微卫星DNA标记在近交系大鼠HFJ和MIJ遗传监测中的应用

目的 用24对引物对近交系HFJ和MIJ大鼠的微卫星位点进行多态性分析,并选用近交系Lewis和F344大鼠作为对照,进行比较分析.方法 用传统的酚-氯仿法分别提取4个近交系大鼠MIJ、HFJ、Lewis和F344 的基因组DNA,选取大鼠24个微卫星位点,通过PCR扩增,扩增产物经过非变性聚丙烯酰胺凝胶电泳和银染,根据电泳结果,比较分析4种品系近交系大鼠之间微卫星多态性.结果 4种品系及品系内不同个体的近交系大鼠在24个微卫星位点上的扩增产物均出现一个条带,MIJ和HFJ大鼠在品系间和品系内均表现为单态性,同Lewis 和F344的扩增结果比较,14个位点显示多态性,有10个位点显示单态性.结论 两个近交系大鼠品系MIJ和HFJ符合近交系要求,筛选出的14个多态性微卫星位点可用于有关近交系大鼠的遗传背景监测.     

MIJ和HFJ近交系大鼠心电图表现

目的 测定近交系MIJ、HFJ大鼠心电图,并与Wistar大鼠比较分析,观察MIJ和HFJ大鼠心电图表现.方法 大鼠麻醉后,仰卧位固定于大鼠固定板上,用短针电极刺入皮下2～3 mm位置,麻醉5 min后,用福田青岛FX-102B心电图机做心电图,并对心电图进行分析.结果 三种大鼠均为窦性心律,心律齐整,雄性HFJ、MIJ心率均高于同性别Wistar.HFJ和MIJ品系、性别间心率差异均无显著性.HFJ和MIJ心电轴与Wistar相同,主要在0°～90°间.三种大鼠的P波方向及QRS波群基本相同,但各波振幅和各波时限,在不同品系和性别之间存在较明显的差异.结论 近交系MIJ和HFJ大鼠各有其独特的心电图表现.     

近交系MIJ和HFJ大鼠部分生理数据测定和分析

目的测定近交系大鼠MIJ、HFJ和封闭群Wistar大鼠的脏器系数、体温、呼吸频率、肠管长度,观察两个近交系大鼠的生理表型。方法 采用常规方法对大鼠脏器系数、体温、呼吸频率及肠管长度进行测定,并对HFJ、MIJ、Wistar大鼠三者间进行比较。结果①体重:HFJ、MIJ、Wistar大鼠同性别间比较差异无显著性。②脏器系数:HFJ与Wistar大鼠雄性间心脏、肺,雌性间子宫、肝;MIJ与Wistar大鼠雄性间肺、脾,雌性间脑、脾,差异均有显著性。HFJ与MIJ大鼠雄性间脑,雌性间脑和脾差异有显著性。HFJ大鼠不同性别间肝、脑、眼球差异有显著性。MIJ大鼠不同性别间,脑、心脏、肾、肺、脾和眼球差异均有显著性。③体温:HFJ雌性大鼠明显高于Wistar雌性,雄性间差异无显著性。HFJ大鼠雌性高于雄性,差异有显著性。④呼吸频率:HFJ雌性大鼠低于同性Wistar大鼠,MIJ大鼠雌性和雄性均高于同性别Wistar大鼠,差异有显著性。⑤肠管长度:HFJ与Wistar同性别间比较,肠管总长和小肠差异有显著性。MIJ与Wistar大鼠雄性间肠管总长、大肠、小肠、盲肠差异均有显著性,雌性间肠管总长、小肠、盲肠差异有显著性。HFJ与MIJ大鼠同性别间差异均无显著性,不同性别的HFJ和MIJ的肠管总长、大肠和小肠差异有显著性。结论 MIJ和HFJ近交系大鼠的脏器系数、体温、呼吸频率、肠管长度都各有其独特的生理概貌。     

