Mechanisms of muscle wasting in chronic kidney disease
XH Wang, WE Mitch - Nature Reviews Nephrology, 2014 - nature.com
In patients with chronic kidney disease (CKD), loss of cellular proteins increases the risks of
morbidity and mortality. Persistence of muscle protein catabolism in CKD results in striking …
morbidity and mortality. Persistence of muscle protein catabolism in CKD results in striking …
MicroRNA in myogenesis and muscle atrophy
XH Wang - Current Opinion in Clinical Nutrition & Metabolic Care, 2013 - journals.lww.com
MicroRNA in myogenesis and muscle atrophy : Current Opinion in Clinical Nutrition &
Metabolic Care MicroRNA in myogenesis and muscle atrophy : Current Opinion in Clinical …
Metabolic Care MicroRNA in myogenesis and muscle atrophy : Current Opinion in Clinical …
[HTML][HTML] Circular RNA circMYBPC1 promotes skeletal muscle differentiation by targeting MyHC
M Chen, X Wei, M Song, R Jiang, K Huang… - … Therapy-Nucleic Acids, 2021 - cell.com
Skeletal muscle development is a complex and highly orchestrated biological process
mediated by a series of myogenesis regulatory factors. Numerous studies have …
mediated by a series of myogenesis regulatory factors. Numerous studies have …
MicroRNAs in skeletal muscle biology and exercise adaptation
TJ Kirby, JJ McCarthy - Free radical biology and medicine, 2013 - Elsevier
MicroRNAs (miRNAs) have emerged as important players in the regulation of gene
expression, being involved in most biological processes examined to date. The proposal …
expression, being involved in most biological processes examined to date. The proposal …
Noncoding RNAs, emerging regulators of skeletal muscle development and diseases
M Nie, ZL Deng, J Liu, DZ Wang - BioMed research …, 2015 - Wiley Online Library
A healthy and independent life requires skeletal muscles to maintain optimal function
throughout the lifespan, which is in turn dependent on efficient activation of processes that …
throughout the lifespan, which is in turn dependent on efficient activation of processes that …
Mega roles of microRNAs in regulation of skeletal muscle health and disease
M Sharma, PK Juvvuna, H Kukreti… - Frontiers in …, 2014 - frontiersin.org
Skeletal muscle is a dynamic tissue with remarkable plasticity. Skeletal muscle growth and
regeneration are highly organized processes thus it is not surprising that a high degree of …
regeneration are highly organized processes thus it is not surprising that a high degree of …
Tiny regulators of massive tissue: MicroRNAs in skeletal muscle development, myopathies, and cancer cachexia
Skeletal muscles are the largest tissues in our body and the physiological function of muscle
is essential to every aspect of life. The regulation of development, homeostasis, and …
is essential to every aspect of life. The regulation of development, homeostasis, and …
[HTML][HTML] The role of microRNAs in skeletal muscle health and disease
Over the last decade non-coding RNAs have emerged as importance regulators of gene
expression. In particular, microRNAs are a class of small RNAs of~ 22 nucleotides that …
expression. In particular, microRNAs are a class of small RNAs of~ 22 nucleotides that …
miR-30-5p regulates muscle differentiation and alternative splicing of muscle-related genes by targeting MBNL
BW Zhang, HF Cai, XF Wei, JJ Sun, XY Lan… - International journal of …, 2016 - mdpi.com
MicroRNAs (miRNAs), a class of single stranded, small (~ 22 nucleotides), non-coding
RNAs, play an important role in muscle development. We focused on the role of the miR-30 …
RNAs, play an important role in muscle development. We focused on the role of the miR-30 …
Comprehensive analysis of differentially expressed circRNAs and ceRNA regulatory network in porcine skeletal muscle
M Li, N Zhang, W Zhang, W Hei, C Cai, Y Yang, C Lu… - BMC genomics, 2021 - Springer
Abstract Background Circular RNA (circRNA), a novel class of non-coding RNA, has a
closed-loop structure with important functions in skeletal muscle growth. The purpose of this …
closed-loop structure with important functions in skeletal muscle growth. The purpose of this …