Muscle dystrophy

Natural product-derived regenerative therapy for muscle atrophy: Chrysin, isolated from Passiflora caerulea and Passiflora incarnata among others, increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 12/July/2017, 11.47 pm
Natural product-derived regenerative therapy for muscle atrophy: Chrysin, isolated from Passiflora caerulea and Passiflora incarnata among others, increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 12/July/2017, 11.47 pm 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Cardiac Regeneration and Ageing Lab, School of Life Science, Shanghai University, Shanghai 200444, China shows that “miR-29b contributes to multiple types of muscle atrophy.” This research paper was…

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Natural product-derived therapy for muscle atrophy and wasting: Berberine, isolated from Berberis among others, increases the expression of FGF19 and its receptor ß-Klotho, phosphorylates ERK1/2 and S6K1, decreases the expression of tumor suppressors genes, promotes regeneration of muscle cells and hypertrophy of skeletal muscle, and reverses muscular atrophy and wasting via up regulation of its target gene, 6/July/2017, 10.26 pm
Natural product-derived therapy for muscle atrophy and wasting: Berberine, isolated from Berberis among others, increases the expression of FGF19 and its receptor ß-Klotho, phosphorylates ERK1/2 and S6K1, decreases the expression of tumor suppressors genes, promotes regeneration of muscle cells and hypertrophy of skeletal muscle, and reverses muscular atrophy and wasting via up regulation of its target gene, 6/July/2017, 10.26 pm 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from Department of Biology, University of Bergen, Bergen, Norway; and Univ-Lyon, CarMeN Laboratory, INSERM 1060, INRA 1397, Université Claude Bernard Lyon, INSA Lyon, Oullins, France shows that FGF19 regulates skeletal…

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Molecular Hydrogen-based regenerative therapy for muscular atrophy: Hydrogen-rich water therapy increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 28/June/2017, 11.30pm
Molecular Hydrogen-based regenerative therapy for muscular atrophy: Hydrogen-rich water therapy increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 28/June/2017, 11.30pm 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Cardiac Regeneration and Ageing Lab, School of Life Science, Shanghai University, Shanghai 200444, China shows that “miR-29b contributes to multiple types of muscle atrophy.” This research paper was…

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Low-intensity Electroporal shock wave-based regenerative therapy for muscular atrophy: Low-intensity Electroporal shock wave therapy increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 20/June/2017, 10.35 am
Low-intensity Electroporal shock wave-based regenerative therapy for muscular atrophy: Low-intensity Electroporal shock wave therapy increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 20/June/2017, 10.35 am 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Cardiac Regeneration and Ageing Lab, School of Life Science, Shanghai University, Shanghai 200444, China shows that “miR-29b contributes to multiple types of…

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Laminar shear stress-based regenerative therapy for muscular atrophy: Laminar shear stress increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 16/June/2017, 1.14 am
Laminar shear stress-based regenerative therapy for muscular atrophy: Laminar shear stress increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 16/June/2017, 1.14 am 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Cardiac Regeneration and Ageing Lab, School of Life Science, Shanghai University, Shanghai 200444, China shows that “miR-29b contributes to multiple types of…

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Natural product-derived regenerative therapy for muscular atrophy: Oleanolic acid, isolated from olive oil, and Syzygium spp among others, increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 12/June/2017, 11.34 pm
Natural product-derived regenerative therapy for muscular atrophy: Oleanolic acid, isolated from olive oil, and Syzygium spp among others, increases the expression of IGF-1, PI3K(p85a) and B-Myb, decreases the expression of tumor suppressors, promotes regeneration of muscle cells, and reverses muscle atrophy via up regulation of its target gene, 12/June/2017, 11.34 pm 960 720 Dr Boomi's Genom-2-Discovery Center

Introduction: What they say A study from the Cardiac Regeneration and Ageing Lab, School of Life Science, Shanghai University, Shanghai 200444, China shows that “miR-29b contributes to multiple types of…

read more
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