Fire A (1986) EMBO J "Integrative transformation of Caenorhabditis elegans."

Fire A

[EMBO J, 1986]

A technique for introducing exogenous DNA into the chromosomes of the nematode Caenorhabditis elegans is presented. A cloned C. elegans amber suppressor tRNA gene, sup-7, is used as a selectable marker. The activity of this amber suppressor is selected for by injecting worms which carry an amber termination mutation in a gene (tra-3) whose function is required for fertility. Transient expression of sup-7 is evidenced by the presence of fertile (rescued) animals in the generation after injection. In a fraction of cases, these fertile animals give rise to stable suppressor lines (eight have been characterized so far). Each of the stable suppressor lines carries injected DNA sequences. The suppressor activities have been mapped to chromosomal loci, indicating that the exogenous DNA has integrated into the genome. This technique has been used to introduce a chimeric gene containing a Drosophila heat shock promoter element fused to coding sequences from the Escherichia coli beta-galactosidase gene. This chimeric gene functions and is heat inducible in the resulting stably transformed lines.

Fire A et al. (1990) Nucleic Acids Res "Vectors for low copy transformation of C. elegans."

Kondo K, Waterston RH, Fire A

[Nucleic Acids Res, 1990]

The amber suppressor gene sup-7 has been used as a selectable marker to introduce cloned DNA at low copy number into C. elegans chromosomes. We describe structure and several characteristics of seven new sup-7 containing transformation vectors.

Fire A et al. (1989) EMBO J "Proper expression of myosin genes in transgenic nematodes."

Waterston RH, Fire A

[EMBO J, 1989]

Caenorhabditis elegans has four genes which encode skeletal myosin heavy chain isoforms. We have re-introduced clones of two of these genes, myo-3 and unc-54 at low copy number into the germline of C. elegans. The resulting loci behave as functional copies of the genes by two genetic criteria: (i) they can result in phenotypic rescue of strains carrying inactivating myo-3 or unc-54 mutations, and (ii) their presence in strains with wild-type copies of the endogenous myosin loci has genetic consequences similar to duplicating the endogenous loci. The re-introduced genes function at a level close to that of the endogenous loci. Monoclonal antibodies specific for the different isoforms have been used to localize the expressed proteins. The re-introduced genes express in precisely the same cell types as the endogenous genes, and the myosin products produced assemble into filament structures as in wild-type. Unexpectedly, we have found in the course of this work that very high copy numbers of the unc-54 gene lead to a disruption of muscle structure which may result from overexpression of the protein product.

Fire A et al. (2006) Genetics "Unusual DNA structures associated with germline genetic activity in Caenorhabditis elegans."

Fire A, Tan F, Alcazar R

[Genetics, 2006]

We describe a surprising long-range periodicity which underlies a substantial fraction of C. elegans genomic sequence. Extended segments (up to several hundred nucleotides) of the C. elegans genome show a strong bias toward occurrence of AA/TT dinucleotides along one face of the helix while little or no such constraint is evident on the opposite helical face. Segments with this characteristic periodicity are highly overrepresented in intron sequences and are associated with a large fraction of genes with known germline expression in C. elegans. In addition to altering the path and flexibility of DNA in vitro, sequences of this character have been shown by others to constrain DNA::nucleosome interactions, potentially producing a structure which could resist the assembly of highly ordered (phased) nucleosome arrays that have been proposed as a precursor to heterochromatin. We propose a number of ways that the periodic occurrence of An/Tn clusters could reflect evolution and function of genes which express in the germ cell lineage of C. elegans.

Fire A et al. (1998) Nature "Potent and specific genetic interference by double-stranded RNA in Caenorhabditis elegans."

