幼龄红嘴相思鸟小脑皮质组织学结构

为了探讨不同日龄幼龄红嘴相思鸟(Leiothrix lutea)小脑皮质的组织学结构变化,分别以1、5、9日龄红嘴相思鸟为研究对象,通过H.E和甲苯胺蓝法进行染色,光镜下观察红嘴相思鸟小脑冠状切面的显微结构。结果显示,1日龄时,小脑皮层由外颗粒层(EGL)、浦肯野细胞层(PCL)和内颗粒层(IGL)3层构成,外颗粒层较厚且清晰,而浦肯野细胞层和内颗粒层界限不清楚;5日龄和9日龄时,小脑皮质均可见外颗粒层、分子层(ML)、浦肯野细胞层和内颗粒层4层结构。对3个日龄红嘴相思鸟小脑皮质各层厚度进行单因素方差分析,随日龄增长,小脑皮质、分子层和内颗粒层厚度极显著增厚(P0.01),浦肯野细胞体积也极显著增加(P0.01);外颗粒层厚度变化不明显(P0.05),呈现先增厚后变薄的趋势,与皮质厚度的比例逐渐减小。研究表明,幼龄红嘴相思鸟在出生后,随日龄增长,小脑皮质层逐渐发育成熟。内颗粒层与外颗粒层的相对变化规律表明,内颗粒层细胞是由外颗粒层迁移而来的。     

多巴胺受体1在皖西白鹅小脑皮质发育中的表达

采用普通染色及免疫组化SABC染色法研究皖西白鹅小脑皮质的发育和多巴胺受体1(DRD1)阳性细胞在其发育中的表达.结果表明,小脑皮质在胚龄13 d(E13)由外向内分为外颗粒层(EGL)、浦肯野细胞层(PCL)和内颗粒层(IGL),E19由外向内分为EGL、分子层(ML)、PCL和IGL.随发育天数的增加,EGL的厚度和细胞层次呈先升后降的变化趋势,细胞密度逐渐下降;ML厚度逐渐增大,在E24到E28时增值最大;浦肯野细胞(PC)在E13、E19、E24和E28时随胚龄增大逐渐增大,在E28后趋于稳定,细胞密度随着发育天数的增加逐渐下降,在小脑皮质发育中还发现有一部分PC呈多层排列,且细胞层次逐渐变少;IGL厚度呈先升后降的变化趋势,细胞密度呈上升趋势.外颗粒层和内颗粒层在E13、E19、E24和E28时有DRD1阳性细胞表达,分子层在E24、E28、日龄7 d(P7)和15d(P15)有阳性细胞表达,PC在所检测的6个时段均有阳性表达.研究表明,小脑皮质的发育主要与细胞增殖、迁移和凋亡有关,外颗粒层的逐渐消失是以细胞迁移和凋亡为主,多层PC逐渐退化成单层是与细胞凋亡和正常突触联系的建立有关;DRD1在皖西白鹅小脑皮质发育中对外颗粒层细胞和PC起着重要作用.     

红嘴相思鸟雏鸟间脑动眼神经核团的组织结构

本研究旨在探讨红嘴相思鸟（Leiothrix lutea）雏鸟间脑动眼神经核团的发育动态变化。采用甲苯胺蓝法染色,光镜下观察1、5和9日龄红嘴相思鸟雏鸟间脑动眼神经核的组织学结构。结果显示,红嘴相思鸟雏鸟间脑从浅层至深层依次排列有背外侧部、背内侧部、腹侧部3个亚核以及动眼神经副核。各核团亚区均主要由小型和大型细胞构成,但是不同亚区大型和小型细胞数量、比例以及分布存在差异。随日龄增长,神经细胞内尼氏体逐渐增多。从1日龄到9日龄,各核团之间相对位置不变,但间距增大,且各核团横切面面积显著增大（P < 0.05或P < 0.01）。结果表明,随着红嘴相思鸟雏鸟日龄增长,间脑动眼神经核结构逐渐发育成熟,与其眼部肌肉运动的调控能力渐趋完善相适应。     

