actin filament & follicle cell | somatic clone
In 1 day old Actn14 larvae, Z lines are observed spaced at regular, but wider, intervals than in the wild-type in ultrastructural analysis of the muscles.
Actn14 follicle cell clones do not result in the production of abnormal eggs. At stage 10, some of these clones show a normal actin fiber pattern, while others show an actin fiber density that differs from wild-type cells. Any differences in actin density are cell autonomous.
Phenotype of homozygous germ line clones demonstrates is there is no maternal effect.
Actn14 has lethal | recessive phenotype, non-suppressible by α-Spec::Actn19.RpS27A
Actn14 has lethal | recessive phenotype, non-suppressible by α-Spec::ActnEF.RpS27A
Actn14 has lethal | recessive phenotype, non-suppressible by β-Spec::ActnABD.RpS27A.Tag:MYC
Actn14, vri[+]/vriunspecified has abnormal locomotor behavior | dominant phenotype
Actn14/Actn[+], vriunspecified has abnormal locomotor behavior phenotype
α-Spec::Actn19.RpS27A, Actn14 has viable phenotype
Actn14, wupAhdp-2 has flightless | dominant phenotype
Actn14/Actn[+] is an enhancer of visceral muscle fiber phenotype of tnMJO-348
Actn14/Actn[+] is an enhancer of filamentous actin phenotype of tnMJO-348
Actn14/Actn[+] is a non-enhancer of visceral muscle fiber phenotype of tnMJO-348
Actn14/Actn[+] is a non-enhancer of filamentous actin phenotype of tnMJO-348
Actn14, vriunspecified has metathoracic leg phenotype
Actn14 vriunspecified double heterozygotes have progressive locomotory defects affecting the rear legs.
Actn14 is rescued by ActnRpS27A.PD
Lefevre.
Maternal germline clonal analysis demonstrates there is no maternal effect.