微卫星DNA标记技术及其在植物研究中的应用

微卫星DNA(或简单重复序列,simplesequencerepeats,SSR)是继RFLP、RAPD等分子标记后出现的第二代分子标记技术。随着分子生物学的发展,微卫星标记技术在植物基因组中的应用越来越广泛。由于SSR具有多态性高,呈共显性遗传,遵守孟德尔式分离,在数量上没有生物学的限制,实验操作简单,对样品质量要求不高等特点,因此被广泛用于植物遗传图谱的构建、基因定位、构建指纹图谱、遗传多样性及物种进化与亲缘关系的研究等方面。     

花生微卫星标记的研究进展

近年来花生微卫星标记的开发取得了一定的进展,初步揭示了花生在DNA水平上的遗传多样性。花生微卫星标记的开发途径主要包括通过构建小片段基因组文库开发基因组SSR标记,根据花生EST序列开发EST-SSR标记,根据豆科植物序列信息和SSR标记开发花生SSR标记,将SSR标记与其它分子标记结合开发新的DNA标记,以及基于SSR核心序列开发ISSR标记。花生微卫星标记主要应用于遗传多样性研究、遗传图谱与品种指纹图谱构建以及分子标记辅助育种等领域。本文综述了花生SSR标记开发研究的进展及应用。     

花生微卫星标记的研究进展

近年来花生微卫星标记的开发取得了一定的进展, 初步揭示了花生在DNA水平上的遗传多样性。花生微卫星标记的开发途径主要包括通过构建小片段基因组文库开发基因组SSR标记, 根据花生EST序列开发EST-SSR标记, 根据豆科植物序 列信息和SSR标记开发花生SSR标记, 将SSR标记与其它分子标记结合开发新的DNA标记, 以及基于SSR核心序列开发ISSR标记。花生微卫星标记主要应用于遗传多样性研究、遗传图谱与品种指纹图谱构建以及分子标记辅助育种等领域。本文综述了花生SSR标记开发研究的进展及应用。     

与时俱进的SSR分子标记技术及其在水稻中的应用

SSR标记又称为微卫星标记,具有共显性、多态性高、易检测等优点,是目前被广泛应用的一种分子标记。随着分子生物技术的不断发展,SSR分子标记技术也日趋成熟完善,有条件的实验室实现了高通量自动化的技术流程。SSR分子标记技术在水稻DNA指纹图谱的构建和品种真实性鉴定、遗传图谱的构建、基因的定位和图位克隆以及分子标记辅助选择育种等方面有着广泛的应用。     

SSR分子标记在作物遗传育种中的应用

SSR(simple sequence repeat)是建立在PCR技术上的一种广泛应用的分子标记,具有含量丰富、多态性高、共显性等优点。本文简要介绍了SSR分子标记技术的原理和特点,重点介绍了SSR分子标记技术在作物遗传育种中的应用,主要在作物遗传多样性、基因定位、分子辅助标记、遗传图谱构建、品种鉴定和纯度鉴定等方面进行阐述。     

SSR分子标记在烟草研究中的应用进展

SSR分子标记技术作为最常用的分子标记技术之一,该标记技术重复性好,结果可靠,近年来在烟草遗传育种中展示了广阔的应用前景,是应用潜力较大的分子标记技术。介绍了SSR分子标记的原理及其分布特征,对其在烟草基因定位及分子标记辅助选择、种质资源研究、遗传图谱构建及种子纯度及真伪鉴定研究中的应用等方面进行了综述,并探讨了SSR分子标记技术在烟草遗传育种中的应用前景,以期为烟草SSR分子标记技术的研究提供参考。     

微卫星DNA标记技术及其在昆虫学上的应用

微卫星DNA标记作为一种多态性和稳定性高、重复性好、呈共显性的分子遗传标记技术,目前已被广泛应用于昆虫学的研究中。本文介绍了微卫星DNA标记的基本原理和特点,并综述了近年来该技术在昆虫种群遗传结构及分化、生物学特性与习性、遗传图谱的构建、基因定位以及系统发生等领域中的应用。     

基于PCR的SSR标记分离方法综述

SSR分子标记是目前应用最广泛的第二代共显性分子遗传标记。SSR标记具有物种特异性,要应用该方法需要提前开发相应物种的特异SSR标记,而获得微卫星标记的经典方法是通过构建基因组片段文库和特殊标记SSR探针杂交法获取,这些方法经济成本相对较高且耗时耗力。近年来,该领域的研究中积累了很多研究成果和技术改进,发展起来几种基于PCR简便易操作且节约成本的SSR标记分离方法,例如基于RAPD的微卫星分离方法、基于ISSR抑制PCR扩增法、序列标签微卫星分析法、选择性扩增微卫星分析法以及荧光ISSR-PCR分离微卫星和微卫星扩增文库法等。本文主要对这些方法逐一进行综述,旨在为各个物种SSR标记的开发提供参考。     

微卫星DNA标记及其在鱼类遗传多样性研究中的应用

微卫星DNA作为第二代分子遗传标记是高等真核生物基因组中种类多、分布广、具有高度的多态性和杂合度的分子标记,由于其具有多态性检出率高、信息含量大、共显性标记、实验操作简单、结果稳定可靠等优点,已经成为种群遗传学研究中被广泛应用的分子遗传标记。微卫星DNA标记技术在鱼类的群体遗传结构的分析、物种遗传多样性的鉴定以及遗传基因连锁图谱的构建等方面已初步得到应用。该文就微卫星技术的原理方法,在鱼类遗传多样性研究中的应用概况以及应用范围和注意事项等方面进行综述。为微卫星技术在鱼类遗传多样性研究中应用提供了理论参考。     

