Lethal mutations defining 112 complementation groups in a 4.5?Mb sequenced region of Caenorhabditis elegans chromosome III

The central gene cluster of chromosome III was one of the first regions to be sequenced by the Caenorhabditis elegans genome project. We have performed an essential gene analysis on the left part of this cluster, in the region around dpy-17III balanced by the duplication sDp3. We isolated 151 essential gene mutations and characterized them with regard to their arrest stages. To facilitate positioning of these mutations, we generated six new deficiencies that, together with preexisting chromosomal rearrangements, subdivide the region into 14 zones. The 151 mutations were mapped into these zones. They define 112 genes, of which 110 were previously unidentified. Thirteen of the zones have been anchored to the physical sequence by polymerase chain reaction deficiency mapping. Of the 112 essential genes mapped, 105 are within these 13 zones. They span 4.2 Mb of nucleotide sequence. From the nucleotide sequence data, 920 genes are predicted. From a Poisson distribution of our mutations, we predict that 234 of the genes will be essential genes. Thus, the 105 genes constitute 45% of the estimated number of essential genes in the physically defined zones and between 2 and 5% of all essential genes in C. elegans. Received: 23 April 1998 / Accepted: 18 August 1998     

Defining characteristics and conservation of poorly annotated genes in Caenorhabditis elegans using WormCat 2.0

Omics tools provide broad datasets for biological discovery. However, the computational tools for identifying important genes or pathways in RNA-seq, proteomics, or GWAS (Genome-Wide Association Study) data depend on Gene Ontogeny annotations and are biased toward well-described pathways. This limits their utility as poorly annotated genes, which could have novel functions, are often passed over. Recently, we developed an annotation and category enrichment tool for Caenorhabditis elegans genomic data, WormCat, which provides an intuitive visualization output. Unlike Gene Ontogeny-based enrichment tools, which exclude genes with no annotation information, WormCat 2.0 retains these genes as a special UNASSIGNED category. Here, we show that the UNASSIGNED gene category enrichment exhibits tissue-specific expression patterns and can include genes with biological functions identified in published datasets. Poorly annotated genes are often considered to be potentially species-specific and thus, of reduced interest to the biomedical community. Instead, we find that around 3% of the UNASSIGNED genes have human orthologs, including some linked to human diseases. These human orthologs themselves have little annotation information. A recently developed method that incorporates lineage relationships (abSENSE) indicates that the failure of BLAST to detect homology explains the apparent lineage specificity for many UNASSIGNED genes. This suggests that a larger subset could be related to human genes. WormCat provides an annotation strategy that allows the association of UNASSIGNED genes with specific phenotypes and known pathways. Building these associations in C. elegans, with its robust genetic tools, provides a path to further functional study and insight into these understudied genes.     

必需氨基酸延缓秀丽隐杆线虫衰老的研究

利用模式生物秀丽隐杆线虫,考察8种人体必需氨基酸对衰老的影响。首先建立秀丽隐杆线虫寿命模型,以雷帕霉素为阳性对照药,分别考察8种必需氨基酸对线虫生存时间的影响。再用筛选出的氨基酸处理线虫21d,通过秀丽隐杆线虫-绿脓杆菌感染模型,考察氨基酸对线虫的抗感染能力的影响,利用实时荧光定量Real-Time RT-PCR方法检测氨基酸处理线虫后DAF-16/FOXO下游基因和免疫相关基因的表达水平。结果表明8种必需氨基酸中苏氨酸和异亮氨酸既能延长野生型线虫的寿命又能延长daf-16突变型线虫的寿命,同时还能增强秀丽隐杆线虫抗绿脓杆菌感染的能力,并提高免疫相关基因lys-7、clec-67的表达水平,而DAF-16/FOXO下游基因表达没有明显变化。因此苏氨酸和异亮氨酸能延长线虫寿命、提高抗感染能力,且对线虫寿命的延长作用不完全依赖于DAF-16/FOXO转录因子。     