猫小脑皮质Glu/GABA表达的老年性变化

衰老导致小脑的生理功能下降,但其神经机制仍然不清楚。为此,利用免疫组织化学方法标记猫小脑皮质内谷氨酸(Glutamate,Glu)和γ-氨基丁酸(γ-Aminobutiric acid,GABA)免疫反应阳性(Glu-IR和GABA-IR)结构,探讨青年猫和老年猫小脑皮质Glu/GABA表达的老年性变化及其可能影响。并利用Image-Pro Express图像分析软件对小脑皮质各层Glu和GABA免疫反应阳性细胞密度及其灰度值进行测量。结果显示:与青年猫相比,老年猫小脑皮质内的Glu免疫反应阳性浦肯野细胞密度、颗粒层Glu免疫反应阳性细胞密度及其两者的免疫阳性反应灰度值均显著下降(P<0.01)(免疫反应强度与平均灰度值成反比);老年猫分子层、浦肯野细胞层GABA免疫反应阳性神经元密度及其免疫反应强度均显著下降(P<0.01);颗粒层GABA免疫反应阳性神经元密度无显著变化(P>0.05),但神经元免疫反应强度显著减弱(P<0.01)。研究结果提示,衰老过程中猫小脑皮质出现神经元Glu的表达增强、GABA的表达减少等,可能是小脑神经元丢失和精确调控能力下降等的重要原因之一。     

生长休止蛋白7在大鼠小脑皮质发育过程中的动态表达

目的研究生长休止蛋白7(Gas7)在大鼠小脑皮质不同发育时期的动态表达。方法采用逆转录聚合酶链反应(RT-PCR)方法检测Gas7mRNA在大鼠小脑皮质不同发育时期的表达;免疫组织化学方法观察Gas7蛋白在大鼠小脑皮质不同发育时期的表达和分布。结果 RT-PCR结果:Gas7mRNA在大鼠小脑皮质发育时期的表达呈现先增强后减弱的趋势,高峰出现在生后第21d(P21)。免疫组化实验结果:在胚胎第18.5d(E18.5)和E20.5仅Purkinje细胞层有Gas7免疫阳性产物分布;出生当天(P0)外颗粒层出现Gas7阳性神经纤维,Purkinje细胞层出现形态不规则的Gas7免疫阳性细胞;P7外颗粒层和Purkinje细胞层免疫反应增强,内颗粒层出现一些散在的Gas7强阳性细胞,胞体较小,突起清晰可见;P14小脑皮质4层均有Gas7阳性表达;P21小脑皮质3层Gas7免疫阳性反应较P14增强(P0.01);Adult(2月龄)较P21免疫反应减弱(P0.01)。结论 Gas7在大鼠小脑皮质发育过程中的动态表达呈现出时空特异性,提示Gas7基因在大鼠小脑皮质发育过程中可能起着重要的调控作用。     

家鸽小脑皮层浦肯野细胞电活动的研究

神经解剖学和组织化学的研究资料指出,鸟类小脑的组织学结构与哺乳类的相似,其皮层也由分子层、浦肯野细胞层和颗粒层构成（Ａｒｅｎｄｓ,１９８５）。与哺乳动物相比,鸟类的小脑皮层发育不完善,在组织学特征上小脑皮层的浦肯野细胞（Ｐｕｒｋｉｎｊｅｃｅｌ,ＰＣ）...     

人体小脑神经元发育的定量观察

目的：研究人体小脑神经元的发育过程。方法：应用体视学方法,对18例不同时期人体小脑组织Golgi染色后进行观察,观测小脑皮质分层出现的时间,观测并计算神经元的数密度、体密度和表面积密度。结果：6月龄时,小脑皮质出现较明显的分子层、蒲肯野细胞层和颗粒层;星形细胞、篮状细胞、蒲肯野细胞、颗粒细胞和高尔基细胞的的数密度随月龄／年龄的增长而减少,体密度和表面积密度随月龄／年龄的增长而增加,但这些减小和增大是不等速的,6-8月龄变化最明显。结论：人体小脑神经元的发育呈现快慢交替、不均速发展,6～8月是小脑神经元发育的重要时期。     

