Ko, M.-C.; Frankl-Vilches, C.; Bakker, A.; Sohnius-Wilhelmi, N.; Gahr, M.: Extensive, transient, and long-lasting gene regulation in a song-controlling brain area during testosterone-induced song development in adult female canaries. bioRxiv: the preprint server for biology (2024)
Sadanandan, K. R.; Ko, M.-C.; Low, G. W.; Gahr, M.; Edwards, S. V.; Hiller, M.; Sackton, T. B.; Rheindt, F. E.; Sin, S. Y. W.; Baldwin, M. W.: Convergence in hearing-related genes between echolocating birds and mammals. Proceedings of the National Academy of Sciences of the United States of America 120 (43), e23073401 (2023)
Cockburn, G.; Ko, M.-C.; Sadanandan, K. R.; Miller, E. T.; Nakagita, T.; Monte, A.; Cho, S.; Roura, E.; Toda, Y.; Baldwin, M. W.: Synergism, bifunctionality, and the evolution of a gradual sensory trade-off in hummingbird taste receptors. Molecular Biology and Evolution 39 (2), msab367 (2022)
Cramer, J. F.; Miller, E. T.; Ko, M.-C.; Liang, Q.; Cockburn, G.; Nakagita, T.; Cardinale, M.; Fusani, L.; Toda, Y.; Baldwin, M. W.: A single residue confers selective loss of sugar sensing in wrynecks. Current Biology 32 (19), S. 4270 - 4278.e5 (2022)
Liang, Q.; Ko, M.-C.; Ng, N. S. R.; Reh, B.; Lee, J. G. H.; Yamashita, A.; Nishihara, H.; Toda, Y.; Baldwin, M. W.: T1R2-mediated sweet sensing in a lizard. Current Biology 32 (23), S. R1302 - R1303 (2022)
Ko, M.-C.; Frankl-Vilches, C.; Bakker, A.; Gahr, M.: The gene expression profile of the song control nucleus HVC shows sex specificity, hormone responsiveness, and species specificity among songbirds. Frontiers in Neuroscience 15, 680530 (2021)
Ko, M.-C.; van Meir, V.; Vellema, M.; Gahr, M.: Characteristics of song, brain-anatomy and blood androgen levels in spontaneously singing female canaries. Hormones and Behavior 117, 104614 (2020)
Vellema, M.; Ko, M.-C.; Frankl-Vilches, C.; Gahr, M.: What makes a marker a good marker? Brain, behavior and evolution: Official journal of the J. B. Johnston Club 84 (1), S. 5 - 7 (2014)
Wang, Y. C.; Ho, U. C.; Ko, M. C.; Liao , C. C.; Lee , L. J.: Differential neuronal changes in medial prefrontal cortex, basolateral amygdala and nucleus accumbens after postweaning social isolation. Brain Structure & Function 217 (2), S. 337 - 351 (2012)
Hormone steuern durch komplexe Regelkreise die Anpassungen von Organismen an ihre Umwelt. Verändern sich diese hormonellen Regelkreise schnell genug, um mit den weltweit immer schneller werdenden Umweltveränderungen mitzuhalten? Am Hormon Kortikosteron wird bei Vögeln gezeigt, dass verschiedene Arten unterschiedliche Konzentrationen aufweisen…