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General Biology I: The Plasma Membrane and The Cytoplasm

General Biology I
The Plasma Membrane and The Cytoplasm
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table of contents
  1. Cover
  2. Title Page
  3. Copyright
  4. Table Of Contents
  5. Introduction
  6. 1. Reference Information
    1. Presenting Data
    2. Using credible sources
    3. Citing your sources
    4. Writing for Science
  7. The Process of Science
    1. The Nature of Science
    2. Scientific Inquiry
    3. Hypothesis Testing
    4. Types of Data
    5. Basic and Applied Science
    6. Reporting Scientific Work
  8. Themes and Concepts of Biology
    1. Properties of Life
    2. Levels of Organization of Living Things
    3. The Diversity of Life
    4. Phylogenetic Trees
  9. Cell Structure and Function
    1. How Cells Are Studied
    2. Comparing Prokaryotic and Eukaryotic Cells
    3. The Plasma Membrane and The Cytoplasm
    4. Ribosomes
    5. The Cytoskeleton
    6. Flagella and Cilia
    7. The Endomembrane System
    8. The Nucleus
    9. The Endoplasmic Reticulum
    10. The Golgi Apparatus
    11. Vesicles and Vacuoles, Lysosomes, and Peroxisomes
    12. Mitochondria and Chloroplasts
    13. The Cell Wall
    14. Extracellular matrix and intercellular junctions
    15. Animal vs Plant cells
    16. The Production of a Protein
    17. Chapter Quiz
    18. Summary Table of Prokaryotic and Eukaryotic Cells and Functions
  10. Membranes and movement of molecules
    1. The Plasma Membrane
    2. Transport Across Membranes
    3. Passive Transport: Diffusion
    4. Passive Transport: Osmosis
    5. Active Transport
  11. Enzyme-catalyzed reactions
    1. Metabolic Pathways
    2. Energy
    3. Enzymes
    4. Changes in Enzyme Activity
    5. Feedback Inhibition in Metabolic Pathways
  12. How cells obtain energy
    1. Energy in Living Systems
    2. From Mouth to Molecule: Digestion
    3. Metabolism
    4. An overview of Cellular Respiration
    5. Aerobic Respiration: Glycolysis
    6. Aerobic Respiration: The Citric Acid Cycle
    7. Aerobic Respiration: Oxidative Phosphorylation
    8. Fermentation: an anaerobic process
    9. Metabolism of molecules other than glucose
    10. Anaerobic Cellular Respiration
  13. Photosynthesis
    1. Putting Photosynthesis into Context
    2. Light and Pigments
    3. Light Dependent Reactions
    4. The Calvin Cycle
    5. Photosynthesis in Prokaryotes

17

The Plasma Membrane and The Cytoplasm

At this point, it should be clear that eukaryotic cells have a more complex structure than do prokaryotic cells. Organelles allow for various functions to occur in the cell at the same time. Before discussing the functions of organelles within a eukaryotic cell, let us first examine two important components of all cells (prokaryotic and eukaryotic): the plasma membrane and the cytoplasm.

figure_03_05
Figure 1 A prokaryotic cell. The cytoplasm is not labeled, but is the light blue area inside the cell membrane. The ribosome label is pointing to one of the small brown dots representing the ribosome.

figure_03_07a
Figure 2 This figure shows a typical animal cell

figure_03_07b typical plant cell
Figure 3 This figure shows a typical plant cell.

The Plasma Membrane

Like prokaryotes, eukaryotic cells have a plasma membrane (Figure 4) made up of a phospholipid bilayer with embedded proteins that separates the internal contents of the cell from its surrounding environment. A phospholipid is a lipid molecule composed of two fatty acid chains, a glycerol backbone, and a phosphate group. The plasma membrane regulates the passage of some substances, such as organic molecules, ions, and water, preventing the passage of some to maintain internal conditions, while actively bringing in or removing others. Other compounds move passively across the membrane.

figure_03_08 plasma membrane
Figure 4 The plasma membrane is a phospholipid bilayer with embedded proteins. There are other components, such as cholesterol and carbohydrates, which can be found in the membrane in addition to phospholipids and protein.

The plasma membranes of cells that specialize in absorption are folded into fingerlike projections called microvilli (singular = microvillus). This folding increases the surface area of the plasma membrane. Such cells are typically found lining the small intestine, the organ that absorbs nutrients from digested food. This is an excellent example of form matching the function of a structure.

The Cytoplasm

The cytoplasm comprises the contents of a cell between the plasma membrane and the nuclear envelope (a structure to be discussed shortly). It is made up of organelles suspended in the gel-like cytosol, the cytoskeleton, and various chemicals (Figures 2 and 3). Even though the cytoplasm consists of 70 to 80 percent water, it has a semi-solid consistency, which comes from the proteins within it. However, proteins are not the only organic molecules found in the cytoplasm. Glucose and other simple sugars, polysaccharides, amino acids, nucleic acids, fatty acids, and derivatives of glycerol are found there too. Ions of sodium, potassium, calcium, and many other elements are also dissolved in the cytoplasm. Many metabolic reactions, including protein synthesis, take place in the cytoplasm.

References

Unless otherwise noted, images on this page are licensed under CC-BY 4.0 by OpenStax.

Text adapted from: OpenStax, Concepts of Biology. OpenStax CNX. May 18, 2016 http://cnx.org/contents/b3c1e1d2-839c-42b0-a314-e119a8aafbdd@9.10

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Copyright © 2016 by Lisa Bartee and Christine Anderson. Mt Hood Community College Biology 101 by Lisa Bartee and Christine Anderson is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.
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