Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes

10.1371/journal.pone.0072750

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Main Authors:	Mao J., Wang D., Mataleena P., He B., Niu D., Katayama K., Xu X., Ojala J.R.M., Wang W., Shu Q., Du L., Liu A., Pikkarainen T., Patrakka J., Tryggvason K.
Other Authors:	DUKE-NUS MEDICAL SCHOOL
Format:	Article
Published:	2019
Subjects:	actin antisense oligonucleotide complementary DNA messenger RNA myosin myosin1e nephrin podocin short hairpin RNA synaptopodin unclassified drug vitellogenin fluorescein isothiocyanate MYO1E protein, human Myo1e protein, mouse Myo1e protein, zebrafish myosin I transferrin zebrafish protein actin filament animal cell animal tissue Article cardiovascular disease cell adhesion cell culture cell migration cell motility cell proliferation cell shape cell structure congenital nephrotic syndrome controlled study cytoplasm cytoskeleton down regulation embryo endocytosis enzyme linked immunosorbent assay exon fluorescence microscopy gene sequence glomerular filtration barrier glomerulus basement membrane histopathology human human cell human tissue immortalized cell line immunofluorescence incubation time kidney cyst kidney disease kidney failure larva mass spectrometry mouse nonhuman Northern blotting pericarditis phenotype podocyte protein analysis protein expression protein localization proteinuria reverse transcription polymerase chain reaction risk factor RNA splicing supernatant upregulation zebra fish animal cell count cell migration assay fertilization gene silencing glomerulus metabolism pathology Danio rerio Actins Animals Cell Count Cell Migration Assays Cell Proliferation Cell Shape Cells, Cultured Cytoskeleton Down-Regulation Endocytosis Fertilization Fluorescein-5-isothiocyanate Gene Knockdown Techniques Humans Kidney Diseases Kidney Glomerulus Mice Myosin Type I Myosins Podocytes Proteinuria Transferrin Zebrafish Zebrafish Proteins
Online Access:	https://scholarbank.nus.edu.sg/handle/10635/161275
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Institution:	National University of Singapore

