honors biology: chapter 4
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Honors Biology: Chapter 4. A Tour of the Cell. The Art of Looking at Cells Artists have long found inspiration in the visual richness of the living world Conversely, scientists use art to illustrate their findings Micrographs show structures as scientists see them - PowerPoint PPT PresentationTRANSCRIPT
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Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings
PowerPoint Lectures forBiology: Concepts and Connections, Fifth Edition – Campbell, Reece, Taylor, and Simon
Lectures by Chris Romero
Honors Biology: Chapter 4
A Tour of the Cell
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The Art of Looking at Cells
• Artists have long found inspiration in the visual richness of the living world
• Conversely, scientists use art to illustrate their findings
– Micrographs show structures as scientists see them
– Drawings can emphasize details
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Biology is a visual science
Santiago Ramon y Cajal (1852-1934) anatomist
- Nerve cells in the retina
Wasily Kandinsky
(1866-1944)
– is it based on a cell?
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Contributions to The Cell Theory
Zaccharias Jansen – first compound scope
Robert Hooke 1660s – term for “cells”
• Saw cork cell walls
• Tiny compartments
• Called them “cells”
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Anton von Leeuwenhoek
Anton von Leeuwenhoek 1660s
first high-mag microscope
living cells, bacteria
Pond water, blood, saliva
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Other cell discoveriesRobert Brown – 1830s
• nucleus in all cells
Matthias Schleiden 1830s
• all plants made of cells
Theodore Schwann 1830s
• all animals made of cells
Rudolf Virchow 1850s
• new cells come from cell division
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The Cell Theory
1. All organisms are made of one or more cells
2. The cell is the basic unit of life. Cells that form part of a larger organism still do their own life processes.
3. All cells come from pre-existing cells
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4.2 Why are all cells small?Cells vary in size and shape
Must be big enough to contain raw materials and molecules needed by cell
Must be small enough to have fast exchange with environment
Surface area must be large compared to volume 5
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size increases 2X area increases 4X volume increases 8X
Cells have a large Surface-to-Volume Ratio
6
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Most cells are microscopic
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Two basic kinds of cells Prokaryotic Eukaryoticsmall and simple larger and more complexno nucleus nucleusbacteria all other organisms
Both have: DNA & complex chemicals cell membrane cytoplasm ribosomes
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Two kinds of cells – small and large
Bacteria (purple) in animal cell (pink)
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LE 4-3a
Nucleoidregion
Prokaryotic cell
Nucleus
Col
oriz
ed T
EM 1
5,00
0
Eukaryotic cellOrganelles
Two kinds of cellsSimple and complex
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Prokaryotic cells “before nucleus”
• Very small (1-10mm)• No nucleus or other
membrane-bound organelles
• DNA in nucleoid region in cytoplasm
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ALL prokaryotes have1. Cell (plasma) membrane
• Encloses cytoplasm, selectively permeable
• Controls what enters and leaves cell
2. Nucleoid
• Region containing DNA in a chromosome
3. Cell wall – various kinds of polysaccharides
• Outside cell membrane
• Cell shape and protection
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SOME prokaryotes have4. Capsule – protective layer
– Slimy or sticky coating, outside cell wall
5. Pili – extensions of cytoplasm and membrane
• to attach to other cells, pass signals
6. Prokaryotic flagella – for movement
7. Plasmids – small rings of DNA
• For sexual reproduction
• have their own genes
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Some prokaryotic (bacterial) cells
Common shapes of bacteria
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Eukaryotes “true nucleus”
4.4 Eukaryotic cells are partitioned into compartments• Larger than prokaryotic (10-100 mm)
• Many organelles – tiny “organs”, specific functions
• Most organelles are enclosed by membrane
– Compartments - different metabolic processes
– Keeps chemistry inside organelle separate from rest of cell
– Enzymes often are parts of the membranes, greatly increase surface for reactions
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Eukaryotic Cells
The cell is like a city – every part has a job to do. Together these parts keep the cell alive.