人体小脑神经元发育的定量观察

目的:研究人体小脑神经元的发育过程。方法:应用体视学方法,对18例不同时期人体小脑组织Golgi染色后进行观察,观测小脑皮质分层出现的时间,观测并计算神经元的数密度、体密度和表面积密度。结果:6月龄时,小脑皮质出现较明显的分子层、蒲肯野细胞层和颗粒层;星形细胞、篮状细胞、蒲肯野细胞、颗粒细胞和高尔基细胞的的数密度随月龄/年龄的增长而减少,体密度和表面积密度随月龄/年龄的增长而增加,但这些减小和增大是不等速的,6-8月龄变化最明显。结论:人体小脑神经元的发育呈现快慢交替、不均速发展,6～8月是小脑神经元发育的重要时期。     

猫小脑皮质GABA能神经元年龄相关性变化

为探讨青年猫和老年猫小脑皮质GABA能神经元及其表达的年龄相关性变化,利用Nissl染色显示小脑皮质结构及神经元,免疫组织化学ABC法标记GABA免疫阳性神经元。光镜下观察,采集图像,并利用图像分析软件对分子层、蒲肯野细胞层和颗粒层神经元及GABA免疫阳性神经元及其灰度值进行分析统计。结果显示,GABA免疫阳性神经元、阳性纤维及终末在青年猫和老年猫小脑皮质各层均有分布。与青年猫相比,老年猫分子层、蒲肯野细胞层神经元和GABA免疫阳性神经元密度及其GABA免疫阳性反应强度均显著下降(P<0.01),颗粒层神经元密度和GABA免疫阳性强度也显著下降(P<0.01),但其GABA免疫阳性神经元密度无显著变化(P>0.05);蒲肯野细胞的胞体萎缩,阳性树突分枝减少。因此认为,衰老过程中猫小脑皮质GABA能神经元的丢失和GABA表达的下降,可能是老年个体运动协调、精确调速和运动学习等能力下降的重要原因之一。     

王锦蛇心的位置及其组织学参数和 胶原纤维含量的增龄变化

为阐明王锦蛇（Elaphe carinata）心的位置、组织学参数和胶原纤维含量的发育可塑性,采用形态测量、苏木精-伊红染色和 Masson 染色方法,测定了 1 龄、2 龄以及 50 日龄内王锦蛇个体身体大小和心位置,同时测定并分析了 50 日龄内个体心内膜、心肌层和心外膜的厚度,以及胶原纤维含量的增龄变化。王锦蛇的体重、体全长和体重与体全长的比值都在 2 龄组最高,1 龄组其次,2 和 1 龄组均显著高于 50 日龄内各组（P < 0.05）。肥满度 3 日龄组和 7 ~ 10 日龄组都显著高于 1 和 2 龄组（P < 0.05）。心与吻端的距离,1 和 2 龄组都显著高于其他日龄组（P < 0.05）,但心与吻端的距离与体全长的比值未见组间差异（P > 0.05）。心肌层厚度 50 日龄组显著高于 3 日龄组、20 日龄组和 30 日龄组（P < 0.05）,心外膜和心内膜厚度未见日龄差异（P > 0.05）。心肌层和心壁胶原纤维含量 50 日龄组都显著高于 3 日龄组和 20 日龄组（P < 0.05）。王锦蛇心与吻端的距离与体全长的比值随发育进程无明显变化,在首次 蜕皮和主动摄食后,心肌层厚度增厚、胶原纤维含量增多,提示心肌功能逐渐增强。     

Preparation of hair for measurement of elements by inductively coupled plasma-mass spectrometry (ICP-MS)

The preparation of hair for the determination of elements is a critical component of the analysis procedure. Open-beaker, closedvessel microwave, and flowthrough microwave digestion are methods that have been used for sample preparation and are discussed. A new digestion method for use with inductively coupled plasma-mass spectrometry (ICP-MS) has been developed. The method uses 0.2 g of hair and 3 mL of concentrated nitric acid in an atmospheric pressurelow-temperature microwave digestion (APLTMD) system. This preparation method is useful in handling a large numbers of samples per day and may be adapted to hair sample weights ranging from 0.08 to 0.3 g. After digestion, samples are analyzed by ICP-MS to determine the concentration of Li, Be, B, Na, Mg, Al, P, S, K, Ca, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Ge, As, Se, Rb, Sr, Zr, Mo, Pd, Ag, Cd, Sn, Sb, I, Cs, Ba, Pt, Au, Hg, Tl, Pb, Bi, Th, and U. Benefits of the APLTMD include reduced contamination and sample handling, and increased precision, reliability, and sample throughput.     