单核苷酸多态性分析在近交系大鼠遗传检测中的应用

目的研究SNP在近交系大鼠遗传检测中的应用。方法 选取大鼠20号染色体MHC所在P12区上的9个SNP位点,应用新建立的高保真酶特异性检测SNP基因分型技术对五种常用近交系大鼠(BN、F344、WKY、LEW、SHR)和两种新培育近交系大鼠(MIJ和HFJ)进行SNP多态性分析。结果五种常用近交系的SNP检测结果与Rat Genome Database网站提供的基因型数据一致,并检测确立了新品系的SNP基因型。同时绘制出七种近交系大鼠在该9个SNP位点的遗传扩增图谱。结论运用所筛选的9个SNP位点进行大鼠多态性分析,能够快速、可靠地对BN、F344、WKY、LEW、SHR及MIJ、HFJ进行遗传监测。     

近交系HFJ大鼠的培育及其部分表型观察

目的培育高繁殖力近交系HFJ大鼠并观察其部分表型特征。方法以一对Wistar大鼠为基代,通过全同胞近亲交配方式,采用选优法培育高繁殖力近交系HFJ大鼠。采用生化标记法、皮肤移植实验进行遗传质量检测;观察比较其部分表型特征。结果HFJ种群符合近交系标准;其窝产仔数、离乳率、胎次间隔显著高于Wistar大鼠;HFJ大鼠12周龄后生长缓慢,体重低于同龄Wistar大鼠;HFJ大鼠部分血液常规指标及血液生化指标与Wistar大鼠有显著差异。结论HFJ大鼠繁殖力强,是具有独特生物学特性的近交系大鼠。     

HFJ和Wistar大鼠脂肪肝及胰岛素抵抗动物模型的比较

目的建立近交系HFJ大鼠和封闭群Wistar大鼠脂肪肝胰岛素抵抗动物模型及比较其生物学特性。方法雄性HFJ大鼠和Wistar大鼠,分别随机分为模型组和正常组,模型组喂养高脂饮食,正常组喂养普通饮食,两组脂肪分别占摄入能量的44.2%和19.2%,共饲养12周。每周称体质量,测定血糖、甘油三酯、胆固醇、ALT、AST、HDLC、LDLC和血胰岛素水平。实验期末处死动物摘取肝脏并称质量,计算肝指数;鼠肝脏用10%甲醛固定,石蜡包埋切片,HE染色,光镜下评估肝脂肪变性和炎症活动情况。结果镜下可见,HFJ和Wistar大鼠模型组肝细胞均呈现弥漫性脂肪变性,小叶内可见炎症细胞浸润,HFJ比Wistar脂肪变性较重,对照组肝脏均未见异常。两种动物的模型组ALT、AST、肝指数、HOMA-IR指数均显著高于其正常组,HFJ和Wistar种系间各指标的差异无显著性;HFJ大鼠模型组体重和正常组体重具有显著性差异(P<0.01),而Wistar大鼠模型组体重与正常组体重间无显著差异(P>0.05);HFJ大鼠TG和TC含量均显著高于Wistar大鼠。结论通过高脂饮食喂养成功建立了HFJ大鼠和Wistar大鼠脂肪肝与胰岛素抵抗疾病动物模型,与Wistar大鼠比较,HFJ大鼠具有自发性高血脂特征,造模更易成功,可为胰岛素抵抗和脂肪肝的发病机制研究、防治高血脂药物筛选提供一种新的实验动物。     

微卫星DNA监控大鼠近交系的培育

采用微卫星DNA技术来监控大鼠仔代基因状况,选择性地进行交配繁殖,使基因快速纯合,缩短培育新的近交系动物周期。利用PCR扩增30个微卫星DNA位点对封闭群SD和Wistar大鼠交配繁殖的仔代鼠进行微卫星DNA多态性分析,仔代中与母代SD大鼠相似系数高的与中的进行定向交配繁殖。F2代大鼠均为杂合多态的位点,没有纯合位点;到F9代时基因纯合位点达27个,纯合基因位点率为90%。每代相似系数具有不断上升的趋势,上升率为6-20%。采用皮肤移植方法验证了F9代大鼠间无排斥。建立了一种新的快速培育近交系动物的方法。     

