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Prokaryotic Cells01:51

Prokaryotic Cells

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Prokaryotes are small unicellular organisms that include the domains—Archaea and Bacteria. Bacteria include many common organisms, such as Salmonella and E. coli, while the Archaea include extremophiles that live in harsh environments, such as volcanic springs.
Like eukaryotic cells, all prokaryotic cells are surrounded by a plasma membrane, have genetic material in the form of single, circular DNA, a cytoplasm that fills the interior of the cell, and ribosomes that synthesize proteins....
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The Tree of Life - Bacteria, Archaea, Eukaryotes02:40

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The “tree of life” describes the evolution of life and the evolutionary relationships between organisms. The root of the tree is the common ancestor to all life on Earth. All other species radiate from this point, much like the branches of a tree. The numerous tips of these branches on the tree of life represent every living, or extant, species. Extinct species, which are species that no longer exist, can be found towards the center of the tree. Currently, these organisms, both...
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The genome of most prokaryotic organisms consists of double-stranded DNA organized into one circular chromosome in a region of cytoplasm called the nucleoid. The chromosome is tightly wound, or supercoiled, for efficient storage. Prokaryotes also contain other circular pieces of DNA called plasmids. These plasmids are smaller than the chromosome and often carry genes that confer adaptive functions, such as antibiotic resistance.
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The endosymbiont theory is the most widely accepted theory of eukaryotic evolution; however, its progression is still somewhat debated. According to the nucleus-first hypothesis, the ancestral prokaryote first evolved a membrane to enclose DNA and form the nucleus. Conversely, the mitochondria-first hypothesis suggests that the nucleus was formed after endosymbiosis of mitochondria.
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Around 4 billion years ago, oceans began to condense on earth while volcanic eruptions released nitrogen, carbon dioxide, methane, ammonia, and hydrogen into the primordial atmosphere. However, organisms with the characteristics of life were not initially present on earth. Scientists have used experimentation to determine how organisms evolved that could grow, reproduce, and maintain an internal environment.
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Binary Fission01:20

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Fission is the division of a single entity into two or more parts, which regenerate into separate entities that resemble the original. Organisms in the Archaea and Bacteria domains reproduce using binary fission, in which a parent cell splits into two parts that can each grow to the size of the original parent cell. This asexual method of reproduction produces cells that are all genetically identical.
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プレッシャー下での多細胞化

Eva K Pillai1,2,3, Thibaut Brunet3

  • 1Cell Biology and Biophysics Unit, European Molecular Biology Laboratory, Heidelberg, Germany.

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まとめ
この要約は機械生成です。

独特の死海微生物は 圧迫された状態で 組織のような構造に変化します この発見により 極端な環境における 新しい微生物の適応戦略が明らかになりました

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科学分野:

  • 微生物学
  • エクストレモフィルの研究
  • バイオ物理学

背景:

  • 死海には 極度の塩分と乾燥に適応した 独特の微生物が棲んでいます
  • 微生物の適応メカニズムを理解することは,天体生物学とバイオテクノロジーにとって極めて重要です.

研究 の 目的:

  • 機械的なストレス下での死海微生物の形態的,構造的変化を調査する.
  • 圧縮によって誘発された新しい組織のような状態を特徴づける.

主な方法:

  • 微生物のサンプルを顕微鏡で分析する.
  • 微生物培養に制御された機械的圧縮を適用する.
  • 細胞成分を分析する生化学分析

主要な成果:

  • 特定の死海微生物は 圧縮されたときに 驚くべき形質的変化を示しました
  • この微生物は 凝固した 多細胞組織のような 集合体を形成しました
  • この変異は,細胞同士の結合と細胞外マトリックス生成に重大な変化をもたらした.

結論:

  • 死海の微生物には 複雑な適応メカニズムがあり 物理的なストレス下では 組織のような構造を形成する能力もあります
  • この発見は 微生物の可塑性や バイオマテリアルにおける潜在的な応用の研究に 新たな道を開きます