江苏汉族人生长激素受体基因多态性研究

为了解生长激素受体(GHR)基因多态性在江苏汉族人群中的分布,通过多重PCR及PCR-RFLP的方法对269例江苏地区正常汉族人进行GHR基因3个位点的多态性分析,并与文献中报道的其它种族和地区的人群进行比较分析.结果显示江苏地区汉族正常人群中GHR基因型以fl/fl、I/L、P/P发生频率最高,这种分布在男女之间没有差异,与其它地区汉族人比较没有明显差异,与日本人差异也不明显,而与法国、俄罗斯人差异明显.研究表明,GHR基因3个位点多态性在不同种族之间分布存在着明显的差异,这种差异有可能是导致不同种族间人体测量学差异及对一些疾病的易感性及对药物的反应性不同的因素之一.     

荧光实时定量PCR检测尼罗罗非鱼GH、GHR、IGF-I基因方法的建立及初步应用

 为了准确分析尼罗罗非鱼生长激素（growth hormone , GH）、生长激素受体（growth hormone receptors, GHRs）和胰岛素样生长因子I （Insulin like growth factor-I,IGF I）在早期发育阶段的作用,实验设计了尼罗罗非鱼GH、GHR、IGF I基因的特异性引物,提 取垂体或肝脏总RNA并扩增出目的片段,将PCR产物克隆到pGEM-T Easy载体,经质粒PCR扩增、酶切和测序鉴定重组质粒,构建 标准曲线等,成功建立了GH、GHR、IGF-I基因荧光实时定量PCR检测方法。运用建立的荧光实时定量 PCR检测了尼罗罗非鱼GH 、GHR和IGF I基因表达的发育性变化。结果表明在早期发育阶段,尼罗罗非鱼GH 与 IGF-I,GHR1与 GHR2的mRNA表达存在一 定的互补关系;GH的表达与GHR1的表达呈显著正相关,提示GH与IGF-I,GHR1与GHR2在尼罗罗非鱼早期发育的不同阶段起主导 作用,且GH可能主要通过与GHR1的结合起作用。     

Molecular cloning of growth hormone receptor (GHR) from common carp(Cyprinus carpio L.)and identification of its two forms of mRNA transcripts

Growth hormone receptor (GHR) belongs tothehematopoietic receptor superfamily[1]. The action ofgrowth hormone (GH) in regulating growth[2],re-production[3]and i mmunity[4]has been elucidated.The binding of GHtothe GHRontarget tissues trig-gers a cascade of tyrosine and protein phosphorylationevents, which cul minates in the biological action ofGH[5 ,6]. Up to date GHR cDNAs have been clonedfrom many species[7—9],including various kinds ofmammalian ani mals ; avian of chicken and domest…     

猪垂体Poly（A）~＋RNA的制备及其体外翻译

本文用ＬｉＣｌ沉淀法提取了猪垂体总ＲＮＡ，经。ｏｌｉｇｏ（ｄＴ）－ｃｅｌｌｕｌｏｓｅ柱亲和层析，分离纯化了猪垂体Ｐｏｌｙ（Ａ）＋ＲＮＡ．用自制的兔网织红细胞体外翻译体系鉴定，表明该Ｐｏｌｙ／（Ａ）＋ＲＮＡ具有较高的翻译活性．ＳＤＳ－ＰＡＯＥ，放射自显影分析翻译产物提示，在制各的猪垂体Ｐｏｌｙ（Ａ）＋ＲＮＡ中，编码猪生长激素前体的ｍＲＮＡ占有较高的比例．     

大黄鱼生长激素基因的克隆与表达

采用RT-PCR方法从大黄鱼脑垂体总RNA中克隆编码生长激素基因序列,并与数据库中鱼类生长激素基因进行比较.扩增获得的生长激素基因定向克隆到表达质粒pET-22b(+),并在大肠杆菌Rosetta(DE3)中表达.表达的蛋白为可溶性蛋白,表达量占细胞总蛋白的5%.     

