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Crossover Experiments01:16

Crossover Experiments

Crossover experiments, also called the repeated-measurements design, is a study design in which all experimental units are exposed to all treatments in different periods. Crossover experiments are generally used in psychology, the pharmaceutical industry, agriculture, and medicine.
Crossover designs are performed even with smaller sample sizes since the samples can act as their controls. These are better than simple randomized trials since patients are exposed to all the treatments.
Crossing over01:34

Crossing over

Unlike mitosis, meiosis aims for genetic diversity in its creation of haploid gametes. Dividing germ cells first begin this process in prophase I, where each chromosome—replicated in S phase—is now composed of two sister chromatids (identical copies) joined centrally.
The homologous pairs of sister chromosomes—one from the maternal and one from the paternal genome—then begin to align alongside each other lengthwise, matching corresponding DNA positions in a process called synapsis.
In order to...
Crossing Over01:30

Crossing Over

Crossing over is the exchange of genetic information between homologous chromosomes during prophase I of meiosis I. Genetic recombination gives rise to allelic diversity in the newly formed daughter cells. In humans, crossing over produces genetically distinct haploid egg and sperm cells that undergo fertilization to produce unique offspring. Before cell division starts, the germ cell’s chromosome(s) undergo duplication in the S phase of the cell cycle. As the cells enter prophase I, duplicated...
Crossing Over01:34

Crossing Over

Unlike mitosis, meiosis aims for genetic diversity in its creation of haploid gametes. Dividing germ cells first begin this process in prophase I, where each chromosome—replicated in S phase—is now composed of two sister chromatids (identical copies) joined centrally.
The homologous pairs of sister chromosomes—one from the maternal and one from the paternal genome—then begin to align alongside each other lengthwise, matching corresponding DNA positions in a process called synapsis.
In order to...
Source Transformation01:15

Source Transformation

Source transformation is a fundamental technique employed in circuit analysis, offering a valuable tool for simplifying complex electrical circuits. This technique involves the replacement of either a voltage source in series with a resistor by a current source in parallel with a resistor, or vice versa. The key concept here is that when the original sources are deactivated (turned off), the equivalent resistance at the circuit's end terminals remains the same.
It is essential to note that when...
Overview of Transposition and Recombination02:13

Overview of Transposition and Recombination

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...

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Updated: Jun 25, 2026

Designing a Bio-responsive Robot from DNA Origami
13:32

Designing a Bio-responsive Robot from DNA Origami

Published on: July 8, 2013

カプセル化によるスピンクロスオーバー.

Kosuke Ono1, Michito Yoshizawa, Munetaka Akita

  • 1Department of Applied Chemistry, School of Engineering, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan.

Journal of the American Chemical Society
|February 10, 2009
PubMed
まとめ

合成宿主ケージは,金属の複雑な性質を変化させることができます. ニッケルとコバルト複合体をカプセル化することで,スピン状態が変化し,ホスト-ゲストの相互作用が電子特性に影響することを実証した.

科学分野:

  • 協調化化学について
  • 超分子化学 超分子化学
  • マテリアルサイエンス 材料科学

背景:

  • Ni (II) (アセン) やCo (II) (タップ) のような正方形平面金属複合体は,異なるスピン状態を示す.
  • 合成宿主分子は,ゲスト分子のための閉じ込められた環境を提供します.
  • ホスト-ゲストの相互作用は,封装されたゲストの電子および磁気特性を変更することができます.

研究 の 目的:

  • 合成宿主ケージ内のカプセル化が,Ni (II) (アセン) とCo (II) (タップ) 複合体のスピン状態に及ぼす影響を調査する.
  • ホスト・ゲストの相互作用が金属複合体の性質にどのように影響するかを探求する.
  • ゲストのプロパティを変更するホストケージの非無邪気な性質を証明するために.

主な方法:

  • 平方平面のNi (II) (アセン) とCo (II) (タップ) 複合体の合成.
  • これらの金属複合体を合成宿主ケージの中に封入する.
  • 自由複合体と封じ込め複合体の両方の光譜および磁気特性.

主要な成果:

  • 封じ込めにより,Ni (II) (アゼン) 複合体は,二磁性赤色状態からパラ磁性緑色状態に変化した.

さらに関連する動画

Title Cell Encapsulation by Droplets
13:10

Title Cell Encapsulation by Droplets

Published on: October 1, 2007

Frequency and Distribution of Crossovers in Caenorhabditis elegans Meiosis by SNP Genotyping using Real-time PCR
06:18

Frequency and Distribution of Crossovers in Caenorhabditis elegans Meiosis by SNP Genotyping using Real-time PCR

Published on: July 11, 2025

関連する実験動画

Last Updated: Jun 25, 2026

Designing a Bio-responsive Robot from DNA Origami
13:32

Designing a Bio-responsive Robot from DNA Origami

Published on: July 8, 2013

Title Cell Encapsulation by Droplets
13:10

Title Cell Encapsulation by Droplets

Published on: October 1, 2007

Frequency and Distribution of Crossovers in Caenorhabditis elegans Meiosis by SNP Genotyping using Real-time PCR
06:18

Frequency and Distribution of Crossovers in Caenorhabditis elegans Meiosis by SNP Genotyping using Real-time PCR

Published on: July 11, 2025

  • Co ((II) ((tap) コンプレックスは,カプセル化時に低スピン (S = 1/2) 状態から結合スピン状態 (S = 1/2 と S = 3/2) に移行した.
  • 証拠によると,宿主ケージは無害で,空洞内の相互作用が金属複合体の性質に大きく影響する.
  • 結論:

    • 合成宿主ケージは,封装された金属複合体のスピン状態と電子特性を積極的に調整することができます.
    • 狭い空間内のホスト-ゲストの相互作用は,協調化合物の行動を調節するために重要である.
    • この研究は,調節可能な磁気および電子特性を有する機能的材料の設計における超分子化学の可能性を強調しています.