离子液体氯化1-辛基-3-甲基咪唑对EMT6细胞的毒性及其机理研究

为评估咪唑类离子液体的生物毒性,研究了氯化1-辛基-3-甲基咪唑([C8mim] [C1])对EMT6细胞的毒性作用和可能的机制.不同浓度(0.06、0.25、1 mmol·L-)的[C8 mim][Cl]对EMT6细胞染毒12h后,采用MTT方法检测细胞活力,二乙酸荧光素(FDA)方法检测细胞膜通透性的变化,Rhodamine 123染色方法检测线粒体膜电位的变化,ELISA方法检测了Caspase-3的活性,并测定了细胞内活性氧(ROS)的含量.结果表明,经[Csmim] [Cl]染毒12h后,EMT6细胞活力下降,并呈剂量依赖关系.当[Csmim] [Cl]浓度高于0.25 mmol·L-1时,细胞活力与对照相比,差异显著.研究还发现,[Csmim][Cl]染毒增加了EMT6细胞膜通透性,降低了线粒体膜电位并诱导产生过量的活性氧,增强了Caspase-3活性.实验结果表明,[C8mim] [Cl]染毒造成了EMT6细胞膜通透性的改变、活性氧的过量产生和凋亡分子表达的增强,这可能是[Csmim] [Cl]导致细胞凋亡和活力下降的主要原因.     

斑马鱼及其胚胎在毒理学中的实验研究与应用进展

作为一种模式生物,斑马鱼具有很多其他模式生物所不具备的优点,已被广泛应用于生物学各领域,具有十分广阔的发展前景.论文首先介绍了斑马鱼的基因组学,包括正向遗传学、反向遗传学以及斑马鱼在药物研发和人类疾病研究中的应用;其次就斑马鱼在发育生物学中的应用进行了概述;最后,介绍了斑马鱼在毒理学各方面(急性毒性、内分泌干扰、发育毒性、神经毒性、血管研究和癌症研究)的应用进展.     

Prenatal diagnosis in a family with mitochondrial acetoacetyl-coenzyme a thiolase deficiency with the use of the polymerase chain reaction followed by the heteroduplex detection method

Mitochondrial acetoacetyl-coenzyme A (CoA) thiolase deficiency is an organic aciduria which affects isoleucine and ketone body catabolism. GK16 (the index patient) was affected with this disorder and previous studies had revealed that GK16 was a compound heterozygote with IVS8(+1) gt to tt and A301P mutations. In a subsequent pregnancy, prenatal diagnosis was performed and the fetus's amniocytes were analysed by the polymerase chain reaction (PCR) followed by the heteroduplex detection method on a Mutation Detection Enhancement gel. The fetus was identified as a carrier of the IVS8(+1) mutation. We confirmed the diagnosis by immunoblot analysis of extracted amniocytes and gene analysis with blood filter paper after delivery. This is the first report of prenatal diagnosis of this disorder at the gene level.     

高等植物线粒体基因组研究新进展

与其它真核生物相比，高等植物线粒体基因组不仅在大小，组织结构．基因组成和表达，RNA编辑等方面具有突出特点，而且线粒体基因组与核基因组之间存在着广泛的信息交流线粒体基因组作为一个半自主性的遗传系统，其组织结构的雏持和生理功能的发挥受到核基因组的调控作用，本文就这些方面的研究进展作了简要评述．     

Mitochondrial DNA variation pattern and postglacial history of the Siberian larch (<Emphasis Type="Italic">Larix sibirica</Emphasis> Ledeb.)

Mitochondrial DNA (mtDNA) variation has been studied in populations of the Siberian larch with the use of five PCR-based markers characterizing 29 haplotypes. The studied populations from the main parts of the Siberian larch range belong to several geographically isolated groups with their specific sets of haplotypes, which have probably originated from separate refugia for forest vegetation of the last glacial maximum. Conclusions concerning the possible location of these refugia and the ways and pattern of the postglacial recolonization of the recent Siberian larch range are drawn. The spatial distribution of haplotypes within individual populations is nonrandom. The typical size of the area occupied by a group of plants with the same haplotype is 50–100 m across.     

