Characterization of the Caenorhabditis elegans UDP-galactopyranose mutase homolog glf-1 reveals an essential role for galactofuranose metabolism in nematode surface coat synthesis

Galactofuranose (Gal_f), the furanoic form of d-galactose produced by UDP-galactopyranose mutases (UGMs), is present in surface glycans of some prokaryotes and lower eukaryotes. Absence of the Gal_f biosynthetic pathway in vertebrates and its importance in several pathogens make UGMs attractive drug targets. Since the existence of Gal_f in nematodes has not been established, we investigated the role of the Caenorhabditis elegans UGM homolog glf-1 in worm development. glf-1 mutants display significant late embryonic and larval lethality, and other phenotypes indicative of defective surface coat synthesis, the glycan-rich outermost layer of the nematode cuticle. The glf homolog from the protozoan Leishmania major partially complements C. elegans glf-1. glf-1 mutants rescued by L. major glf, which behave as glf-1 hypomorphs, display resistance to infection by Microbacterium nematophilum, a pathogen of rhabditid nematodes thought to bind to surface coat glycans. To confirm the presence of Gal_f in C. elegans, we analyzed C. elegans nucleotide sugar pools using online electrospray ionization–mass spectrometry (ESI-MS). UDP-Gal_f was detected in wild-type animals while absent in glf-1 deletion mutants. Our data indicate that Gal_f likely has a pivotal role in maintenance of surface integrity in nematodes, supporting investigation of UGM as a drug target in parasitic species.     

单核细胞增生李斯特菌对秀丽隐杆线虫致病性的研究

单核细胞增生李斯特菌(Listeria monocytogenes,Lm)是李斯特菌病的病原细菌。用Lm野生株EGDe、弱毒株ΔprfA、毒力回复株+prfA和高毒株+prfA^*喂饲模式生物秀丽隐杆线虫N2,并以线虫的良好食源大肠埃希菌OP50以及非致病的无害李斯特菌（Listeria innocua）作为对照,检测Lm对线虫发育周期、寿命和产卵数的影响。结果显示：当以无害李斯特菌、Lm野生株以及PrfA突变株为食时,线虫的产卵数虽有所下降,但线虫不仅能够正常产卵,而且其发育周期和寿命均较以OP50为食时显著延长（P≤0.05）;线虫体表和消化道中均可检测到大量李斯特菌,但粪便中的活菌数极少。以上结果说明Lm不能杀死秀丽隐杆线虫,对线虫也没有显著致病性,不适合作为研究Lm致病机制的模型;Lm可在线虫体表和消化道存在,暗示Lm可借助线虫在土壤环境中生存和传播。     

Paucimannose N-glycans in Caenorhabditis elegans and Drosophila melanogaster

There is a rich diversity of paucimannose N-glycans in worms and flies, and these may play a role in the survival of these organisms. Although paucimannose N-glycans are not expressed in vertebrates, complex N-glycans may take over some of the functions of paucimannose N-glycans. Identification of the target proteins of β-1,2-N-acetylglucosaminyltransferase I (GnTI) in worms and flies and elucidation of their functions may thus lead to a better understanding of the role of GnTI-dependent glycoproteins in the survival/longevity of both invertebrates and vertebrates.     

秀丽隐杆线虫模型在抗衰老研究中的应用

随着人口老龄化问题的凸显,衰老相关的研究越来越被重视。秀丽隐杆线虫（Caenorhabditis elegans）是抗衰老研究领域中非常重要的生物模型,具有生命周期短、易于培养和观察等优点,但与其他哺乳动物模型相比仍有一些局限性,如DNA甲基化的缺乏等。本文主要综述了秀丽隐杆线虫模型在抗衰老研究和药物筛选中的应用,包括抗衰老药物对线虫寿命和抗性的测定与评估、药物筛选以及健康衰老研究中的应用,并概括了该模型的优势和局限性,为秀丽隐杆线虫模型在抗衰老研究中的应用提供理论依据。     

Four acetylcholinesterase genes in the nematode Caenorhabditis elegans

Whereas a single gene encodes acetylcholinesterase (AChE) in vertebrates and most insect species, four distinct genes have been cloned and characterized in the nematode Caenorhabditis elegans. We found that ace-1 (mapped to chromosome X) is prominently expressed in muscle cells whereas ace-2 (located on chromosome I) is mainly expressed in neurons. Ace-x and ace-y genes are located in close proximity on chromosome II where they are separated by only a few hundred base pairs. The role of these two genes is still unknown.