Predicting aging/longevity-related genes in the nematode Caenorhabditis elegans

We present a novel mathematical/computational strategy for predicting genes/proteins associated with aging/longevity. The novelty of our method arises from the topological analysis of an organismal longevity gene/protein network (LGPN), which extends the existing cellular networks. The LGPN nodes represent both genes and corresponding proteins. Links stand for all known interactions between the nodes. The LGPN of C. elegans incorporated 362 genes/proteins, 160 connecting and 202 age-related ones, from a list of 321 with known impact on aging/longevity. A 'longevity core' of 129 directly interacting genes or proteins was identified. This core may shed light on the large-scale mechanisms of aging. Predictions were made, based upon the finding that LGPN hubs and centrally located nodes have higher likelihoods of being associated with aging/longevity than do randomly selected nodes. Analysis singled-out 15 potential aging/longevity-related genes for further examination: mpk-1, gei-4, csp-1, pal-1, mkk-4, 4O210, sem-5, gei-16, 1O814, 5M722, ife-3, ced-10, cdc-42, 1O776Co, and 1O690.     

Multiple Molecular Forms of Acetylcholinesterase in the Nematode Caenorhabditis elegans

Abstract: Extracts of the nematode Caenorhabditis elegans contain five molecular forms of acetylcholinesterase (AChE) activity that can be separated by a combination of selective solubilization, velocity sedimentation, and ion-exchange chromatography. These are called form IA (5.2s), form IB (4.9.s), form II (6.7s), form III (11.3s), and form IV (13.0s). All except form III are present in significant amounts in rapidly prepared extracts and are probably native; form III is probably derived autolytically from form IV. Most of forms IA and IB can be solubilized by repeated extractions without detergent, whereas forms II, III, and IV require detergent for effective solubilization and may therefore be membrane-bound. High salt concentrations are not required for, and do not aid in, the solubilization of these forms. For all forms, molecular weights and frictional ratios have been estimated by a combination of gel permeation chromatography and velocity sedimentations in both H₂O and D₂O. The molecular weight estimates range from 83,000 to 357,000 and only form II shows extensive asymmetry. The separated forms have been characterized with respect to substrate affinity, substrate specificity, inhibitor sensitivity, thermal inactivation, and detergent sensitivity. Judging by these properties, C. elegans is like other invertebrates in that none of its cholinesterase forms resembles either the “true” or the “pseudo” cholinesterase of vertebrates. However, internal comparison of the C. elegans forms clearly distinguishes forms IA, III, and IV as a group from forms IB and II; the former are therefore designated “class A” forms, the latter “class B” forms. Genetic evidence indicates that separate genes control class A and class B forms, and that these two classes overlap functionally. Several factors, including kinetic properties, molecular asymmetry, molecular size, and solubility, all suggest that a molecular model of the multiple cholinesterase forms observed in vertebrate electric organs probably does not apply in C. elegans. Potential functional roles and subunit structures of the multiple AChE forms within each C. elegans class are discussed.     

A liquid-based method for the assessment of bacterial pathogenicity using the nematode Caenorhabditis elegans

Caenorhabditis elegans has previously been used as an alternative to mammalian models of infection with bacterial pathogens. We have developed a liquid-based assay to measure the effect of bacteria on the feeding ability of C. elegans. Using this assay we have shown that Pseudomonas aeruginosa strain PA14, Burkholderia pseudomallei and Yersinia pestis were able to inhibit feeding of C. elegans strain N2. An increase in sensitivity of the assay was achieved by using C. elegans mutant phm-2, in place of the wild-type strain. Using this assay,P. aeruginosa PA01 inhibited the feeding of C. elegans mutant phm-2. Such liquid-based feeding assays are ideally suited to the high-throughput screening of mutants of bacterial pathogens.     

