How Do You Spell CRYOELECTRON MICROSCOPY?

Pronunciation: [kɹˈa͡ɪə͡ʊlˌɛktɹɒn mˈa͡ɪkɹəskəpɪ] (IPA)

Cryoelectron microscopy (kraɪoʊɪˈlɛktrɑn maɪˈkrɑskəpi) is a technique used to analyze the structure of biological molecules at near atomic resolution. The word "cryoelectron" is spelled with "c-r-y-o" (meaning "cold") and "electron" to signify the use of low temperature (-180 °C) to preserve biological samples. The word "microscopy" adds a suffix "-scopy" meaning "examination" to describe the process of visually examining samples using an electron microscope. The combination of these three components gives us the word "cryoelectron microscopy".

CRYOELECTRON MICROSCOPY Meaning and Definition

  1. Cryoelectron microscopy, also known as cryo-EM, is an advanced microscopy technique used in molecular biology and structural biology to visualize the detailed three-dimensional structure of biological macromolecules. It involves freezing samples at extremely low temperatures to preserve their natural state and then imaging them using an electron microscope.

    In cryoelectron microscopy, the samples are typically prepared by flash-freezing them in a very thin layer of vitrified ice, a process known as cryopreservation. This freezing technique prevents the formation of ice crystals, which could damage the delicate biological samples. The samples are then loaded into an electron microscope, where they are bombarded with a beam of electrons. The electron beam interacts with the specimen, producing high-resolution two-dimensional images of the macromolecules.

    The resulting images are captured using a specialized camera, and a computer algorithm is employed to combine these two-dimensional images into a three-dimensional reconstruction of the macromolecular structure. This technique allows scientists to obtain detailed information about the arrangement of atoms within the molecules, enabling them to understand their function and interactions at the atomic level.

    Cryoelectron microscopy has revolutionized structural biology and has become a powerful tool for studying a wide range of biological macromolecules, including proteins, nucleic acids, and complex macromolecular assemblies. It has contributed significantly to our understanding of various biological processes and has facilitated the development of new drugs and therapeutics targeted at specific macromolecules.

Common Misspellings for CRYOELECTRON MICROSCOPY

  • xryoelectron microscopy
  • vryoelectron microscopy
  • fryoelectron microscopy
  • dryoelectron microscopy
  • ceyoelectron microscopy
  • cdyoelectron microscopy
  • cfyoelectron microscopy
  • ctyoelectron microscopy
  • c5yoelectron microscopy
  • c4yoelectron microscopy
  • crtoelectron microscopy
  • crgoelectron microscopy
  • crhoelectron microscopy
  • cruoelectron microscopy
  • cr7oelectron microscopy
  • cr6oelectron microscopy
  • cryielectron microscopy
  • crykelectron microscopy
  • crylelectron microscopy
  • crypelectron microscopy

Etymology of CRYOELECTRON MICROSCOPY

The word "Cryoelectron Microscopy" has its roots in Greek and Latin. Here is the breakdown:

1. Cryo: Derived from the Greek word "kruos" meaning "icy cold" or "frost". It is commonly used as a prefix in scientific terminology to indicate low temperatures or freezing conditions.

2. Electron: Derived from the Greek word "ēlektron" meaning "amber". The existence of electric charge was first observed through the property of amber when it is rubbed and attracts small objects. "Electron" is now used to refer to the subatomic particle carrying negative electric charge.

3. Microscopy: Derived from the Latin words "micros" meaning "small" and "skopein" meaning "to look" or "to observe".

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