Résumé

À l'inverse de la situation des vertébrés et de la majorité des insectes, chez qui un gène unique code pour l'acétylcholinestérase (AChE), quatre gènes d'AChE ont été clones et caractérisés chez Caenorhabditis elegans. Le gène ace-1 (localisé sur le chromosome X) et le gène ace-2 (chromosome I) assurent respectivement l'expression de l'AChE dans les tissus musculaire (ace-1) et nerveux (ace-2). Les gènes ace-x et ace-y ne sont séparés que de quelques centaines de paires de bases sur le chromosome II et leur rôle est pour l'instant inconnu.     

APH-2/Nicastrin Functions in LIN-12/Notch Signaling in the Caenorhabditis elegans Somatic Gonad

Nicastrin is a recently identified member of high-molecular weight complexes containing presenilin. The Caenorhabditis elegans homolog of nicastrin, aph-2, was shown to be required for GLP-1/Notch signaling in the early embryo. In addition to the maternal-effect embryonic lethal phenotype, aph-2 mutant animals also display an egg-laying defect. We show that this latter defect is related to the SEL-12/presenilin egg-laying defect. We also show that aph-2 and sel-12 genetically interact and cooperate to regulate LIN-12/Notch signaling in the development of the somatic gonad. In addition, aph-2 and lin-12/Notch genetically interact. We illustrate a new role for aph-2 in facilitating lin-12 signaling in the somatic gonad, thus providing evidence that APH-2 is involved in both GLP-1/Notch- and LIN-12/Notch-mediated signaling events. Finally, we demonstrate that nicastrin can partially substitute for aph-2, suggesting a conservation of function between these proteins.     

线虫体内新piRNA研究

PIWI-interacting RNAs(piRNA)是一类內源性小RNA,负责抵御转座子和转基因对基因组的入侵.已发现1.6万多种piRNA,在piRNA上游存在保守序列,根据上游序列特征可以预测新的piRNA.将线虫同步化培养至L4时期,分别提取野生和prg-1突变样本中的小RNA,并对其进行高通量测序.基于piRNA上游保守序列特征,在野生线虫L4时期中,发现了967种新piRNA,这些新piRNA在prg-1突变后表达消失.新piRNA的基因座集中分布在四号染色体的2个piRNA簇内,首位碱基以U为主.与已发表的成虫发育时期的PRG-1免疫共沉淀数据比对,发现有153种piRNA存在于与PRG-1免疫沉淀的数据中.同时还发现一些只在野生线虫中表达的non-21nt小RNA,它们与已知piRNA的基因座相同,推测这些non-21nt小RNA可能是其piRNA前体加工的产物.总之,通过小RNA测序,在线虫中发现了一些新的piRNA.     

线虫prg-1基因对小RNA表达的影响

以秀丽隐杆线虫为材料发现,prg-1基因突变不仅影响piRNA的表达,还影响部分miRNA的表达,同时还发现ncRNA-like型小RNA,对ncRNA-like序列比较,认为ncRNA-like与piRNA或miRNA序列极为相似;对ncRNA-like与miRNA或piRNA的基因座比较,发现ncRNA-like与miRNA或piRNA基因座完全相同．推测这些ncRNA-like型小RNA可能与miRNA或piRNA有着相同的RNA前体来源．     

Molecular cloning and characterization of the dpy-20 gene of Caenorhabditis elegans

