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関連する概念動画

Crystal Growth: Principles of Crystallization01:25

Crystal Growth: Principles of Crystallization

3.0K
Crystallization is a phase transformation process in which crystals are precipitated from a supersaturated solution or formed from other sources. During crystallization, atoms or molecules arrange themselves into a well-defined, rigid crystal lattice to minimize energy.
Initiating crystallization involves manipulating the concentration of the solute and the temperature of the solution. Since crystal growth occurs when the ratio of concentration and solubility of the solute in the solvent...
3.0K
Other Algae01:19

Other Algae

115
The group Stramenopiles include some phototrophic microorganisms. Members of this group possess flagella covered in numerous short, hairlike extensions, a feature that inspired the group's name, derived from the Latin words for "straw" and "hair." Some of the main categories of Stramenopiles include diatoms, golden algae, and brown algae.Diatoms are unicellular, photosynthetic eukaryotes, with over 200 known genera. They play a key role in the planktonic communities of both marine and...
115
Diversity of Protists III01:27

Diversity of Protists III

220
Rhizaria are a diverse group of unicellular protists characterized by their threadlike cytoplasmic extensions known as pseudopodia. These structures aid in both locomotion and feeding, giving Rhizaria an amoeboid appearance. Their amoeboid morphology once led to taxonomic confusion, but molecular phylogenetics has clarified their evolutionary placement and emphasized their shared use of pseudopodia despite divergent lineages.This clade comprises diverse lineages such as Chlorarachniophyta,...
220
Polymer Classification: Crystallinity01:21

Polymer Classification: Crystallinity

3.2K
Unlike ionic or small covalent molecules, polymers do not form crystalline solids due to the diffusion limitations of their long-chain structures. However, polymers contain microscopic crystalline domains separated by amorphous domains.
Crystalline domains are the regions where polymer chains are aligned in an orderly manner and held together in proximity by intermolecular forces. For example, chains in the crystalline domains of polyethylene and nylon are bound together by van der Waals...
3.2K
Red Algae01:23

Red Algae

237
Red algae, also known as rhodophytes, are primarily found in marine environments, though some species inhabit freshwater and terrestrial ecosystems. These organisms exist in both unicellular and multicellular forms, with some multicellular varieties reaching macroscopic sizes.As phototrophic organisms, red algae contain chlorophyll a; however, their chloroplasts lack chlorophyll b. Instead, they possess phycobiliproteins, which serve as major light-harvesting pigments, similar to those found in...
237
Minerals01:26

Minerals

518
Minerals are essential nutrients that the human body needs in small amounts to work properly. They play a vital role in many bodily functions, such as building strong bones and transmitting nerve impulses. Some minerals are needed for hormone production or to maintain a normal heartbeat. Major minerals include calcium, phosphorus, potassium, sulfur, sodium, chlorine, and magnesium, while trace minerals include iron, manganese, copper, iodine, zinc, cobalt, fluoride, and selenium.
 
Major...
518

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関連する実験動画

Updated: Oct 4, 2025

Growing Protein Crystals with Distinct Dimensions Using Automated Crystallization Coupled with In Situ Dynamic Light Scattering
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Growing Protein Crystals with Distinct Dimensions Using Automated Crystallization Coupled with In Situ Dynamic Light Scattering

Published on: August 14, 2018

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魚の星は 驚くべき結晶を育てる

Stephen T Hyde1, Fiona C Meldrum2

  • 1School of Chemistry, University of Sydney, Sydney, New South Wales 2006, Australia.

Science (New York, N.Y.)
|February 10, 2022
PubMed
まとめ

生物鉱物化によって 複雑な構造が生まれます この研究は,この生物学的プロセスに関わる複雑な形態学的特徴を調査します.

科学分野:

  • 海洋生物学
  • バイオミネラライゼーション研究
  • エキノダーム研究

背景:

  • 生物鉱物化は海洋生物の骨格の発達に不可欠です
  • 魚の星 (Asteroidea) は,生物鉱物化によって形成されたユニークな骨格構造を示しています.
  • これらのプロセスを理解することで 進化的適応の洞察が得られます

研究 の 目的:

  • 生物鉱物化の複雑な形態学的特徴を調査する.
  • アステロイドの骨格発達の過程で形成された複雑な構造を記述する.

主な方法:

  • 骨格の微細構造を分析する.
  • 異なる海星種の生物鉱物元素の比較形態

主要な成果:

  • 魚星の生物鉱化により 非常に複雑で多様な骨格形態が生じる.
  • 特定の鉱物堆積パターンが内骨格の構造的整合性と形状に寄与する.

結論:

  • 海星生物鉱物化の複雑な形態は 骨格形成に対する洗練された生物学的制御を強調しています
  • この複雑な構造に影響を及ぼす 遺伝的,環境的要因を 詳しく調べることができます

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