Intermediate filament protein ifa-3; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required for epidermal morphogenesis in embryos. Probable component of embryonic epidermal attachment structures.

Intermediate filament protein ifb-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required in morphogenesis and epidermal integrity. Probable component of embryonic epidermal attachment structures. Functions in larval muscle attachment independently of ifa-2.

Intermediate filament protein ifa-3; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required for epidermal morphogenesis in embryos. Probable component of embryonic epidermal attachment structures.

Intermediate filament protein ifc-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Not essential protein.

Intermediate filament protein ifa-3; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required for epidermal morphogenesis in embryos. Probable component of embryonic epidermal attachment structures.

Intermediate filament protein ifa-2; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Probably acts by forming hypodermal hemidesmosome complexes that help mediate muscle-cuticle force transduction. Although expressed during embryogenesis, it is not required for embryonic development of muscle- cuticle linkages nor for the localization of other proteins to the hemidesmosomes in embryos.

Intermediate filament protein ifa-3; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required for epidermal morphogenesis in embryos. Probable component of embryonic epidermal attachment structures.

GAR domain-containing protein.

Intermediate filament protein ifb-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required in morphogenesis and epidermal integrity. Probable component of embryonic epidermal attachment structures. Functions in larval muscle attachment independently of ifa-2.

Intermediate filament protein ifa-3; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required for epidermal morphogenesis in embryos. Probable component of embryonic epidermal attachment structures.

Intermediate filament protein ifb-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required in morphogenesis and epidermal integrity. Probable component of embryonic epidermal attachment structures. Functions in larval muscle attachment independently of ifa-2.

Intermediate filament protein ifc-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Not essential protein.

Intermediate filament protein ifb-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required in morphogenesis and epidermal integrity. Probable component of embryonic epidermal attachment structures. Functions in larval muscle attachment independently of ifa-2.

Intermediate filament protein ifa-2; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Probably acts by forming hypodermal hemidesmosome complexes that help mediate muscle-cuticle force transduction. Although expressed during embryogenesis, it is not required for embryonic development of muscle- cuticle linkages nor for the localization of other proteins to the hemidesmosomes in embryos.

Intermediate filament protein ifb-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required in morphogenesis and epidermal integrity. Probable component of embryonic epidermal attachment structures. Functions in larval muscle attachment independently of ifa-2.

GAR domain-containing protein.

Intermediate filament protein ifc-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Not essential protein.

Intermediate filament protein ifa-3; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required for epidermal morphogenesis in embryos. Probable component of embryonic epidermal attachment structures.

Intermediate filament protein ifc-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Not essential protein.

Intermediate filament protein ifb-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required in morphogenesis and epidermal integrity. Probable component of embryonic epidermal attachment structures. Functions in larval muscle attachment independently of ifa-2.

Intermediate filament protein ifc-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Not essential protein.

Intermediate filament protein ifa-2; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Probably acts by forming hypodermal hemidesmosome complexes that help mediate muscle-cuticle force transduction. Although expressed during embryogenesis, it is not required for embryonic development of muscle- cuticle linkages nor for the localization of other proteins to the hemidesmosomes in embryos.

Intermediate filament protein ifa-2; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Probably acts by forming hypodermal hemidesmosome complexes that help mediate muscle-cuticle force transduction. Although expressed during embryogenesis, it is not required for embryonic development of muscle- cuticle linkages nor for the localization of other proteins to the hemidesmosomes in embryos.

Intermediate filament protein ifa-3; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required for epidermal morphogenesis in embryos. Probable component of embryonic epidermal attachment structures.

Intermediate filament protein ifa-2; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Probably acts by forming hypodermal hemidesmosome complexes that help mediate muscle-cuticle force transduction. Although expressed during embryogenesis, it is not required for embryonic development of muscle- cuticle linkages nor for the localization of other proteins to the hemidesmosomes in embryos.

Intermediate filament protein ifb-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required in morphogenesis and epidermal integrity. Probable component of embryonic epidermal attachment structures. Functions in larval muscle attachment independently of ifa-2.

Intermediate filament protein ifa-2; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Probably acts by forming hypodermal hemidesmosome complexes that help mediate muscle-cuticle force transduction. Although expressed during embryogenesis, it is not required for embryonic development of muscle- cuticle linkages nor for the localization of other proteins to the hemidesmosomes in embryos.

Intermediate filament protein ifc-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Not essential protein.

Intermediate filament protein ifa-2; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Probably acts by forming hypodermal hemidesmosome complexes that help mediate muscle-cuticle force transduction. Although expressed during embryogenesis, it is not required for embryonic development of muscle- cuticle linkages nor for the localization of other proteins to the hemidesmosomes in embryos.

GAR domain-containing protein.

Cuticle collagen rol-6; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment. Involved in body morphogenesis.

GAR domain-containing protein.

GAR domain-containing protein.

Intermediate filament protein ifa-3; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required for epidermal morphogenesis in embryos. Probable component of embryonic epidermal attachment structures.

GAR domain-containing protein.

Intermediate filament protein ifb-1; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Required in morphogenesis and epidermal integrity. Probable component of embryonic epidermal attachment structures. Functions in larval muscle attachment independently of ifa-2.

GAR domain-containing protein.

Intermediate filament protein ifa-2; Cytoplasmic intermediate filaments provide mechanical strength to cells. Essential protein, involved in attachment structures in epidermal cells that connect muscles to the external cuticle. Probably acts by forming hypodermal hemidesmosome complexes that help mediate muscle-cuticle force transduction. Although expressed during embryogenesis, it is not required for embryonic development of muscle- cuticle linkages nor for the localization of other proteins to the hemidesmosomes in embryos.

GAR domain-containing protein.

Cuticle collagen rol-6; Nematode cuticles are composed largely of collagen-like proteins. The cuticle functions both as an exoskeleton and as a barrier to protect the worm from its environment. Involved in body morphogenesis.