BSC 114 Exam 2
What are the components of the cell theory
-All living things are composed of one or more cells -Cells are the basic units of structure and function in living things (the cell is the simplest collection of matter capable of preforming all the activities of life) -Every cell originates from another cell; therefore, all cells are related by their descent from earlier cells
Characteristics of prokaryotic cells
-No membrane bound organelles -DNA. contained in the nucleoid. Usually circular in structure -Cytoplasm
What can lysosomal enzymes do?
-hydrolyze proteins, lipids, polysaccharides, or nucleic acids. -the breakdown products are used to synthesize new macromolecules -Can fuse with food vacuoles and hydrolyze/digest/break down their contents
Confocal Microscopy
-lasers and special optics are used to image specimen within a very narrow focal plane -images are acquired point-by-point and reconstructed with a computer -most often used with fluorescently stained specimens
What are some functions of microtubules
-maintenance of cell shape (compression resistance) -cell motility -chromosome movements in cell division -organelle movements
What are some functions of microfilaments?
-maintenance of cell shape (tension bearing elements) -changes in cell shape -muscle contraction -cytoplasmic streaming -cell motility (pseudopodia) -cell division (cleavage furrow formation)
What are some functions of intermediate filaments?
-maintenance of cell shape (tension-bearing elements) -anchorage of nucleus and certain other organelles -formation of nuclear lamina -found only in animal cells
Functions of the cytoskeleton
-organizes the cell's structures and activities -provides mechanical support for cells needed to maintain and alter cell shape -anchors organelles in eukaryotic cells -enables cellular motion (via flagella,cilia, and lamellipodia) -plays important roles in intracellular transport and cell division
Major functions of membrane proteins
-transport -enzymatic activity -signal transduction -cell-cell recognition -intercellular joining -attachement to cytoskeleton and extracellular matrix
glycolysis of a single glucose molecule leads to ___ turns of the citric acid cycle
2. pyruvate needed for each
What is the core of microtubules (like cilia and flagella)?
9 doublets arranged in a ring with a pair of microtubules in the center, sheathed by the plasma membrane
Bound ribosomes
Attached to the endoplasmic reticulum; make proteins that will be parts of cell membranes, packaged inside other organelles, or exported
Some functions of peroxisomes
Break down of fats into smaller molecules in the liver, detoxify alcohol and other harmful compounds by transferring hydrogen from the poisons to oxygen
What are the different types of Light Microscopy?
Bright field microscopy Phase-contrast microscopy Differential Interference Contrast microscopy Fluorescence Microscopy Confocal Microscopy
Electron Microscopy
Can visualize surface or intracellular features of a specimen
Plants use these to store organic compounds, inorganic ions, pigments, and poisonous substances
Central Vacuoles
Sites of photosynthesis in plants and algae
Cholorplasts
Side of the golgi apparatus that receives vesicles from the ER
Cis face
Cisternal maturation
Cisternal maturation is the process by which the cisternae of the Golgi apparatus progress from the cis face to the trans face
What are used by many fresh water protists to pump excess water out of the cell?
Contractile vacuoles
Rough ER
Cytoplasmic surface studded with ribosomes
What is the aqueous semifluid bounded by the plasmamembrane
Cytosol
Characteristics of eukaryotic cells
DNA- Usually linear in structure. contained in nucleus Membrane-bound organelles Cytoplasm Larger then prokaryotic cells
What kind of membrane does the nuclear envelope have?
Double membrane (2 phospholipid bilayers)
What completes the final steps in the processing of membrane, organelle-targeted, and secreted proteins
ER lumen
What is the purpose of cell fractionation
Enables scientists to determine the functions of organelles using biochemistry techniques that correlate cell function with structure
Made of glycoproteins and other macromolecules.
Extracellular matrix
What are the different types of vacuoles?
Food Contractile Central fungal
Mitochondrial Diseases
Friedrich's disease Leber's hereditary optic neuropathy Leigh disease Parkinson's disease Alzheimer's disease Maternally inhierted diabetes and deafness
Have hydrolytic functions (breakdown) comparable to those lysosomes in animal cells
Fungal Vacuoles
Modifies products of ER Manufactures certain macromolecules, such as secreted polysaccharides Sorts and packages materials into transport vesicles that can be targeted to the plasma membrane (for localization or secretion) and other organelles
Golgi Apparatus- protein products are modified while traveling inside the golgi from the receiving end to the shipping end
The _____ serves as the finishing and shipping area for products of the endomembrane system. This organelle adds molecular identification tags, or shipping codes, to products bound for other parts of the cell.
