- two fold arrest
Cessation of development that normally occurs in C. elegans 460-520 min after the first cleavage at 20C, the stage between the 1.5-fold and 3-fold embryo.
- late paralysis arrested elongation two fold
In C. elegans, movement and elongation stop nearly simultaneously soon after the twofold stage of elongation. However, mutant embryos twitch at the one-and-a-half-fold stage of elongation, like control animals, and move as well as control animals at the two- fold stage.
- three fold arrest
Cessation of development that normally occurs in C. elegans 520-620min after the first cleavage at 20C, the stage between the 2-fold and fully elongated embryo.
- one point five fold arrest emb
Cessation of development that normally occurs in C. elegans 420-460 min after the first embryonic cleavage at 20C, the stage between the comma and 2-fold embryo.
- early elongation arrest
Cessation of development during the initial period of elongation. In C. elegans, this period refers to the conversion of the bean-shaped embryo into the two-fold- shaped embryo.
- paralyzed arrested elongation two fold
Movement and elongation ceases at the two-fold stage. The myofilament lattice in body wall muscle cells is variant. However, development in embryos continues. Embryos hatch as inviable larvae.
- embryonic lethal late emb
Animals die during the final stages of embryogenesis. In C. elegans, this lethality refers to death during the last (3-fold) stage of embryogenesis, which normally occurs 620-800 min after the first cleavage at 20C, the stage after elongation.
- octanol chemotaxis defective
Failure to execute the characteristic response to 1-octanol as defined by control animals. In C.elegans 1-octanol is typically a repellant.
- excretory secretory system morphology variant
Variations in the form, structure or composition of related tissues that allow the animal to secrete saline fluid and maintain a proper salt balance compared to control. In C. elegans, four cell types (1 pore cell, 1 duct cell, 1 canal cell and a fused pair of gland cells) make up the excretory system (Wormatlas).
- octopamine metabolism variant
Animals exhibit variations in any chemical reaction or pathway involving octopamine, 1-(p-hydroxyphenyl)-2-aminoethanol, compared to control.