Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

DUal OXidase.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Protein memo-1 homolog; Plays a role in the oxidative stress response and the maintenance of longevity by regulating the interaction between GTPase rho-1 and oxidase bli-3. In turn, this serves to modulate bli-3 activity and the control of reactive oxygen species production. May control cell migration by relaying extracellular chemotactic signals to the microtubule cytoskeleton (By similarity); Belongs to the MEMO1 family.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Tetraspanin.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Tetraspanin-15; Plays a role in cuticle biogenesis. In complex with doxa-1 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix ; Belongs to the tetraspanin (TM4SF) family.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Tetraspanin.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Tetraspanin.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Tetraspanin.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Tetraspanin.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Tetraspanin.

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Dual oxidase 1; Plays a role in cuticle biogenesis. In complex with doxa-1 and tsp-15, produces reactive oxygen species (ROS), which are probably used by mlt-7 for tyrosine cross-linking, thus stabilizing cuticular extracellular matrix. May regulate the production of ROS by playing a role in modulating proline catabolism. Required in combination with mlt-7 for correct formation of cross-links in cuticle collagens. Association with the GTPase rho-1 promotes ROS production and this interaction may be modulated by memo-1, in order to control the oxidative stress response and longevity. In [...]

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

DUal OXidase.

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Protein memo-1 homolog; Plays a role in the oxidative stress response and the maintenance of longevity by regulating the interaction between GTPase rho-1 and oxidase bli-3. In turn, this serves to modulate bli-3 activity and the control of reactive oxygen species production. May control cell migration by relaying extracellular chemotactic signals to the microtubule cytoskeleton (By similarity); Belongs to the MEMO1 family.

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Tetraspanin.

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Tetraspanin-15; Plays a role in cuticle biogenesis. In complex with doxa-1 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix ; Belongs to the tetraspanin (TM4SF) family.

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Tetraspanin.

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Tetraspanin.

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Tetraspanin.

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Tetraspanin.

Dual oxidase maturation factor 1; Plays a role in cuticle biogenesis. In complex with tsp-15 and the dual oxidase bli-3, promotes the generation of reactive oxygen species (ROS) and tyrosine cross-linking of collagen, thus stabilizing cuticular extracellular matrix.

Tetraspanin.