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Determining the Plane of Cell Division02:13

Determining the Plane of Cell Division

Positioning the cell division plane is a critical step during development and cell differentiation, particularly during mitosis when the plane is essential for determining the size of the two daughter cells. The cell division plane is perpendicular to the plane of chromosome segregation, but different types of organisms have different cell division mechanisms to suit their morphology and function. 
Animal cells
In animal cells, the cleavage furrow forms along the plane of cell division starting...
Determining the Plane of Cell Division02:13

Determining the Plane of Cell Division

Positioning the cell division plane is a critical step during development and cell differentiation, particularly during mitosis when the plane is essential for determining the size of the two daughter cells. The cell division plane is perpendicular to the plane of chromosome segregation, but different types of organisms have different cell division mechanisms to suit their morphology and function. 
Animal cells
In animal cells, the cleavage furrow forms along the plane of cell division starting...
Cell Diversity01:13

Cell Diversity

The concept of a cell started with microscopic observations of dead cork tissue by Robert Hooke in 1665. Hooke coined the term "cell" based on the resemblance of the small subdivisions in the cork to the rooms that monks inhabited, called cells. About ten years later, Antonie van Leeuwenhoek became the first person to observe the living and moving cells under a microscope. In the century that followed, the theory that cells represented the basic unit of life developed.
Multicellular organisms...
Cellular Differentiation00:57

Cellular Differentiation

How does a complex organism such as a human develop from a single cell? It all starts from a single fertilized egg which gives rise to a vast array of cell types, such as nerve cells, muscle cells, and epithelial cells that characterize the adult? Throughout development and adulthood, cellular differentiation leads cells to assume their final morphology and physiology. Differentiation is the process by which unspecialized cells become specialized to carry out distinct functions.
A zygote is a...
Cell Motility through Blebbing01:16

Cell Motility through Blebbing

Blebs are a type of membrane protrusion formed by the internal hydrostatic pressure of the cytoplasm. Blebs are observed in several cell types, including fibroblasts, immune cells, and single-celled organisms like the amoeba. The primary function of blebs is cell locomotion and apoptosis, but they are also found during necrosis and cell division. The life cycle of a bleb comprises an initiation phase followed by the expansion and retraction phases.
Blebbing Through the Matrix
In multicellular...
Non-equilibrium in the Cell01:16

Non-equilibrium in the Cell

An important concept in studying metabolism and energy is that of chemical equilibrium. Most chemical reactions are reversible. They can proceed in both directions, releasing energy into their environment in one direction, and absorbing it from the environment in the other direction. The same is true for the chemical reactions involved in cell metabolism, such as the breaking down and building up of proteins into and from individual amino acids, respectively. Reactants within a closed system...

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Improved Visualization and Quantitative Analysis of Drug Effects Using Micropatterned Cells
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La geometría diferencial se encuentra con la célula.

Wallace F Marshall1

  • 1Department of Biochemistry and Biophysics, University of California, San Francisco, 600 16th Street, San Francisco, CA 94158, USA. wallace.marshall@ucsf.edu

Cell
|July 23, 2013
PubMed
Resumen

Las fuerzas físicas dan forma a las estructuras biológicas. Las conexiones en las cisternas del retículo endoplasmático forman un helicoide, un resultado predecible de la física de la membrana.

Área de la Ciencia:

  • Biología celular Biología celular.
  • La biofísica es la biofísica.
  • Biología Matemática Biología Matemática.

Sus antecedentes:

  • El retículo endoplasmático es un orgánulo clave involucrado en la síntesis de proteínas y lípidos.
  • Las fuerzas físicas que gobiernan la disposición precisa de las estructuras celulares no se comprenden completamente.
  • Los sacos de membrana apilados dentro de las células, conocidos como cisternas, exhiben patrones organizativos específicos.

Objetivo del estudio:

  • Investigar los principios físicos que subyacen a la formación de cisternas de retículo endoplasmático apiladas.
  • Para determinar si las formas geométricas de la geometría diferencial clásica son relevantes para las estructuras biológicas.
  • Para aclarar el papel de la física de la membrana en el establecimiento de la morfología celular.

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Principales métodos:

  • Análisis de la forma geométrica de las conexiones entre cisternas de retículo endoplasmático apiladas.
  • Aplicación de principios de la geometría diferencial clásica para describir las formas observadas.
  • Modelado de la física de la membrana para predecir la formación de estas estructuras.

Principales resultados:

  • Se identificó que las conexiones entre las cisternas del retículo endoplasmático apiladas tenían una forma helicoidal.
  • Esta forma helicoidal es una forma geométrica bien establecida en la geometría diferencial clásica.
  • La forma observada es una consecuencia predecible de las propiedades físicas de las membranas celulares.

Conclusiones:

  • Las fuerzas físicas, específicamente la física de la membrana, juegan un papel crucial en la determinación de la forma biológica.
  • La forma helicoidal de las conexiones de cisternas del retículo endoplasmático no es arbitraria, sino que está dictada por las leyes físicas.
  • Este estudio une la geometría clásica y la biología celular, ofreciendo información sobre las bases físicas de la arquitectura celular.