几种木本植物的N2O释放与某些生理活动的关系

使用带有开放气路的气体交换测定系统,同步测定了几种针、阔叶树种的光合作用、呼吸作用及气孔导度．结果表明,低光下树木针叶或叶片释放Ｎ２Ｏ的速率与光合速率无显著相关．伴随根、茎、叶的呼吸,检测到有Ｎ２Ｏ吸收现象,其通量与温度及呼吸强度呈正相关．气孔导度明显影响Ｎ２Ｏ的通量,表明气孔可能是木本植物释放Ｎ２Ｏ的主要途径．     

嗜热四膜虫的着丝粒蛋白检查

目前国际上的着丝粒蛋白研究工作几乎全是以酵母和高等生物为材料进行的,为了从起源与进化的角度考察着丝粒蛋白。我们以人喉癌培养细胞ＨｅｐＩＩ作为对照材料,以两种ＡＣＡ血清和ＣＥＮＰ－Ｂ单抗,多抗以及ＣＨＯ动粒蛋白单抗为探针,用间接免疫荧光和免疫印迹技术对嗜热四膜虫作检查,免疫荧光结果表明,ＨｅｐＩＩ细胞的着丝粒抗原间期核中呈点状分布;与ＨｅｐＩＩ细胞的不同,嗜热四膜虫的着丝粒抗原在间期核中的分布不规则     

Requirement for Lamin B Receptor and Its Regulation by Importin β and Phosphorylation in Nuclear Envelope Assembly during Mitotic Exit

Lamin B receptor (LBR), a chromatin and lamin B-binding protein in the inner nuclear membrane, has been proposed to target the membrane precursor vesicles to chromatin mediated by importin β during the nuclear envelope (NE) assembly. However, the mechanisms for the binding of LBR with importin β and the membrane targeting by LBR in NE assembly remain largely unknown. In this report, we show that the amino acids (aa) 69–90 of LBR sequences are required to bind with importin β at aa 45–462, and the binding is essential for the NE membrane precursor vesicle targeting to the chromatin during the NE assembly at the end of mitosis. We also show that this binding is cell cycle-regulated and dependent on the phosphorylation of LBR Ser-71 by p34^cdc2 kinase. RNAi knockdown of LBR causes the NE assembly failure and abnormal chromatin decondensation of the daughter cell nuclei, leading to the daughter cell death at early G₁ phase by apoptosis. Perturbation of the interaction of LBR with importin β by deleting the LBR N-terminal spanning region or aa 69–73 also induces the NE assembly failure, the abnormal chromatin decondensation, and the daughter cell death. The first transmembrane domain of LBR promotes the NE production and expansion, because overexpressing this domain is sufficient to induce membrane overproduction of the NE. Thus, these results demonstrate that LBR targets the membrane precursor vesicles to chromatin by interacting with importin β in a LBR phosphorylation-dependent manner during the NE assembly at the end of mitosis and that the first transmembrane domain of LBR promotes the LBR-bearing membrane production and the NE expansion in interphase.     

双效表达载体的构建及其U6启动子的功能效率鉴定

利用pBudcE4.1双表达载体构建shRNA与蛋白共表达载体,为双效疫苗的研制提供新的研究思路.以含U6启动子的载体为模板,PCR扩增得到U6启动子,用其置换载体pBudcE4.1内的CMV启动子的核心部分构建shRNA与蛋白共表达载体.用干扰绿色荧光蛋白表达的方法鉴定重组载体中的U6启动子能否启动shRNA的表达.经PCR扩增、双酶切鉴定及DNA测序证明成功构建了载体pBudcE4.1-U6.用干扰载体pBudcE4.1-U6-eGFPshRNA与含eGFP的载体共转染293T细胞后,荧光显微镜观察显示eGFP的表达量下降;流式细胞仪检测细胞的转染效率降低.研究结果证明U6启动子正常发挥作用. 成功构建RNAi与蛋白共表达载体,为利用该载体研制动物双效疫苗奠定了基础.     

HBV前S1蛋白与HepG2细胞膜蛋白结合位点鉴定

为鉴定HepG2细胞膜蛋白识别HBV包膜蛋白preS1区的位点.通过删除突变的方法构建preS1的不同区域片段与GST融合的重组表达质粒,将表达质粒转入E.coli BL21菌株中原核表达,以生物素标记HepG2细胞膜蛋白,pull down试验分析HepG2细胞膜蛋白识别preS1的位点.结果表明,21～33位氨基酸是HepG2细胞膜蛋白识别preS1的主要位点.通过对HepG2细胞膜蛋白与preS1结合的位点的分析,为进一步研究preS1在HBV早期感染中的作用和HBV包膜蛋白受体打下基础.     

组织学与胚胎学PBL教学对学生创新能力的培养

中国医科大学组织学与胚胎学教研室承担了CMB03-#793项目,连续五年在临床医学七年制日文班实施了PBL（problem based learning）的教学模式,根据其教学特点确立了组织学与胚胎学（组胚）PBL教程,编写了＂组织学与胚胎学PBL病例集＂并制作了多媒体课件。学生在PBL中受到启发,激发了主动学习积级性,也制作了多媒体课件。同学课下查阅文献,准备资料。讨论病例分组进行,同学主持。大家踊跃发言,举证说明,用学得的知识,联系组胚理论去解释生命现象并和疾病相联系。我们对实施过PBL教学的几个年级的学生257人进行了追踪问卷调查,结果看出得到明显提高的依次是学生的主动学习的能力,独立查阅资料的能力、拓宽知识面、对相关领域感兴趣、分析解决问题的能力及对知识的理解能力。提高的相关指标就是创新思维的基础和前提。学生拓宽了知识面、开阔了视野,自然就会产生兴趣迸发出学习的生机去主动思维,也就有了分析解决问题的能力。由此产生不同以往的看法和想法,有了新的认识、新的观点和新的所为,丰富的想像力就会迸发出创造力,这些就是创新的萌芽。这是PBL教学带给学生的新的理念。刷新理念将会产生更多的创新。     

