Amino acid replacement: G101D.
G5358953A
G101D | Klp64D-PA
G101D
Site of nucleotide substitution in mutant inferred by FlyBase based on reported amino acid change.
The average peak electroantennogram response is reduced in Klp64Dk1/Klp64Dl4 and Klp64Dk5/Klp64Dl4 adults compared to controls (in response to ethyl acetate, n-butanol, benzaldehyde or propionic acid).
The electron-dense basal bodies and the connecting cilium are often present in the sensilla basiconica of the antenna in Klp64Dk5/Klp64Dl4 adults, but the outer segments of the basiconic cilia usually contain a slender extension with several singlet microtubules.
The length and volume expansions of both the basiconic and trichoid cilia are reduced at the second stage of cilia growth in Klp64Dk1/Klp64Dl4 antennae compared to wild type.
Klp64Dk5/Klp64Dl4 has abnormal auditory perception phenotype, enhanceable by Kap3V6
Klp64Dk5/Klp64Dl4 has abnormal neurophysiology phenotype, enhanceable by Kap3V6
Kap3V6, Klp64Dk5/Klp64Dl4 has partially lethal phenotype
Klp64Dk5/Klp64Dl4 has Johnston organ phenotype, enhanceable by Kap3V6
The addition of Kap3V6/+ significantly enhances the recessive lethality of Klp64Dl4/Klp64Dk5 animals. The addition of Kap3V6/Y causes complete lethality. The addition of Kap3V6/+ to Klp64Dl4/Klp64Dk5 also completely abolishes the sound evoked potentials usually obtained from the Johnston's organ neurons, and enhances the ciliary defects seen in these animals.