Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics

Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics

10.1371/journal.pone.0103445

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Bibliographic Details
Main Authors: Cheng W., Tian J., Burgunder J.-M., Hunziker W., Eng H.-L.
Other Authors: PHYSIOLOGY
Format: Article
Published: 2019
Subjects:
chloride channel
chloride channel 1
unclassified drug
actin
CLC-1 channel
hybrid protein
adult
animal experiment
animal model
animal tissue
article
body movement
controlled study
disease association
embryo
kinematics
muscle function
mutational analysis
nonhuman
protein expression
quantitative analysis
swimming
Thomsen disease
transgenic zebrafish
videorecording
wild type
animal
biomechanics
disease model
gene expression
gene order
gene vector
genetics
human
locomotion
metabolism
muscle
mutation
Myotonia Congenita
phenotype
transgenic animal
zebra fish
Actins
Animals
Animals, Genetically Modified
Biomechanical Phenomena
Chloride Channels
Disease Models, Animal
Gene Expression
Gene Order
Genetic Vectors
Humans
Locomotion
Muscles
Mutation
Phenotype
Recombinant Fusion Proteins
Swimming
Zebrafish
Online Access:https://scholarbank.nus.edu.sg/handle/10635/161393
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1613932024-04-04T01:09:09Z Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics Cheng W. Tian J. Burgunder J.-M. Hunziker W. Eng H.-L. PHYSIOLOGY chloride channel chloride channel 1 unclassified drug actin chloride channel CLC-1 channel hybrid protein adult animal experiment animal model animal tissue article body movement controlled study disease association embryo kinematics muscle function mutational analysis nonhuman protein expression quantitative analysis swimming Thomsen disease transgenic zebrafish videorecording wild type animal biomechanics disease model gene expression gene order gene vector genetics human locomotion metabolism muscle mutation Myotonia Congenita phenotype transgenic animal zebra fish Actins Animals Animals, Genetically Modified Biomechanical Phenomena Chloride Channels Disease Models, Animal Gene Expression Gene Order Genetic Vectors Humans Locomotion Muscles Mutation Myotonia Congenita Phenotype Recombinant Fusion Proteins Swimming Zebrafish 10.1371/journal.pone.0103445 PLoS ONE 9 8 e103445 2019-11-05T00:34:26Z 2019-11-05T00:34:26Z 2014 Article Cheng W., Tian J., Burgunder J.-M., Hunziker W., Eng H.-L. (2014). Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics. PLoS ONE 9 (8) : e103445. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pone.0103445 1932-6203 https://scholarbank.nus.edu.sg/handle/10635/161393 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Unpaywall 20191101
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic chloride channel
chloride channel 1
unclassified drug
actin
chloride channel
CLC-1 channel
hybrid protein
adult
animal experiment
animal model
animal tissue
article
body movement
controlled study
disease association
embryo
kinematics
muscle function
mutational analysis
nonhuman
protein expression
quantitative analysis
swimming
Thomsen disease
transgenic zebrafish
videorecording
wild type
animal
biomechanics
disease model
gene expression
gene order
gene vector
genetics
human
locomotion
metabolism
muscle
mutation
Myotonia Congenita
phenotype
transgenic animal
zebra fish
Actins
Animals
Animals, Genetically Modified
Biomechanical Phenomena
Chloride Channels
Disease Models, Animal
Gene Expression
Gene Order
Genetic Vectors
Humans
Locomotion
Muscles
Mutation
Myotonia Congenita
Phenotype
Recombinant Fusion Proteins
Swimming
Zebrafish
spellingShingle chloride channel
chloride channel 1
unclassified drug
actin
chloride channel
CLC-1 channel
hybrid protein
adult
animal experiment
animal model
animal tissue
article
body movement
controlled study
disease association
embryo
kinematics
muscle function
mutational analysis
nonhuman
protein expression
quantitative analysis
swimming
Thomsen disease
transgenic zebrafish
videorecording
wild type
animal
biomechanics
disease model
gene expression
gene order
gene vector
genetics
human
locomotion
metabolism
muscle
mutation
Myotonia Congenita
phenotype
transgenic animal
zebra fish
Actins
Animals
Animals, Genetically Modified
Biomechanical Phenomena
Chloride Channels
Disease Models, Animal
Gene Expression
Gene Order
Genetic Vectors
Humans
Locomotion
Muscles
Mutation
Myotonia Congenita
Phenotype
Recombinant Fusion Proteins
Swimming
Zebrafish
Cheng W.
Tian J.
Burgunder J.-M.
Hunziker W.
Eng H.-L.
Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics
description 10.1371/journal.pone.0103445
author2 PHYSIOLOGY
author_facet PHYSIOLOGY
Cheng W.
Tian J.
Burgunder J.-M.
Hunziker W.
Eng H.-L.
format Article
author Cheng W.
Tian J.
Burgunder J.-M.
Hunziker W.
Eng H.-L.
author_sort Cheng W.
title Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics
title_short Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics
title_full Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics
title_fullStr Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics
title_full_unstemmed Myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics
title_sort myotonia congenita-associated mutations in chloride channel-1 affect zebrafish body wave swimming kinematics
publishDate 2019
url https://scholarbank.nus.edu.sg/handle/10635/161393
_version_ 1795374099988480000

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