Novel A14841G mutation is associated with high penetrance of LHON/C4171A family

We report the clinical and genetic characterization of a Chinese LHON family carrying an ND1/C4171A mutation. This family has high penetrance of visual impairment and extremely low frequency of vision recovery, which is in marked contrast to previously reported results for Korean LHON families with the same mutation. Sequence analysis of the complete mtDNA in the partially defined East Asian haplogroup N9a1 revealed the presence of 29 other variants. A novel heteroplasmic A14841G mutation, one of the variants with a serine substituted for a highly conserved asparagine at amino acid 32 of Cytochrome b (Cytb), may play a synergistic role with the C4171A mutation, leading to significantly different clinical manifestations of LHON among these families. The study further confirmed that C4171A was a rare primary LHON mutation, and the mtDNA background could also contribute to the clinical manifestation of the LHON/C4171A mutation.     

An eco-informatics tool for microbial community studies: supervised classification of Amplicon Length Heterogeneity (ALH) profiles of 16S rRNA

Support vector machines (SVM) and K-nearest neighbors (KNN) are two computational machine learning tools that perform supervised classification. This paper presents a novel application of such supervised analytical tools for microbial community profiling and to distinguish patterning among ecosystems. Amplicon length heterogeneity (ALH) profiles from several hypervariable regions of 16S rRNA gene of eubacterial communities from Idaho agricultural soil samples and from Chesapeake Bay marsh sediments were separately analyzed. The profiles from all available hypervariable regions were concatenated to obtain a combined profile, which was then provided to the SVM and KNN classifiers. Each profile was labeled with information about the location or time of its sampling. We hypothesized that after a learning phase using feature vectors from labeled ALH profiles, both these classifiers would have the capacity to predict the labels of previously unseen samples. The resulting classifiers were able to predict the labels of the Idaho soil samples with high accuracy. The classifiers were less accurate for the classification of the Chesapeake Bay sediments suggesting greater similarity within the Bay's microbial community patterns in the sampled sites. The profiles obtained from the V1+V2 region were more informative than that obtained from any other single region. However, combining them with profiles from the V1 region (with or without the profiles from the V3 region) resulted in the most accurate classification of the samples. The addition of profiles from the V 9 region appeared to confound the classifiers. Our results show that SVM and KNN classifiers can be effectively applied to distinguish between eubacterial community patterns from different ecosystems based only on their ALH profiles.     

Preparation and characterization of magnetic microspheres for the purification of interferon alpha-2b

Magnetic agarose microspheres (MAMS), magnetic cellulose microspheres (MCMS), and magnetic poly(vinyl alcohol) microspheres (MPVAMS) were prepared by various different preparation methods. MCMS coupled with anti-IFN alpha-2b monoclonal antibodies (mAb) were selected for the purification of interferon alpha-2b (IFN alpha-2b) after performance characterization among microspheres. Parameters of immunomagnetic separation (IMS), including binding mAb, elution behavior, and sample pretreatment conditions, were optimized to improve the purification efficiency of the separation of IFN alpha-2b by MCMS. Size-exclusion HPLC (HPSEC) showed that the IFN alpha-2b was purified from crude cell lysate had an overall purity of 92.9%, while immunological and biological assays showed an activity recovery of 88.5% and specific antiviral activity of 2.7 x 10(8) IU/mg. Identity and molecular mass of purified IFN alpha-2b were confirmed by western blot and matrix-assisted laser desorption ionization time of flight mass spectrometry (MALDI-TOF-MS) analysis. This study illustrated the favorable separation media which combined desired properties for the development of magnetic separation of biological materials.     

Ca2+/Calmodulin-dependent Protein Kinase IIα (αCaMKII) Controls the Activity of the Dopamine Transporter: IMPLICATIONS FOR ANGELMAN SYNDROME

The dopamine transporter (DAT) is a crucial regulator of dopaminergic neurotransmission, controlling the length and brevity of dopaminergic signaling. DAT is also the primary target of psychostimulant drugs such as cocaine and amphetamines. Conversely, methylphenidate and amphetamine are both used clinically in the treatment of attention-deficit hyperactivity disorder and narcolepsy. The action of amphetamines, which induce transport reversal, relies primarily on the ionic composition of the intra- and extracellular milieus. Recent findings suggest that DAT interacting proteins may also play a significant role in the modulation of reverse dopamine transport. The pharmacological inhibition of the serine/threonine kinase αCaMKII attenuates amphetamine-triggered DAT-mediated 1-methyl-4-phenylpyridinium (MPP(+)) efflux. More importantly, αCaMKII has also been shown to bind DAT in vitro and is therefore believed to be an important player within the DAT interactome. Herein, we show that αCaMKII co-immunoprecipitates with DAT in mouse striatal synaptosomes. Mice, which lack αCaMKII or which express a permanently self-inhibited αCaMKII (αCaMKII(T305D)), exhibit significantly reduced amphetamine-triggered DAT-mediated MPP(+) efflux. Additionally, we investigated mice that mimic a neurogenetic disease known as Angelman syndrome. These mice possess reduced αCaMKII activity. Angelman syndrome mice demonstrated an impaired DAT efflux function, which was comparable with that of the αCaMKII mutant mice, indicating that DAT-mediated dopaminergic signaling is affected in Angelman syndrome.