核基因组在细胞质雄性不育中的作用研究：背景与现状

细胞质雄性不育 (ｃｙｔｏｐｌａｓｍｉｃｍａｌｅｓｔｅｒｉｌｉｔｙ ,ＣＭＳ) ,表现为小孢子发育异常、不能产生花粉或花粉败育 ,但卵细胞发育正常、可接受外来花粉而正常结实 ,系母性遗传 ,即细胞质遗传[1～ 4 ] .ＣＭＳ的重要性 ,首先表现为在农业生产上的巨大经济应用价值[2～ 4 ] .杂种优势的发现和利用为粮食生产带来了革命 ,但杂种种子的生产过程却是很繁杂的 ,核心是要阻止母本的自花授粉结实、保证母本植株上所结的种子全部是杂种 ,即种子的纯度很高才能保证农业生产上的应用 .ＣＭＳ ,由于其不能产生可育的花粉 ,即无自花授粉结…     

PM2.5暴露对小鼠肝脏能量代谢的影响

通过细颗粒物(particulate matter 2.5,PM_(2.5))的暴露,探讨其对小鼠肝脏能量代谢方式的影响及作用机制.采用透射电镜(TEM)观察肝脏组织中线粒体超微结构的改变,并检测了三磷酸腺苷(ATP)、丙酮酸和乳酸含量的变化,同时用实时荧光定量-聚合酶链式反应(RT-PCR)检测糖酵解相关基因果糖-2,6-二磷酸酶(PFKFB3)和乳酸脱氢酶(LDHB)及三羧酸循环(TCA)相关基因丙酮酸脱氢酶(PDHA1)、柠檬酸合成酶(CS)和延胡索酸酶(FH)的表达情况.此外,还对活性氧(ROS)的水平进行检测.结果表明,PM_(2.5)暴露对小鼠肝脏组织中的线粒体造成损伤,导致ATP的下降,丙酮酸和乳酸的积累.此外,PDHA1、CS和FH的表达明显降低,PFKFB3和LDHB的表达显著升高,这些结果共同表明PM_(2.5)改变了小鼠肝脏的能量代谢方式.同时ROS水平明显升高,表明PM_(2.5)暴露可能是通过ROS抑制三羧酸循环,增强糖酵解方式来为机体提供能量,从而对肝脏的能量代谢产生影响.     

Genetic diversity and IUCN Red List status

The International Union for Conservation of Nature (IUCN) Red List is an important and widely used tool for conservation assessment. The IUCN uses information about a species’ range, population size, habitat quality and fragmentation levels, and trends in abundance to assess extinction risk. Genetic diversity is not considered, although it affects extinction risk. Declining populations are more strongly affected by genetic drift and higher rates of inbreeding, which can reduce the efficiency of selection, lead to fitness declines, and hinder species’ capacities to adapt to environmental change. Given the importance of conserving genetic diversity, attempts have been made to find relationships between red-list status and genetic diversity. Yet, there is still no consensus on whether genetic diversity is captured by the current IUCN Red List categories in a way that is informative for conservation. To assess the predictive power of correlations between genetic diversity and IUCN Red List status in vertebrates, we synthesized previous work and reanalyzed data sets based on 3 types of genetic data: mitochondrial DNA, microsatellites, and whole genomes. Consistent with previous work, species with higher extinction risk status tended to have lower genetic diversity for all marker types, but these relationships were weak and varied across taxa. Regardless of marker type, genetic diversity did not accurately identify threatened species for any taxonomic group. Our results indicate that red-list status is not a useful metric for informing species-specific decisions about the protection of genetic diversity and that genetic data cannot be used to identify threat status in the absence of demographic data. Thus, there is a need to develop and assess metrics specifically designed to assess genetic diversity and inform conservation policy, including policies recently adopted by the UN's Convention on Biological Diversity Kunming-Montreal Global Biodiversity Framework.