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How do plant and animal cells differ? Both have most of the same organelles except:
Plant cells also have:1. rigid cell wall, contains cellulose – - protects photosynthetic tissue inside2. chloroplasts – do photosynthesis
3. large central vacuole – stores water and minerals for photosynthesis, wastes
Animal cells have: 1. centrioles – aid in cell division
2. lysosomes – contain hydrolytic enzymes
3. some have flagella or cilia
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LE 4-4a
Roughendoplasmicreticulum
Smoothendoplasmicreticulum
Nucleus
Flagellum
Lycosome
Centriole
Not in mostplant cells
Peroxisome
MicrotubuleIntermediatefilamentMicrofilament
Cytoskeleton
Golgiapparatus
Ribosomes
Plasma membrane
Mitochondrion
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LE 4-4b
Not inanimalcells
Golgiapparatus
Nucleus
CentralvacuoleChloroplastCell wall
Mitochondrion
Peroxisome
Plasma membrane
Rough endoplasmicreticulum
Smooth endoplasmicreticulum
Ribosomes
MicrotubuleIntermediatefilamentMicrofilament
Cytoskeleton
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Cytoplasm
Cytoplasm: Watery solution outside nucleus
Contains organelles, each has a function
Many dissolved substances for metabolism
Site for chemical reactions
Cytoplasm and nucleus work together
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4.5 Nucleus: the cell's genetic control center
• Has MOST of a cell’s DNA
• DNA in chromosomes• Chromatin - loose,
thread-like form of chromosome in
non-dividing cell • Controls cell by
directing synthesis of proteins
Also contains nucleolus – makes ribosomes
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Structures in a nucleus
chromatin
Nuclear pores
Nuclear membrane
nucleolus
Nucleolus – makes ribosomes
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Nuclear EnvelopeDouble-layered membrane surrounding nucleus
Many pores for molecules to pass through
Selectively permeable – controls what moves in and out of nucleus
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Nuclear poresControl flow of materials in and out of nucleus
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4.6 Endomembrane SystemA collection of membranous organelles
- divide the cell into compartments
• - work together to synthesize, store, and export molecules
Example: Endoplasmic reticulum (ER)
– Continuous network of flattened sacs and tubes throughout cell
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LE 4-5
Chromatin
Nucleolus
Pore
Nucleus
Two membranesof nuclear envelope
Roughendoplasmicreticulum
Ribosomes
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4.7 Smooth Endoplasmic ReticulumNo ribosomes on membrane
• Smooth ER has a variety of functions
– Synthesizes lipids
– In liver cells, processes materials such as toxins and drugs
– In muscle cells, stores and releases calcium ions needed for muscle contraction
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4.8 Rough Endoplasmic ReticulumRough ER makes membrane and proteins
• Ribosomes on membrane make proteins
• RER modifies proteins made by ribosomes and transports to other parts of cell
• Some sent to Golgi body for further processing
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Organelles that Build ProteinsRibosomesMake proteins, use instructions in DNA
Made of RNA and protein
Made in nucleolus, move to cytoplasm and rough ER
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LE 4-7
Smooth ER
Rough ER
Nuclearenvelope
Ribosomes
Smooth ER Rough ER
TEM
45,
000
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LE 4-8
Transport vesiclebuds off
Ribosome
Polypeptide
Glycoprotein
Sugarchain
Rough ER
Secretary(glyco-) proteininside trans-port vesicle
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4.9 Golgi BodyThe Golgi apparatus finishes, sorts, and ships cell products
• Stacks of flattened membrane sacs
• Receives and modifies proteins from ER
• Sorts, packages into tiny vesicles
• Final products may be used inside cell – ex. Lysosomes
• Some exported – ex. Hormones, neurotransmitters
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LE 4-9
Golgiapparatus
“Receiving” side ofGolgi apparatus
Transportvesiclefrom ER
New vesicleforming
“Shipping”side of Golgiapparatus Transport
vesicle fromthe Golgi
Golgi apparatus
TEM
130
,000
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4.10 Lysosomes –digestive compartmentsLysosomes are sacs of enzymes that form from the Golgi apparatus
– Break down wastes and worn-out cell parts
– Recycle molecules the cell can use
– In protozoans, bind to food vacuole to digest food
– In white blood cells, destroy bacteria that have been ingested
– In development, removes tissues no longer needed
– Cell death, when cell is damaged beyond repair