We describe the molecular analysis of the dpy20 gene in Caenorhabditis elegans. Isolation of genomic sequences was facilitated by the availability of a mutation that resulted from insertion of a Tc1 transposable element into the dpy-20 gene. The Tc1 insertion site in the m474:: Tc1 allele was identified and was found to lie within the coding region of dpy-20. Three revertants (two wild-type and one partial revertant) resulted from the excision of this Tc1 element. Genomic dpy-20 clones were isolated from a library of wild-type DNA and were found to lie just to the left of the unc-22 locus on the physical map, compatible with the position of dpy-20 on the genetic map. Cosmid DNA containing the dpy-20 gene was successfully used to rescue the mutant phenotype of animals homozygous for another dpy-20 allele, e1282ts. Sequence analysis of the putative dpy-20 homologue in Caenorhabditis briggsae was performed to confirm identification of the coding regions of the C. elegans gene and to identify conserved regulatory regions. Sequence analysis of dpy-20 revealed that it was not similar to other genes encoding known cuticle components such as collagen or cuticulin. The dpy-20 gene product, therefore, identifies a previously unknown type of protein that may be directly or indirectly involved in cuticle function. Northern blot analysis showed that dpy-20 is expressed predominantly in the second larval stage and that the mRNA is not at all abundant. Data from temperature shift studies using the temperature-sensitive allele e1282ts showed that the sensitive period also occurs at approximately the second larval stage. Therefore, expression of dpy-20 mRNA and function of the DPY-20 protein are closely linked temporally.     

Tcl transposition and mutator activity in a Bristol strain of Caenorhabditis elegans

Summary In most strains of Caenorhabditis elegans with a low copy number of Tc1 transposable elements, germline transposition is rare or undetectable. We have observed low-level Tel transposition in the genome of the C. elegans var. Bristol strain KR579 (unc-13[e51]) resulting in an increase in Tc1 copy number and subsequent mutator activity. Examination of genomic blots from KR579 and KR579derived strains revealed that more Tc1-hybridizing bands were present than in other Bristol strains. A novel Tc1-hybridizing fragment was cloned from a KR579-derived strain. Unique sequence DNA flanking the Tc1 element identified a 1.6 kb restriction fragment length difference between the KR579 and N2 strains consistent with a Tc1 insertion at a new genomic site. The site of insertion of this Tel was sequenced and is similar to the published Tel insertion site consensus sequence. Several isolates of KR579 were established and maintained on plates for a period of 3 years in order to determine if Tc1 copy number would continue to increase. In one isolate, KR1787, a further increase in Tc1 copy number was observed. Examination of the KR1787 strain has shown that it also exhibits mutator activity as assayed by the spontaneous mutation frequency at the unc-22 (twitcher) locus. The KR579 strain differs from most low copy number strains in that it exhibits low-level transposition which has developed into mutator activity.     

基于微流控芯片的秀丽隐杆线虫的研究进展

微流控芯片技术作为近年来最前沿的分析技术之一,已经在化学、生物学、医药学等研究领域取得了突破性的进展.微流控芯片具有高通量、微型化和多功能集成化等独特优势,已经成为生物医学研究的新平台之一,被越来越多地应用于秀丽隐杆线虫的研究.综述了基于微流控芯片上的秀丽隐杆线虫在生物医学领域中的研究进展,侧重介绍了微流控芯片在线虫的自动化固定、行为学、衰老与发育学、神经学、药物筛选及基因筛选等六大方面所取得的最新进展,并展望了微流控芯片的应用前景.     

Temperature dependent binding of mebendazole to tubulin in benzimidazole-susceptible and -resistant strains of Trichostrongylus colubriformis and Caenorhabditis elegans

The binding of [³H]mebendazole ([³H]MBZ) to tubulin in benzimidazole-susceptible (BZ-S) and benzimidazole-resistant (BZ-R) strains of Trichostrongylus colubriformis and Caenorhabditis elegans was examined in order to investigate the biochemical changes to tubulin that result in BZ resistance in parasitic and free-living nematodes. In both species the extent of [³H]MBZ binding to tubulin was significantly reduced in the BZ-R strain compared with the BZ-S strain. The decrease in [³H]MBZ binding in the BZ-R strain of each species was the result of a significant reduction in the amount of charcoal stable [³H]MBZ-tubulin complexes and was not related to a change in the association constant of the [³H]MBZ-tubulin interaction. [³H]MBZ binding to tubulin was temperature dependent, reaching maximum levels at 37°C in BZ-S T. colubriformis and 10°C in BZ-R T. colubriformis. Both the BZ-S and BZ-R strains of C. elegans displayed maximum [³H]MBZ binding at 4°C. Resistance ratios derived from the amount of [³H]MBZ binding in the BZ-S and BZ-R strains and in vitro development assays demonstrated that the temperature dependence and extent of drug binding was indicative of BZ resistance status and was species specific in the BZ-S isolates. These results indicate that biochemical differences exist in the binding of benzimidazole carbamates to tubulin in nematode species, and suggest that the susceptibility of the parasitic nematodes to the benzimidazole anthelmintics is the result of a unique high affinity and/or high capacity interaction ofbenzimidazole carbamates with tubulin.     