鲇脑垂体发生形态学的光镜和激光扫描共聚焦显微观察

应用光镜和激光扫描共聚焦显微镜时鲇脑垂体发生形态学进行观察：鲇脑垂体由两个不同部位的胚胎细胞形成,原始口腔背壁外呸层分离出来的细胞构成腺垂体的前外侧部(RPD)和中外侧部(PPD),从间脑腹面漏斗体分离出来的细胞卡构成腺垂体中间部(PI)及神经垂体．3d龄仔鱼脑垂体的形态业已建成,属前后型．5d龄仔鱼脑垂体可区分出神经垂体及腺垂体,腺垂体可区分出RPD、PPD、和PI3个区域,并开始出现毛细血管．此时,PPD内的生长激素(GH)细胞已经分化．11d龄稚鱼脑垂体中除PPD内GH细胞已分化外,未见其它促激素分泌细胞分化．15d龄稚鱼脑垂体PPD内的促肾上腺皮质素(ACTH)细胞及催乳激素(PRL)细胞已分化．20d龄稚鱼脑垂体内各种激素分泌细胞完全分化．11d龄以前仔鱼脑垂体属前后型,15d龄和20d龄的稚鱼脑垂体内RPD、PPD和P13部分呈直状排列．性成熟鲇脑垂体结构旱背腹型．     

IGF-1对绵羊皮肤中GHR、IGF-1、IGF-1R、kAP3.2和KAP6-1基因表达的影响

选取36只健康、体况一致的新疆细毛羊随机分成6组。在每只羊的左侧肩胛部皮下局部注射0．5mL（10ng／mL）的IGF-1,右侧肩胛部皮肤为未注射IGF-1的对照组,然后分别于第0、3、6、9、12、50d采集各皮肤样品,用反转录多聚酶链式反应（RT-PCR）方法,定量分析绵羊皮肤中生长激素受体（GHR）、胰岛素样生长因子1（IGF-1）和胰岛素样生长因子1型受体（IGF-1R）、角蛋白关联蛋白KAP3．2和KAP6-1mRNA的相对丰度。试验结果表明,IGF-1对GHR基因的表达有下调的作用,对IGF-1、IGF-1R基因的表达没有显著的影响,而对KAP3．2、KAP6—1基因的表达具有显著的促进作用。说明IGF-1促进绵羊角蛋白关联蛋白基因的表达可能是通过生长轴以外的其他途径实现的。     

Discrete cis-active genomic sequences dictate the pituitary cell type-specific expression of rat prolactin and growth hormone genes

The anterior pituitary gland, which is derived from a common primordium originating in Rathke's pouch, contains phenotypically distinct cell types, each of which express discrete trophic hormones: adrenocorticotropic hormone (ACTH), thyroid-stimulating hormone (TSH), prolactin, growth hormone, and follicle stimulating hormone (FSH)/luteinizing hormone (LH). The structurally related prolactin and growth hormone genes, which are evolutionarily derived from a single primordial gene, are expressed in discrete cell types--lactotrophs and somatotrophs, respectively--with their expression virtually limited to the pituitary gland. The pituitary hormones exhibit a temporal pattern of developmental expression with rat growth hormone and prolactin characteristically being the last hormones expressed. The reported co-expression of these two structurally related neuroendocrine genes within single cells prior to the appearance of mature lactotrophs, in a subpopulation of mature anterior pituitary cells, and in many pituitary adenomas raises the possibility that the prolactin and growth hormone genes are developmentally controlled by a common factor(s). We now report the identification and characterization of nucleotide sequences in the 5'-flanking regions of the rat prolactin and growth hormone genes, respectively, which act in a position- and orientation-independent fashion to transfer cell-specific expression to heterologous genes. At least one putative trans-acting factor required for the growth hormone genomic sequence to exert its effects is apparently different from those modulating the corresponding enhancer element(s) of the prolactin gene because a pituitary 'lactotroph' cell line producing prolactin but not growth hormone selectively fails to express fusion genes containing the growth hormone enhancer sequence.     

