Zebrafish and medaka T1R (taste receptor type 1) proteins mediate highly sensitive recognition of l‐proline
Sign Up to like & getrecommendations! Published in 2023 at "FEBS Open Bio"
DOI: 10.1002/2211-5463.13558
Abstract: In vertebrates, nutritional tastants, such as amino acids and sugars, are recognized by G‐protein‐coupled receptors of the taste receptor type 1 (T1R) family. Previous studies have shown that fish T1Rs are functionally distinct from mammalian… read more here.
Keywords: taste receptor; zebrafish medaka; highly sensitive; proline ... See more keywords
Neural Crest Methodologies in Zebrafish and Medaka.
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DOI: 10.1007/978-1-4939-9412-0_13
Abstract: Neural crest cells are highly multipotent and strongly migratory cells and generate adult neural crest stem cells with varied roles in cellular homeostasis and regeneration. The optical transparency and ready accessibility of fish embryos make… read more here.
Keywords: methodologies zebrafish; crest; biology; crest methodologies ... See more keywords
Small teleost fish provide new insights into human skeletal diseases.
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DOI: 10.1016/bs.mcb.2016.09.001
Abstract: Small teleost fish such as zebrafish and medaka are increasingly studied as models for human skeletal diseases. Efficient new genome editing tools combined with advances in the analysis of skeletal phenotypes provide new insights into… read more here.
Keywords: small teleost; skeletal diseases; teleost fish; human skeletal ... See more keywords
Zebrafish, Medaka and Turquoise Killifish for Understanding Human Neurodegenerative/Neurodevelopmental Disorders
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DOI: 10.3390/ijms23031399
Abstract: In recent years, small fishes such as zebrafish and medaka have been widely recognized as model animals. They have high homology in genetics and tissue structure with humans and unique features that mammalian model animals… read more here.
Keywords: neurodevelopmental disorders; turquoise killifish; medaka turquoise; understanding human ... See more keywords