HFJ大鼠与Wistar大鼠用于动脉粥样硬化造模的比较研究

目的通过高脂喂养和免疫损伤结合的方法,建立HFJ近交系大鼠和Wistar封闭群大鼠动脉粥样硬化动物模型并进行比较分析。方法选择HFJ近交系和Wistar封闭群大鼠,分别随机分为模型组和正常组,正常组给予基础饲料饲喂,模型组给予高脂饲料饲喂,并采用牛血清白蛋白(40mg/kg)和卵清白蛋白(2.5mg/kg)进行免疫损伤,并辅以维生素D3(25万U/kg)灌胃,饲养90d后测定血脂水平、血液生化指标、观察病理变化和血管内皮生长因子(VEGF)免疫组化情况。结果 (1)HFJ和Wistar大鼠正常组相比较,前者TG、TC和LDL-C水平高于后者(P<0.05),HFJ大鼠模型组LDL-C含量明显高于Wistar大鼠(P<0.05);(2)心肌损伤指标,HFJ和Wistar大鼠模型组均较正常组心肌激酶(CK)、心肌激酶同工酶(CK-Mb)明显升高;(3)HE染色发现与Wistar大鼠模型组相比,HFJ近交系大鼠斑块形成更为明显,明显处于动脉粥样硬化病理Ⅲ期,可见纤维帽形成,纤维帽下具有典型的胆固醇结晶裂隙和泡沫细胞,中层平滑肌排列紊乱;(4)免疫组化法测定主动脉弓VEGF蛋白的表达,HFJ大鼠模型组较Wistar大鼠表达升高(P<0.05)。结论成功建立了HFJ大鼠动脉粥样硬化疾病动物模型,与Wistar大鼠相比HFJ大鼠模型特点更为显著,可为动脉粥样硬化研究提供一新的实验动物品系。     

近交系HFJ大鼠的抗肿瘤细胞Walker-256特性

目的检测近交系HFJ大鼠的肿瘤学特性。方法采用大鼠肿瘤细胞Walker-256分别接种HFJ大鼠和Wistar大鼠制作腹水瘤、实体瘤模型,观察两种动物对同一种肿瘤细胞的敏感性及免疫反应差异。结果对于腹水瘤Walker-256接种7d,Wistar大鼠有6只腹水产生为阴性,HFJ大鼠腹水产生均为阳性。继续观察至20d,可见到Wistar大鼠有3只腹水阴性(阳性率9/12,死亡2只,染色体用1只),而HFJ大鼠腹水全部为阴性(阳性率0/12,死亡2只,染色体用1只)。腹水中Walker-256细胞染色体分析,Wistar大鼠和HFJ大鼠众数变化范围均为50～62条,无显著差异。实体瘤接种7d,Wistar大鼠和HFJ大鼠均可触摸到右侧腋下有肿块产生。20d后Wistar大鼠除2只肿块消失外其他均有肿块存在并随时间延长而增大(阳性率13/15);所有HFJ大鼠腋下肿块均变软并逐渐消失(阳性率0/15)。检测各组大鼠的细胞免疫、体液免疫功能,发现正常HFJ大鼠IgM、IgA显著低于Wistar大鼠(P<0.01),IgG差异不显著。荷瘤组HFJ大鼠和Wistar大鼠IgG均高于各自正常对照组,差异极显著(P<0.01)。Wist-ar大鼠腹水瘤阳性组IgG显著低于阴性组和HFJ腹水阳性组(P<0.05),Wistar大鼠实体瘤阳性组也显著低于HFJ实体阳性组(P<0.01)。Wistar大鼠腹水瘤阳性组IgM显著低于阴性组(P<0.05),Wistar大鼠腹水瘤阴性组和HFJ大鼠腹水瘤、实体瘤阳性组IgM均高于各自对照组,且差异显著(P<0.05)。细胞免疫结果显示各组CD4+数量差异不显著;正常HFJ大鼠CD8+显著少于Wistar大鼠(P<0.05),Wistar大鼠腹水瘤和实体瘤阳性组CD8+数量较阴性组和正常对照组均显著减少(P<0.05)。各荷瘤阴性组大鼠CD8+数量均较正常值增加,除Wistar大鼠腹水瘤和HFJ实体瘤阴性组大鼠差异显著(P<0.05)外,其他均不显著;CD4+/CD8+结果与CD8+相反。结论 HFJ大鼠具有抗大鼠肿瘤细胞Walker-256的特性,腹水瘤及实体瘤均不易生长。     

