Membranous
Cells
Cells
Cells
Cellular Extension
100
* Double-membrane structure with inner shelflike cristae * Provide most of cell's ATP via aerobic cellular respiration – Requires oxygen * Contain their own DNA, RNA, ribosomes * Similar to bacteria; capable of cell division called fission
What is Mitochondria
100
What is the power house of the cell
What is Mitochondria
100
The outer most part of a cell.
What is cell membrane or outer membrane
100
• Protein complexes that function in motility * Powered by ATP
What is Motor Proteins
100
– Whiplike, motile extensions on surfaces of certain cells – Contain microtubules and motor molecules – Cilia move substances across cell surfaces – Longer flagella propel whole cells
What is Cilia and flagella
200
• Granules containing protein and rRNA • Site of protein synthesis • Membrane-bound organelles (forming rough ER) synthesize proteins to be incorporated into membranes, lysosomes, or exported from cell
What is Ribosomes
200
• Stacked and flattened membranous sacs • Modifies, concentrates, and packages proteins and lipids from rough ER • Transport vessels from ER fuse with convex cis face; proteins modified, tagged for delivery, sorted, packaged in vesicles
What is Golgi Apparatus
200
• Elaborate series of rods throughout cytosol; proteins link rods to other cell structures – Three types • Microfilaments • Intermediate filaments • Microtubules
What is Cytoskeleton
200
• "Cell center" near nucleus • Generates microtubules; organizes mitotic spindle • Contains paired centrioles – Barrel-shaped organelles formed by microtubules • Centrioles form basis of cilia and flagella
What is Centrosome and Centrioles
200
• Centrioles forming base called basal bodies • Cilia movements alternate between power stroke and recovery stroke ! current at cell surface • Primary cilia – Single, nonmotile projection on most cells – Probe environment for molecules receptors can recognize; coordinate intracellular pathways
What is Cilia and Flagella
300
• Interconnected tubes and parallel membranes enclosing cisterns • Continuous with outer nuclear membrane • Two varieties: – Rough and Smooth
What is Endoplasmic Reticulum (ER)
300
• Membranous sacs containing powerful oxidases and catalases • Detoxify harmful or toxic substances • Catalysis and synthesis of fatty acids • Neutralize dangerous free radicals – Oxidases convert to H2O2 – Catalases convert H2O2 to water and oxygen
What is Peroxisomes
300
• Thinnest of cytoskeletal elements • Dynamic strands of protein actin • Each cell has a unique arrangement of strands • Dense web attached to cytoplasmic side of plasma membrane is called terminal web – Gives strength, compression resistance • Involved in cell motility, change in shape, endocytosis and exocytosis
What is Microfilaments
300
• Microvilli – Minute, fingerlike extensions of plasma membrane – Increase surface area for absorption – Core of actin filaments for stiffening
What is Cellular Extensions
400
• External surface studded with ribosomes • Manufactures all secreted proteins • Synthesizes membrane integral proteins and phospholipids • Assembled proteins move to ER interior, enclosed in vesicle, go to Golgi apparatus
What is Rough ER
400
• Sphericalmembranousbagscontainingdigestive enzymes (acid hydrolases) – "Safe" sites for intracellular digestion • Digest ingested bacteria, viruses, and toxins • Degrade nonfunctional organelles • Metabolic functions,e.g.,break down and release glycogen • Destroy cells in injured or nonuseful tissue (autolysis) • Break down bone to release Ca2+
What is Lysosomes
400
• Tough, insoluble, ropelike protein fibers • Composed of tetramer fibrils • Resist pulling forces on cell; attach to desmosomes • E.g., neurofilaments in nerve cells; keratin filaments in epithelial cells
What is Intermediate Filaments
400
• Double-membrane barrier; encloses nucleoplasm • Outer layer continuous with rough ER and bears ribosomes • Inner lining (nuclear lamina) maintains shape of nucleus; scaffold to organize DNA • Pores allow substances to pass; nuclear pore complex line pores; regulates transport of large molecules into and out of nucleus
What is The Nuclear Envelope
400
• Largest organelle; genetic library with blueprints for nearly all cellular proteins • Responds to signals; dictates kinds and amounts of proteins synthesized • Most cells uninucleate; skeletal muscle cells, bone destruction cells, and some liver cells are multinucleate; red blood cells are anucleate • Three regions/structures
What is Nucleus
500
• Network of tubules continuous with rough ER • Its enzymes (integral proteins) function in – Lipid metabolism; cholesterol and steroid- based hormone synthesis; making lipids of lipoproteins – Absorption, synthesis, and transport of fats – Detoxification of drugs, some pesticides, carcinogenic chemicals – Converting glycogen to free glucose – Storage and release of calcium
What is Smooth ER
500
Overall function – Produce, degrade, store, and export biological molecules – Degrade potentially harmful substances • Includes ER, Golgi apparatus, secretory vesicles, lysosomes, nuclear and plasma membranes
What is Endomembrane System
500
• Largest of cytoskeletal elements; dynamic hollow tubes; most radiate from centrosome • Composed of protein subunits called tubulins • Determine overall shape of cell and distribution of organelles • Mitochondria, lysosomes, secretory vesicles attach to microtubules; moved throughout cell by motor proteins
What is Microtubules
500
• Dark-staining spherical bodies within nucleus • Involved in rRNA synthesis and ribosome subunit assembly • Associated with nucleolar organizer regions – Contains DNA coding for rRNA • Usually one or two per cell
What is Nucleoli
500
• Threadlike strands of DNA (30%), histone proteins (60%), and RNA (10%) • Arranged in fundamental units called nucleosomes • Histones pack long DNA molecules; involved in gene regulation • Condense into barlike bodies called chromosomes when cell starts to divide
What is Chromatin