日本北海道虻类雌性外生殖器形态(双翅目：虻科)(英文)

【目的】利用日本北海道虻类评估和验证外生殖器在分类学上的意义。【方法】将虻类成虫标本浸渍在生理盐水中并置于双目显微镜下通过针和镊子在培养皿中进行解剖并绘图,观察第9背板、第10背板、尾叶、第8腹板、受精囊、受精囊管及生殖叉器的形态特征。【结果】在日本北海道共记录了虻科(Tabanidae) 3亚科7属38种。我们观察并描述了3亚科其中的6属24种的雌性外生殖器的主要特征。亚科之间存在明显差异;然而在一般情况下属之间很难建立一种方法来确定共同点;种之间只有在斑虻属Chrysops中有相似之处,其他属中则比较多样化。因此,亚科鉴定根据第9背板、第8腹板及受精囊足以进行区分,属及种鉴定需要结合第9背板、第10背板、尾叶、第8腹板、受精囊、受精囊管及生殖叉器各自的特征组合在一起才能区分开来。我们也制作了虻类外生殖器的检索表。【结论】和许多其他昆虫一样,外生殖器是虻科的重要分类特征,对于促进分类学和系统学的发展具有重要意义。本研究首次对分布在日本北海道的虻科雌性外生殖器进行了系统研究。     

A phylogenetic analysis of 100+ genera and 50+ families of euasterids based on morphological and molecular data with notes on possible higher level morphological synapomorphies

 A data matrix of 143 morphological and chemical characters for 142 genera of euasterids according to the APG system was compiled and complemented with rbcL and ndhF sequences for most of the genera. The data were subjected to parsimony analysis and support was assessed by bootstrapping. Strict consensus trees from analyses of morphology alone and morphology + rbcL + ndhF are presented. The morphological data recover several groups supported by molecular data but at the level of orders and above relationships are only superficially in agreement with molecular studies. The analyses provide support for monophyly of Gentianales, Aquifoliales, Apiales, Asterales, and Dipsacales. All data indicate that Adoxaceae are closely related to Dipsacales and hence they should be included in that order. The trees were used to assess some possible morphological synapomorphies for euasterids I and II and for the orders of the APG system. Euasterids I are generally characterised by opposite leaves, entire leaf margins, hypogynous flowers, “early sympetaly” with a ring-shaped corolla primordium, fusion of stamen filaments with the corolla tube, and capsular fruits. Euasterids II often have alternate leaves, serrate-dentate leaf margins, epigynous flowers, “late sympetaly” with distinct petal primordia, free stamen filaments, and indehiscent fruits. It is unclear which of these characters represent synapomorphies and symplesiomorphies for the two groups, respectively, and there are numerous expections to be interpreted as reversals and parallelisms. Received August 28, 2000 Accepted August 7, 2001     

Genetic Manipulation in Δku80 Strains for Functional Genomic Analysis of Toxoplasma gondii

Targeted genetic manipulation using homologous recombination is the method of choice for functional genomic analysis to obtain a detailed view of gene function and phenotype(s). The development of mutant strains with targeted gene deletions, targeted mutations, complemented gene function, and/or tagged genes provides powerful strategies to address gene function, particularly if these genetic manipulations can be efficiently targeted to the gene locus of interest using integration mediated by double cross over homologous recombination.Due to very high rates of nonhomologous recombination, functional genomic analysis of Toxoplasma gondii has been previously limited by the absence of efficient methods for targeting gene deletions and gene replacements to specific genetic loci. Recently, we abolished the major pathway of nonhomologous recombination in type I and type II strains of T. gondii by deleting the gene encoding the KU80 protein^1,2. The Δku80 strains behave normally during tachyzoite (acute) and bradyzoite (chronic) stages in vitro and in vivo and exhibit essentially a 100% frequency of homologous recombination. The Δku80 strains make functional genomic studies feasible on the single gene as well as on the genome scale^1-4.Here, we report methods for using type I and type II Δku80Δhxgprt strains to advance gene targeting approaches in T. gondii. We outline efficient methods for generating gene deletions, gene replacements, and tagged genes by targeted insertion or deletion of the hypoxanthine-xanthine-guanine phosphoribosyltransferase (HXGPRT) selectable marker. The described gene targeting protocol can be used in a variety of ways in Δku80 strains to advance functional analysis of the parasite genome and to develop single strains that carry multiple targeted genetic manipulations. The application of this genetic method and subsequent phenotypic assays will reveal fundamental and unique aspects of the biology of T. gondii and related significant human pathogens that cause malaria (Plasmodium sp.) and cryptosporidiosis (Cryptosporidium).     

