CLOZE - Cells Cells

CLOZE - Cells
Cells: The Basic Units of Life
• The Cell: The Basic Unit of Life
• Prokaryotic Cells
• Eukaryotic Cells
• Organelles that Process Information
• The Endomembrane System
• Organelles that Process Energy
• Other Organelles
• The Cytoskeleton
• Extracellular Structures
The Cell: The Basic Unit of Life
• Life requires a structural ________ separate from the external environment in which macromolecules can perform unique functions in a relatively constant internal environment.
• These "living compartments" are cells.
The Cell: The Basic Unit of Life
• The cell theory states that:
§ Cells are the fundamental units of life.
§ All organisms are composed of cells.
§ All cells come from ________ cells.
The Cell: The Basic Unit of Life
• Protobionts are aggregates produced from molecules made in prebiotic synthesis experiments. They can maintain internal chemical environments that differ from their surroundings.
• Laboratory experiments suggest a ________ theory for the origin of cells.
The Cell: The Basic Unit of Life
• Cell size is limited by the ________ ________ ratio.
• The surface of a cell is the area that interfaces with the cell's environment. The volume of a cell is a measure of the space inside a cell.
• Surface area-to-volume ratio is defined as the surface area divided by the volume. For any given shape, increasing volume decreases the surface area-to-volume ratio.

The Cell: The Basic Unit of Life
• Because most cells are tiny, with diameters in the range of 1 to 100 mm, microscopes are needed to visualize them.
• With normal human vision the smallest objects that can be________ (i.e., distinguished from one another) are about 200 mm (0.2 mm) in size.

The Cell: The Basic Unit of Life
• Light microscopes use ________ lenses to focus visible light and typically have a resolving power of 0.2 mm.
• Electron microscopes have ________ to focus an electron beam. The wavelength of the electron beam is far shorter than that of light, and the resulting image resolution is far greater (about 0.5 nm).
The Cell: The Basic Unit of Life
• Every cell is surrounded by a ________ membrane, a continuous membrane composed of a lipid bilayer with proteins floating within it and protruding from it.
The Cell: The Basic Unit of Life
• Roles of the plasma membrane:
§ Acts as a ________ ________ barrier.
§ Is an interface for cells where information is received from adjacent cells and extracellular signals.
§ Allows cells to maintain a constant internal environment.
§ Has molecules that are responsible for binding and adhering to adjacent cells.
The Cell: The Basic Unit of Life
• Cells show two organizational patterns:
§ Prokaryotes have no nucleus or other membrane-enclosed compartments. They lack distinct organelles.
§ Eukaryotes have a ________ ________ and other membrane-enclosed compartments or organelles as well.
Prokaryotic Cells
• Prokaryotes inhabit the widest range of environmental extremes.
• Prokaryotic cells are generally smaller than eukaryotic cells.
• Each prokaryote is a single cell, but many types can be found in chains or clusters.
Prokaryotic Cells
• Features shared by all ________ cells:
§ All have a plasma membrane.
§ All have a region called the nucleoid where the DNA is concentrated.
§ The cytoplasm (the plasma-membrane enclosed region) consists of the nucleoid, ribosomes, and a liquid portion called the cytosol.

Prokaryotic Cells
• Specialized features of some prokaryotic cells:
§ A cell wall just outside the plasma membrane.
§ Some bacteria have another membrane outside the cell wall, a polysaccharide-rich phospholipid membrane.
§ Some bacteria have an outermost slimy layer made of polysaccharides and referred to as a capsule.
Prokaryotic Cells
• Some bacteria, including cyanobacteria, can carry on photosynthesis. The plasma membrane is infolded and has chlorophyll.
• Some bacteria have flagella, locomotory structures shaped like a corkscrew.
• Some bacteria have ________ threadlike structures that help bacteria adhere to one another during mating or to other cells for food and protection.
Eukaryotic Cells
• Eukaryotes, animals, plants, fungi, and protists, have a membrane-enclosed nucleus in each of their cells.
• Eukaryotic cells:
§ tend to be larger than prokaryotic cells.
§ have a variety of membrane-enclosed compartments called organelles.
§ have a protein scaffolding called the cytoskeleton.
Eukaryotic Cells
• Compartmentalization is the key to eukaryotic cell function.
• Each organelle or compartment has a specific role defined by chemical processes.
• Membranes surrounding these organelles keep away inappropriate molecules and also act as traffic regulators for raw materials into and out of the organelle.

