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Minimal model of prey localization through the lateral-line system. , Franosch JM., Phys Rev Lett. October 10, 2003; 91 (15): 158101.
How a frog can learn what is where in the dark. , Franosch JM., Phys Rev Lett. August 12, 2005; 95 (7): 078106.
Estimating position and velocity of a submerged moving object by the clawed frog Xenopus and by fish--a cybernetic approach. , Franosch JM., Biol Cybern. October 1, 2005; 93 (4): 231-8.
Neural responses to water surface waves in the midbrain of the aquatic predator Xenopus laevis laevis. , Behrend O., Eur J Neurosci. February 1, 2006; 23 (3): 729-44.
Prey-capture in the African clawed toad (Xenopus laevis): comparison of turning to visual and lateral line stimuli. , Claas B., J Comp Physiol A Neuroethol Sens Neural Behav Physiol. October 1, 2006; 192 (10): 1021-36.
Lateral line units in the amphibian brain could integrate wave curvatures. , Behrend O., J Comp Physiol A Neuroethol Sens Neural Behav Physiol. August 1, 2008; 194 (8): 777-83.
An eye for a worm: lateralisation of feeding behaviour in aquatic anamniotes. , Giljov AN., Laterality. May 1, 2009; 14 (3): 273-86.
Integrin alpha5beta1 function is regulated by XGIPC/ kermit2 mediated endocytosis during Xenopus laevis gastrulation. , Spicer E ., PLoS One. May 17, 2010; 5 (5): e10665.
African clawed toads (Xenopus laevis) sense the distance of lateral line stimuli. , Dean J., J Comp Physiol A Neuroethol Sens Neural Behav Physiol. July 1, 2014; 200 (7): 657-67.
Hepatocystin is Essential for TRPM7 Function During Early Embryogenesis. , Overton JD., Sci Rep. December 16, 2015; 5 18395.
Using Xenopus to discover new candidate genes involved in BOR and other congenital hearing loss syndromes. , Neal SJ., J Exp Zool B Mol Dev Evol. October 13, 2023;