲ位点ＢＢ基因型母猪平均比ＡＡ基因型母     

雌激素受体2（ESR2）mRNA 5′非翻译区内部核糖体进入位点活性的鉴定与分析

真核生物除了传统的帽依赖型翻译机制外,还存在内部核糖体进入位点（internal ribosome entry site, IRES）介导的翻译机制。雌激素受体2（estrogen receptor 2, ESR2）是雌激素受体家族成员之一,其编码的蛋白质在许多肿瘤中发挥重要的作用。ESR2蛋白的异常表达会导致众多肿瘤的发生,但其蛋白质翻译水平的调控机制至今仍不清楚。研究发现,在药物刺激的条件下,乳腺癌细胞MCF7/WT中ESR2蛋白的表达提高,但是其转录水平基本未见发生改变。猜测ESR2 mRNA 5′非翻译区（5′ untranslated region, 5′ UTR）具有IRES活性。为了验证ESR2 mRNA 5′ UTR是否具有IRES元件,将ESR2 mRNA 5′ UTR插入到双顺反子报告基因载体（pRF）中,构建pRL-ESR2-FL重组质粒载体,将其瞬时转染到HEK293细胞。结果发现,ESR2 mRNA 5′ UTR有假定的IRES活性。并且通过3个排除实验验证了ESR2 IRES活性与其5′ UTR中的内部潜在启动子（P<0.0001）、内部剪切位点以及核糖体通读无关。进一步对其序列进行截短研究发现,ESR2 IRES活性发挥的关键区域是3′端的439～468 nt,且ESR2 IRES最大活性的发挥依赖于5′ UTR序列的完整性。并且发现,ESR2 IRES活性的发挥不但需要特定的一级核酸序列,还要有稳定的二级茎环结构。此研究有望为ESR2蛋白调控的相关疾病提供新的药物治疗靶点。     

Electron spin resonance study of human alpha 1-acid glycoprotein interaction with a spin labelled steroid.

The interaction of human alpha 1-acid glycoprotein (AAG) with a corticosteroid was studied using nitroxide labeled deoxycorticosterone and electron spin resonance (ESR) spectroscopy. The ESR spectra of the spin labeled steroid in the presence of AAG could be used to characterize the ligand-protein interaction at equilibrium without the need of a separation between bound and free species. An association constant Ka of 6.10(5) M-1 at 20 degrees C and a binding capacity of one site per mole protein were found. ESR spectra recorded at equilibrium at various temperatures allowed the calculation of enthalpy and entropy variations for the steroid-protein interaction; these thermodynamic parameters exhibited a rapid change above 45 degrees C which may be related to a protein conformational modification above this temperature, as detected by circular dichroism study. The ESR spectra width could be used to define a polar character for the spin label environment in the steroid binding site of AAG and to calculate an apparent rotational correlation time of 2.8 x 10(-8) sec for the steroid-protein complex in aqueous solution at 20 degrees C. It can be concluded that spin labeling and ESR methodology is of value in the study of steroid-protein interactions of biological significance above all because it can provide direct physico-chemical information concerning the local environment of the ligand in its binding site at equilibrium.     

No detectable association of the ESR PvuII mutation with sow productivity in a Meishan x Large White F2 population

The polymorphism at the PvuII recognition site in the ESR gene showed no statistically significant association with sow productivity traits in a Meishan x Large White F2 population. Estimates of the effect on litter size were, however, in the opposite direction and statistically different from previously published estimates. Taken together with results from other publications, results here indicate that this PvuII polymorphism displays different degrees of linkage disequilibrium with a gene or genes controlling litter size in different populations.     