Golgi apparatus
___ is highly reactive and toxic to cells. Yet, it is contained within the peroxisomes
H2O2
Tay-Sachs is caused by the mutation in what gene?
HEXA gene. encodes an enzyme called hexosaminidase A
How many mitochondria can by in a cell?
Hundreds or thousands depending on its metabolic activity
Where do lysosomal enzymes work best?
In the acidic environment inside the lysosome
What is the most common form of TSD?
Infantile TSD. the nerve cells become distended with gangliosides and a deterioration of mental and physical abilities occurs -become blind, deaf, and unable to swallow - Death usually around age 4 or 5
What are some peroxisomal disorders?
Infantile refsum disease neonatal adrenoleukodystrohpy Rhizomelic chondrodysplasia punctata type 1 zellweger syndrome
The nuclear lamina is composed of:
Intermediate filaments and membrane-associated proteins
What is lysosome lumen?
It is the space bounded by the lysosome membrane
Smooth ER
Lacks ribosomes on cytoplasmic surface
Cristae provides a ___ surface are for enzymes involved in the synthesis of __
Large; ATP
What functions are completed by the smooth ER
Lipid synthesis Calcium ion storage Poison detoxification
Which organelle plays a role in intracellular digestion? ANSWER: plasmodesma ribosome Golgi apparatus chloroplast lysosome
Lysosome
A membranous sac of hydrolytic enzymes that can break down macromolecules and organelles that are damaged or no longer needed
Lysosomes
What processes are completed in Lysosomes
Macromolecule digestion Autophagy
What factors affect a microscopes ability to resolve cellular features?
Magnification Resolution Contrast
What are the 3 main types of protein fibers that make up the cytoskeleton in most eukaryotic cells?
Microtubules Microfilaments (actin filaments) Intermediate filaments
Site of cellular respiration
Mitochondria
Transport other proteins, vesicles, and organelles within the cell along cytoskeletal fibers. powered by ATP
Motor proteins
Do larger organisms have larger cells?
No. They have more cells. If cells were bigger they would not receive adequate nutrients and waste would build up
What maintains the shape of the nucleus?
Nuclear lamina
What regulates the entry and exit of many molecules from the nucleus
Nuclear pores
Autosomal Recessive developmental disorders that also result in skeletal and craniofacial dysmorphism, liver dysfunction, progressive sensorineural hearing loss, and retinopathy
Peroxisomal Disorders
Contain enzymes that transfer hydrogen from various substances to oxygen, producing hydrogenperoxide
Peroxisomes
Involved in the break down of long-chain fatty acids and other metabolic processes via oxidative reactions
Peroxisomes
The selective barrier that allows sufficient passage of oxygen, nutrients, and waste to service the volume of the cell
Plasma membrane
What is the name for the phospholipid bilayer that is embedded with many proteins and surrounds the cell?
Plasma membrane
What are the basic features of all cells?
Plasma membrane Cytosol Chromosomes (DNA) Ribosomes
What is autophagy?
Process by which lysosomes use enzymes to recycle the cell's own organelles and macromolecules
What processes are completed in the Rough ER
Protein Synthesis
What processes are completed in the Golgi Apparatus
Protein modification Cisternal Maturation
Large numbers of ribosomes are present in cells that specialize in producing which of the following molecules? ANSWER: starches steroids proteins glucose lipids
Proteins
What are the very large protein- RNA complexes that carry out protein synthesis (translation)
Ribosomes
What part of the cell carries out the cell's genetic instructions?
Ribosomes- use the information to make proteins
Distributes transport vesicles
Rough ER
membrane factory for cell
Rough ER
Nucleolus
Roughly spherical "sub-organelle" of the nucleus in most animal, fungal, and plant cells
Bright Field Microscopy
Simplest optical microscopy illumination -light passes directly through specimen, then through glass lenses -Very little contrast, specimen is usually stained
Phase-Contrast Microscopy
Specialized optic (rings etched on glass plates) enhance contrast in cells by amplifying variations in sample density No staining needed
Free ribosomes
Suspended in the cytoplasm; make proteins that function within the cytoplasm
What does the ER consist of
System of flattened sacs, cisternae, and inter-connected tubules *Accounts for more than half of the total membrane in many eukaryotic cells
In what ways is the endomembrane system similar to a factory?
The endomembrane system performs so many different functions in the cell that it is often compared to a factory with elaborate assembly lines and shipping capabilities.
What is the ER continuous with?
The nuclear envelope
Some proteins must pass into and out of the nucleus to regulate a variety of activities, including the synthesis of DNA, RNA, and ribosomes. Which of the following pathways would a protein destined for the interior of the nucleus follow?
