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相关概念视频

lncRNA - Long Non-coding RNAs02:39

lncRNA - Long Non-coding RNAs

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In humans, more than 80% of the genome gets transcribed. However, only around 2% of the genome codes for proteins. The remaining part produces non-coding RNAs which includes ribosomal RNAs, transfer RNAs, telomerase RNAs, and regulatory RNAs, among other types. A large number of regulatory non-coding RNAs have been classified into two groups depending upon their length – small non-coding RNAs, such as microRNA, which are less than 200 nucleotides in length, and long non-coding RNA...
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Types of RNA01:20

Types of RNA

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Three main types of RNA are involved in protein synthesis: messenger RNA (mRNA), transfer RNA (tRNA), and ribosomal RNA (rRNA). These RNAs perform diverse functions and can be broadly classified as protein-coding or non-coding RNA. Non-coding RNAs play important roles in regulating gene expression in response to developmental and environmental changes. Non-coding RNAs in prokaryotes can be manipulated to develop more effective antibacterial drugs for human or animal use.
RNA Performs Diverse...
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Formation of Muscle Fibers from Myoblasts01:13

Formation of Muscle Fibers from Myoblasts

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De novo myogenesis, or the formation of muscle fibers, begins during the early embryonic stages. The skeletal muscle is formed from somites– blocks of embryonic cell layers. The somites are further divided into dermatomes, myotomes, sclerotomes, and syndetomes. Among these, the myotomes give rise to muscle fibers.
Muscle progenitor cells (MPCs) are formed from the myotomes. MPCs express genes that encode the transcription factors Pax3 and Pax7. Along with Pax 3/7, other transcription...
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Alternative RNA Splicing02:18

Alternative RNA Splicing

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Alternative RNA splicing is the regulated splicing of exons and introns to produce different mature mRNAs from a single pre-mRNA. Unlike in constitutive splicing where a single gene produces a single type of mRNA, alternative splicing allows an organism to produce multiple proteins from a single gene and plays an important role in protein diversity.
There are five types of alternative RNA splicing that vary in the ways the pre-mRNA segments are removed or retained in the mature mRNA. The first...
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RNA Splicing01:32

RNA Splicing

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Splicing is the process by which eukaryotic RNA is edited before its translation into protein. The RNA strand transcribed from eukaryotic DNA is called the primary transcript. The primary transcripts that become mRNAs are called precursor messenger RNAs (pre-mRNAs). Eukaryotic pre-mRNA contains alternating sequences of exons and introns. Exons are nucleotide sequences that code for proteins, whereas introns are the non-coding regions. In RNA splicing, introns are removed and exons are bonded...
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Translation01:31

Translation

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Translation is the process of synthesizing proteins from the genetic information carried by messenger RNA (mRNA). Following transcription, it constitutes the final step in the expression of genes. This process is carried out by ribosomes, complexes of protein and specialized RNA molecules. Ribosomes, transfer RNA (tRNA), and other proteins produce a chain of amino acids—the polypeptide—as the end product of translation.
Translation Produces the Building Blocks of Life
Proteins are...
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Enhanced Northern Blot Detection of Small RNA Species in Drosophila Melanogaster
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在骨发育和疾病中的非编码RNA.

Qing Yao1, Tailin He2, Jian-You Liao3,4

  • 1Department of Biochemistry, School of Medicine, Shenzhen Key Laboratory of Cell Microenvironment, Guangdong Provincial Key Laboratory of Cell Microenvironment and Disease Research, Southern University of Science and Technology, Shenzhen, 518055, China. yaoq@sustech.edu.cn.

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概括
此摘要是机器生成的。

非编码RNAs (ncRNAs) 调节基因表达,对骨发育至关重要. 本综述详细介绍了ncRNA在骨健康和骨质疏松症和骨关节炎等疾病中的作用.

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科学领域:

  • 基因组学就是基因组学.
  • 分子生物学分子生物学
  • 发育生物学 发展生物学

背景情况:

  • 编码蛋白质的基因占人类DNA的<2%;其余部分被称为"垃圾DNA".
  • 非编码RNAs (ncRNAs) 占细胞转录输出的60%左右.
  • ncRNAs是细胞过程和发育中的基因表达的重要调节者.

研究的目的:

  • 审查ncRNAs的分类,生物发生和功能.
  • 阐明ncRNAs在骨发育和基因调节中的作用.
  • 要总结ncRNA参与骨疾病的情况.

主要方法:

  • 文献审查和当前研究的整合.
  • 在体内,体外和体外研究的分析.
  • 专注于骨基因和通路的ncRNA调节.

主要成果:

  • ncRNAs在调节骨发育至关重要的基因中起着至关重要的作用.
  • 在正常和病理条件下,ncRNA网络调节基因表达.
  • 特定的ncRNA与骨质疏松症,关节炎和其他骨疾病有关.

结论:

  • ncRNAs是骨生物学中的关键调节者.
  • 对ncRNAs的失调有助于骨疾病.
  • 对ncRNA的进一步研究为骨疾病提供了治疗潜力.
  • 主要_结果