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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...
The Central Dogma01:20

The Central Dogma

The central dogma explains the flow of genetic information from DNA nucleotides to the amino acid sequence of proteins.
RNA is the Missing Link Between DNA and Proteins
In the early 1900s, scientists discovered that DNA stores all the information needed for cellular functions and that proteins perform most of these functions. However, the mechanisms of converting genetic information into functional proteins remained unknown for many years. Initially, it was believed that a single gene is...
Bioreactor Controls-III01:22

Bioreactor Controls-III

Strain improvement is a foundational strategy in industrial microbiology aimed at maximizing microbial productivity, particularly because natural isolates typically yield commercially valuable products in very low concentrations. Although optimizing the culture medium and environmental conditions can improve yields, these adjustments are inherently limited by the organism’s genetic potential. As a result, the focus shifts toward genetic modifications to enhance biosynthetic capacity. The...
Designing Growth Media for Bioreactors01:30

Designing Growth Media for Bioreactors

Growth media provide essential nutrients that support cell growth and metabolism, thereby enhancing the yield of valuable products such as enzymes, antibiotics, and biomass. Designing an effective growth medium involves balancing all components to prevent nutrient limitations or toxic excesses, both of which can impair growth and reduce product yields.Composition of a Typical Growth MediumA typical growth medium contains carbon and nitrogen sources, salts, vitamins, trace elements, and...
Scale-Up Processes01:14

Scale-Up Processes

The scale-up of microbial fermentation processes is essential in industrial biotechnology, allowing the transition from laboratory-scale experiments to commercial-scale production while aiming to maintain product yield and quality. This process requires meticulous adjustment of equipment design, process parameters, and contamination control strategies to accommodate increasing culture volumes.At the laboratory scale, cultures are typically maintained in 1 to 10-liter glass or autoclavable...
iChip01:24

iChip

The cultivation of environmental microorganisms has long been hindered by the inability to replicate complex native conditions in vitro. The isolation chip (iChip) addresses this limitation by facilitating the growth of previously uncultivable microorganisms through in situ incubation. Designed for high-throughput microbial cultivation, the iChip comprises hundreds of microchambers, each capable of housing a single microbial cell. These microchambers are loaded with a mixture of molten agar and...

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Updated: May 7, 2026

Comprehensive &amp; Cost Effective Laboratory Monitoring of HIV/AIDS: an African Role Model
23:56

Comprehensive & Cost Effective Laboratory Monitoring of HIV/AIDS: an African Role Model

Published on: November 1, 2010

発展途上国における生命科学の能力構築

Mohamed H A Hassan1

  • 1TWAS, The Academy of Sciences for the Developing World, 34014, Trieste, Italy. mhassan@twas.org

Cell
|November 6, 2007
PubMed
まとめ
この要約は機械生成です。

生物科学における科学的進歩は,グローバルな課題に取り組むための道筋を提供します. 発展途上国を統合し,開発を促進し,健康を改善し,貧困を減らすために,革新的な戦略が必要である.

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The MultiBac Protein Complex Production Platform at the EMBL
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The MultiBac Protein Complex Production Platform at the EMBL

Published on: July 11, 2013

Establishment and Optimization of a High Throughput Setup to Study Staphylococcus epidermidis and Mycobacterium marinum Infection as a Model for Drug Discovery
10:19

Establishment and Optimization of a High Throughput Setup to Study Staphylococcus epidermidis and Mycobacterium marinum Infection as a Model for Drug Discovery

Published on: June 26, 2014

関連する実験動画

Last Updated: May 7, 2026

Comprehensive &amp; Cost Effective Laboratory Monitoring of HIV/AIDS: an African Role Model
23:56

Comprehensive & Cost Effective Laboratory Monitoring of HIV/AIDS: an African Role Model

Published on: November 1, 2010

The MultiBac Protein Complex Production Platform at the EMBL
13:51

The MultiBac Protein Complex Production Platform at the EMBL

Published on: July 11, 2013

Establishment and Optimization of a High Throughput Setup to Study Staphylococcus epidermidis and Mycobacterium marinum Infection as a Model for Drug Discovery
10:19

Establishment and Optimization of a High Throughput Setup to Study Staphylococcus epidermidis and Mycobacterium marinum Infection as a Model for Drug Discovery

Published on: June 26, 2014

科学分野:

  • 生物科学 生物科学とは
  • グローバル・ヘルス グローバル・ヘルス
  • 社会経済発展 社会経済発展

背景:

  • 開発途上国は,生物科学の進歩にアクセスし,活用する上で大きな障害に直面しています.
  • 貧困,公衆衛生問題,限られた人間開発は,相互に関連した課題です.
  • 開発途上国を世界の生物学的研究と応用分野に統合することは極めて重要です.

研究 の 目的:

  • 開発途上国を世界の生物科学コミュニティに組み込むための戦略を概説する.
  • 生物科学の革新が貧困を軽減するためにどのように活用されるかを探求する.
  • 公共衛生を改善し,サービス不足地域における人間開発を促進するための方法を特定する.

主な方法:

  • この研究は,概念的分析と戦略の提案である.
  • 世界的な健康格差と科学的能力構築に関する既存の文献を統合しています.
  • バイオテクノロジーの進歩への平等なアクセスを可能にする枠組みを提案しています.

主要な成果:

  • 効果的な戦略には,国際的な協力と地元の科学インフラへの投資が必要です.
  • 開発途上国の多様なニーズに対応するために,カスタマイズされたアプローチが必要である.
  • 生物科学の活用は,貧困と病気に対する持続可能な解決策につながる可能性があります.

結論:

  • "生物学的格差"を克服することは,グローバルな公平性と進歩にとって不可欠です.
  • 積極的で革新的な戦略は,開発途上国が自給自足のために生物科学を利用できるようにする力を与えることができます.
  • 生物学的進歩の恩恵が全人口に届くようにするためには,協調的な世界的な努力が必要である.