The protein is translated on free ribosomes and then passes through the pore complex to enter the nucleus.
Who are credited for developing the basic concepts of the cell theory
Theodor Schwann Matthias Schleiden Rudolf Virchow
Process of cell fractionation
Tissue cells-homogenization-homogenate-centrifugation
Side of the golgi apparatus that ships material out
Trans face
Fluorescence Microscopy
UV light is transmitted through a specimen Fluorescently-tagged molecules absorb the UV light and emit visible light
What is cell fractionation
Use of ultracentrifuges to break cells apart and,when dealing with eukaryotic cells, can be used to seperate major organelles from one another
Differential Interference Contrast
Use polarizers to exaggerate differences in the optical density of a specimen Samples have a 3D like appearance
What grows fast volume or surface area?
Volume.. Surface area grows by a factor if n^2 and volume grows by a factor of n^3
Under which of the following conditions would you expect to find a cell with a predominance of free ribosomes? ANSWER: a cell that is secreting proteins a cell that is producing cytoplasmic enzymes a cell that is constructing its cell wall or extracellular matrix a cell that is digesting food particles a cell that is enlarging its vacuole
a cell that is producing cytoplasmic enzymes
what is the centrosome referred to as?
a microtubule organizing center
Which are made of eukaryotic cells? a. protists b. fungi c. animals d. plants e. all of the above
all of the above
All of the following are part of a prokaryotic cell except ANSWER: ribosomes. DNA. a plasma membrane. a cell wall. an endoplasmic reticulum.
an endoplasmic reticulum.
basal body
anchors the cilium or flagellum (9 triplets of microtubules).
carrier proteins
bind to molecules and change shape to shuttle them across
noncompetitive inhibitors
bind to part of an enzyme separate from the active site, causing the enzyme to undergo a conformational change
competitive inhibitors
bind to the active site of an enzyme
study of how organisms manage their energy resources
bioenergetics
How do cells recognize each other
by binding to surface molecules, often carbohydrates, on the plasma membrane
What does hexosaminidase A do?
catalyzes the degradation of fatty acid derivatives known as gangliosides. the gangliosides accumulate in the nerve cells of the brain
steps of phagocytosis
cell engulfs a particle or cell by forming a food vacuole. food vacuole then fuses with a lysosome. enzymes in lysosome break down particle.
microfilaments that function in __ contain the motor protein ___ in addition to actin
cell motility; myosin
what extracellular structure distinguishes animal cells from plants cells
cell wall
extracellular structures
cell walls extracellular matrix intercellular junctions
Cell structure is correlated to ___
cellular function
includes both anaerobic and aerobic respiration
cellular respiration
cell walls are made of ____ embedded in other polysaccharides and protein
cellulose fibers
Where are microtubules nucleated and grown out of in eukaryotic cells?
centrosomes (near the nucleus)
electrochemical gradient
chemical force (ions conentration gradient) and an electrical force (effect of the membrane potential on the ions movement)
the three main kinds of work in cells
chemical, mechanical, and transport
Cargo leaves the endoplasmic reticulum and is sent to the _____ Golgi cisterna, which then matures through the redistribution of enzymes to become a _____ Golgi cisterna and eventually the _____ Golgi cisterna.
cis; medial; trans
an organic cofactor
coenzyme (many vitamins)
a non-protein compound that is bound to an enzyme and required for the enzyme to catalyze a biochemical reaction
cofactor
most abundant ECM glycoprotein. forms strong fibers outside the cells. most abundant protein in animals (25%)
collagen
Golgi Apparatus
consists of cisternae functions as a major shipping and receiving center of cell
aerobic respiration involves
consumption of glucose and oxygen to make ATP
a form of allosteric regulation that can ampilify enzyme activity
cooperativity. stabilizes in favorable conformational form
occurs when active transport of a solute indirectly drives transport pf another solute
cotransport
a network of protein fibers extending throughout the cytoplasm of a cell. Can be quickly disassembled and reconstructed
cytoskeleton
spot-like transmembrane protein-based adhesions that fasten cells together into strong sheets. anchoring junctions
desosomes
pinocytosis
dissolved molecules in the extracellular environment are taken up by the cell when some of the fluid is engulfed in tiny vesicles
lipids in the plasma membrane most often ____ but phospholipids can also ___ but this is rare.
drift laterally; "flip-flop"
motor protein that drives the bending movements of a cilium or flagellum
dynein (has multiple subunits)
transport protein that generates voltage across a membrane
electrogenic pump
The production department of the endomembrane system, where lipids and proteins are made, is the
endoplasmic reticulum (ER).
