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Overview of Transposition and Recombination02:13

Overview of Transposition and Recombination

15.6K
Transposons make up a significant part of genomes of various organisms. Therefore, it is believed that transposition played a major evolutionary role in speciation by changing genome sizes and modifying gene expression patterns. For example, in bacteria, transposition can lead to conferring antibiotic resistance. Movement of transposable elements within the genetic pool of pathogenic bacteria can aid in transfer of antibiotic-resistant genetic elements. In eukaryotes, transposons can carry out...
15.6K
Transposons01:24

Transposons

56
Transposons, or "jumping genes," are small mobile genetic elements (MGEs) that range from 700 to 40,000 base pairs in length. They are found in all organisms and can move within the same chromosome or transfer to different chromosomes. In some cases, transposons can also jump between different host DNA molecules, such as plasmids or viruses, contributing to genetic variability.Barbara McClintock first discovered these mobile genetic elements in the 1940s while studying maize genetics, and she...
56
DNA-only Transposons02:57

DNA-only Transposons

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DNA-only transposons are called autonomous transposons since they code for the enzyme transposase that is required for the transposition mechanism. Insertion of transposons can alter gene functions in multiple ways. They can mutate the gene, alter gene expression by introducing a novel promoter or insulator sequence, introduce new splice sites, and change the mRNA transcripts produced, or remodel chromatin structure.
The donor site from where the transposon is excised is either degraded or...
14.6K
LTR Retrotransposons03:08

LTR Retrotransposons

17.6K
LTR retrotransposons are class I transposable elements with long terminal repeats flanking an internal coding region. These elements are less abundant in mammals compared to other class I transposable elements. About 8 percent of human genomic DNA comprises LTR retrotransposons. Some of the common examples of LTR retrotransposons are Ty elements in yeast and Copia elements in Drosophila.
The internal coding region of LTR retrotransposons and their mechanism of transposition closely resembles a...
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Non-LTR Retrotransposons03:18

Non-LTR Retrotransposons

11.6K
As the name suggests, non-LTR retrotransposons lack the long terminal repeats characteristic of the LTR retrotransposons. Additionally, both LTR and non-LTR retrotransposons use distinct mechanisms of mobilization. Non-LTR retrotransposons are further divided into two classes - Long interspersed nuclear elements (LINEs) and short interspersed nuclear elements (SINEs), both of which occur abundantly in most mammals, including humans. Some of the active non-LTR retrotransposons in humans are L1...
11.6K
Translesion DNA Polymerases02:10

Translesion DNA Polymerases

10.0K
Translesion (TLS) polymerases rescue stalled DNA polymerases at sites of damaged bases by replacing the replicative polymerase and installing a nucleotide across the damaged site. Doing so, TLS allows additional time for the cell to repair the damage before resuming regular DNA replication.
TLS polymerases are found in all three domains of life - archaea, bacteria, and eukaryotes. Of the different classes of TLS polymerases, members of the Y family are fitted with specialized structures that...
10.0K

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相关实验视频

Updated: Jul 16, 2025

Real-Time Quantification of the Effects of IS200/IS605 Family-Associated TnpB on Transposon Activity
04:04

Real-Time Quantification of the Effects of IS200/IS605 Family-Associated TnpB on Transposon Activity

Published on: January 20, 2023

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可转移的元素:麦克林托克的遗产被重新审视

Cédric Feschotte1

  • 1Department of Molecular Biology and Genetics, Cornell University, Ithaca, NY, USA. cf458@cornell.edu.

Nature reviews. Genetics
|September 18, 2023
PubMed
概括
此摘要是机器生成的。

巴巴拉·麦克林托克发现了可转移的元素,彻底改变了遗传学. 她获得诺贝尔奖的关于玉米突变的研究重塑了我们对基因组功能和进化学的理解.

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Analysis of LINE-1 Retrotransposition at the Single Nucleus Level
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Analysis of LINE-1 Retrotransposition at the Single Nucleus Level

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Creation of a Dense Transposon Insertion Library Using Bacterial Conjugation in Enterobacterial Strains Such As Escherichia Coli or Shigella flexneri
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Creation of a Dense Transposon Insertion Library Using Bacterial Conjugation in Enterobacterial Strains Such As Escherichia Coli or Shigella flexneri

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相关实验视频

Last Updated: Jul 16, 2025

Real-Time Quantification of the Effects of IS200/IS605 Family-Associated TnpB on Transposon Activity
04:04

Real-Time Quantification of the Effects of IS200/IS605 Family-Associated TnpB on Transposon Activity

Published on: January 20, 2023

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Analysis of LINE-1 Retrotransposition at the Single Nucleus Level
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Analysis of LINE-1 Retrotransposition at the Single Nucleus Level

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Creation of a Dense Transposon Insertion Library Using Bacterial Conjugation in Enterobacterial Strains Such As Escherichia Coli or Shigella flexneri
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Creation of a Dense Transposon Insertion Library Using Bacterial Conjugation in Enterobacterial Strains Such As Escherichia Coli or Shigella flexneri

Published on: September 23, 2017

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科学领域:

  • 遗传学 是一个遗传学.
  • 分子生物学分子生物学
  • 基因组学就是基因组学.

背景情况:

  • 巴巴拉·麦克林托克对玉米突变的突破性研究导致了可转移元素的发现.
  • 她最初被忽视的工作,几十年后在1983年获得诺贝尔生理学或医学奖.

研究的目的:

  • 为了纪念麦克林托克获得诺贝尔奖40周年.
  • 重新审视遗传学的历史和麦克林托克的贡献.
  • 为了反思她的科学成就和职业挑战.

主要方法:

  • 遗传学的历史审查.
  • 对芭芭拉·麦克林托克关于玉米突变的研究进行分析.
  • 探索范式的转变在理解可转移的元素.

主要成果:

  • 可转移元素的发现从根本上改变了对基因组功能和进化的理解.
  • 麦克林托克的精心工作为未来的遗传研究奠定了基础.
  • 在可转移元素的感知和研究中发生了显著的范式转变.

结论:

  • 芭芭拉·麦克林托克的遗产在遗传学历史上是至关重要的.
  • 她对可转移元素的发现产生了深刻而持久的影响.
  • 了解她的职业生涯强调了坚持科学发现的重要性.