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DNA Base Pairing02:27

DNA Base Pairing

Erwin Chargaff’s rules on DNA equivalence paved the way for the discovery of base pairing in DNA. Chargaff’s rules state that in a double-stranded DNA molecule,
DNA Base Pairing02:27

DNA Base Pairing

Erwin Chargaff’s rules on DNA equivalence paved the way for the discovery of base pairing in DNA. Chargaff’s rules state that in a double-stranded DNA molecule,
DNA Topoisomerases02:02

DNA Topoisomerases

Topoisomerases are enzymes that relax overwound DNA molecules during various cell processes, including DNA replication and transcription. These enzymes regulate positive and negative DNA supercoiling without changing the nucleotide sequence. DNA overwinding in a clockwise direction results in positively supercoiled DNA, whereas underwinding in a counterclockwise direction produces negatively supercoiled DNA.
Types and Mechanism of action
Topoisomerases are divided into two main types.  Type I...
Overview of DNA Repair02:25

Overview of DNA Repair

In order to be passed through generations, genomic DNA must be undamaged and error-free. However, every day, DNA in a cell undergoes several thousand to a million damaging events by natural causes and external factors. Ionizing radiation such as UV rays, free radicals produced during cellular respiration, and hydrolytic damage from metabolic reactions can alter the structure of DNA. Damages caused include single-base alteration, base dimerization, chain breaks, and cross-linkage.
Chemically...
Nucleic Acid Structure01:25

Nucleic Acid Structure

The pentose sugar in DNA is deoxyribose, while in RNA the pentose sugar is ribose. The difference between the sugars is the presence of the hydroxyl group on the ribose's second carbon and a hydrogen on the deoxyribose's second carbon. The phosphate residue attaches to the hydroxyl group of the 5′ carbon of one sugar and the hydroxyl group of the 3′ carbon of the sugar of the next nucleotide, which forms  a 5′ to 3′ phosphodiester linkage.
DNA Structure
DNA has a double-helix structure. The...
Spontaneous and Induced Mutations01:30

Spontaneous and Induced Mutations

Spontaneous mutations arise infrequently during DNA replication due to errors in the process. A key factor behind these errors is tautomeric shifts in nitrogenous bases, where bases transition from keto to enol forms or amino to imino forms. This shift can alter base-pairing rules, leading to mutations. Additionally, reactive oxygen species (ROS) arising from aerobic metabolism can damage DNA, resulting in depurination (loss of a purine base) or depyrimidination (loss of a pyrimidine base).

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相关实验视频

Updated: Jul 10, 2026

Studying DNA Looping by Single-Molecule FRET
11:27

Studying DNA Looping by Single-Molecule FRET

Published on: June 28, 2014

对于DNA间反应的水合变化.

X Qu1, J B Chaires

  • 1Department of Biochemistry, University of Mississippi Medical Center, 2500 North State Street, Jackson, Mississippi 39216-4505, USA.

Journal of the American Chemical Society
|March 29, 2001
PubMed
概括

水分子在DNA插曲中起着关键作用. 大多数介质因吸收水而与DNA结合,取决于特定化合物的不同量,影响结合亲和力.

科学领域:

  • 生物化学 生物化学
  • 分子生物学分子生物学
  • 生物物理化学 生物物理化学

背景情况:

  • 基因间隔器是那些在DNA基因对之间插入的化合物.
  • 了解DNA - 插曲器相互作用的热力学特性对于药物设计和分子生物学至关重要.

研究的目的:

  • 为了研究水合变化在5个间隔器的DNA结合过程中的作用.
  • 在不同的溶剂条件下,将水化变化与结合亲和力相关联.

主要方法:

  • 使用贝他因,糖糖和三乙烯糖醇的奥斯莫斯应激方法.
  • 在H2O和D2O中测量介质关联常数.

主要成果:

  • 在DNA结合时观察到皮,陶诺米辛,普罗夫拉和7-氨基氨基诺米辛D的水分吸收.
  • 乙在DNA结合时显示微不足道的水合变化.
  • 在水合变化 (Deltan (w)) 和D2O与H2O (K (D2O) /K (H2O)) 的结合常数比率之间发现了正相关性.

结论:

  • 水是大多数测试过的介质器中DNA介质复合物的形成中的重要热力学因素.
  • 乙的独特结合行为可能与其与水分子的最小相互作用有关.

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Synthesis of Wavelength-shifting DNA Hybridization Probes by Using Photostable Cyanine Dyes
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Synthesis of Wavelength-shifting DNA Hybridization Probes by Using Photostable Cyanine Dyes

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Real-time Observation of the DNA Strand Exchange Reaction Mediated by Rad51
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Real-time Observation of the DNA Strand Exchange Reaction Mediated by Rad51

Published on: February 13, 2019

相关实验视频

Last Updated: Jul 10, 2026

Studying DNA Looping by Single-Molecule FRET
11:27

Studying DNA Looping by Single-Molecule FRET

Published on: June 28, 2014

Synthesis of Wavelength-shifting DNA Hybridization Probes by Using Photostable Cyanine Dyes
07:44

Synthesis of Wavelength-shifting DNA Hybridization Probes by Using Photostable Cyanine Dyes

Published on: July 6, 2016

Real-time Observation of the DNA Strand Exchange Reaction Mediated by Rad51
06:24

Real-time Observation of the DNA Strand Exchange Reaction Mediated by Rad51

Published on: February 13, 2019

  • 这些发现提供了对DNA插曲的分子机制的见解,以及针对药物开发的潜力.