Fire A, Mello CC, Kostas SA, Montgomery MK, Driver SE, Xu SQ

[Nature, 1998]

Experimental introduction of RNA into cells can be used in certain biological systems to interfere with the function of an endogenous gene. Such effects have been proposed to result from a simple antisense mechanism that depends on hybridization between the injected RNA and endogenous messenger RNA transcripts. RNA interference has been used in the nematode Caenorhabditis elegans to manipulate gene expression. Here we investigate the requirements for structure and delivery of the interfering RNA. To our surprise, we found that double-stranded RNA was substantially more effective at producing interference than was either strand individually. After injection into adult animals, purified single strands had at most a modest effect, whereas double-stranded mixtures caused potent and specific interference. The effects of this interference were evident in both the injected animals and their progeny. Only a few molecules of injected double-stranded RNA were required per affected cell, arguing against stochiometric interference with endogenous mRNA and suggesting that there could be a catalytic or amplification component in the interference process.AD - Carnegie Institution of Washington, Department of Embryology, Baltimore, Maryland 21210, USA. fire@mail1.ciwemb.eduFAU - Fire, AAU - Fire AFAU - Xu, SAU - Xu SFAU - Montgomery, M KAU - Montgomery MKFAU - Kostas, S AAU - Kostas SAFAU - Driver, S EAU - Driver SEFAU - Mello, C CAU - Mello CCLA - engPT - Journal ArticleCY - ENGLANDTA - NatureJID - 0410462RN - 0 (Calmodulin-Binding Proteins)RN - 0 (Helminth Proteins)RN - 0 (Muscle Proteins)RN - 0 (RNA, Antisense)RN - 0 (RNA, Double-Stranded)RN - 0 (twitchin)SB - IM

Fire A (1994) Comput Appl Biosci "A four-dimensional digital image archiving system for cell lineage tracing and retrospective embryology."

Fire A

[Comput Appl Biosci, 1994]

The paper describes a digital image archiving system for time-lapse microscopy. The system uses an MS-DOS compatible computer to store video images while simultaneously, controlling a stepping motor. In a typical experiment, images might be taken at 30 s intervals in each of 25 consecutive focal planes. A system with 2.5 Gbyte disk capacity can store similar to 18 000 full frame images: 6 h recording at maximum resolution. Once recorded, images series stored on disk can be 'played back' in any order. Generally, images from a single focal plane are displayed consecutively in either forward or reverse time. The focal plane can be shifted during playback, allowing individual cells to be followed as they move between focal planes. To facilitate the annotation and interpretation of the real-time images, a mouse-driven interface allows users to define and follow individual objects (e.g. cells). The recorded image series can be archived inexpensively using standard digital tape backup hardware. In this laboratory, the system has been particularly useful for tracing embryonic cell lineages and cell migrations. Detailed system specifications, including source code, compiled programs, hardware requirements and users manual are available directly from the author or by anonymous FTP (ciw1.ciwemb.edu).

Fire A (1992) Genet Anal Tech Appl "Histochemical techniques for locating Escherichia coli beta-galactosidase activity in transgenic organisms."

Fire A

[Genet Anal Tech Appl, 1992]

Escherichia coli beta-galactosidase is a commonly used reporter molecule for analyzing gene expression. Recently, beta-galactosidase fusions have been applied to a variety of eukaryotic systems. The techniques for constructing and introducing beta-galactosidase fusion constructs as well as soluble assays for total enzyme function have been described in detail elsewhere. This article describes histochemical techniques for analyzing organisms that contain a functional beta-galactosidase fusion construct. The object is to determine semiquantitatively which cells are expressing the beta-galactosidase fusion protein, as well as the subcellular localization of the protein. Due to its prevalence in the author's laboratory, Caenorhabditis elegans is used as a canonical organism for the detailed methods described.

Fire A et al. (1990) Gene "A modular set of lacZ fusion vectors for studying gene expression in Caenorhabditis elegans."