Eukaryotic Cells
• Cell organelles can be studied by light and electron microscopy.
• Stains are used to target specific ________ and determine chemical composition.
• Cell fractionation is used to separate organelles for ________ analyses.
• Microscopy and cell fractionation can both be used to give a complete picture of the structure and function of each organelle.
Organelles that Process Information
• The nucleus contains most of the cell's DNA and is the site of DNA duplication to support cell reproduction.
• The nucleus also plays a role in DNA control of cell activities.
• Within the nucleus is a specialized region called the ________ where ________ are initially assembled.
Organelles that Process Information
• Two lipid bilayers form the nuclear envelope which is perforated with nuclear pores.
• The nuclear pores connect the interior of the nucleus with the rest of the cytoplasm.
• A pore complex, consisting of eight large protein granules, surrounds each pore.
• RNA and proteins must pass through these pores to enter or leave the nucleus.

Organelles that Process Information
• The chromatin consists of diffuse or very long, thin fibers in which DNA is bound to proteins.
• Prior to cell division these condense and organize into structures recognized as chromosomes.
• Surrounding the chromatin is the nucleoplasm.
• The nuclear lamina is a meshwork of proteins which maintains the shape of the nuclear envelope and the nucleus.
Organelles that Process Information
• Ribosomes are the sites of protein synthesis.
• In eukaryotes, functional ribosomes are found free in the cytoplasm, in mitochondria, bound to the endoplasmic reticulum, and in chloroplasts.
• They consist of a type of RNA called ribosomal RNA, and more than 50 other proteins.
The Endomembrane System
• The endoplasmic reticulum (ER) is a network of interconnecting membranes distributed throughout the cytoplasm.
• The internal compartment, called the lumen, is a separate part of the cell with a distinct protein and ion composition.
• The ER's folding generates a surface area much greater than that of the plasma membrane.
• At certain sites, the ER membrane is continuous with the outer nuclear envelope membrane.
The Endomembrane System
• The rough ER (RER) has ________ attached.
• The smooth ER (SER) is a ribosome-free region of the ER.
• Cells that are specialized for synthesizing proteins for extracellular export have extensive ER membrane systems.

The Endomembrane System
• The Golgi apparatus consists of ________ ________ sacs and small membrane-enclosed vesicles.
• The Golgi apparatus has three roles:
§ Receive proteins from the ER and further modify them.
§ Concentrate, package, and sort proteins before they are sent to their destinations.
§ Some polysaccharides for plant cell walls are synthesized.

The Endomembrane System
• Lysosomes are vesicles containing ________ enzymes that come in part from the Golgi.
• Lysosomes are sites for breakdown of food and foreign material brought into the cell by phagocytosis.
• Lysosomes are also the sites where digestion of spent cellular components occurs, a process called autophagy.

Organelles that Process Energy
• The primary function of ________ is to convert the potential chemical energy of fuel molecules into a form that the cell can use (ATP).
• The production of ATP is called cellular respiration.
Organelles that Process Energy
• Mitochondria have an outer lipid bilayer and a highly folded inner membrane.
• Folds of the inner membrane give rise to the cristae, which contain large protein molecules used in cellular respiration.
• The region enclosed by the inner membrane is called the mitochondrial matrix.

Organelles that Process Energy
• Plastids are organelles found only in plants and some protists.
• Chloroplasts, the sites where photosynthesis occurs, are one type of plastid.
Organelles that Process Energy
• Chloroplasts are surrounded by two layers, and have an internal membrane system.
• The internal membranes are arranged as thylakoids and grana. These membranes contain chlorophyll and other pigments.
• The fluid in which the grana are suspended is called the stroma.

