Biophysics Journal Club

Human sperm steer with second harmonics of the flagellar beat

Tuesday, 30 July 2019 12:30PM PDT
Facebook
Twitter
LinkedIn
Reddit
SMS
Email
Copy
 
Biophysics Journal Club
 
Kathrin Lehmann
SFU Physics
 
Human sperm steer with second harmonics of the flagellar beat
 
Jul 30, 2019 at 12:30PM
 

Synopsis

From Guglielmo, et. al, Nature Communications volume 8, Article number: 1415 (2017)

Sperm are propelled by bending waves traveling along their flagellum. For steering in gradients of sensory cues, sperm adjust the flagellar waveform. Symmetric and asymmetric waveforms result in straight and curved swimming paths, respectively. Two mechanisms causing spatially asymmetric waveforms have been proposed: an average flagellar curvature and buckling. We image flagella of human sperm tethered with the head to a surface. The waveform is characterized by a fundamental beat frequency and its second harmonic. The superposition of harmonics breaks the beat symmetry temporally rather than spatially. As a result, sperm rotate around the tethering point. The rotation velocity is determined by the second-harmonic amplitude and phase. Stimulation with the female sex hormone progesterone enhances the second-harmonic contribution and, thereby, modulates sperm rotation. Higher beat frequency components exist in other flagellated cells; therefore, this steering mechanism might be widespread and could inspire the design of synthetic microswimmers.