分子标记在油茶研究中的应用

近年来,分子标记技术发展快速,其在油茶研究中的应用也越来越广泛。由于分子标记具有高效、可靠等诸多优点,它的快速发展为油茶开展遗传多样性分析、品种鉴定、优良基因定位、分子辅助育种、遗传图谱构建等方面研究提供了一条快速有效的途径。综述了RAPD、AFLP、SSR、ISSR和SRAP等几种分子标记在油茶研究中的应用,并在此基础上分析了分子标记在油茶研究中存在的问题和今后研究工作的重点。     

Role for dopamine in malonate-induced damage in vivo in striatum and in vitro in mesencephalic cultures

Defects in mitochondrial energy metabolism have been implicated in the pathology of several neurodegenerative disorders. In addition, the reactive metabolites generated from the metabolism and oxidation of the neurotransmitter dopamine (DA) are thought to contribute to the damage to neurons of the basal ganglia. We have previously demonstrated that infusions of the metabolic inhibitor malonate into the striata of mice or rats produce degeneration of DA nerve terminals. In the present studies, we demonstrate that an intrastriatal infusion of malonate induces a substantial increase in DA efflux in awake, behaving mice as measured by in vivo microdialysis. Furthermore, pretreatment of mice with tetrabenazine (TBZ) or the TBZ analogue Ro 4-1284 (Ro-4), compounds that reversibly inhibit the vesicular storage of DA, attenuates the malonate-induced DA efflux as well as the damage to DA nerve terminals. Consistent with these findings, the damage to both DA and GABA neurons in mesencephalic cultures by malonate exposure was attenuated by pretreatment with TBZ or Ro-4. Treatment with these compounds did not affect the formation of free radicals or the inhibition of oxidative phosphorylation resulting from malonate exposure alone. Our data suggest that DA plays an important role in the neurotoxicity produced by malonate. These findings provide direct evidence that inhibition of succinate dehydrogenase causes an increase in extracellular DA levels and indicate that bioenergetic defects may contribute to the pathogenesis of chronic neurodegenerative diseases through a mechanism involving DA.     

Scurvy in capybaras bred in captivity in Argentine

In order to determine if the absence of vitamin C in the diet of capybaras (Hydrochoerus hydrochaeris) causes scurvy, a group of seven young individuals were fed food pellets without ascorbic acid, while another group of eight individuals received the same food with 1 g of ascorbic acid per animal per day. Animals in the first group developed signs of scurvy-like gingivitis, breaking of the incisors and death of one animal. Clinical signs appeared between 25 and 104 days from the beginning of the trial in all individuals. Growth rates of individuals deprived of vitamin C was considerably less than those observed in the control group. Deficiency of ascorbic acid had a severe effect on reproduction of another population of captive capybaras. We found that the decrease in ascorbic acid content in the diet affected pregnancy, especially during the first stages. The results obtained suggest that it is necessary to supply a suitable quantity of vitamin C in the diet of this species in captivity.     

Changes in lactate dehydrogenase activity in chicken tissues in hyperthyreosis in ontogenesis

The lactate dehydrogenase activity in reactions of lactate oxidation and synthesis was studied in subfractions of the chicken brain, heart and liver at the embryonal, early postembryonal and adult stages of development after thyroxine administration. It has been shown that during embryogenesis thyroxine predominantly enhanced the rate of lactate oxidation in the mitochondrial tissues. A marked increase in the lactate synthesis was found in cytoplasm of the adult chicken tissues. Specificity of enzyme activity alterations was detected in the chicken brain during ontogenesis after thyroxine administration.     

SSTR5 ablation in islet results in alterations in glucose homeostasis in mice

Somatostatin (SST) peptide is a potent inhibitor of insulin secretion and its effect is mediated via somatostatin receptor 5 (SSTR5) in the endocrine pancreas. To investigate the consequences of gene ablation of SSTR5 in the mouse pancreas, we have generated a mouse model in which the SSTR5 gene was specifically knocked down in the pancreatic beta cells (betaSSTR5Kd) using the Cre-lox system. Immunohistochemistry analysis showed that SSTR5 gene expression was absent in beta cells at three months of age. At the time of gene ablation, betaSSTR5Kd mice demonstrated glucose intolerance with lack of insulin response and significantly reduced serum insulin levels. Insulin tolerance test demonstrated a significant increase of insulin clearance in vivo at the same age. In vitro studies demonstrated an absence of response to SST-28 stimulation in the betaSSTR5Kd mouse islet, which was associated with a significantly reduced SST expression level in betaSSTR5Kd mice pancreata. In addition, betaSSTR5Kd mice had significantly reduced serum glucose levels and increased serum insulin levels at 12 months of age. Glucose tolerance test at an older age also indicated a persistently higher insulin level in betaSSTR5Kd mice. Further studies of betaSSTR5Kd mice had revealed elevated serum C-peptide levels at both 3 and 12 months of age, suggesting that these mice are capable of producing and releasing insulin to the periphery. These results support the hypothesis that SSTR5 plays a pivotal role in the regulation of insulin secretion in the mouse pancreas.