scholarly journals Extraction of Nuclear Proteins from Striated Muscle Tissue

BioTechniques ◽  
1999 ◽  
Vol 26 (2) ◽  
pp. 202-206 ◽  
Author(s):  
Eric Blough ◽  
Brigid Dineen ◽  
Karyn Esser
Keyword(s):  
Muscle Tissue ◽  
Striated Muscle ◽  
Nuclear Proteins

scholarly journals Current Strategies for the Regeneration of Skeletal Muscle Tissue

2021 ◽  
Vol 22 (11) ◽  
pp. 5929
Author(s):  
Emine Alarcin ◽  
Ayca Bal-Öztürk ◽  
Hüseyin Avci ◽  
Hamed Ghorbanpoor ◽  
Fatma Dogan Guzel ◽  
...  
Keyword(s):  
Skeletal Muscle ◽  
Muscle Tissue ◽  
Muscle Regeneration ◽  
Striated Muscle ◽  
Cell Types ◽  
Skeletal Muscle Tissue ◽  
Skeletal Muscle Regeneration ◽  
Muscle Repair ◽  
Clinical Implementation ◽  
Different Cell Types

Traumatic injuries, tumor resections, and degenerative diseases can damage skeletal muscle and lead to functional impairment and severe disability. Skeletal muscle regeneration is a complex process that depends on various cell types, signaling molecules, architectural cues, and physicochemical properties to be successful. To promote muscle repair and regeneration, various strategies for skeletal muscle tissue engineering have been developed in the last decades. However, there is still a high demand for the development of new methods and materials that promote skeletal muscle repair and functional regeneration to bring approaches closer to therapies in the clinic that structurally and functionally repair muscle. The combination of stem cells, biomaterials, and biomolecules is used to induce skeletal muscle regeneration. In this review, we provide an overview of different cell types used to treat skeletal muscle injury, highlight current strategies in biomaterial-based approaches, the importance of topography for the successful creation of functional striated muscle fibers, and discuss novel methods for muscle regeneration and challenges for their future clinical implementation.

Effects of hyperbaric oxygen on energy production and xanthine oxidase levels in striated muscle tissue of healthy rats

2008 ◽  
Vol 15 (4) ◽  
pp. 445-450 ◽  
Author(s):  
Bülent Kurt ◽  
Yasemin Kurt ◽  
Yıldırım Karslıoğlu ◽  
Turgut Topal ◽  
Hüsamettin Erdamar ◽  
...  
Keyword(s):  
Xanthine Oxidase ◽  
Hyperbaric Oxygen ◽  
Muscle Tissue ◽  
Energy Production ◽  
Striated Muscle

scholarly journals Recovery of Skeletal Striated Muscle Tissue in a Model of Reversible Injury

2017 ◽  
Vol 09 (05) ◽  
Author(s):  
Nicolas Salazar ◽  
Doris Haydee Rosero
Keyword(s):  
Muscle Tissue ◽  
Striated Muscle

Striated Muscle Tissue

2012 ◽  
pp. 824-824
Author(s):  
Gordon S. Lynch ◽  
David G. Harrison ◽  
Hanjoong Jo ◽  
Charles Searles ◽  
Philippe Connes ◽  
...  
Keyword(s):  
Muscle Tissue ◽  
Striated Muscle

scholarly journals Studi Distribusi Glukosa Transporter 4 pada Otot Skelet Ayam Kedu Cemani

2017 ◽  
Vol 35 (2) ◽  
pp. 254
Author(s):  
Teguh Budipitojo ◽  
Ariana ◽  
Tri Wahyu Pangestiningsih ◽  
Hery Wijayanto ◽  
Dwi Liliek Kusindarta ◽  
...  
Keyword(s):  
Muscle Tissue ◽  
Glucose Transporter ◽  
Striated Muscle ◽  
Biceps Brachii ◽  
Biceps Femoris ◽  
Moderate Intensity ◽  
Biceps Femoris Muscle ◽  
Glut 4 ◽  
Central Java ◽  
Femoris Muscle

Glucose transporter (GLUT 4) is glucose transporter protein regulated by insulin, found in adipose tissue and striated muscle (skeletal and cardiac muscle). Kedu cemani chicken is one of Indonesia endemic animal, found in Kedu, Temanggung regency, Central Java. This study was required to complete microscopic documentation of  Indonesia’s native biodiversity. The objective of this study was to clarify GLUT 4 distribution in skeletal muscle fibers of kedu cemani chicken by using avidin-biotin-peroxidase complex (ABC) immunohistochemistry method. This study was conducted by using pectorales major, biceps brachii, and biceps femoris muscle tissue from 5 kedu cemani chicken. The result showed that GLUT 4 immunoreactivity were detected in sarcolemma and myofibrils component of pectorales major, biceps brachii, and biceps femoris muscle tissue. Intensity of GLUT 4 immunorectivites increased from weak intensity in pectorales major muscle tissue, moderate intensity in biceps brachii muscle tissue, then strong intensity in biceps femoris muscle tissue. This result might motivate to further exploration about the other kedu cemani chicken specific features to complete microscopic  documentation of  Indonesia’s native biodiversity. 

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