食细菌线虫Caenorhabditis elegans的取食偏好性

通过设置平板培养试验,以模式种线虫 Caenorhabditis elegans 为材料,观察了食细菌线虫的取食行为。结果表明：C. elegans 在取食细菌时对原位土壤中分离的一种Pseudomonas sp细菌存在最大的取食偏好性。这种取食偏好性表现在大部分C. elegans 在24 h内都直接朝Pseudomonas sp迁移,说明C. elegans能通过某种机制识别Pseudomonas sp。距离迁移试验及C. elegans迁移率表明它可能是通过辨别细菌所发出的气味识别它喜欢的食物。C. elegans的繁殖率跟其取食的偏好性是相关的,在迁移率较高的细菌培养基中线虫表现出更高的繁殖率。结果还表明：相对于G+细菌而言, C. elegans 偏好取食G-细菌。为进一步了解土壤生态系统中食细菌线虫与细菌群落结构间相互关系提供了帮助。     

Natto (Fermented Soybean) Extract Extends the Adult Lifespan of Caenorhabditis elegans

A model tripeptide, Gly-L-Leu-L-Phe, was immobilized with activated aminomethyl polystyrene, and its C-terminal was reduced to an alcohol. This peptidyl alcohol was selectively hydrolyzed at the C-terminal amide bond to afford a polymer-supported dipeptide (Gly-L-Leu) and amino alcohol (Phe-OH). The amino alcohol, including its absolute configuration, was determined by labelling with (+)-MNB-COOH, and the dipeptide was reused for a determination of its C-terminal amino acids. The d,l-amino acids of the tripeptide were sequentially determined from the C-terminus.     

VIG-1 is required for maintenance of genome stability in Caenorhabditis elegans

To explore the function of VIG-1 in Caenorhabditis elegans, we analyzed the phenotypes of two vig-1 deletion mutants: vig-1(tm3383) and vig-1(ok2536). Both vig-1 mutants exhibited phenotypes associated with genome instability, such as a high incidence of males (Him) and increased embryonic lethality. These phenotypes became more evident in succeeding generations, implying that the germline of vig-1 accumulates DNA damage over generations. To examine whether vig-1 causes a defect in the DNA damage response, we treated worms with UV or camptothecin, a specific topoisomerase I inhibitor. We observed that the embryonic survival of the vig-1 mutants was reduced compared with that of the wild-type worms. Our results thus suggest that VIG-1 is required for maintaining genome stability in response to endogenous and exogenous genotoxic stresses.     

秀丽隐杆线虫2型糖尿病模型研究进展

秀丽隐杆线虫是一种结构简单且与人类基因在功能上具有高度保守性的模式生物,因其特点鲜明,所以广泛应用于人类疾病研究中,并在2型糖尿病研究中备受关注。目前,2型糖尿病发病机制尚未完全明确,现有的治疗手段会对人体带来许多副作用。利用秀丽隐杆线虫建立2型糖尿病研究模型,与其他2型糖尿病细胞模型和动物模型相比会带来不同的研究策略。本文综述了近年国内外秀丽隐杆线虫模型在2型糖尿病中相关研究进展,为后续研究提供理论参考。     

铜对秀丽隐杆线虫毒性效应的研究

为了阐明铜(Cu)对秀丽隐杆线虫Caenorhabditis elegans长期作用的毒性效应,对实验室多代筛选的耐铜型秀丽隐杆线虫进行了寿命、衰老、发育、生殖和运动等生物学指标的研究.结果显示耐铜型秀丽隐杆线虫与野生型秀丽隐杆线虫相比其寿命缩短、衰老提前、个体发育受到抑制,且出现繁殖率降低、生殖能力减弱、运动行为存在障碍等一系列生理变化.本文为理解与阐明Cu的毒性效应提供了实验资料,有助于深入开展Cu毒性机理的研究.     

Targets of TGF beta-related signaling in Caenorhabditis elegans.

With the characterization of the Smads 5 years ago, it became possible to trace the TGFβ signal transduction pathway from the plasma membrane to the nucleus. Since that time, many Smad interaction partners, cofactors and target genes have been identified using a variety of experimental approaches and model systems. Understanding how these partners generate tissue specificity and crosstalk between pathways is an ongoing pursuit for the field of TGFβ signal transduction. The nematode Caenorhabditis elegans provides a simple, genetically tractable model organism in which to address this goal. This review will examine progress towards the identification of cellular and molecular targets of TGFβ-related signaling in C. elegans.     