Animation: Lysosome Formation
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LE 4-10a
Plasmamembrane
Rough ER
Lysosomes
Transport vesicle(containing inactivehydrolytic enzymes)
Golgiapparatus
Engulfmentof particle
“Food”
Foodvacuole
Digestion
Lysosomeengulfingdamagedorganelle
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LE 4-10b
Lysosome
Nucleus
TEM
8,5
00 Lysosomes are stained
in this slide
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Lysosome containingtwo damaged organelles
TEM
42,
500
Mitochondrion fragment
Peroxisome fragment
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4.11 Abnormal lysosomes
Lysosomal storage diseases can be fatal
• Result from an inherited lack of one or more lysosomal enzymes
• Interfere with various cell functions
• Ex. Tay-Sachs Disease, Pompe’s disease
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Peroxisomes – break down peroxide
Peroxisomes (microbodies) – break down hydrogen peroxide, made in cell reactions
- other chemical functions in certain cells
- peroxisome disorders include ALD
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4.12 Vacuoles store substances
Food vacuoles in paramecium
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Plant Cell Vacuole
Large, central vacuole
Stores water and substances needed for photosynthesis
Enzymes to recycle molecules (no lysosomes in plant cells)
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LE 4-12a
Centralvacuole
Nucleus
Chloroplast
Col
oriz
ed T
EM 8
,700
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Contractile Vacuole
• In some one-celled organisms that live in fresh water
• Water enters cell from environment
• Vacuole pumps out excess water
• Keeps homeostasis
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LE 4-12b
Nucleus
LM 6
50
Contractilevacuoles
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Review Membrane Organelles4.13 A review of the endomembrane system
• The various organelles of the endomembrane system are interconnected structurally and functionally
• ER is in direct contact with nuclear membrane
• Membrane vesicles transport products from ER to Golgi body, and from Golgi to cell surface
Animation: Endomembrane System
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LE 4-13Transport vesiclefrom ER to GolgiRough ER
Nucleus
Smooth ER Nuclear envelope Golgi apparatus
Lysosome
Vacuole
Plasmamembrane
Transport vesicle fromGolgi to plasma membrane
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Organelles that capture and release energy
4.14 Chloroplasts –site for photosynthesis Chlorophyll pigment in membrane absorbs sunlight
• Convert solar energy into chemical energy of food
• Plants
• Algae
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LE 4-14
ChloroplastStroma
Inner and outermembranes
Granum
Intermembranespace
TEM
9,7
50
Chloroplasts have inner membrane compartments• Each is site for different stage of photosynthesis
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Chloroplasts – in plants and algae
Some protists have chloroplasts
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Other plastids in plants
Leukoplasts store starch
Chromoplasts store other pigments
-flowers, fruits, seeds
In red pepper
In potato
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4.15 Mitochondria – powerhouse of the cell
Site for Cell respiration – converts chemical energy stored in food into ATP for cellular work
• ATP – energy molecule used by all organisms for cell activities
Mitochondria - two membrane compartmentsEach location is site for different stage of glucose breakdown
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LE 4-15
Mitochondrion
Intermembranespace
Outermembrane
Innermembrane
Cristae
Matrix TEM
44,
880
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Mitochondria and Chloroplasts are different from other organelles
1. double-layered membrane organelles
- inner membrane deeply folded/layered
- large surface area for fast chemical processes
2. have their own DNA and ribosomes
- can self-replicate as needed
- make their own enzymes for reactions
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Endosymbiosis Theory – Lynn Margulis
1. Prokaryotes in various sizes, some lost cell wall
2. Larger prokaryotes ate smaller ones
3. Some were not digested but became part of cell
4. Might have survival advantage
Ex. Make its own food; , use energy more efficiently
Evidence to support theory1. Both chloroplasts and mitochondria have their
own DNA and ribosomes – chemically like prokaryotic DNA and ribosomes
2. Can self-replicate3. May have once been separate organisms
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Endosymbiotic Theory – How did eukaryotes evolve from prokarytes?