综述与专论: 线粒体未折叠蛋白反应调控线虫衰老研究进展

蛋白质稳态是生物细胞应对压力的核心。线粒体作为一种重要的细胞器,依赖复杂的蛋白质网络行使正常功能,因此蛋白质稳态对其十分重要。当生物体受到外界压力,产生了蛋白质稳态的改变,为了维持机体功能的正常运转,细胞会激活一种称为线粒体未折叠蛋白反应的转录应答机制,从而维持线粒体蛋白质稳态,恢复线粒体功能,以应对压力,保持机体健康。本文主要介绍了线粒体的特征,线粒体未折叠蛋白反应的概念,线虫中线粒体未折叠蛋白反应的信号转导机制,以及线粒体未折叠蛋白反应对线虫衰老的影响。     

模拟微重力下秀丽隐杆线虫的力学感知和肌萎缩的发生机制——太空飞行线虫试验地面平行对照研究部分

目前,微重力导致肌萎缩的分子机制尚不清楚,重力感知是该事件发生的关键环节．为了回答这一问题,在此之前首先实施了太空线虫试验,这部分结果已经在本刊报道过．而本次研究主要是在地面上建立了模拟微重力环境,观察处理后秀丽隐杆线虫（C.elegans）体壁肌细胞结构和功能的变化,一方面用于验证太空试验,同时比较两种处理结果的异同,以便于评价地面模拟微重力的有效性．经过14天19．5h旋转模拟微重力处理后,对线虫生存率和运动能力进行了观察,并检测了几个重要的肌相关基因表达和蛋白质水平．模拟微重力下线虫生存率没有明显变化,但运动频率显著下降,爬行轨迹也发生了轻微改变,运动幅度降低,提示线虫运动功能出现障碍．从形态学上观察发现：肌球蛋白A（myosin A）免疫荧光染色显示模拟微重力组肌纤维面积缩小,而肌细胞致密体（dense-body）染色可见荧光亮度下降．这些结果直接提示模拟微重力使线虫出现了肌萎缩．随后Western blotting试验结果揭示,模拟微重力组线虫体壁肌的主要结构蛋白——myosin A含量减少,进一步确证了微重力性肌萎缩发生．在基因水平,旋转后抗肌萎缩蛋白基因（dys-1）表达明显上升,而hlh-1,unc-54,myo-3和egl-19的mRNA水平均下调,提示dys-1在骨骼肌感知和传导力学信息方面有重要作用,而hlh-1,unc-54,myo-3和egl-19则分别从结构和功能两个途径促进了微重力性肌萎缩的发生和发展．本次试验所得到的结果同太空飞行试验结果十分相似,一方面强化了太空试验结论,另一方面说明在地面上模拟微重力对生物体进行研究是有效可行的,将有助于提高太空试验的质量．     

自动对焦算法评估线虫脂滴图像的研究

自动对焦是实现线虫自动化筛选的一个重要步骤．在光学显微镜系统中,通过采集同一个视野下不同焦面的图像,再通过清晰度评价函数对这些图像进行运算,得到的最大值被认为是最佳对焦位置．在本研究中,对16种常用的自动对焦算法以及最近提出的一些算法进行了评估,通过评估找出最适合线虫脂滴图像的自动对焦算法,从而搭建一套线虫脂滴自动化筛选系统．同时就对焦精度、运算时间、抗噪声能力、对焦曲线等特征进行了分析评价,结果表明,大多数算法对线虫脂滴图像都有较好的表现,特别是绝对Tenengrad算法在对焦精度上有最好的表现,我们将优选该算法应用到线虫脂滴自动化筛选系统中．     