What are the consecutive steps of protein synthesis?
endoplasmic reticulum-cis Golgi cisternae- medial Golgi cisternae- trans Golgi cisternae- Plasma membrane- extracellular space
isotonic solution
equal concentrations
provides structural support for cells in animals, segregates tissues from one another, and contributes to regulation of intercellular communication
extracellular matrix
bind to transmembrane proteins, integrins, and attach ECM to the cell
fibronectins
as temps drop, the membranes transition from a ___ state to a ___ state
fluid; solid
Scanning electron microscopes (SEMs)
focus a beam of electrons onto the surface of a specimen images with a 3D appearance
Transmission Electron Microscopy (TEMs)
focus a beam of electrons through a specimen. used mainly to study the internal ultrastructure of cells
the energy that is available to do work
free energy
What does the mitochondria contain?
free ribosomes and circular DNA molecules
large and small ribosomal subunits exit the nucleus through nuclear pores and enter the cytoplasm where they are assembled into __ during the stage of protein synthesis
functional ribosomes
cytoplasmic channels between adjacent cells. communicating junctions
gap junctions
In the thylakoid membranes, what is the main role of the antenna pigment molecules?
harvest photons and transfer light energy to the reaction-center chlorophyll
channel proteins
have hydrophilic channels that certain ions or molecules can use to enter or leave the cell
All proteins are synthesized by ribosomes in the cell. Some ribosomes float freely in the cytosol, while others are bound to the surface of the endoplasmic reticulum. Most proteins made by free ribosomes function in the cytosol. Proteins made by bound ribosomes either function within the endomembrane system or pass through it and are secreted from the cell. Which of the following proteins are synthesized by bound ribosomes?
insulin lysosomal enzyme ER protein
proteins that penetrate the hydrophobic cores and often span the entire cell membrane
integral membrane proteins
transmit changes in the ECM to the cytoskeleton
integrins
facilitate cell adherence, interaction,and communication through direct physical contact
intercellular junctions
fibrous proteins supercoiled into thicker cables
intermediate filaments
polymers of intermediate filament proteins, including the protein keratin
intermediate filaments
What two compartments does the inner membrane of mitochondrion create?
intermembrane space mitochondrial matrix
bulk transport
large molecules cross the membrane via vesicles. uses energy
any molecule that binds specifically to a receptor site of another molecule
ligand
at warm temps cholesterol helps ___ movement and at colder temps it helps keep the membrane ____ fluid
limit; more
the temperature at which a membrane solidifies depends on its
lipid composition
Functions of smooth ER:
lipid synthesis carbohydrate metabolism calcium storage detoxification of poisons and drugs- usually with addition of hydroxyl group, making them more soluble
How much cholesterol do plants have?
little to none
Tay-Sachs disease is caused by a ___ disorder.
lysosomal
A ___ is a recycling center in the cell because it breaks down damaged organelles and returns organic monomers to the cytosol.
lysosome
which is more acidic lysosome lumen or cytosol?
lysosome lumen
the voltage difference across the membrane
membrane potential
two intertwined strand of actin filaments
microfilament
forms a 3D network called the cortex just inside the plasma membrane to help support the cell's shape
microfilaments
polymers of protein called actin
microfilaments
polymers of proteins called tubulins
microtubules
the thin layer between primary walls of adjacent cells
middle lamella
which organelles are not part of the endomembrane system?
mitochondria, chloroplasts, and peroxisomes
Energy released by the electron transport chain is used to pump H+ ions into which location?
mitochondrial intermembrane space
Unsaturated fatty acids make membranes ___ fluid than saturated fatty acids
more
Parts of the endomembrane system
nuclear envelope endoplasmic reticulum golgi apparatus lysosomes vacuoles transport vesicles plasma/cell membrane *These are either continuos or connected by transport vesicles
turgid
occurs with a cell wall in a hypotonic solution. wall becomes firm
the hydrophobic regians of integral proteins consist of:
one or more nonpolar amino acids (often coiled into alpha helices)
the active site can lower the activation energy by
orienting/positioning substrates correctly straining the substrates bonds providing a favorable microenvironment covalently bonding to the substrate
the control of solute concentrations and water balance
osmoregulation
Carbon dioxide (CO2) is released during which of the following stages of cellular respiration?
oxidation of pyruvate to acetyl CoA and the citric acid cycle
transfer of electrons between reactants
oxidation-reduction reactions. some redox reactions do not transfer electrons but change the electron sharing in covalent bonds
an enzymes activity can be affected by
pH chemicals temperature
9 triplets of microtubules arranged in a ring that surrounds a pair of centrioles. consists of a "cloud" of amorphous material.