Harrison SW, Dixon DK, Fire A

[Gene, 1990]

We describe a series of plasmid vectors which contain modular features particularly useful for studying gene expression in eukaryotic systems. The vectors contain the Escherichia coli beta-galactosidase (beta Gal)-encoding region (the lacZ gene) flanked by unique polylinker segments on the 5' and 3' ends, and several combinations of a variety of modules: a selectable marker (an amber suppressor tRNA), a translational initiation region, a synthetic intron segment, the early polyadenylation signal from SV40, and 3' regions from two nematode genes. A segment encoding the nuclear localization peptide from the SV40 T antigen is incorporated into many of the constructs, leading to beta Gal accumulation in nuclei, which can facilitate identification of producing cells in complex tissues. To make functional beta Gal fusions to secreted proteins, we constructed plasmids with an alternate module encoding a synthetic transmembrane domain upstream from lacZ. This domain is designed to stop transfer of secreted proteins across the membrane during secretion, allowing the beta Gal domain of the fusion polypeptide to remain in the cytoplasm and thus function in enzymatic assays. We have used the vectors to analyze expression of several genes in the nematode Caenorhabditis elegans, and have demonstrated in these studies that lacZ can be expressed in a wide variety of different tissues and cell types. These vectors should be useful in studying gene expression both in C. elegans and in other experimental systems.

Fire A et al. (1991) Development "Production of antisense RNA leads to effective and specific inhibition of gene expression in C. elegans muscle."

Harrison SW, Moerman DG, Fire A, Albertson DG

[Development, 1991]

We have used an antisense strategy to effectively disrupt the expression of two genes encoding myofilament proteins present in C. elegans body wall muscles. DNA segments from the unc-22 and unc-54 genes have been placed in reverse orientation in vectors designed to produce RNA in body wall muscles. When the resulting plasmids are injected into oocytes, progeny with defects in muscle function are produced. These animals have phenotypes consistent with reduction and/or elimination of function of the gene to which antisense RNA has been produced: twitching and disorganization of muscle filaments for the unc-22 antisense constructs and lack of muscle tone, slow movement, and egg laying defects for the unc-54 antisense constructs. A fraction of the affected animals transmit the defective-muscle trait to subsequent generations. In these cases the transforming DNA is present at high copy number and cosegregates with the observed muscle defects. We have examined several of the unc-22 antisense plasmid transformed lines to determine the mechanistic basis for the observed phenotypes. The RNA product of the endogenous unc-22 locus is present at normal levels and this RNA is properly spliced in the region homologous to the antisense RNA. No evidence for modification of this RNA by deamination of adenosine to inosine was found. In affected animals the level of protein product from the endogenous unc-22 locus is greatly reduced. Antisense RNA produced from the transforming DNA was detected and was much more abundant than 'sense' RNA from the endogenous locus. These data suggest that the observed phenotypes result from interference with a late step in gene expression, such as transport into the cytoplasm or translation.

Liu Q et al. (2018) Cell "C.elegans AWA Olfactory Neurons Fire Calcium-Mediated All-or-None Action Potentials."

Bargmann CI, Kidd PB, Liu Q, Dobosiewicz M

[Cell, 2018]

Neurons in Caenorhabditis elegans and other nematodes have been thought to lack classical action potentials. Unexpectedly, we observe membrane potential spikes with defining characteristics of action potentials in C.elegans AWA olfactory neurons recorded under current-clamp conditions. Ion substitution experiments, mutant analysis, pharmacology, and modeling indicate that AWA fires calcium spikes, which are initiated by EGL-19 voltage-gated CaV1 calcium channels and terminated by SHK-1 Shaker-type potassium channels. AWA action potentials result in characteristic signals in calcium imaging experiments. These calcium signals are also observed when intact animals are exposed to odors, suggesting that natural odor stimuli induce AWA spiking. The stimuli that elicit action potentials match AWA's specialized function in climbing odor gradients. Our results provide evidence that C.elegans neurons can encode information through regenerative all-or-none action potentials, expand the computational repertoire of its nervous system, and inform future modeling of its neural coding and network dynamics.