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Multi-species Conserved Sequences02:51

Multi-species Conserved Sequences

Next-generation sequencing technologies have created large genomic databases of a variety of animals and plants. Ever since the human genome project was completed, scientists studied the genome of primates, mammals, and other phylogenetically distant living beings. Such large-scale  studies have provided new insights into the evolutionary relationship between organisms.
Although the genome of each species varies greatly from each other, a few sequences are highly conserved. Such conserved DNA...
Exon Recombination02:32

Exon Recombination

The evolution of new genes is critical for speciation. Exon recombination, also known as exon shuffling or domain shuffling, is an important means of new gene formation. It is observed across vertebrates, invertebrates, and in some plants such as potatoes and sunflowers. During exon recombination, exons from the same or different genes recombine and produce new exon-intron combinations, which might evolve into new genes. 
Exon shuffling follows “splice frame rules.” Each exon has three reading...
DNA Microarrays02:34

DNA Microarrays

Microarrays are high-throughput and relatively inexpensive assays that can be automated to analyze large quantities of data at a time. They are used in genome-wide studies to compare gene or protein expression under two varied conditions, such as healthy and diseased states. Microarrays consist of glass or silica slides on which probe molecules are covalently attached through surface functionalization. Most commonly, the slides are prepared through the chemisorption of silanes to silica...
Single-Strand DNA Binding Proteins01:03

Single-Strand DNA Binding Proteins

For successful DNA replication, the unwinding of double-stranded DNA must be accompanied by stabilization and protection of the separated single strands of the DNA. This crucial task is performed by single-strand DNA-binding (SSB) proteins. They bind to the DNA in a sequence-independent manner, which means that the nitrogenous bases of the DNA need not be present in a specific order for binding of SSB proteins to it. The binding of SSB proteins straightens single-stranded DNA (ssDNA) and makes...
Genetic Material01:20

Genetic Material

Within the human body, a complex and detailed system of trillions of cells works in unison to sustain life. Each cell houses a nucleus, which contains 46 chromosomes divided into 23 pairs. Chromosomes are highly coiled structures made of the genetic material DNA. These chromosomes are essential carriers of genetic information, with half inherited from the mother through her egg and the other half from the father's sperm, combining to create the unique genetic makeup of an individual.
Other Unique Bacteria01:18

Other Unique Bacteria

Magnetic bacteria exhibit a directed movement called magnetotaxis, driven by structures called magnetosomes. These magnetosomes consist of chains of magnetic particles made of either magnetite (Fe₃O₄) or greigite (Fe₃S₄) and are organized in a linear conformation by a protein scaffold within invaginations of the cell membrane. The bacteria align along the north–south magnetic field lines, much like a compass needle. They are typically microaerophilic or anaerobic and are commonly found near the...

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関連する実験動画

Updated: Jul 14, 2026

Design and Synthesis of a Reconfigurable DNA Accordion Rack
07:44

Design and Synthesis of a Reconfigurable DNA Accordion Rack

Published on: August 15, 2018

人工DNAの分離した自己組み立て金属配列.

Kentaro Tanaka1, Atsushi Tengeiji, Tatsuhisa Kato

  • 1Department of Chemistry, Graduate School of Science, University of Tokyo, Hongo, Bunkyo-ku, Tokyo 113-0033, Japan.

Science (New York, N.Y.)
|February 22, 2003
PubMed
まとめ

研究者らは,ヒドロキシピリドン核塩基で人工DNAを合成した. 銅イオン (Cu2+) を媒介する塩基配列は,DNAのダブルヘリックス構造の中で磁気鎖を形成する.

科学分野:

  • 合成生物学 合成生物学とは
  • 超分子化学とは
  • マテリアルサイエンス 材料科学

背景:

  • DNAの構造は,機能的な構成要素の組織化を可能にします.
  • 人工核塩基は,新しい分子設計の機会を提供します.

研究 の 目的:

  • ハイドロキシピリドン核塩基で人工オリゴヌクレオチドを合成する.
  • DNA-銅複合体の形成とその磁気特性を調査する.

主な方法:

  • ハイドロキシピリドン核塩基を用いた人工オリゴヌクレオチド d(5'-GH(n) C-3') (n=1-5) の合成.
  • 銅イオン (Cu2+) を媒介するH-Cu2+-H塩基配列による右向きの二重ヘリクスの形成.
  • 生成した複合体の特徴,nCu2+.d(5'-GH(n) C-3') 2 (n=1-5).

主要な成果:

  • 配列のCu2+イオン (3.7 ± 0.1 Å 分離) によるDNAダブルヘリクスの定量形成.
  • 隣接するCu2+イオン間のフェロマグネティックカップリングの観測,ペアリングされていないd電子によって媒介される.
  • 人工DNA構造内で磁気鎖の作成に成功しました.

結論:

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Stable DNA Motifs, 1D and 2D Nanostructures Constructed from Small Circular DNA Molecules
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Stable DNA Motifs, 1D and 2D Nanostructures Constructed from Small Circular DNA Molecules

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A Femtoliter Droplet Array for Massively Parallel Protein Synthesis from Single DNA Molecules
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A Femtoliter Droplet Array for Massively Parallel Protein Synthesis from Single DNA Molecules

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Last Updated: Jul 14, 2026

Design and Synthesis of a Reconfigurable DNA Accordion Rack
07:44

Design and Synthesis of a Reconfigurable DNA Accordion Rack

Published on: August 15, 2018

Stable DNA Motifs, 1D and 2D Nanostructures Constructed from Small Circular DNA Molecules
09:32

Stable DNA Motifs, 1D and 2D Nanostructures Constructed from Small Circular DNA Molecules

Published on: April 12, 2019

A Femtoliter Droplet Array for Massively Parallel Protein Synthesis from Single DNA Molecules
10:45

A Femtoliter Droplet Array for Massively Parallel Protein Synthesis from Single DNA Molecules

Published on: June 20, 2020

  • ハイドロキシピリドン核塩基を持つ人工オリゴヌクレオチドは,安定した二重ヘリケスを形成することができます.
  • 銅イオン媒介の塩基配列は,磁気的に結合された鎖の形成につながります.
  • この研究は,DNAベースの磁気材料を作成するための新しいアプローチを示しています.