10.17912/W2MW2D
Clovis, Yoanne
Yoanne
Clovis
Webb, Alexis
Alexis
Webb
Turner, Carl
Carl
Turner
Roberts, Bill
Bill
Roberts
Mutations in KCNQ potassium channels cause pharyngeal pumping defects in C. elegans
microPublication Biology
2016
ResearchArticle
2016
Pumps were stimulated with 10mM 5HT in M9 recorded as electropharyngeograms (EPGs) for 2 minutes in a NemaMetrix ScreenChip, and analyzed using NemAnalysis software (NemaMetrix). The null mutant strains kqt-1(aw3) and kqt-3 (aw1) were kindly donated by Dr. Aguan Wei (Wei et al., 2002)
A) Pump frequency in kqt-1(aw3) animals was significantly lower than in N2s, while kqt-3(aw1) worms showed an increase in pump frequency (*p<0.05; ***p<0.01; 1-tailed Mann-Whitney U-test; n = 21-23 worms in each strain).
B) Microfluidic EPG recordings show that pumping pattern in kqt-1(aw3) mutants is arrhythmic, with frequent drops in frequency.
C) Overlay of first 50 pumps of recordings show that pump duration is higher in kqt-1(aw3) and kqt-3(aw1) animals than in N2s. Pumps are showed aligned on E spikes, which occur when the pharynx is fully contracted.
D) Duration histogram illustrating the probability of occurrence of inter-pump interval (E to E duration) for each mutant strain. Histograms were binned to 4 ms width and normalized to reach an area underneath the curve equal to 1 (duration 100% likelihood to occur). In kqt-1(aw3)) animals, the time between two pumps is significantly increased compared to N2s (p < 0.01).