- increased genetic pathway signal
Any variation that increases the magnitude of a signal generated by a set of gene interactions in a given pathway, compared to control.
- AWB morphology variant
Animals exhibit variations in the structure or organization of either of a set of two ciliated wing neurons, AWBL or AWBR, of the amphid sensilla, compared to that observed in control animals.
- spindle assembly defective
Cells exhibit defects in the aggregation, arrangement and bonding together of a set of components to form the spindle, the array of microtubules and associated molecules that serves to move duplicated chromosomes apart.
- spindle assembly defective early emb
Early embryos exhibit defects in the aggregation, arrangement and bonding together of a set of components to form the spindle, the array of microtubules and associated molecules that serves to move duplicated chromosomes apart.
- uterine vulval cell morphology variant
Animals exhibit variations in the form, structure or composition of the epithelial cells that form the interface between the uterus and the vulva (likely via a multilayered set of flaps) compared to control animals (Wormatlas).
- coelomic system morphology variant
Any variations in the form, structure or composition of a set of interacting or interdependent entities forming the coelomic system, compared to control. The coelom is the fluid compartment that is in contact with internal organ.
- genetic pathway variant
Any variation in the set of interactions occurring between a group of genes who depend on each other's individual functions in order to make the aggregate function of the network available to the cell, compared to control.
- meiotic spindle assembly defective
Early embryos exhibit defects in the aggregation, arrangement and bonding together of a set of components to form the meiotic spindle, the array of microtubules and associated molecules that serves to move duplicated and/or homologous chromosomes apart.
- genetic pathway activation variant
Any variation in triggering of the set of interactions occurring between a group of genes who depend on each other's individual functions in order to make the aggregate function of the network available to the cell, compared to control.