Mos1 transposition as a tool to engineer the Caenorhabditis elegans genome by homologous recombination

Gene knockouts and knock-ins have emerged as powerful tools to study gene function in model organisms. The construction of such engineered alleles requires that homologous recombination between a transgenic fragment carrying the modifications desired in the genome and the locus to engineer occurs at high frequencies. Homologous recombination frequency is significantly increased in the vicinity of a DNA double-strand break. Based on this observation, a new generation of transgene-instructed genome engineering protocols was developed. Here, we present MosTIC (for “Mos1 excision-induced transgene-instructed gene conversion”), a new technique that provides a means to engineer the Caenorhabditis elegans genome. MosTIC is initiated by the mobilization of Mos1, a Drosophila transposon experimentally introduced in C. elegans. During MosTIC, a Mos1 insertion localized in the genomic region to engineer is mobilized after germline expression of the Mos transposase. Mos1 excision generates a DNA double-strand break, which is repaired by homologous recombination using a transgenic repair template. This results in the transfer of information from the transgene into the genome. Depending on the method used to trigger Mos1 excision, two alternative MosTIC protocols are available, which are presented here in detail. This technique can be used for a wide range of applications, such as structure-function analysis, protein localization and purification, genetic screens or generation of single copy transgenes at a defined locus in the genome.     

The identification of a Caenorhabditis elegans homolog of p34cdc2 kinase

We have identified a Caenorhabditis elegans homolog of p34^cdc2 kinase. The C. elegans homolog, ncc-1, is -60% identical to p34^cdc2 of Homo sapiens. When expressed from a constitutive yeast promoter, ncc-1 is capable of complementing a conditional lethal mutation in the CDC28 gene of Saccharomyces cerevisiae, indicating that this C. elegans homolog can properly regulate the cell cycle.     

Genetic analysis and complementation by germ-line transformation of lethal mutations in the unc-22 IV region of Caenorhabditis elegans

Summary The subject of this study is the organization of essential genes in the 2 map-unit unc-22 IV region of the Caenorhabditis elegans genome. With the goal of achieving mutational saturation of essential genes in this region, 6491 chromosomes mutagenized with ethyl methanesulfonate (EMS) were screened for the presence of lethal mutations in the unc-22 region. The genetic analysis of 21 lethal mutations in the unc-22 region resulted in the identification of 6 new essential genes, making a total of 36 characterized to date. A minimum of 49 essential genes are estimated to lie in this region. A set of seven formaldehyde-induced deficiencies of unc-22 and surrounding loci were isolated to facilitate the positioning of essential genes on the genetic and physical maps. In order to study essential genes at the molecular level, our approach was to rescue lethal mutations by the injection of genomic DNA in the form of cosmid clones into the germ-line of balanced heterozygotes carrying a lethal mutation. The cosmid clones containing let-56 and let-653 were identified by this method.     

双顺反子表达技术在线虫神经元钙成像中的应用

在线虫中,钙成像技术已被广泛用于检测不同神经元的活性.然而,对于准确记录爬行中的活体线虫神经元钙信号仍然存在许多挑战,其中一个困难即来自于标记目标神经元。在同一个目标神经元中共同表达基因编码的钙指示蛋白和常量参考值荧光蛋白常常具有无法共表达的不确定性.另外,光谱的串扰影响存在于目前最常用的绿色钙指示蛋白系列G-CaMP与其参考值荧光蛋白DsRed系列之间,光谱的串扰有时会给信号记录带来假阳性结果.综上所述,本文首次提出应用双顺反子表达技术用于同一神经元的双蛋白标记,这不仅提高了共表达效率,更简化了线虫神经元标记的工作量.同时,本文还首次采用mKate2,一种与G-CaMP没有串扰的红色荧光蛋白作为参考量.以上改进已在感觉神经元ASH中得到验证.希望本文提出的方法能给线虫神经回路的研究提供一个更为方便、有效的途径.