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Nuclear Fission02:50

Nuclear Fission

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Many heavier elements with smaller binding energies per nucleon can decompose into more stable elements that have intermediate mass numbers and larger binding energies per nucleon—that is, mass numbers and binding energies per nucleon that are closer to the “peak” of the binding energy graph near 56. Sometimes neutrons are also produced. This decomposition of a large nucleus into smaller pieces is called fission. The breaking is rather random with the formation of a large...
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Nuclear Power02:36

Nuclear Power

7.6K
Controlled nuclear fission reactions are used to generate electricity. Any nuclear reactor that produces power via the fission of uranium or plutonium by bombardment with neutrons has six components: nuclear fuel consisting of fissionable material, a nuclear moderator, a neutron source, control rods, reactor coolant, and a shield and containment system.
Nuclear Fuels
Nuclear fuel consists of a fissile isotope, such as uranium-235, which must be present in sufficient quantity to provide a...
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Nuclear Fusion02:45

Nuclear Fusion

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The process of converting very light nuclei into heavier nuclei is also accompanied by the conversion of mass into large amounts of energy, a process called fusion. The principal source of energy in the sun is a net fusion reaction in which four hydrogen nuclei fuse and ultimately produce one helium nucleus and two positrons.
A helium nucleus has a mass that is 0.7% less than that of four hydrogen nuclei; this lost mass is converted into energy during the fusion. This reaction produces about...
17.2K
Nuclear Transmutation03:20

Nuclear Transmutation

17.3K
Nuclear transmutation is the conversion of one nuclide into another. It can occur by the radioactive decay of a nucleus, or the reaction of a nucleus with another particle. The first manmade nucleus was produced in Ernest Rutherford’s laboratory in 1919 by a transmutation reaction, the bombardment of one type of nuclei with other nuclei or with neutrons. Rutherford bombarded nitrogen-14 atoms with high-speed α particles from a natural radioactive isotope of radium and observed...
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Nuclear Stability03:18

Nuclear Stability

18.4K
Protons and neutrons, collectively called nucleons, are packed together tightly in a nucleus. With a radius of about 10−15 meters, a nucleus is quite small compared to the radius of the entire atom, which is about 10−10 meters. Nuclei are extremely dense compared to bulk matter, averaging 1.8 × 1014 grams per cubic centimeter. If the earth’s density were equal to the average nuclear density, the earth’s radius would be only about 200 meters.
To hold positively charged...
18.4K
Introduction to Nuclear Reprogramming01:14

Introduction to Nuclear Reprogramming

1.9K
Nuclear reprogramming is the process of switching gene expression of one cell type to that of another cell type, usually from a differentiated cell state to an undifferentiated cell state. Differentiation occurs during processes such as development and morphogenesis, tissue regeneration, and malignancy. Cells can also be artificially induced to reprogram their gene expression by techniques such as nuclear transfer, induced pluripotency, and cell fusion. Such techniques have many applications in...
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Updated: May 21, 2025

Laser-heating and Radiance Spectrometry for the Study of Nuclear Materials in Conditions Simulating a Nuclear Power Plant Accident
09:18

Laser-heating and Radiance Spectrometry for the Study of Nuclear Materials in Conditions Simulating a Nuclear Power Plant Accident

Published on: December 14, 2017

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Una casa nuclear dividida

Timothy J Mitchison1, William T Sullivan2

  • 1Department of Systems Biology, Harvard Medical School, Boston, MA, USA.

Science (New York, N.Y.)
|May 15, 2025
PubMed
Resumen
Este resumen es generado por máquina.

Los patógenos de las plantas fúngicas pueden tener diferentes números de cromosomas en sus múltiples núcleos. Esta variación afecta la evolución del patógeno y el desarrollo de la enfermedad.

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Área de la Ciencia:

  • Micología
  • Patología vegetal
  • La genética

Sus antecedentes:

  • Los patógenos fúngicos representan una amenaza significativa para la agricultura mundial.
  • Comprender la composición genética de estos patógenos es crucial para el manejo de la enfermedad.
  • Se observan variaciones nucleares y cromosómicas en varias especies de hongos.

Objetivo del estudio:

  • Investigar el fenómeno de las distribuciones cromosómicas variables en los patógenos fúngicos de las plantas.
  • Explorar las implicaciones de la aneuploidía en la patogenicidad fúngica.

Principales métodos:

  • Genómica comparada
  • Hibridación por fluorescencia in situ (FISH)
  • La PCR cuantitativa (PCR cuantitativa) es una de las siguientes:

Principales resultados:

  • Aneuploidía demostrada en múltiples núcleos de patógenos fúngicos específicos de las plantas.
  • Se identificaron variaciones significativas en el número y contenido de cromosomas en diferentes núcleos dentro del mismo aislado fúngico.
  • Variaciones cromosómicas correlacionadas con rasgos patógenos específicos.

Conclusiones:

  • El estudio confirma que los patógenos fúngicos de las plantas exhiben diversas distribuciones cromosómicas dentro de sus núcleos.
  • Esta plasticidad genética puede contribuir a la adaptación y la virulencia.
  • Las investigaciones adicionales sobre la dinámica nuclear pueden revelar nuevos objetivos para las estrategias antifúngicas.