细菌与秀丽隐杆线虫之间互作关系的研究进展

秀丽隐杆线虫(Caenorhabditis elegans)以其个体小、易培养、生活周期短等优势成为生物发育、衰老、神经及免疫相关机制研究的模式生物.它在实验室培养时主要靠饲喂大肠杆菌OP50,有报道,细菌及其代谢物对线虫的代谢、行为和寿命有至关重要的影响.因此,作为一个遗传模型,秀丽隐杆线虫可以帮助研究微生物与宿主相...     

秀丽隐杆线虫在高校遗传学实验中的应用

秀丽隐杆线虫(Caenorhabditiselegans)是模式生物中的重要成员之一,因其实验成本低,实验周期短,非常适宜用于高校的遗传学实验教学中。线虫在实验教学中的使用,一方面可以有效地丰富高校实验教学的内容,另一方面也可以很好地激发学生的学习兴趣。本文介绍了线虫在遗传学实验教学中的应用实例,如生活周期观察、单因子杂交、单核苷酸多态性研究、RNA干扰(RNAi)实验等;对实验设置、操作要求、实验相关准备工作等进行了较为细致的描述,为线虫在高校遗传学实验教学中的应用提供了详实案例,可为线虫在高校遗传学实验或其他相关实验课程如细胞生物学实验、模式生物与发育生物学实验中的应用提供参考。     

Advance in research of microRNA in Caenorhabditis elegans

microRNA (miRNA) is a family of small, non‐coding RNA first discovered as an important regulator of development in Caenorhabditis elegans (C. elegans). Numerous miRNAs have been found in C. elegans, and some of them are well conserved in many organisms. Though, the biologic function of miRNAs in C. elegans was largely unknown, more and more studies support the idea that miRNA is an important molecular for C. elegans. In this review, we revisit the research progress of miRNAs in C. elegans related with development, aging, cancer, and neurodegenerative diseases and compared the function of miRNAs between C. elegans and human. J. Cell. Biochem. 114: 994–1000, 2013. © 2012 Wiley Periodicals, Inc.     

以秀丽线虫为模式生物评价蓖麻碱毒性的研究

以秀丽线虫作为评价蓖麻碱毒性的模式生物,通过测定不同浓度的蓖麻碱提取物对线虫的半致死浓度、生殖能力和体内酶活性的影响,对蓖麻碱的毒性进行初步评价。结果表明,蓖麻碱提取物的48h的LD50为0.977mg/mL,72h的LD50为0.821mg/mL;随着蓖麻碱提取物浓度从0.5mg/mL增加到2.0mg/mL,虫体的SOD活性由(80.669±3.2)U/mg降低至(1.532±0.2)U/mg;CAT活性由(70.947±2.7)U/mg降低至(0.234±2.1)U/mg。说明蓖麻碱提取物浓度越大,毒性越强,线虫体内酶活越低,蓖麻碱提取物可使秀丽线虫生殖能力降低或丧失。     

Variation in Caenorhabditis elegans dauer larva formation

Dauer larvae of Caenorhabditis elegans are formed when young larvae experience conditions of low food availability and high conspecific population density; non-dauer, third stage larvae are formed in conditions of plenty. This developmental response to environmental conditions is an example of phenotypic plasticity; that is, an environmentally induced change in phenotype and, as such, a manifestation of a genotype-environment interaction. Extensive variation was found in reaction norms of phenotypic plasticity of dauer formation among wild lines of C. elegans. Recombinant-inbred lines were constructed from parental lines with very different reaction norms of dauer formation. These recombinant-inbred lines had a wide range of reaction norms, of a range greater than that set by the parental lines. The natural variation in reaction norms of dauer formation in C. elegans is, presumably, an adaptation to enhance fitness under the lines' different natural prevailing conditions. The genetic basis of this variation, as well as its phenotypic consequences, are now ripe for further investigation.