Aquatic models of human ciliary diseases

Mark E. Corkins; Vanja Krneta-Stankic; Malgorzata Kloc; Rachel K. Miller

doi:10.1002/dvg.23410

Aquatic models of human ciliary diseases

Mark E. Corkins, Vanja Krneta-Stankic, Malgorzata Kloc, Rachel K. Miller

Research output: Contribution to journal › Review article › peer-review

6 Scopus citations

Abstract

Cilia are microtubule-based structures that either transmit information into the cell or move fluid outside of the cell. There are many human diseases that arise from malfunctioning cilia. Although mammalian models provide vital insights into the underlying pathology of these diseases, aquatic organisms such as Xenopus and zebrafish provide valuable tools to help screen and dissect out the underlying causes of these diseases. In this review we focus on recent studies that identify or describe different types of human ciliopathies and outline how aquatic organisms have aided our understanding of these diseases.

Original language	English (US)
Article number	e23410
Pages (from-to)	e23410
Journal	Genesis
Volume	59
Issue number	1-2
DOIs	https://doi.org/10.1002/dvg.23410
State	Published - Feb 2021

Keywords

Xenopus
cilia
ciliopathy
cystic kidney
kidney
nasal
node
zebrafish
Ciliopathies/genetics
Zebrafish/genetics
Xenopus laevis/genetics
Phenotype
Animals
Disease Models, Animal

ASJC Scopus subject areas

Genetics
Endocrinology
Cell Biology

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10.1002/dvg.23410

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title = "Aquatic models of human ciliary diseases",

abstract = "Cilia are microtubule-based structures that either transmit information into the cell or move fluid outside of the cell. There are many human diseases that arise from malfunctioning cilia. Although mammalian models provide vital insights into the underlying pathology of these diseases, aquatic organisms such as Xenopus and zebrafish provide valuable tools to help screen and dissect out the underlying causes of these diseases. In this review we focus on recent studies that identify or describe different types of human ciliopathies and outline how aquatic organisms have aided our understanding of these diseases.",

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T1 - Aquatic models of human ciliary diseases

AU - Corkins, Mark E.

AU - Krneta-Stankic, Vanja

AU - Kloc, Malgorzata

AU - Miller, Rachel K.

PY - 2021/2

Y1 - 2021/2

N2 - Cilia are microtubule-based structures that either transmit information into the cell or move fluid outside of the cell. There are many human diseases that arise from malfunctioning cilia. Although mammalian models provide vital insights into the underlying pathology of these diseases, aquatic organisms such as Xenopus and zebrafish provide valuable tools to help screen and dissect out the underlying causes of these diseases. In this review we focus on recent studies that identify or describe different types of human ciliopathies and outline how aquatic organisms have aided our understanding of these diseases.

AB - Cilia are microtubule-based structures that either transmit information into the cell or move fluid outside of the cell. There are many human diseases that arise from malfunctioning cilia. Although mammalian models provide vital insights into the underlying pathology of these diseases, aquatic organisms such as Xenopus and zebrafish provide valuable tools to help screen and dissect out the underlying causes of these diseases. In this review we focus on recent studies that identify or describe different types of human ciliopathies and outline how aquatic organisms have aided our understanding of these diseases.

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KW - cilia

KW - ciliopathy

KW - cystic kidney

KW - kidney

KW - nasal

KW - node

KW - zebrafish

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KW - Zebrafish/genetics

KW - Xenopus laevis/genetics

KW - Phenotype

KW - Animals

KW - Disease Models, Animal

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Aquatic models of human ciliary diseases

Abstract

Keywords

ASJC Scopus subject areas

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