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Explore the fascinating world of cells and their structures through the lens of a microscope. Learn about the different types of cells, the pioneers of cell discovery, and the functions of organelles within cells. Discover how DNA controls cellular processes and how the endomembrane system manufactures and distributes cellular products.
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CHAPTER 4 A Tour of the Cell
THE MICROSCOPIC WORLD OF CELLS • Cells are the building blocks of all life • Cells must be tiny for materials to move in and out of them fast enough to meet the cell’s metabolic needs
Organisms are either: • Single-celled (unicellular), such as most bacteria and protists • Multi-celled (multi-cellular), such as plants, animals, and most fungi
Leeuwenhoek What is he known for? Developed the first microscope.
This is Leeuwenhoek’s first microscope.
Englishman Robert Hooke First to use the word: “Cells.”
Unfortunately, he was looking at cork cells which aren’t living structures but the remains of living cells
Robert Brown in 1833, Scottish Scientist who discovered the nucleus of cells
Matthias Schleiden Theodor Schwann “First to see plantcells” “First to see animal cells”
“The Cell Theory” • All living things are made of cells • Cells are the basic units of structure and function in living things • All cells come from preexisting cells Rudolph Virchow
Microscopes as Windows to Cells • The light microscope is used by many scientists • Light passes through the specimen • Lenses enlarge, or magnify, the image (a) Light micrograph (LM) of a white blood cell (stained purple) surrounded by red blood cells
The electron microscope (EM) uses a beam of electrons • It has a higher resolving power than the light microscope
The electron microscope can magnify up to 100,000X Human height Length of some nerve and muscle cells Chicken egg Unaided eye Frog eggs • Such power reveals the diverse parts within a cell Light microscope Plant and animal cells Nucleus Most bacteria Mitochondrion Electron microscope Smallest bacteria Viruses Ribosomes Proteins Lipids Small molecules Atoms
SEM • The scanning electron microscope (SEM) is used to study the detailed architecture of the surface of a cell (b) Scanning electron micrograph (SEM) of cilia (above) And a white blood cell
TEM • The transmission electron microscope (TEM) is useful for exploring the internal structure of a cell (c) Transmission electron micrograph (TEM) of a white blood cell & cilial
The Two Major Categories of Cells • The countless cells on earth fall into two categories • Prokaryotic cells • Eukaryotic cells
Prokaryotic and eukaryotic cells differ in several respects Prokaryotic cell Nucleoid region Eukaryotic cell Organelles Nucleus
Prokaryotic cells • Are smaller than eukaryotic cells • Lack internal structures surrounded by membranes • Lack a nucleus
Prokaryotic flagella Nucleoid region (DNA) Ribosomes Plasma membrane Cell wall Capsule Pili
Structure and Function of the Nucleus • The nucleus is bordered by a double membrane called the nuclear envelope • It contains chromatin -a DNA-protein structure • It contains a nucleolus - which produces ribosomal parts
Ribosomes • Ribosomes build all the cell’s proteins • Are not membrane bound
How DNA Controls the Cell • DNA controls the cell by transferring its coded information into RNA DNA 1 Synthesis of mRNA in the nucleus mRNA • The information in the RNA is used to make proteins Nucleus Cytoplasm mRNA 2 Movement of mRNA into cytoplasm via nuclear pore Ribosome 3 Synthesis of protein in the cytoplasm Protein
THE ENDOMEMBRANE SYSTEM: MANUFACTURING AND DISTRIBUTING CELLULAR PRODUCTS • Many of the membranous organelles in the cell belong to the endomembrane system • Endoplasmic reticulum - rough and smooth • Golgi Apparatus • Lysosomes • Vacuoles
The Endoplasmic Reticulum • The endoplasmic reticulum (ER) Nuclear envelope • Greek for ‘network within a cell’ • Produces an enormous variety of molecules • Is composed of smooth and rough ER Ribosomes Rough ER Smooth ER
Rough ER • The “roughness” of the rough ER is due to ribosomes that stud the outside of the ER membrane
The functions of the rough ER include • Producing proteins • Producing new membrane
After the rough ER synthesizes a molecule it packages the molecule into transport vesicles 1
Smooth ER • The smooth ER lacks the surface ribosomes of ER • Produces lipids, including steroids and sex hormones • Regulates sugar • Detoxifies drugs • Stores calcium
The Golgi Apparatus • The Golgi apparatus • Works in partnership with the ER • Refines, stores, and distributes the products of cells Transport vesicle from ER “Receiving” side of Golgi apparatus Golgi apparatus New vesicle forming Transport vesicle from the Golgi “Shipping” side of Golgi apparatus Plasma membrane
Lysosomes • A lysosome is a membrane-enclosed sac • Greek for ‘breakdown body’ • It contains digestive enzymes • Isolated by membrane • The enzymes break down • Macromolecules • Old organelles
Lysosomes have several types of digestive functions • They exit the Golgi apparatus
They fuse with old organelles to recycle parts • Digest bacteria in white blood cells
Vacuoles • Vacuoles are membranous sacs • Two types are the contractile vacuoles of protists and the central vacuoles of plants Central vacuole Contractile vacuoles (a) Contractile vacuoles in a protist (b) Central vacuole in a plant cell Figure 4.15
CHLOROPLASTS AND MITOCHONDRIA: ENERGY CONVERSION • Cells require a constant energy supply to do all the work of life
CHLOROPLASTS • Chloroplasts are the sites of photosynthesis, the conversion of light energy to chemical energy Inner and outer membranes of envelope Granum Space between membranes Stroma (fluid in chloroplast) Figure 4.17
Mitochondria • Mitochondria are the sites of cellular respiration, which involves the production of ATP from food molecules Outer membrane Inner membrane Cristae Matrix Space between membranes Figure 4.18
THE CYTOSKELETON:CELL SHAPE AND MOVEMENT • The cytoskeleton is an infrastructure of the cell consisting of a network of fibers • Microfilaments - small threads • Intermediate filaments - ropelike • Microtubules - small tubes
Maintaining Cell Shape • One function of the cytoskeleton • Provide mechanical support to the cell and maintain its shape
The cytoskeleton can change the shape of a cell • This allows cells like amoebae to move
Cilia and Flagella • Cilia and flagella are motile appendages
Flagella propel the cell in a whip-like motion • Cilia move in a coordinated back-and-forth motion Figure 4.20A, B
Some cilia or flagella extend from nonmoving cells • The human windpipe is lined with cilia • Smoking damages the cilia
CELL SURFACES:PROTECTION, SUPPORT, AND CELL-CELL INTERACTIONS • Most cells secrete materials that are external to the plasma membrane • This extra cellular matrix • Regulates • Protects • Supports