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Cytoskeleton4.16 The cell's internal skeleton helps organize its structure and activities
• Protein framework inside cell
• Attaches to cell membrane to keep cell shape
• Anchor organelles
• Transports materials inside cell
• Three kinds: microfilaments , microtubules, and intermediate filaments
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c\Cytoskeleton
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Microfilaments
Microfilaments
• Rods of globular proteins
• Enable cells to change shape and move
• Cytoplasmic streaming
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Microfilaments enable cytoplasmic movement
Cytoplasmic streaming (cyclosis) moves substances around inside a cell
- Some cells can move by pseudopods
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Intermediate filaments• Ropes of fibrous protein
• Reinforce the cell and anchor some anchor some organelles
• Hollow tubes of globular proteins
• Give the cell rigidity
• Anchor organelles and act as tracks for organelle movement
• Make centrioles, cilia and flagella
Microtubules
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Motor proteins “walk” along microtubules
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Proteins in the cytoskeleton
Ropes of fibrous proteins
Anchors some organelles
Reinforces cell
Rods of globular proteins
Cells can move, change shape
Stretch and contract
Hollow tubes of globular proteins
Anchors organelles, tracks for movement
of materials
Rigid shape
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cytoskeleton
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Cytoskeleton – seen with fluorescent dyes
Microtubules- blue; microfilaments – yellow; chromatin - green
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cytoskeleton
The cytoskeleton, a network of protein fibers, crisscrosses the cytoplasm of eukaryotic cells, providing shape and mechanical support. The cytoskeleton also functions as a monorail to transport substances around the cell. A cell such as an amoeba changes shape by dismantling parts of the cytoskeleton and reassembling them in other locations.englishpia.co.kr/main/?page=board&act=view
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4.17 Cilia and flagella move by microtubules
Eukaryotic cilia and flagella are locomotor appendages that protrude from certain cells
– Move whole cells or materials across the cell surface
Video: Paramecium Cilia
Animation: Cilia and Flagella
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Cilia and Flagella
Microtubules extend from cell surface, covered by membrane
Cilia – short, many, like “oars”• Ex. line air passages in body
- cover Paramecium
Flagella – longer, one or a few, move like a “whip”• Ex. Human sperm, euglena
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How do microtubules cause movement?
Cilia and flagella - microtubules slide
against each other to cause bending
Basal bodies and centrioles (for cell division)
– don’t bend
Basal body – anchors flagellum
flagellum
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Cilia and flagella move when microtubules bend
Movement of protein arms
(dynein) bends microtubules
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Ciliated cells in trachea
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Flagella on sperm
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Centrioles and Spindle Fibers – microtubules
Help in cell division
Centrioles (only in animal cells)
• Organize spindle fibers
• Spindle fibers (in all eukaryotic cells)
– Organize and separate chromosomes when cell divides
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Centrioles
Help organize chromosomes for cell division
9 X 3 arrangement of microtubules
Anchor mitotic spindle in animal cells
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CELL SURFACES AND JUNCTIONS
4.18 Cell surfaces protect, support, and join cells• Cells interact with their environments and each other
through their surfaces
• Many cells are protected by layers outside the cell membrane
– Prokaryotes –cell wall and sometimes a capsule
– Eukaryotes – some have cell walls (plants, fungi, and many protists)
• Multicellular – cells must organize and communicate
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Plant cell walls – provide protection and support• Plant cell walls
– Mostly cellulose, in layers, forms a rigid mesh
– Sticky saccharides glue cells together
– Connect by open channels, plasmodesmata
• Cell membranes and cytoplasm are continuous between adjacent cells
• Easy transfer of water and nutrients
• Chemical messages
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LE 4-18a
Vacuole
Wallsof twoadjacentplant cells
Plasmodesmata
Layersof one plantcell wall
Cytoplasm
Plasma membrane
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Plant cell walls
Middle lamella – between walls of two plant cells
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Animal Cell JunctionsCells are surrounded by an extracellular matrix that binds cells together into a tissue
Cell junctions:
• Tight junctions - bind cells into leakproof sheets (ex. Intestine lining)
• Anchoring junctions - link cells into strong tissues (ex. muscle, skin)
• Gap junctions – open channels allow substances to flow from cell to cell (ex. Heart muscle, embryo)
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Extracellular matrix – between animal cells
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LE 4-18b
Tight junctions
Anchoring junction
Gap junctions
Extracellular matrix
Space between cells
Plasma membranes of adjacent cells
TIGHT JUNCTIONNo leaks - protect surrounding tissue- ex. Intestine wall
ANCHORING JUNCTIONConnect cytoskeleton of adjacent cells- strong, flexible tissue;
stretch, move- Ex. Skin, muscle
GAP JUNCTIONOpen channels – cells communicate - share needed molecules
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Animal Cell Junctions
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Animation: Tight Junctions
Animation: Desmosomes
Animation: Gap Junctions
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FUNCTIONAL CATEGORIES OF ORGANELLES
4.19 Eukaryotic organelles comprise four functional categories
• Eukaryotic organelles fall into four functional categories that work together to produce the cell's emergent properties
– Manufacturing
– Breakdown
– Energy processing
– Support, movement, and communication between cells
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