charring auh4d ago
#Musclecells, or #myocytes, are specialized cells that contract to produce movement, force, and heat. They are classified into three types—skeletal (voluntary, striated, multi-nucleated fibers), cardiac (involuntary, striated, branched cells with intercalated discs), and smooth
Brandon Scott PartinSep 27, 2024

Creatine’s Role in Muscle Gain 📈💪

Creatine is a naturally occurring compound found primarily in muscle cells. It’s made up of three amino acids: arginine, glycine, and methionine.

👉 Increases ATP Production

👉 Improves Strength and Power

👉 Enhances Muscle Cell Volume

👉 Speeds Up Recovery

#creatine #supplements #musclegain #compound #musclecells #atp #strength #power #volume #recovery #weightlifting #strengthtraining #onlinecoach

Denis - The COVID info guy -Jan 9, 2024

Study identifies mitochondrial dysfunction as cause of long-COVID fatigue.

"Researchers from Amsterdam UMC and Vrije Universiteit Amsterdam (VU) have discovered that the persistent fatigue in patients with long-COVID has a biological cause, namely mitochondria in muscle cells that produce less energy than in healthy patients. The results of the study were published today in Nature Communications."

#COVID19 #LongCOVID #fatigue #Mitochondria #musclecells @auscovid19

Source: https://www.news-medical.net/news/20240104/Study-identifies-mitochondrial-dysfunction-as-cause-of-long-COVID-fatigue.aspx

Study identifies mitochondrial dysfunction as cause of long-COVID fatigue

Researchers from Amsterdam UMC and Vrije Universiteit Amsterdam (VU) have discovered that the persistent fatigue in patients with long-COVID has a biological cause, namely mitochondria in muscle cells that produce less energy than in healthy patients.

News-Medical
Phys.orgMay 1, 2023

Referenced link: https://phys.org/news/2023-05-scientists-carnitine-muscle-cells.html
Discuss on https://discu.eu/q/https://phys.org/news/2023-05-scientists-carnitine-muscle-cells.html

Originally posted by Phys.org / @physorg_com: http://nitter.platypush.tech/physorg_com/status/1653074127597498369#m

Scientists map the distribution of carnitine in #musclecells @TMU_PR @cellpressnews https://linkinghub.elsevier.com/retrieve/pii/S240584402302488X https://phys.org/news/2023-05-scientists-carnitine-muscle-cells.html

Scientists map the distribution of carnitine in muscle cells

Researchers from Tokyo Metropolitan University have developed a way of mapping the distribution of carnitine in skeletal muscle cells. Carnitine is a compound that helps transport fatty acids and reduce metabolic byproducts. They discovered that slow-type muscle fibers contained the most, and that activity promptly led to rises in acetylcarnitine, a product of the immediate response of carnitine contained in the cell. Their technique promises new insights into how muscle cells work.

Phys.org
Max Delbrück CenterJan 31, 2023
If #MuscleCells cannot repair damage, #StemCells take over their renewal. #mdcBerlin researcher Carmen Birchmeier investigates the molecular signaling pathways underlying these and other vital mechanisms. Dive deeper into her work in our portrait series: https://www.mdc-berlin.de/news/news/cartographer-life
The cartographer of life

Muscle cells are very good at repairing damage. But if this fails, stem cells step in to regenerate the tissue. Carmen Birchmeier investigates the molecular signaling pathways that underlie these and other vital mechanisms.

Universität TübingenAug 18, 2022
When smooth #musclecells lack strength: @[email protected] team discovers how malformations of the blood vessels can occur in mice – yielding information with possible ramifications for retinal disease https://uni-tuebingen.de/en/university/news-and-publications/press-releases/press-releases/article/wenn-glatten-muskelzellen-die-kraft-fehlt/ #cellbiology #retina #eye @[email protected] @[email protected] @[email protected]
When smooth muscle cells lack strength | University of Tübingen