A newly identified lncRNA lnc000100 regulates proliferation and differentiation of cattle skeletal muscle cells
出版年份 2023 全文链接
标题
A newly identified lncRNA lnc000100 regulates proliferation and differentiation of cattle skeletal muscle cells
作者
关键词
-
出版物
Epigenetics
Volume 18, Issue 1, Pages -
出版商
Informa UK Limited
发表日期
2023-11-01
DOI
10.1080/15592294.2023.2270864
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Genome-Wide Identification and Characterization of Long Non-Coding RNAs in Longissimus dorsi Skeletal Muscle of Shandong Black Cattle and Luxi Cattle
- (2022) Ruili Liu et al. Frontiers in Genetics
- Circular RNA circMYBPC1 promotes skeletal muscle differentiation by targeting MyHC
- (2021) Mengjie Chen et al. Molecular Therapy-Nucleic Acids
- Comprehensive Analysis of mRNA, lncRNA, circRNA, and miRNA Expression Profiles and Their ceRNA Networks in the Longissimus Dorsi Muscle of Cattle-Yak and Yak
- (2021) Chun Huang et al. Frontiers in Genetics
- Methylation of SDC2/TFPI2 and Its Diagnostic Value in Colorectal Tumorous Lesions
- (2021) Lianglu Zhang et al. Frontiers in Molecular Biosciences
- Comparison of Long Non-Coding RNA Expression Profiles of Cattle and Buffalo Differing in Muscle Characteristics
- (2020) Hui Li et al. Frontiers in Genetics
- MEG3 Promotes Differentiation of Porcine Satellite Cells by Sponging miR-423-5p to Relieve Inhibiting Effect on SRF
- (2020) Xiaofang Cheng et al. Cells
- A novel lncRNA, lnc403, involved in bovine skeletal muscle myogenesis by mediating KRAS/Myf6
- (2020) Xiaojuan Zhang et al. GENE
- LncRNA IGF2 AS regulates bovine myogenesis through different pathways
- (2020) Chengchuang Song et al. Molecular Therapy-Nucleic Acids
- lncMGPF is a novel positive regulator of muscle growth and regeneration
- (2020) Wei Lv et al. Journal of Cachexia Sarcopenia and Muscle
- LncRNA IMFNCR Promotes Intramuscular Adipocyte Differentiation by Sponging miR-128-3p and miR-27b-3p
- (2019) Meng Zhang et al. Frontiers in Genetics
- LncIRS1 controls muscle atrophy via sponging miR-15 family to activate IGF1-PI3K/AKT pathway
- (2019) Zhenhui Li et al. Journal of Cachexia Sarcopenia and Muscle
- IGF2-AS affects the prognosis and metastasis of gastric adenocarcinoma via acting as a ceRNA of miR-503 to regulate SHOX2
- (2019) Ju Huang et al. Gastric Cancer
- LncRNA, Important Players in Bone Development and Disease
- (2019) Dijie Li et al. Endocrine Metabolic & Immune Disorders-Drug Targets
- CircRNA_100367 regulated the radiation sensitivity of esophageal squamous cell carcinomas through miR-217/Wnt3 pathway
- (2019) Junqi Liu et al. Aging-US
- Targeting CDK2 in cancer: challenges and opportunities for therapy
- (2019) Solomon Tadesse et al. DRUG DISCOVERY TODAY
- Myogenic regulatory factors: The orchestrators of myogenesis after 30 years of discovery
- (2018) Hasan A Asfour et al. EXPERIMENTAL BIOLOGY AND MEDICINE
- A newly identified lncRNA MAR1 acts as a miR-487b sponge to promote skeletal muscle differentiation and regeneration
- (2018) Zong-Kang Zhang et al. Journal of Cachexia Sarcopenia and Muscle
- Long non-coding RNA profiling reveals an abundant MDNCR that promotes differentiation of myoblasts via sponging miR-133a
- (2018) Hui Li et al. Molecular Therapy-Nucleic Acids
- Identification and Functional Analysis of Long Intergenic Non-coding RNAs Underlying Intramuscular Fat Content in Pigs
- (2018) Cheng Zou et al. Frontiers in Genetics
- Circ-ZNF609 Is a Circular RNA that Can Be Translated and Functions in Myogenesis
- (2017) Ivano Legnini et al. MOLECULAR CELL
- Function of the myogenic regulatory factors Myf5, MyoD, Myogenin and MRF4 in skeletal muscle, satellite cells and regenerative myogenesis
- (2017) Peter S. Zammit SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY
- microRNAs in skeletal muscle development
- (2017) Gi Fay Mok et al. SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY
- The myogenic regulatory factors, determinants of muscle development, cell identity and regeneration
- (2017) J. Manuel Hernández-Hernández et al. SEMINARS IN CELL & DEVELOPMENTAL BIOLOGY
- Developmental transcriptome profiling of bovine muscle tissue reveals an abundant GosB that regulates myoblast proliferation and apoptosis
- (2017) Hui Li et al. Oncotarget
- Genome-wide identification and characterization of long non-coding RNAs in developmental skeletal muscle of fetal goat
- (2016) Siyuan Zhan et al. BMC GENOMICS
- Noncoding RNA NORAD Regulates Genomic Stability by Sequestering PUMILIO Proteins
- (2016) Sungyul Lee et al. CELL
- Emerging roles for long noncoding RNAs in skeletal biology and disease
- (2016) Nguyen P. T. Huynh et al. CONNECTIVE TISSUE RESEARCH
- “Cat’s Cradling” the 3D Genome by the Act of LncRNA Transcription
- (2016) Marta Melé et al. MOLECULAR CELL
- mTORC1 and muscle regeneration are regulated by the LINC00961-encoded SPAR polypeptide
- (2016) Akinobu Matsumoto et al. NATURE
- Long non-coding antisense RNA controls Uchl1 translation through an embedded SINEB2 repeat
- (2012) Claudia Carrieri et al. NATURE
- Non-coding RNAs: key regulators of mammalian transcription
- (2012) Jennifer F. Kugel et al. TRENDS IN BIOCHEMICAL SCIENCES
- Long non-coding RNA modifies chromatin
- (2011) Alka Saxena et al. BIOESSAYS
- A Long Noncoding RNA Controls Muscle Differentiation by Functioning as a Competing Endogenous RNA
- (2011) Marcella Cesana et al. CELL
- Molecular Mechanisms of Long Noncoding RNAs
- (2011) Kevin C. Wang et al. MOLECULAR CELL
- lncRNAs transactivate STAU1-mediated mRNA decay by duplexing with 3′ UTRs via Alu elements
- (2011) Chenguang Gong et al. NATURE
- Transcriptional mechanisms regulating skeletal muscle differentiation, growth and homeostasis
- (2011) Thomas Braun et al. NATURE REVIEWS MOLECULAR CELL BIOLOGY
- Genome-wide Identification of Polycomb-Associated RNAs by RIP-seq
- (2010) Jing Zhao et al. MOLECULAR CELL
- An Architectural Role for a Nuclear Noncoding RNA: NEAT1 RNA Is Essential for the Structure of Paraspeckles
- (2009) Christine M. Clemson et al. MOLECULAR CELL
Find Funding. Review Successful Grants.
Explore over 25,000 new funding opportunities and over 6,000,000 successful grants.
ExploreFind the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
Search