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相关概念视频

RNA-seq03:21

RNA-seq

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RNA sequencing, or RNA-Seq, is a high-throughput sequencing technology used to study the transcriptome of a cell. Transcriptomics helps to interpret the functional elements of a genome and identify the molecular constituents of an organism. Additionally, it also helps in understanding the development of an organism and the occurrence of diseases. 
Before the discovery of RNA-seq, microarray-based methods and Sanger sequencing were used for transcriptome analysis. However, while...
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DNA sequencing is a fundamental technique that is routinely used in the biological sciences. This method can be applied to a range of questions at different scales - from the sequencing of a cloned DNA fragment or the study of a mutation in a gene up to whole-genome sequencing. However, despite the widespread use of sequencing today, it was not until 1977 that Fredrick Sanger and his collaborators developed the chain-termination method to decode DNA sequences. It relies on the separation of a...
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The first human genome sequencing project cost $2.7 billion and was declared complete in 2003, after 15 years of international cooperation and collaboration between several research teams and funding agencies. Today, with the advent of next-generation sequencing technologies, the cost and time of sequencing a human genome have dropped over 100 fold.
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Ribosome Profiling02:24

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Ribosome profiling or ribo-sequencing is a deep sequencing technique that produces a snapshot of active translation in a cell. It selectively sequences the mRNAs protected by ribosomes to get an insight into a cell’s translation landscape at any given point in time.
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In the same year as the discovery of the Sanger sequencing method, another group of scientists, Allan Maxam and Walter Gilbert, demonstrated their chemical-cleavage method for DNA sequencing. The Maxam-Gilbert method relies on using different chemicals that can cleave the DNA sequence at specific sites, the separation of resulting DNA fragments of variable size using electrophoresis, and deciphering the DNA sequence from the resulting gel bands.
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Sequencing of mRNA from Whole Blood using Nanopore Sequencing
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列表蛋白质组:单分子蛋白质测序的当前发展.

Morgan M Brady1, Anne S Meyer1

  • 1Department of Biology, University of Rochester, Rochester, New York 14627, USA.

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此摘要是机器生成的。

单分子蛋白质测序 (SMPS) 为分析复杂蛋白质组提供了一个有前途的解决方案. 本综述探讨了用于敏感,高通量蛋白质表征的新兴SMPS技术.

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科学领域:

  • 生物化学和分子生物学
  • 蛋白质组学是指蛋白质组学.
  • 生物技术是生物技术.

背景情况:

  • 细胞蛋白质组对于生物过程,平衡和疾病至关重要.
  • 目前的蛋白质组学方法,如质谱学,在灵敏度和样本要求方面存在局限性.
  • 鉴定低丰度或单细胞蛋白质的特征仍然是一个重大挑战.

研究的目的:

  • 审查和概述各种单分子蛋白质测序 (SMPS) 技术.
  • 讨论不同SMPS方法的优点和局限性.
  • 突出SMPS在准确,敏感和高通量蛋白质分析方面的潜力.

主要方法:

  • 对单分子蛋白序列测序 (SMPS) 技术现有文献的审查.
  • 不同的SMPS方法的比较分析.
  • 讨论该领域的技术挑战和进步.

主要成果:

  • 已经开发了几种SMPS技术,以克服传统蛋白质组学的局限性.
  • 这些方法为分析单分子水平的蛋白质提供了潜力.
  • SMPS平台的目标是提高准确性,灵敏性和吞吐量.

结论:

  • 单分子蛋白质测序 (SMPS) 是蛋白质组学的一个重大进步.
  • 进一步开发SMPS技术对于单细胞和低丰度蛋白质分析至关重要.
  • SMPS有望彻底改变研究和临床蛋白质表征.