The DORNROSCHEN/ENHANCER OF SHOOT REGENERATION1 gene of Arabidopsis acts in the control of meristem ccll fate and lateral organ development

The two main tasks of a meristem, self-perpetuation and organ initiation, are separated spatially. Slowly dividing cells in the meristem center act as pluripotent stem cells, and only their derivatives in the meristem periphery specify new organs. Meristem integrity and cellular proliferation are controlled in part by regulatory interactions between genes that are expressed in specific subdomains of the meristem. Using transposon-mediated activation tagging, we have identified Dornr?schen (drn-D) mutants of Arabidopsis that prematurely arrest shoot meristem activity with the formation of radialized lateral organs. The mutated gene (DRN/ESR1), which encodes an AP2/ERF protein, is expressed in a subdomain of meristem stem cells, in lateral organ anlagen, and transiently in the distal domain of organ primordia. During the development of drn-D mutants, expression of the homeobox gene SHOOTMERISTEMLESS is downregulated and later reactivated in an altered domain. In addition, we found increased expression of CLAVATA3 and WUSCHEL, two genes that antagonistically regulate stem cell fate in meristems. These findings suggest that the DRN/ESR1 gene product is involved in the regulation of gene expression patterns in meristems. Furthermore, specific misexpression of DRN in meristem stem cells affects organ polarity and outgrowth in the meristem periphery, indicating that DRN/ESR1 itself, or a process regulated by DRN/ESR1, can act non-cell-autonomously. We elaborate on the role of DRN/ESR1 in meristem and organ development and discuss its possible role in the process of shoot regeneration.     

Electron paramagnetic resonance study of the interactions between steroid hormones and binding proteins]

Interaction of a spin labeled corticosteroid (desoxycorticosterone nitroxyde: DOC -NO) with three purified proteins (albumin, transcortin, progesterone binding protein: PBG) was studied by electron spin resonance (ESR) spectroscopy. DOC-NO was competitive with natural corticosteroids and therefore bound at the same site to specific binding proteins. ESR spectra in the presence of each of the proteins showed an immobilized (bound) form of the spin labeled steroid and allowed the calculation of the corresponding association constant (Ka) at equilibrium. The three binding proteins could be characterized by the ESR parameters of the DOC-NO bound form. The thermodynamic parameters (deltaH, deltaS) of the steroid-protein interactions were calculated from the ESR data obtained within a wide temperature range (3--40 degrees C). The ESR spectra width (2T) was used to evaluate the polarity of the spin label environment within the steroid binding site: a hydrophobic character was observed for transcortin whereas PBG exhibited a more hydrophilic steroid binding sits. The rotational correlation time of the three protein DOC-NO complexes at equilibrium were calculated from ESR data; the results were correlated with the protein molecular size and suggested a non spherical shape for the binding macromolecule in solution. Spin labelling of biologically active steroids thus provides a novel approach for the study of the interaction of these hormones with their binding protein. Providing a suitable spin label, the ESR parameters may allow the characterization of several types of binding sites of different biological significance for the same hormone, in biological fluids as well as in target tissues.     

Promoter methylation regulates estrogen receptor 2 in human endometrium and endometriosis

Steroid receptors in the stromal cells of endometrium and its disease counterpart tissue endometriosis play critical physiologic roles. We found that mRNA and protein levels of estrogen receptor 2 (ESR2) were strikingly higher, whereas levels of estrogen receptor 1 (ESR1), total progesterone receptor (PGR), and progesterone receptor B (PGR B) were significantly lower in endometriotic versus endometrial stromal cells. Because ESR2 displayed the most striking levels of differential expression between endometriotic and endometrial cells, and the mechanisms for this difference are unknown, we tested the hypothesis that alteration in DNA methylation is a mechanism responsible for severely increased ESR2 mRNA levels in endometriotic cells. We identified a CpG island occupying the promoter region (-197/+359) of the ESR2 gene. Bisulfite sequencing of this region showed significantly higher methylation in primary endometrial cells (n = 8 subjects) versus endometriotic cells (n = 8 subjects). The demethylating agent 5-aza-2'-deoxycytidine significantly increased ESR2 mRNA levels in endometrial cells. Mechanistically, we employed serial deletion mutants of the ESR2 promoter fused to the luciferase reporter gene and transiently transfected into both endometriotic and endometrial cells. We demonstrated that the critical region (-197/+372) that confers promoter activity also bears the CpG island, and the activity of the ESR2 promoter was strongly inactivated by in vitro methylation. Taken together, methylation of a CpG island at the ESR2 promoter region is a primary mechanism responsible for differential expression of ESR2 in endometriosis and endometrium. These findings may be applied to a number of areas ranging from diagnosis to the treatment of endometriosis.