Organelles that Process Energy
• Endosymbiosis may explain the origin of mitochondria and chloroplasts.
• According to the endosymbiosis theory, both organelles were formerly prokaryotic organisms that somehow became incorporated into a larger cell.
• Today, both mitochondria and chloroplasts have DNA and ribosomes, and are self-duplicating organelles.
Other Organelles
• Peroxisomes, also called microbodies, are small organelles that are specialized to compartmentalize toxic peroxides and break them down.
• Glyoxysomes are structurally similar organelles found in plants.
Other Organelles
• Vacuoles, found in plants and protists, are filled with an aqueous solution and are used to store wastes and pigments.
• Vacuoles may develop turgor pressure, a swelling that helps the plant cell maintain support and rigidity.
• Food vacuoles are formed in single-celled protists.
• Many freshwater protists have a ________ ________ that helps eliminate excess water and restore proper salt balance.
The Cytoskeleton
• The cytoskeleton:
§ maintains cell shape and support.
§ provides the mechanisms for cell movement.
§ acts as tracks for "motor proteins" that help move materials within cells.
• There are three major types of cytoskeletal components: microfilaments, intermediate filaments, and microtubules.
The Cytoskeleton
• Microfilaments are made of the protein actin, and may exist as single filaments, in bundles, or in networks.
• Microfilaments are needed for cell contraction, as in muscle cells, and add structure to the plasma membrane and shape to cells.
• They are involved in cytoplasmic streaming, and the formation of pseudopodia.
The Cytoskeleton
• Intermediate filaments are found only in multicellular organisms, forming ropelike assemblages in cells.
• They have two major structural functions: to stabilize the cell structure, and resist tension.
• In some cells, intermediate filaments maintain the positions of the nucleus and other organelles in the cell.
The Cytoskeleton
• Microtubules are hollow cylinders made from tubulin protein subunits.
• Microtubules provide a rigid intracellular skeleton for some cells, and they function as tracks that motor proteins can move along in the cell.
• They regularly form and disassemble as the needs of the cell change.

The Cytoskeleton
• Cilia and flagella, common ________ appendages of cells, are made of microtubules.
• Flagella are typically longer than cilia, and cells that have them usually have only one or two.
• Cilia are shorter and usually present in great numbers.
The Cytoskeleton
• The microtubules in cilia and flagella are arranged in a 9 + 2 array.
• At the base of each flagellum or cilium is a ________ body. The nine pairs extend into the basal body.
• Centrioles are found in an organizing center near the cell nucleus. Centrioles are similar to basal bodies, but are located in the center of the cell and help in the movement of chromosomes during cell division.

The Cytoskeleton
• Motor proteins move along microtubules.
• In both cilia and flagella, the ________ are cross-linked by spokes of the motor protein called dynein.
• Dynein changes its shape when energy is released from ATP. Many dynein molecules associate along the length of the microtubule pair.
• Dynein moves vesicles toward the minus end of the microtubule. Kinesin, another motor protein, moves them toward the plus end.

Extracellular Structures
• The plant cell wall is composed of cellulose fibers embedded in a matrix of other complex polysaccharides and proteins.
• The cell wall provides a rigid structure for the plasma membrane under ________ pressure, giving important support.
• It is a barrier to many fungi, bacteria, and other organisms that may cause plant diseases.
Extracellular Structures
• Multicellular animals have an extracellular matrix composed of fibrous proteins, such as collagen, and glycoproteins.
• Functions of the extracellular matrix:
§ Holds cells together in tissues.
§ Contributes to physical properties of tissue.
§ Helps filter material passing between tissues.
§ Helps orient cell movements.
§ Plays a role in chemical signaling.
• Epithelial cells, which line the human body cavities, have a basement membrane of extracellular material called the basal lamina.

Animation 4.2 The Golgi Apparatus

• Link to HyperMovie