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spelling	sg-nus-scholar.10635-1612752024-11-10T02:49:57Z Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes Mao J. Wang D. Mataleena P. He B. Niu D. Katayama K. Xu X. Ojala J.R.M. Wang W. Shu Q. Du L. Liu A. Pikkarainen T. Patrakka J. Tryggvason K. DUKE-NUS MEDICAL SCHOOL actin antisense oligonucleotide complementary DNA messenger RNA myosin myosin1e nephrin podocin short hairpin RNA synaptopodin unclassified drug vitellogenin actin fluorescein isothiocyanate MYO1E protein, human Myo1e protein, mouse Myo1e protein, zebrafish myosin myosin I transferrin zebrafish protein actin filament animal cell animal tissue Article cardiovascular disease cell adhesion cell culture cell migration cell motility cell proliferation cell shape cell structure congenital nephrotic syndrome controlled study cytoplasm cytoskeleton down regulation embryo endocytosis enzyme linked immunosorbent assay exon fluorescence microscopy gene sequence glomerular filtration barrier glomerulus basement membrane histopathology human human cell human tissue immortalized cell line immunofluorescence incubation time kidney cyst kidney disease kidney failure larva mass spectrometry mouse nonhuman Northern blotting pericarditis phenotype podocyte protein analysis protein expression protein localization proteinuria reverse transcription polymerase chain reaction risk factor RNA splicing supernatant upregulation zebra fish animal cell count cell culture cell migration assay fertilization gene silencing glomerulus metabolism pathology podocyte proteinuria Danio rerio Actins Animals Cell Count Cell Migration Assays Cell Proliferation Cell Shape Cells, Cultured Cytoskeleton Down-Regulation Endocytosis Fertilization Fluorescein-5-isothiocyanate Gene Knockdown Techniques Humans Kidney Diseases Kidney Glomerulus Mice Myosin Type I Myosins Podocytes Proteinuria Transferrin Zebrafish Zebrafish Proteins 10.1371/journal.pone.0072750 PLoS ONE 8 8 e72750 2019-11-04T04:03:05Z 2019-11-04T04:03:05Z 2013 Article Mao J., Wang D., Mataleena P., He B., Niu D., Katayama K., Xu X., Ojala J.R.M., Wang W., Shu Q., Du L., Liu A., Pikkarainen T., Patrakka J., Tryggvason K. (2013). Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes. PLoS ONE 8 (8) : e72750. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pone.0072750 19326203 https://scholarbank.nus.edu.sg/handle/10635/161275 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	actin antisense oligonucleotide complementary DNA messenger RNA myosin myosin1e nephrin podocin short hairpin RNA synaptopodin unclassified drug vitellogenin actin fluorescein isothiocyanate MYO1E protein, human Myo1e protein, mouse Myo1e protein, zebrafish myosin myosin I transferrin zebrafish protein actin filament animal cell animal tissue Article cardiovascular disease cell adhesion cell culture cell migration cell motility cell proliferation cell shape cell structure congenital nephrotic syndrome controlled study cytoplasm cytoskeleton down regulation embryo endocytosis enzyme linked immunosorbent assay exon fluorescence microscopy gene sequence glomerular filtration barrier glomerulus basement membrane histopathology human human cell human tissue immortalized cell line immunofluorescence incubation time kidney cyst kidney disease kidney failure larva mass spectrometry mouse nonhuman Northern blotting pericarditis phenotype podocyte protein analysis protein expression protein localization proteinuria reverse transcription polymerase chain reaction risk factor RNA splicing supernatant upregulation zebra fish animal cell count cell culture cell migration assay fertilization gene silencing glomerulus metabolism pathology podocyte proteinuria Danio rerio Actins Animals Cell Count Cell Migration Assays Cell Proliferation Cell Shape Cells, Cultured Cytoskeleton Down-Regulation Endocytosis Fertilization Fluorescein-5-isothiocyanate Gene Knockdown Techniques Humans Kidney Diseases Kidney Glomerulus Mice Myosin Type I Myosins Podocytes Proteinuria Transferrin Zebrafish Zebrafish Proteins
spellingShingle	actin antisense oligonucleotide complementary DNA messenger RNA myosin myosin1e nephrin podocin short hairpin RNA synaptopodin unclassified drug vitellogenin actin fluorescein isothiocyanate MYO1E protein, human Myo1e protein, mouse Myo1e protein, zebrafish myosin myosin I transferrin zebrafish protein actin filament animal cell animal tissue Article cardiovascular disease cell adhesion cell culture cell migration cell motility cell proliferation cell shape cell structure congenital nephrotic syndrome controlled study cytoplasm cytoskeleton down regulation embryo endocytosis enzyme linked immunosorbent assay exon fluorescence microscopy gene sequence glomerular filtration barrier glomerulus basement membrane histopathology human human cell human tissue immortalized cell line immunofluorescence incubation time kidney cyst kidney disease kidney failure larva mass spectrometry mouse nonhuman Northern blotting pericarditis phenotype podocyte protein analysis protein expression protein localization proteinuria reverse transcription polymerase chain reaction risk factor RNA splicing supernatant upregulation zebra fish animal cell count cell culture cell migration assay fertilization gene silencing glomerulus metabolism pathology podocyte proteinuria Danio rerio Actins Animals Cell Count Cell Migration Assays Cell Proliferation Cell Shape Cells, Cultured Cytoskeleton Down-Regulation Endocytosis Fertilization Fluorescein-5-isothiocyanate Gene Knockdown Techniques Humans Kidney Diseases Kidney Glomerulus Mice Myosin Type I Myosins Podocytes Proteinuria Transferrin Zebrafish Zebrafish Proteins Mao J. Wang D. Mataleena P. He B. Niu D. Katayama K. Xu X. Ojala J.R.M. Wang W. Shu Q. Du L. Liu A. Pikkarainen T. Patrakka J. Tryggvason K. Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes
description	10.1371/journal.pone.0072750
author2	DUKE-NUS MEDICAL SCHOOL
author_facet	DUKE-NUS MEDICAL SCHOOL Mao J. Wang D. Mataleena P. He B. Niu D. Katayama K. Xu X. Ojala J.R.M. Wang W. Shu Q. Du L. Liu A. Pikkarainen T. Patrakka J. Tryggvason K.
format	Article
author	Mao J. Wang D. Mataleena P. He B. Niu D. Katayama K. Xu X. Ojala J.R.M. Wang W. Shu Q. Du L. Liu A. Pikkarainen T. Patrakka J. Tryggvason K.
author_sort	Mao J.
title	Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes
title_short	Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes
title_full	Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes
title_fullStr	Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes
title_full_unstemmed	Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes
title_sort	myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes
publishDate	2019
url	https://scholarbank.nus.edu.sg/handle/10635/161275
_version_	1821205684460453888

Myo1e impairment results in actin reorganization, podocyte dysfunction, and proteinuria in zebrafish and cultured podocytes

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