Marcus Moberg
Biträdande högskolelektor, bitr prefekt för sektionen för laboratorier vid FNB
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Akademisk titel
Fil dr i idrottsvetenskap, PhD
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Tillhör
Institutionen för fysiologi, nutrition och biomekanik
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Kompetensprofil
Fysiologi, Näringslära
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Forskningsintressen
My general interests are related to the molecular regulation of skeletal muscle mass in relation to exercise and nutritional. During the fast few years, I have specifically focused on the role of metabolic stress in the regulation of muscle adaptations to exercise. In this, two aspects have been of prime interest, namely lactate and hypoxia. Several of my past and present projects concern the potential role of lactate as a signaling molecule in human tissue, both at rest and during exercise.
A more newly found interest of mine is exercise neurophysiology, where I on the molecular level try to identify the mechanism by which exercise influences brain health.
Finally, a part of my research is also directed to muscle morphology and skeletal muscle memory to exercise. I like to think that my research has a wide area of application, some mainly relevant for elite athletes and maximizing exercise adaptations, some relevant in a clinical context and treatment of diseases, and some more basic understanding of muscle physiology.
Current projects
- The potential role of lactate in the molecular regulation of muscle adaptations to exercise.
- Lactate – a multi organ signaling molecule with important health implications.
- The influence of hypoxia on the molecular response to resistance exercise.
- Exercise neurophysiology – molecular regulation of BDNF production.
Representative publications
- Liegnell R., Apró W., Danielsson S., Ekblom B., van Hall G., Holmberg H-C., Moberg M. (2020) Elevated plasma lactate levels via exogenous lactate infusion do not alter resistance exercise-induced signaling or protein synthesis in human skeletal muscle. Am J Physiol Endocriniol. 319: E792–E804
Senaste publikationer (DiVA)
Sida 1 av 8
(Totalt antal hämtade artiklar: 40)
Moberg, Marcus Apro, William Horwath, Oscar van Hall, Gerrit Blackwood, Sarah J Katz, Abram
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Acute normobaric hypoxia blunts contraction-mediated mTORC1- and JNK-signaling in human skeletal muscle. |
2022 |
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Horwath, Oscar Envall, Helena Röja, Julia Emanuelsson, Eric Bengt Sanz, Gema Ekblom, Björn Apro, William Moberg, Marcus
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Variablity in vastus lateralis fiber type distribution, fiber size and myonuclear content along and between the legs. |
2021 |
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Moberg, Marcus Apro, William Cervenka, Igor Ekblom, Björn van Hall, Gerrit Holmberg, Hans-Christer Ruas, Jorge L Blomstrand, Eva
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High-intensity leg cycling alters the molecular response to resistance exercise in the arm muscles. |
2021 |
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Horwath, Oscar Moberg, Marcus Larsen, Filip J Philp, Andrew Apro, William Ekblom, Björn
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Influence of sex- and fiber type on the satellite cell pool in human skeletal muscle. |
2021 |
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Apro, William Horwath, Oscar Granberg, Jonas Moberg, Marcus Andersson, Eva Ekblom, Björn
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Intake Of Essential Amino Acids Stimulates Mtorc1 Signaling And Inhibits Autophagy Following Glycogen-depleted Resistance Exercise |
2020 |
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Övrigt
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