Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities

Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities

10.1002/adbi.202000146

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Bibliographic Details
Main Authors: Kurth, Felix, Tai, Yee Kit, Parate, Dinesh, van Oostrum, Marc, Schmid, Yannick RF, Toh, Shi Jie, Yap, Jasmine Lye Yee, Wollscheid, Bernd, Othman, Alaa, Dittrich, Petra S, Franco-Obregon, Alfredo
Other Authors: ORTHOPAEDIC SURGERY
Format: Article
Language:English
Published: WILEY-V C H VERLAG GMBH 2021
Subjects:
Science & Technology
Technology
Materials Science, Biomaterials
Materials Science
cell-derived vesicles
CRISPR
Cas9 genome editing
mitochondrial respiration
pulsed magnetic fields
TRPC1 cation channel
SKELETAL-MUSCLE
MITOCHONDRIAL DYSFUNCTION
C2C12 MYOBLASTS
CA2+ ENTRY
LONGEVITY
EXERCISE
PATHWAY
SERUM
STIM1
COLD
Online Access:https://scholarbank.nus.edu.sg/handle/10635/205784
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Institution: National University of Singapore
Language: English
id sg-nus-scholar.10635-205784
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spelling sg-nus-scholar.10635-2057842024-04-25T01:21:55Z Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities Kurth, Felix Tai, Yee Kit Parate, Dinesh van Oostrum, Marc Schmid, Yannick RF Toh, Shi Jie Yap, Jasmine Lye Yee Wollscheid, Bernd Othman, Alaa Dittrich, Petra S Franco-Obregon, Alfredo ORTHOPAEDIC SURGERY SURGERY Science & Technology Technology Materials Science, Biomaterials Materials Science cell-derived vesicles CRISPR Cas9 genome editing mitochondrial respiration pulsed magnetic fields TRPC1 cation channel SKELETAL-MUSCLE MITOCHONDRIAL DYSFUNCTION C2C12 MYOBLASTS CA2+ ENTRY LONGEVITY EXERCISE PATHWAY SERUM STIM1 COLD 10.1002/adbi.202000146 ADVANCED BIOSYSTEMS 4 11 completed 2021-11-10T05:55:18Z 2021-11-10T05:55:18Z 2020-09-02 2021-11-10T01:15:13Z Article Kurth, Felix, Tai, Yee Kit, Parate, Dinesh, van Oostrum, Marc, Schmid, Yannick RF, Toh, Shi Jie, Yap, Jasmine Lye Yee, Wollscheid, Bernd, Othman, Alaa, Dittrich, Petra S, Franco-Obregon, Alfredo (2020-09-02). Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities. ADVANCED BIOSYSTEMS 4 (11). ScholarBank@NUS Repository. https://doi.org/10.1002/adbi.202000146 23667478 https://scholarbank.nus.edu.sg/handle/10635/205784 en WILEY-V C H VERLAG GMBH Elements
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
language English
topic Science & Technology
Technology
Materials Science, Biomaterials
Materials Science
cell-derived vesicles
CRISPR
Cas9 genome editing
mitochondrial respiration
pulsed magnetic fields
TRPC1 cation channel
SKELETAL-MUSCLE
MITOCHONDRIAL DYSFUNCTION
C2C12 MYOBLASTS
CA2+ ENTRY
LONGEVITY
EXERCISE
PATHWAY
SERUM
STIM1
COLD
spellingShingle Science & Technology
Technology
Materials Science, Biomaterials
Materials Science
cell-derived vesicles
CRISPR
Cas9 genome editing
mitochondrial respiration
pulsed magnetic fields
TRPC1 cation channel
SKELETAL-MUSCLE
MITOCHONDRIAL DYSFUNCTION
C2C12 MYOBLASTS
CA2+ ENTRY
LONGEVITY
EXERCISE
PATHWAY
SERUM
STIM1
COLD
Kurth, Felix
Tai, Yee Kit
Parate, Dinesh
van Oostrum, Marc
Schmid, Yannick RF
Toh, Shi Jie
Yap, Jasmine Lye Yee
Wollscheid, Bernd
Othman, Alaa
Dittrich, Petra S
Franco-Obregon, Alfredo
Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities
description 10.1002/adbi.202000146
author2 ORTHOPAEDIC SURGERY
author_facet ORTHOPAEDIC SURGERY
Kurth, Felix
Tai, Yee Kit
Parate, Dinesh
van Oostrum, Marc
Schmid, Yannick RF
Toh, Shi Jie
Yap, Jasmine Lye Yee
Wollscheid, Bernd
Othman, Alaa
Dittrich, Petra S
Franco-Obregon, Alfredo
format Article
author Kurth, Felix
Tai, Yee Kit
Parate, Dinesh
van Oostrum, Marc
Schmid, Yannick RF
Toh, Shi Jie
Yap, Jasmine Lye Yee
Wollscheid, Bernd
Othman, Alaa
Dittrich, Petra S
Franco-Obregon, Alfredo
author_sort Kurth, Felix
title Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities
title_short Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities
title_full Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities
title_fullStr Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities
title_full_unstemmed Cell-Derived Vesicles as TRPC1 Channel Delivery Systems for the Recovery of Cellular Respiratory and Proliferative Capacities
title_sort cell-derived vesicles as trpc1 channel delivery systems for the recovery of cellular respiratory and proliferative capacities
publisher WILEY-V C H VERLAG GMBH
publishDate 2021
url https://scholarbank.nus.edu.sg/handle/10635/205784
_version_ 1800915048825094144

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