pericentriolar matrix. makes up the centrosome
Proteins that are bound to the surface of the membrane
peripheral membrane proteins
What are food vacuoles formed by?
phagocytosis
some types of cells can engulf other cells and cell debris by ___
phagocytosis
what are the three types of endocytosis
phagocytosis, pinocytosis, receptor-mediated endocytosis
Robert Hooke and Antonie van Leewenhoek
pioneered the advancements in microscopy that the development of the cell theory possible
most cells synthesize and secrete materials that are external to the ___
plasma membrane
channels between adjacent plant cells
plasmodesmata
Types of intercellular junctions
plasmodesmata tight junctions desmosomes gap junctions
most allosterically regulated enzymes are made two or more ___ subunits
polypeptide
cell walls have many sections
primary cell wall middle lamella secondary cell wall plasmodesmata
fermentation
produces ATP through the degredation of sugars without oxygen
the main electrogenic pumps of plants, fungi, and bacteria
proton pumps
the primary cell wall is
relatively thin and flexible
Mitochondrion grow and ____ almost independently in a cell
reproduce
Functions of the nucleolus
ribosomal RNA (rRNA) synthesis assembly of large and small ribosomal subunits (made of rRNA and multiple subunits)
What are ribosomes made of?
ribosomal RNAs and multiple polypeptide subunits
Which organelle of the endomembrane system functions in protein synthesis? The part of the endomembrane system that is studded with ribosomes for protein synthesis is the __
rough ER
found in some cells. added between the plasma membrane and the primary cell wall
secondary cell wall
Chromosome
single DNA molecule associated with proteins
Which type of organelle is primarily involved in the synthesis of oils, phospholipids, and steroids? ANSWER: ribosome smooth endoplasmic reticulum contractile vacuole lysosome mitochondrion
smooth endoplasmic reticulum
major electrogenic pump of animal cells
sodium-potassium pump
hypertonic
solute concentration greater outside of cell
hypotonic
solute concentration is greater inside cell
a transport protein is ___ for the substance it moves
specific
Besides phospholipids, what other lipids are present in the plasma membrane?
sterols
the reactant that an enzyme acts on
substrate
The ATP made during glycolysis is generated by
substrate-level phosphorylation.
to regulate metabolic pathways a cell
switches on or off transcription genes that encode specific enzymes or by regulating activity of enzymes - functional groups can be added to the side chains of specific amino acids in the protein to regulate some enzymes
Endomembrane system
system of internal membranes that partition the cell into organelles
receptor-mediated endocytosis
the binding of ligands to receptors trigger vesicle formation
What does phagocytosis result in?
the formation of a food vacuole in the engulfing cells
what is "work" in a biological system?
the rearrangement of molecules via chemical reactions
Assume a thylakoid is somehow punctured so that the interior of the thylakoid is no longer separated from the stroma. This damage will have the most direct effect on which of the following processes?
the synthesis of ATP
do hydrophilic molecules pass through the plasma membrane easily
they can't pass through without assistance. Includes: ions and large polar molecules
In a plant cell, where are the ATP synthase complexes located?
thylakoid membrane and inner mitochondrial membrane
membranes of neighboring cells are pressed together by interactions between transmembrane proteins, preventing leakage of extracellular fluid
tight junctions
the ability of a solution to cause a cell to gain or lose water
tonicity
metabolism
totality of chemical reactions that occur in a living organsim
integral membrane proteins that span the entire plasma membrane
transmembrane proteins
Membrane- bound sacs within the cell that are larger then vesicles
vacuoles
Like a shipping container or truck, a_____ transports materials between various parts of the endomembrane system.
vesicle
How does a light microscopy work?
visible light passes through a specimen and then through glass lenses, magnifying the image.
Peroxisomes convert H2O2 to ____ and ____
water and oxygen
What can pass through plasmodesmata
water, small solutes, and sometimes proteins and RNA
plasmolysis
when the cell membrane pulls away from the wall when the cell is in a hypertonic environment
Do mitochondria have a smooth outer membrane and an inner membrane folded into cristae?
yes
is NAD+ a coenzyme?
yes
do hydrophobic molecules pass through the plasma membrane easily?
yes, dissolve in the lipid bilayer and pass through membrane rapidly. (hydrocarbons)
can proteins move in the plasma membrane?
yes, they are slower than lipids
are living organisms considered open systems?
yes. lose a lot of energy by heat
