Knockout of zebrafish desmin genes does not cause skeletal muscle degeneration but alters calcium flux.

Tytuł:: Knockout of zebrafish desmin genes does not cause skeletal muscle degeneration but alters calcium flux.
Autorzy:: Kayman Kürekçi G; Department of Medical Biology, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.
Kural Mangit E; Department of Medical Biology, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.; Laboratory Animals Research and Application Centre, Hacettepe University, 06100, Ankara, Turkey.
Koyunlar C; Department of Medical Biology, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.; Department of Hematology, Erasmus MC, 3015 CN, Rotterdam, The Netherlands.
Unsal S; Department of Medical Biology, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.; Department of Cancer and Inflammation, The Institute of Molecular Medicine, University of Southern Denmark, 5000, Odense C, Denmark.
Saglam B; Department of Biophysics, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.
Ergin B; Department of Biophysics, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.
Gizer M; Department of Stem Cell Sciences, Hacettepe University Graduate School of Health Sciences, 06100, Ankara, Turkey.
Uyanik I; Department of Electrical and Electronics Engineering, Hacettepe University Faculty of Engineering, 06800, Ankara, Turkey.
Boustanabadimaralan Düz N; Department of Medical Biology, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.
Korkusuz P; Department of Histology and Embryology, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.
Talim B; Pathology Unit, Department of Pediatrics, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.
Purali N; Department of Biophysics, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey.
Hughes SM; Randall Centre for Cell and Molecular Biophysics, New Hunt's House, Guy's Campus, King's College London, London, SE1 1UL, United Kingdom.
Dincer PR; Department of Medical Biology, Hacettepe University Faculty of Medicine, 06100, Ankara, Turkey. .
Źródło:: Scientific reports [Sci Rep] 2021 Apr 05; Vol. 11 (1), pp. 7505. Date of Electronic Publication: 2021 Apr 05.
Typ publikacji:: Journal Article; Research Support, Non-U.S. Gov't
Język:: English
Imprint Name(s):: Original Publication: London : Nature Publishing Group, copyright 2011-
MeSH Terms:: Gene Knockout Techniques*
Calcium/*metabolism
Desmin/*genetics
Muscle, Skeletal/*metabolism
Muscle, Skeletal/*pathology
Zebrafish/*genetics
Animals ; Base Sequence ; Desmin/metabolism ; Embryo, Nonmammalian/metabolism ; Gene Expression Profiling ; Gene Expression Regulation, Developmental ; Larva/genetics ; Muscle Fibers, Skeletal/pathology ; Muscle, Skeletal/ultrastructure ; Mutation/genetics ; Neuromuscular Junction/pathology ; RNA, Messenger/genetics ; RNA, Messenger/metabolism ; Zebrafish/embryology
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Grant Information:: G1001029 United Kingdom MRC_ Medical Research Council; MR/N021231/1 United Kingdom MRC_ Medical Research Council
Substance Nomenclature:: 0 (Desmin)
0 (RNA, Messenger)
SY7Q814VUP (Calcium)
Entry Date(s):: Date Created: 20210406 Date Completed: 20211028 Latest Revision: 20220419
Update Code:: 20240104
PubMed Central ID:: PMC8021586
DOI:: 10.1038/s41598-021-86974-w
PMID:: 33820917
: Czasopismo naukowe

Pełny tekst

Desmin is a muscle-specific intermediate filament protein that has fundamental role in muscle structure and force transmission. Whereas human desmin protein is encoded by a single gene, two desmin paralogs (desma and desmb) exist in zebrafish. Desma and desmb show differential spatiotemporal expression during zebrafish embryonic and larval development, being similarly expressed in skeletal muscle until hatching, after which expression of desmb shifts to gut smooth muscle. We generated knockout (KO) mutant lines carrying loss-of-function mutations for each gene by using CRISPR/Cas9. Mutants are viable and fertile, and lack obvious skeletal muscle, heart or intestinal defects. In contrast to morphants, knockout of each gene did not cause any overt muscular phenotype, but did alter calcium flux in myofibres. These results point to a possible compensation mechanism in these mutant lines generated by targeting nonsense mutations to the first coding exon.

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