- A Transparent window into biology: A primer on Caenorhabditis elegans
- Biochemistry
- Cell biology
- Basement membranes
- Cell-cycle regulation
- Cell division
- Cell fusion
- The C. elegans eggshell
- Development, structure, and maintenance of C. elegans body wall muscle
- Epithelial junctions, cytoskeleton, and polarity
- Membrane ion transport in non-excitable tissues
- C. elegans as a model for membrane traffic
- Sarcomere assembly in C. elegans muscle
- Nematode sperm motility
- The cadherin superfamily
- The cuticle
- The sensory cilia of Caenorhabditis elegans
- Autophagy in C. elegans
- Tubulins in C. elegans
- Developmental control mechanisms
- Polarity establishment, asymmetric division and segregation of fate determinants in early C. elegans embryos
- Development and migration of the C. elegans Q neuroblasts and their descendants
- Embryological variation during nematode development
- Epidermal morphogenesis
- Gastrulation in C. elegans
- Notch signaling in the C. elegans embryo
- Programmed cell death
- The C. elegans intestine
- The C. elegans pharynx: a model for organogenesis
- Translational control of maternal RNAs
- Disease models and drug discovery
- Nematode evolution and ecology
- Introduction to nematode evolution and ecology
- A quick tour of nematode diversity and the backbone of nematode phylogeny
- Ecology of Caenorhabditis species
- Evolution of development in nematodes related to C. elegans
- Interactions with microbial pathogens
- Natural variation and population genetics of Caenorhabditis elegans
- Nematode genome evolution
- The phylogenetic relationships of Caenorhabditis and other rhabditids
- Molecular evolution inferences from the C. elegans genome
- Genetics and genomics
- Introduction to genetics and genomics
- Caenorhabditis nomenclature
- Complementation
- Essential genes
- Gene duplications and genetic redundancy in C. elegans
- Genetic enhancers
- Genetic mosaics
- Genetic suppression
- Karyotype, ploidy, and gene dosage
- C. elegans network biology: a beginning
- C. elegans noncoding RNA genes
- Genomic classification of protein-coding gene families
- Mitochondrial genetics
- Overview of gene structure in C. elegans
- Transposons in C. elegans
- Genomics and biology of the nematode Caenorhabditis briggsae
- Oscheius tipulae
- Pristionchus pacificus
- The biology of Strongyloides spp.
- The biology and genome of Heterorhabditis bacteriophora
- Biology and genome of Trichinella spiralis
- Molecular biology
- Alternative splicing in C. elegans
- C. elegans microRNAs
- Replication and repair
- Endogenous RNAi pathways in C. elegans
- Mechanism and regulation of translation in C. elegans
- Operon and non-operon gene clusters in the C. elegans genome
- RNA-binding proteins
- Roles of chromatin factors in C. elegans development
- Trans-splicing and operons in C. elegans
- Transcription mechanisms
- Transcriptional regulation of gene expression in C. elegans
- Ubiquitin-mediated pathways in C.elegans
- Pre-mRNA splicing and its regulation in Caenorhabditis elegans
- Neurobiology and behavior
- Egg-laying
- Male mating behavior
- Specification of the nervous system
- Synaptogenesis
- The neuronal genome of Caenorhabditis elegans
- Potassium channels in C. elegans
- Synaptic function
- Acetylcholine
- Biogenic amine neurotransmitters in C. elegans
- GABA
- Ionotropic glutamate receptors: genetics, behavior and electrophysiology
- Chemosensation in C. elegans
- Mechanosensation
- Ethanol
- Neuropeptides
- Neurogenesis in the nematode Caenorhabditis elegans
- C. elegans feeding
- Post-embryonic development
- Sex determination
- Introduction to sex determination
- Hermaphrodite cell-fate specification
- Male development
- Sex determination in the germ line
- Somatic sex determination
- The evolution of nematode sex determination: C. elegans as a reference point for comparative biology
- Morphogenesis of the vulva and the vulval-uterine connection
- X-Chromosome dosage compensation
- Signal transduction
- Introduction to signal transduction
- Genomic overview of protein kinases
- Canonical RTK-Ras-ERK signaling and related alternative pathways
- Heterotrimeric G proteins in C. elegans
- Neurotransmitter signaling through heterotrimeric G proteins: insights from studies in C. elegans
- Homologs of the Hh signalling network in C. elegans
- Insulin/insulin-like growth factor signaling in C. elegans
- Notch signaling: genetics and structure
- Nuclear receptor signal transduction in C. elegans
- Signaling in the innate immune response
- Small GTPases
- TGF-β signaling in C. elegans
- The putative chemoreceptor families of C. elegans
- Wnt signaling in C. elegans
- Eph receptor signaling in C. elegans
- The germ line
- WormHistory
- WormMethods
- Behavior
- Assaying mechanosensation
- Keeping track of worm trackers
- Microfluidics as a tool for C. elegans research
- Methods for measuring pharyngeal behaviors
- Biochemistry and molecular biology
- Introduction and basics
- Two-point mapping with genetic markers
- Three-point mapping with genetic markers
- Dominant mutations
- Making compound mutants
- Mapping with deficiencies and duplications
- SNPs: Introduction and two-point mapping
- SNPs: Three-point mapping
- Suppressor mutations
- Synthetic and enhancer mutations
- Classical genetic methods
- Genetic balancers
- Genetic dissection of developmental pathways
- Maintenance of C. elegans
- Nomarski images for learning the anatomy, with tips for mosaic analysis
- Profiling C. elegans gene expression with DNA microarrays
- Immunohistochemistry
- Protocols for large scale in situ hybridization on C. elegans larvae
- Reporter gene fusions
- RNA in situ hybridization of dissected gonads
- Single molecule fluorescent in situ hybridization (smFISH) of C. elegans worms and embryos
- Methods in cell biology
- Cell isolation and culture
- Mass spectrometry-based shotgun proteomic analysis of C. elegans protein complexes
- Isolation of C. elegans and related nematodes
- Pristionchus pacificus protocols
- Pristionchus pacificus genomics: from genetics to genome sequence
- Strongyloides stercoralis: a model for translational research on parasitic nematode biology
- Transgenesis in animal parasitic nematodes: Strongyloides spp. and Brugia spp.
- Neurophysiological methods in C. elegans: an introduction
- Caenorhabditis briggsae methods
- Culture of embryonic C. elegans cells for electrophysiological and pharmacological analyses
- Electrophysiological recordings from the neuromuscular junction of C. elegans
- Electrophysiological recordings from the pharynx
- Heterologous expression of C. elegans ion channels in Xenopus oocytes
- Imaging the activity of neurons and muscles
- Reverse genetics
- C. elegans gene transformation by microparticle bombardment
- Transformation and microinjection
- A biologist's guide to statistical thinking and analysis
- Web resources for C. elegans studies
- An introduction to the UCSC Genome Browser
- Transgenic solutions for the germline
- Modern techniques for the analysis of chromatin and nuclear organization in C. elegans
- Working with dauer larvae