2023
DOI: 10.3389/frobt.2023.1212626
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Physiological responses of mechanosensory systems in the head of larval zebrafish (Danio rerio)

Nils Brehm,
Nils Wenke,
Keshia Glessner
et al.

Abstract: The lateral line system of zebrafish consists of the anterior lateral line, with neuromasts distributed on the head, and the posterior lateral line, with neuromasts distributed on the trunk. The sensory afferent neurons are contained in the anterior and posterior lateral line ganglia, respectively. So far, the vast majority of physiological and developmental studies have focused on the posterior lateral line. However, studies that focus on the anterior lateral line, especially on its physiology, are very rare.… Show more

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“…Larval zebrafish must instead gulp air at the water's surface to inflate the swim bladder 15 , maintaining volume by control of a sphincter at the junction of the pneumatic duct of the swim bladder and the esophagus 16 . Constitutive and early loss of the head neuromasts of the anterior lateral line 46,47 leads ~50% of larval zebrafish to over-inflate their swim bladders by gulping more air at the surface 38,48 . We propose that our copper treatment similarly affects the esophageal sphincter, leading to a transient secretion of gas that decreases the volume of the swim bladder.…”
Section: Discussionmentioning
confidence: 99%
“…Larval zebrafish must instead gulp air at the water's surface to inflate the swim bladder 15 , maintaining volume by control of a sphincter at the junction of the pneumatic duct of the swim bladder and the esophagus 16 . Constitutive and early loss of the head neuromasts of the anterior lateral line 46,47 leads ~50% of larval zebrafish to over-inflate their swim bladders by gulping more air at the surface 38,48 . We propose that our copper treatment similarly affects the esophageal sphincter, leading to a transient secretion of gas that decreases the volume of the swim bladder.…”
Section: Discussionmentioning
confidence: 99%