具保幼激素活性的昆虫生长调节剂对亚洲玉米螟Na+-K+-ATPase的影响初探

采用点滴法，室内研究了若干种具保幼激素活性的昆虫生长调节剂对亚洲玉米螟Ostrinia furnacalis末龄幼虫Na^ -K^ -ATPase的影响。结果表明，该影响随亚洲玉米螟幼虫的日龄变化和药剂结构的不同而有所不同，并推测Na^ -K^ -ATPase可能是具保幼激素活性昆虫生长调节剂的重要作用靶标之一。     

Distribution of growth hormone-like immunoreactive cells and somatostatin receptors in the nervous system and Hatschek's pit of amphioxus, Branchiostoma belcheri

Using immunohistochemical method and double staining technique, the localization of growth hormone (GH) and somatostatin receptors in the nervous system and Hatschek's pit of amphioxus has been investigated. The results showed that the growth hormone-like nerve cells and endocrine cells as well as three subtypes of somatostatin receptors exist in the nervous system and Hatschek's pit, and GH-like nerve cells and endocrine cells co-exist with three subtypes of somatostatin receptors in the brain vesicle and Hatschek's pit. It is suggested that a primitive control system of inhibitory growth hormone secretion in Hatschek's pit could have been developed in amphioxus, as in vertebrates. The present study provides new evidence for the endocrinology and the evolution of Hatschek's pit.     

Distribution of growth hormone-like immunoreactive cells and somatostatin receptors in the nervous system and Hatschek''s pit of amphioxus, Branchiostoma belcheri

Using immunohistochemical method and double staining technique, the localization of growth hormone (GH) and somatostatin receptors in the nervous system and Hatschek's pit of amphioxus has been investigated. The results showed that the growth hormone-like nerve cells and endocrine cells as well as three subtypes of somatostatin receptors exist in the nervous system and Hatschek's pit, and GH-like nerve cells and endocrine cells co-exist with three subtypes of somatostatin receptors in the brain vesicle and Hatschek's pit. It is suggested that a primitive control system of inhibitory growth hormone secretion in Hatschek's pit could have been developed in amphioxus, as in vertebrates. The present study provides new evidence for the endocrinology and the evolution of Hatschek's pit.     

Distribution of growth hormone-like immunoreactive cells and somatostatin receptors in the nervous system and Hatschek''''s pit of amphioxus, Branchiostoma belcheri

Using immunohistochemical method and double staining technique, the localization of growth hormone (GH) and somatostatin receptors in the nervous system and Hatschek's pit of amphioxus has been investigated. The results showed that the growth hormone-like nerve cells and endocrine cells as well as three subtypes of somatostatin receptors exist in the nervous system and Hatschek s pit, and GH-like nerve cells and endocrine cells co-exist with three subtypes of somatostatin receptors in the brain vesicle and Hatschek s pit. It is suggested that a primitive control system of inhibitory growth hormone secretion in Hatschek s pit could have been developed in amphioxus, as in vertebrates. The present study provides new evidence for the endocrinology and the evolution of Hatschek's pit.     

猪生长激素受体(GHR)基因启动子的 克隆及功能分析

本研究以猪作为研究模型, 对GHR基因启动子区开展了克隆 、转录因子结合位点分析和启动子活性鉴定.结果表明: 家猪GHR基因或由两个启动子(GHR P1和GHR P2)控制.GHR P1的部分核苷酸序列与牛、羊对应核苷酸序列具有较高的同源性, 但功能分析显示其启动子活性较低.针对GHR P2的实验结果表明其具有典型的GHR组成型启动子特征, 荧光素酶报告实验表明其具有启动子活性, 因此我们推测本次克隆获得的GHR P2是猪GHR的组成型启动子.     

