A zebrafish model for a human myopathy associated with mutation of the unconventional myosin MYO18B
Myosin 18B is an unconventional myosin that has been implicated in tumor progression in humans. In addition, loss-of-function mutations of the MYO18B gene have recently been identified in several patients exhibiting symptoms of nemaline myopathy. In mouse, mutation of Myo18B results in early develop...
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sg-ntu-dr.10356-831412020-03-07T12:57:22Z A zebrafish model for a human myopathy associated with mutation of the unconventional myosin MYO18B Gurung, Ritika Ono, Yosuke Baxendale, Sarah Lee, Samantha Lin Chiou Moore, Steven Calvert, Meredith Ingham, Philip William Lee Kong Chian School of Medicine (LKCMedicine) Nemaline Myopathy MYO18B Science::Medicine Myosin 18B is an unconventional myosin that has been implicated in tumor progression in humans. In addition, loss-of-function mutations of the MYO18B gene have recently been identified in several patients exhibiting symptoms of nemaline myopathy. In mouse, mutation of Myo18B results in early developmental arrest associated with cardiomyopathy, precluding analysis of its effects on skeletal muscle development. The zebrafish, frozen (fro) mutant was identified as one of a group of immotile mutants in the 1996 Tübingen genetic screen. Mutant embryos display a loss of birefringency in their skeletal muscle, indicative of disrupted sarcomeric organization. Using meiotic mapping, we localized the fro locus to the previously unannotated zebrafish myo18b gene, the product of which shares close to 50% identity with its human ortholog. Transcription of myo18b is restricted to fast-twitch myocytes in the zebrafish embryo; consistent with this, fro mutant embryos exhibit defects specifically in their fast-twitch skeletal muscles. We show that sarcomeric assembly is blocked at an early stage in fro mutants, leading to the disorganized accumulation of actin, myosin, and α-actinin and a complete loss of myofibrillar organization in fast-twitch muscles. 2019-07-03T07:47:36Z 2019-12-06T15:12:35Z 2019-07-03T07:47:36Z 2019-12-06T15:12:35Z 2017 Journal Article Gurung, R., Ono, Y., Baxendale, S., Lee, S. L. C., Moore, S., Calvert, M., & Ingham, P. W. (2017). A Zebrafish Model for a Human Myopathy Associated with Mutation of the Unconventional Myosin MYO18B. Genetics, 205(2), 725-735. doi:10.1534/genetics.116.192864 0016-6731 https://hdl.handle.net/10356/83141 http://hdl.handle.net/10220/49114 10.1534/genetics.116.192864 en Genetics © 2017 Genetics Society of America. All rights reserved. |
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Nemaline Myopathy MYO18B Science::Medicine |
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Nemaline Myopathy MYO18B Science::Medicine Gurung, Ritika Ono, Yosuke Baxendale, Sarah Lee, Samantha Lin Chiou Moore, Steven Calvert, Meredith Ingham, Philip William A zebrafish model for a human myopathy associated with mutation of the unconventional myosin MYO18B |
| description |
Myosin 18B is an unconventional myosin that has been implicated in tumor progression in humans. In addition, loss-of-function mutations of the MYO18B gene have recently been identified in several patients exhibiting symptoms of nemaline myopathy. In mouse, mutation of Myo18B results in early developmental arrest associated with cardiomyopathy, precluding analysis of its effects on skeletal muscle development. The zebrafish, frozen (fro) mutant was identified as one of a group of immotile mutants in the 1996 Tübingen genetic screen. Mutant embryos display a loss of birefringency in their skeletal muscle, indicative of disrupted sarcomeric organization. Using meiotic mapping, we localized the fro locus to the previously unannotated zebrafish myo18b gene, the product of which shares close to 50% identity with its human ortholog. Transcription of myo18b is restricted to fast-twitch myocytes in the zebrafish embryo; consistent with this, fro mutant embryos exhibit defects specifically in their fast-twitch skeletal muscles. We show that sarcomeric assembly is blocked at an early stage in fro mutants, leading to the disorganized accumulation of actin, myosin, and α-actinin and a complete loss of myofibrillar organization in fast-twitch muscles. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Gurung, Ritika Ono, Yosuke Baxendale, Sarah Lee, Samantha Lin Chiou Moore, Steven Calvert, Meredith Ingham, Philip William |
| format |
Article |
| author |
Gurung, Ritika Ono, Yosuke Baxendale, Sarah Lee, Samantha Lin Chiou Moore, Steven Calvert, Meredith Ingham, Philip William |
| author_sort |
Gurung, Ritika |
| title |
A zebrafish model for a human myopathy associated with mutation of the unconventional myosin MYO18B |
| title_short |
A zebrafish model for a human myopathy associated with mutation of the unconventional myosin MYO18B |
| title_full |
A zebrafish model for a human myopathy associated with mutation of the unconventional myosin MYO18B |
| title_fullStr |
A zebrafish model for a human myopathy associated with mutation of the unconventional myosin MYO18B |
| title_full_unstemmed |
A zebrafish model for a human myopathy associated with mutation of the unconventional myosin MYO18B |
| title_sort |
zebrafish model for a human myopathy associated with mutation of the unconventional myosin myo18b |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/83141 http://hdl.handle.net/10220/49114 |
| _version_ |
1681042533547769856 |