雄性不育大鼠近交系MIJ的建立及其遗传特征观察

以发现的雄性不育大鼠的正常表型同胞鼠为种鼠,通过全同胞近亲交配方式,采用选优法成功培育出自发雄性不育大鼠近交系MIJ.同系异体皮肤移植验证其遗传纯合度,观察其表型特征,并通过遗传测交试验测定雄性不育性状的遗传方式.结果表明.MIJ种群符合近交系标准;雄性不育大鼠呈睾丸下降延迟、睾丸及附睾发育迟缓、精子数量少及精子生成障碍;近交系内其他个体表型正常.不育性状呈隐性遗传方式,由常染色体上单一隐性基因控制.该雄性不育大鼠可作为人类男性不育研究的动物模型.     

NIH/Ola: a highly productive inbred strain of laboratory mouse

According to historical records the NIH/Ola strain was developed from outbred 'Swiss' mice imported into the USA by Dr C. Lynch in 1926. A comparison of biochemical markers in strain NIH/Ola and other strains such as SJL and SWR derived from the same foundation stock supports the historical records. Data on litter size, length of gestation, bodyweight to 70 days of age, and reproductive performance when housed in polygamous groups of up to 10 females per male were compared with similar data on inbred CBA/CaOla and C57BL/10ScSnOla mice. NIH/Ola inbred mice had an exceptional reproductive performance, producing about 1.8 young weaned/female/week when housed as monogamous pairs over a period of 20 weeks, compared with less than 1.0 young/female/week with the other 2 strains. NIH/Ola mice were also extremely tolerant to mating in polygamous groups of up to about 8 females per male. Mating ratios of over 2-3 females per male resulted in a marked decline in the total number of litters produced per female in C57BL/10ScSnOla and CBA/CaOla, but this reduction was not nearly so marked in NIH/Ola. It is concluded that the NIH/Ola inbred strain may be particularly useful in studies such as teratology where a high reproductive performance needs to be combined with the advantages of a fully inbred strain.     

A new obesity-prone,glucose-intolerant rat strain (F.DIO)

Previous breeding for the diet-induced obese (DIO) trait from outbred Sprague-Dawley rats produced a substrain with selection characteristics suggesting a polygenic mode of inheritance. To assess this issue further, selectively bred DIO male rats were crossed with obesity-resistant inbred Fischer F344 dams. Male offspring were crossed twice more against female F344 dams. The resultant N3 (F.DIO) rats were then inbred three more times. On low-fat chow, 10-wk-old male and female DIO rats weighed 86 and 59% more than respective F344 rats. By the N3 (F.DIO) generation, they were only 12 and 10% heavier, respectively. After three additional inbreeding cycles, chow-fed F.DIO males had an exaggerated insulin response to oral glucose compared with F344 rats. After 3 wk on a 31% fat (high-energy) diet, male N3 F.DIO rats gained 16-20% more carcass and adipose weight with 98% higher plasma leptin levels, whereas F.DIO females gained 36-54% more carcass and adipose weight with 130% higher leptin levels than comparable F344 rats. After three inbreeding cycles, F.DIO males still gained more weight on high-energy diet and developed a threefold greater insulin response to oral glucose than F344 males. Preservation of the DIO and glucose intolerance traits through successive backcrosses and inbreeding cycles to produce the F.DIO strain lends further support to the idea that they inherited in a polygenic fashion.     

Chromosome markers in 12 inbred strains of the Norway rat, Rattus norvegicus.

Morphological details of metaphase chromosomes were compared among 12 inbred strains of rats (Rattus norvegicus) by means of conventional Giemsa staining and by a sequential Q- and C-banding method. Inter-strain variations were found in seven pairs, as identified on the basis of size differences in the short arms and/or satellites of chromosomes 3 and 12 and the X chromosome and in the centromeric C-bands of chromosomes 4, 5, 7, and 9. All pairs were homomorphic in the inbred strains, while F1 hybrids between two inbred strains showed certain heteromorphic pairs expected from the parents. These chromosome markers appear to be useful for characterization of inbred strains as well as for various genetic studies, including linkage analyses.