南方鲇成鱼垂体的组织学与组织化学

运用组织学、组织化学技术对南方鲇成鱼垂体结构在生殖周期中的变化进行了研究.结果表明:南方鲇垂体为背腹型腺体,由神经垂体和腺垂体组成,神经垂体位于腺垂体中央;腺垂体前外侧部位于腺体前部,由PRL、ACTH细胞和少量GH、GTH细胞组成;中外侧部位于腺体中部及后部腹面区域,由GH、GTH和TSH细胞组成;中间部位于腺体后部背面,包括MSH、GTH细胞和首次在鱼类报道的大型泡状细胞.GTH和ACTH细胞结构在生殖周期中发生明显的变化,与生殖活动密切相关.     

鱼类生长激素的研究概况

鱼类生长激素对鱼的生长发育有重要的作用.就生长激素在鱼类应用中的分离及活性鉴定方法、鱼类生长激素基因转移的研究、分泌季节性和药物影响进行简要概括.     

Unexpectedly similar rates of nucleotide substitution found in male and female hominids

In 1947, it was suggested that, in humans, the mutation rate is dramatically higher in the male germ line than in the female germ line. This hypothesis has been supported by the observation that, among primates, Y-linked genes evolved more rapidly than homologous X-linked genes. Based on these evolutionary studies, the ratio (alpha(m)) of male to female mutation rates in primates was estimated to be about 5. However, selection could have skewed sequence evolution in introns and exons. In addition, some of the X-Y gene pairs studied lie within chromosomal regions with substantially divergent nucleotide sequences. Here we directly compare human X and Y sequences within a large region with no known genes. Here the two chromosomes are 99% identical, and X-Y divergence began only three or four million years ago, during hominid evolution. In apes, homologous sequences exist only on the X chromosome. We sequenced and compared 38.6 kb of this region from human X, human Y, chimpanzee X and gorilla X chromosomes. We calculated alpha(m) to be 1.7 (95% confidence interval 1.15-2.87), significantly lower than previous estimates in primates. We infer that, in humans and their immediate ancestors, male and female mutation rates were far more similar than previously supposed.     

Gonadotropin-releasing hormone analogue binds to luteal cells and inhibits progesterone production.

Although gonadotropin-releasing hormone (GnRH) is believed to mediate the hypothalamic control of pituitary gonadotropin secretion, continuous or repeated administration of GnRH or its agonist analogues has been shown to cause paradoxical antifertility effects in several species, including primates. GnRH-induced interruption of reproductive cycles and pregnancy is associated with diminished progesterone production, implying defective function of the corpus luteum. These luteolytic effects have been attributed to the well recognized desensitising actions of elevated luteinising hormone (LH) levels on ovarian LH receptors and steroidogenesis, subsequent to GnRH-induced gonadotropin release from the anterior pituitary. However, treatment with high doses of exogenous LH did not cause suppression of serum progesterone levels during early pregnancy in rats, whereas a highly active GnRH analogue was effective in this regard. These observations suggested that GnRH and its agonist analogues, given in high or sustained doses, can exert a direct action on the ovary that is independent of the pituitary. This hypothesis was further supported by the ability of GnRH and its agonists to inhibit human chorionic gonadotropin (HCG)-induced ovarian and uterine weight gain in hypophysectomised rats and to delay the onset of puberty in intact female rats. Also, GnRH and its agonist analogues have recently been shown to inhibit steroidogenesis induced by follicle-stimulating hormone (FSH) in cultured granulosa cells, confirming the direct action of such peptides on the ovarian follicle. The marked inhibitory effects of GnRH and its agonists on corpus luteum function suggest that these compounds could exert direct actions by binding to specific receptors on luteal cells. The present experiments, which examine the effects of GnRH agonists on luteal steroidogenesis, demonstrate the existence of such actions and their mediation by specific high-affinity receptor sites present in luteal cell membranes.