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Synthetic Biology02:55

Synthetic Biology

Synthetic biology is an interdisciplinary science that involves using principles from disciplines such as engineering, molecular biology, cell biology, and systems biology. It involves remodeling existing organisms from nature or constructing completely new synthetic organisms for applications such as protein or enzyme production, bioremediation, value-added macromolecule production, and the addition of desirable traits to crops, to name a few.
Golden rice
Golden rice is a genetically modified...
Environmental Applications of Microorganisms01:30

Environmental Applications of Microorganisms

Microorganisms play a pivotal role in maintaining ecosystem balance by recycling essential elements such as carbon, nitrogen, and phosphorus, as well as supporting processes like bioremediation, wastewater treatment, and biofuel production.Microbes in Elemental CyclesIn the carbon cycle, microorganisms decompose organic matter, releasing carbon dioxide via aerobic respiration. This carbon dioxide is subsequently used by photosynthetic organisms to synthesize organic compounds, closing the...
Characteristics of Life01:23

Characteristics of Life

Biology is a natural science that studies life and living organisms, including their structure, function, development, interactions, evolution, distribution, and taxonomy. The field's scope is extensive and divided into several specialized disciplines, such as anatomy, physiology, ethology, genetics, and many more. All living things share a few key traits, including cellular organization, heritable genetic material and the ability to adapt/evolve, metabolism to regulate energy needs, the...
What is Conservation Biology?01:57

What is Conservation Biology?

Conservation biology is a scientific field that focuses on the preservation of biodiversity in order to protect ecosystems while meeting the needs of the human population. Humans require properly functioning ecosystems to maintain our supply of natural resources, including food, medicines, and building materials.
Evolutionary Processes in Microbes01:26

Evolutionary Processes in Microbes

Microbial evolution occurs rapidly due to short generation times and a variety of genetic processes, including horizontal gene transfer, mutation, recombination, and genetic drift. These mechanisms collectively enable microbes to adapt swiftly to changing environments.Horizontal gene transfer (HGT) allows genes to move between different species and occurs through three main mechanisms: conjugation, transformation, and transduction. Conjugation involves direct cell-to-cell contact for DNA...
Levels of Organization01:09

Levels of Organization

Biological organization is the classification of biological structures, ranging from atoms at the bottom of the hierarchy to the Earth's biosphere. Each level of the hierarchy represents an increase in complexity that builds upon the previous level.Molecules Are Composed of Atoms, and Biomolecules Are Assembled from Molecules:The most basic levels include atoms, molecules, and biomolecules. Atoms, the smallest unit of ordinary matter, are composed of a nucleus and electrons. Molecules comprise...

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Updated: Jun 3, 2026

Microbial Communities in Nature and Laboratory - Interview
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Microbial Communities in Nature and Laboratory - Interview

Published on: May 28, 2007

システム生物学:メインストリームに進化する

Colin Macilwain1

  • 1Edinburgh, UK.

Cell
|March 19, 2011
PubMed
まとめ
この要約は機械生成です。

システム生物学は拡大しているが,統合と受け入れにおいて課題に直面している. グローバルな研究チームは,この学際的な分野における懐疑性と技術的な障害を克服するために積極的に取り組んでいます.

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関連する実験動画

Last Updated: Jun 3, 2026

Microbial Communities in Nature and Laboratory - Interview
29:13

Microbial Communities in Nature and Laboratory - Interview

Published on: May 28, 2007

Divergence of Root Microbiota in Different Habitats based on Weighted Correlation Networks
09:49

Divergence of Root Microbiota in Different Habitats based on Weighted Correlation Networks

Published on: September 25, 2021

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07:37

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科学分野:

  • システム生物学 システム生物学
  • インターディシピナリな研究です.

背景:

  • 生物学のシステムアプローチは,ますます影響力があります.
  • この分野は,かなりの懐疑論と技術的な課題に直面しています.
  • 統合と受け入れは,依然として主要な障害となっている.

研究 の 目的:

  • システム生物学が拡大していることを強調するためです.
  • 普及を妨げている課題を認識する.
  • これらの障壁を克服する努力を示すために.

主な方法:

  • インターディシピナリな協力.
  • 技術的な制約に対処する.
  • 批評家との関わり合い. 批評家との関わり合い.

主要な成果:

  • システム生物学は,世界中で牽引力を獲得しています.
  • 懐疑論や技術的な問題は積極的に対処されています.
  • 研究センターは,システムアプローチの価値を実証しています.

結論:

  • 課題があるにもかかわらず,システム生物学は進歩しています.
  • その成功には,学際的な努力が不可欠である.
  • 懐疑論を克服することは,より広範な受け入れの鍵です.