Assessing burrowing, nest construction, and hoarding in mice

Deterioration in the ability to perform "Activities of daily living" (ADL) is an early sign of Alzheimer's disease (AD). Preclinical behavioural screening of possible treatments for AD currently largely focuses on cognitive testing, which frequently demands expensive equipment and lots of experimenter time. However, human episodic memory (the most severely affected aspect of memory in AD) is different to rodent memory, which seems to be largely non-episodic. Therefore the present ways of screening for new AD treatments for AD in rodents are intrinsically unlikely to succeed. A new approach to preclinical screening would be to characterise the ADL of mice. Fortuitously, several such assays have recently been developed at Oxford, and here the three most sensitive and well-characterised are presented. Burrowing was first developed in Oxford. It evolved from a need to develop a mouse hoarding paradigm. Most published rodent hoarding paradigms required a distant food source to be linked to the home cage by a connecting passage. This would involve modifying the home cage as well as making a mouse-proof connecting passage and food source. So it was considered whether it would be possible to put the food source inside the cage. It was found that if a container was placed on the floor it was emptied by the next morning., The food pellets were, however, simply deposited in a heap at the container entrance, rather than placed in a discrete place away from the container, as might be expected if the mice were truly hoarding them. Close inspection showed that the mice were performing digging ("burrowing") movements, not carrying the pellets in their mouths to a selected place as they would if truly hoarding them. Food pellets are not an essential substrate for burrowing; mice will empty tubes filled with sand, gravel, even soiled bedding from their own cage. Moreover, they will empty a full tube even if an empty one is placed next to it. Several nesting protocols exist in the literature. The present Oxford one simplifies the procedure and has a well-defined scoring system for nest quality. A hoarding paradigm was later developed in which the mice, rather than hoarding back to the real home cage, were adapted to living in the "home base" of a hoarding apparatus. This home base was connected to a tube made of wire mesh, the distal end of which contained the food source. This arrangement proved to yield good hoarding behaviour, as long as the mice were adapted to living in the "home base" during the day and only allowed to enter the hoarding tube at night.     

Automated High-throughput Behavioral Analyses in Zebrafish Larvae

We have created a novel high-throughput imaging system for the analysis of behavior in 7-day-old zebrafish larvae in multi-lane plates. This system measures spontaneous behaviors and the response to an aversive stimulus, which is shown to the larvae via a PowerPoint presentation. The recorded images are analyzed with an ImageJ macro, which automatically splits the color channels, subtracts the background, and applies a threshold to identify individual larvae placement in the lanes. We can then import the coordinates into an Excel sheet to quantify swim speed, preference for edge or side of the lane, resting behavior, thigmotaxis, distance between larvae, and avoidance behavior. Subtle changes in behavior are easily detected using our system, making it useful for behavioral analyses after exposure to environmental toxicants or pharmaceuticals.     

外泌体在白血病中的重要调控作用

目前,白血病复发是患者死亡的主要原因之一。肿瘤细胞和微环境的相互作用,以及隐匿在骨髓中的肿瘤干细胞,促进了白血病的复发和向淋巴组织的转移,因此白血病的治疗、转移和复发问题受到广泛关注。外泌体是由绝大多数细胞分泌的双层脂质膜囊泡,可以调控细胞间的交流和信息传递。在白血病细胞、基质细胞和内皮细胞之间的相互联系中都涉及到外泌体,白血病细胞来源的外泌体存在于白血病患者的血浆中,能把其携带的白血病相关抗原及微小RNA呈递给靶细胞,促进白血病肿瘤细胞的增殖,有助于肿瘤细胞实现免疫逃避,保护白血病细胞抵抗化疗药物导致的细胞毒性作用,促进血管生成及肿瘤细胞的迁移。因此,外泌体与白血病的转移、治疗及预后密切相关,可以用来检测和监测白血病的进展。本文综述了外泌体的来源、形成与分泌机制,以及外泌体在白血病发生前、发展中、预后和免疫治疗中所扮演的重要角色。     

Unraveling regulation and new components of human P-bodies through a protein interaction framework and experimental validation

The cellular factors involved in mRNA degradation and translation repression can aggregate into cytoplasmic domains known as GW bodies or mRNA processing bodies (P-bodies). However, current understanding of P-bodies, especially the regulatory aspect, remains relatively fragmentary. To provide a framework for studying the mechanisms and regulation of P-body formation, maintenance, and disassembly, we compiled a list of P-body proteins found in various species and further grouped both reported and predicted human P-body proteins according to their functions. By analyzing protein-protein interactions of human P-body components, we found that many P-body proteins form complex interaction networks with each other and with other cellular proteins that are not recognized as P-body components. The observation suggests that these other cellular proteins may play important roles in regulating P-body dynamics and functions. We further used siRNA-mediated gene knockdown and immunofluorescence microscopy to demonstrate the validity of our in silico analyses. Our combined approach identifies new P-body components and suggests that protein ubiquitination and protein phosphorylation involving 14-3-3 proteins may play critical roles for post-translational modifications of P-body components in regulating P-body dynamics. Our analyses provide not only a global view of human P-body components and their physical interactions but also a wealth of hypotheses to help guide future research on the regulation and function of human P-bodies.     

The Rumen Ciliate Fauna of Domestic Sheep (Ovis ammon aires) from the Turkish Republic of Northern Cyprus

ABSTRACT. Concentration and composition of ciliate protozoa in the families Ophryoscolecidae and Isotrichidae were determined in rumen contents of domestic sheep ( Ovis ammon aries ) from Cyprus. A total of five genera of Ophryoscolecidae were identified, Metadinium, Enoploplastron, Polyplastron, Epidinium , and Ophryoscolex , which included six species: Metadinium affine, Enoploplastron triloricatum, Polyplastron multivesiculatum, Epidinium ecaudatum, Epidinium graini, and Ophryoscolex purkynjei. Eight separate forms of Epidinium were identified ( E. ecaudatum f. ecaudatum, E, e. f. caudatum, E. e. f. bicaudatum, E. e. f. tricaudatum, E. e. f. quadricaudatum, E. graini f. graini, E. g. f. caudatricoronatum , and E. g. f. caudaquadricoronatum ), along with five forms of Ophryoscolex purkynjei (O. p. f. purkynjei, O. p. f. bifidobicinctus, O. p. f. bifidoquadricinctus, O. p. f. bicoronatus, O. p. f. tricoronatus , and O. p. f. quadricoronatus). Three species of Isotrichidae were observed, Isotricha intestinalis, I. prostoma , and Dasytricha ruminantium. This study reports new host records for three forms of Epidinium graini and Ophryoscolex purkynjei f. bifidobicinctus. The rumen fauna in the family Ophryoscolecidae from Cypriote domestic sheep appear to have limited diversity compared to those from Turkish and Far Eastern (Chinese/Japanese) sheep, while they are more diverse than those found in Western European (Scottish) and North American (Canadian/Alaskan) sheep.     

A Caenorhabditis elegans Model System for Amylopathy Study

Amylopathy is a term that describes abnormal synthesis and accumulation of amyloid beta (Aβ) in tissues with time. Aβ is a hallmark of Alzheimer''s disease (AD) and is found in Lewy body dementia, inclusion body myositis and cerebral amyloid angiopathy ^1-4. Amylopathies progressively develop with time. For this reason simple organisms with short lifespans may help to elucidate molecular aspects of these conditions. Here, we describe experimental protocols to study Aβ-mediated neurodegeneration using the worm Caenorhabditis elegans. Thus, we construct transgenic worms by injecting DNA encoding human Aβ₄₂ into the syncytial gonads of adult hermaphrodites. Transformant lines are stabilized by a mutagenesis-induced integration. Nematodes are age synchronized by collecting and seeding their eggs. The function of neurons expressing Aβ₄₂ is tested in opportune behavioral assays (chemotaxis assays). Primary neuronal cultures obtained from embryos are used to complement behavioral data and to test the neuroprotective effects of anti-apoptotic compounds.