BIO181
The formation of the complex molecules in living organisms is made possible by what property or carbon?
Carbon forms up to 4 covalent bonds
Which level of organization is common to all life forms?
Cell
The equation, C6H12O6 + 6O2 → 6CO2 + 6H2O (ATP + heat), describes what process?
Cell respiration
What do contact-dependent signaling and paracrine signaling have in common?
Cells release a signal that affects neighboring cells
What structure easily distinguishes a plant cell from an animal or bacterial cell?
Chloroplast
Which of the following correctly describes bases that pair with each other in the DNA double helix?
Cytosine bonds with guanine
Where does glycolysis takes place?
Cytosol
The key structural difference between DNA and RNA is
DNA contains a different sugar than RNA
In Barrow, Alaska, the sun does not set for several months in the summer. Based on what you know about photoperiodism, what type of plant is most likely to flower during the summer in Barrow?
Day-neutral plants
Osmosis describes the movement of water from an area of high to low solute concentration
False
Saturated fats are composed of fatty acids with several double bonded carbons.
False
Substrate-level phosphorylation occurs when protons pass through ATP synthase and combine with oxygen to make water.
False
Table salt forms from sodium and chloride via hydrogen bonding.
False
The Calvin cycle is only capable of fixing carbon dioxide in the dark.
False
Vertical evolution, whereby living organisms evolve from a common ancestor ("tree of life"), is the only mechanism of evolution on Earth
False
What structural component makes fat an efficient macromolecule able to store large amounts of energy?
Fats have long chains of C-H bonds, which store large amounts of energy
The conversion of pyruvate to acetyl CoA is irreversible. Predict what would happen to fatty acids as a result of this.
Fatty acids cannot be converted into carbohydrates.
Our species is called Homo sapiens. The first word refers to which taxonomical grouping?
Genus
If you were asked to build a model of a nucleotide, what structures would you need to represent in the model?
-Five carbon sugar -Base -Phosphate group
With an atomic mass of 16 and an atomic number of 8, it follows that oxygen
-Has 8 electrons -Can readily form bonds with two other atoms
How many net ATP and NADH molecules are produced from one molecule of glucose during glycolysis?
2 ATP, 2 NADH
How many ATP and NADH molecules are produced from each molecule of glucose in the citric acid cycle only?
2 ATP, 6 NADH
If a specimen contains 30% adenine in its DNA then how much cytosine will there be?
20% (30+30) + (20 + 20) = 100
How many nucleotides are contained in a single codon?
3
The purpose of the light reaction is to produce __________.
ATP and NADPH
What is produced during the citric acid cycle?
ATP, NADH, and FADH2.
Plant photosynthesis and the consumption of plants by animals is best explained by what unifying principle of life?
All living organisms use energy.
How might a plant cell compensate for the excessive membrane fluidity that occurs during prolonged exposures to elevated temperature?
Alter the lipid composition to have longer phospholipid tails and fewer double bonds
How can a living cell increase the rate of a chemical reaction?
By using a catalyst
Which of these molecules are required for the Calvin cycle?
CO2 NADPH Rubisco ATP
Which of the following are physical stimuli that influence plant responses?
CO2, light, water vapor, gravity
What process best characterizes Ca2+ movement from the cytosol (low Ca2+ concentration) into the endoplasmic reticulum (high Ca2+ concentration)?
Calcium movement involves active transport
Which of the following are products of the Calvin cycle?
Glyceraldehyde-3-phosphate (G3P) ADP Pi NADP+
Which is not a lipid?
Glycogen
What processes will occur in the presence or absence of oxygen?
Glycolysis
Identify a reactant in the light reaction of photosynthesis.
H2O
Which of these organisms consume organic molecules to live?
Heterotrophs
What type of bonding is likely to occur between two water molecules or strands of DNA?
Hydrogen
Genes expressed at relatively constant levels in tissues regardless of variations in the animal's condition are called
constitutive genes.
The strongest chemical bonds are
covalent bonds
Where does glycolysis take place?
cytosol
Isotopes are different forms of the same element that
differ in their number of neutrons
How does an enzyme work to catalyze a reaction?
It lowers the activation energy of a reaction.
Which of the following statements in TRUE?
Many active genes are found in euchromatin, because proteins involved in transcription can easily access these regions of DNA.
The following mRNA transcript would result in which polypeptide sequence?5′-ACU UUC ACU AUG UUU UUA UCC UCC ACU CCU UGA-3′Use the following codons and the amino acids they encode.AUG = Start or Met; UUU, UUC = Phe; UUA, UUG = Leu; UCU, UCC = Ser; CCU, CCC = Pro; ACU, ACC = Thr; UGA = Stop.
Met-Phe-Leu-Ser-Ser-Thr-Pro
Assume each of the following letters represents an amino acid. Which type of gene mutation occurred to produce the following protein sequence?Normal: JAYBIRDCATPAWMutated: JAYBIRDBATPAW
Missense
In addition to ATP, what are the end products of glycolysis?
NADH and pyruvate
Water diffuses through certain organs such as the kidneys and bladder much faster than would occur by passive diffusion through a lipid bilayer alone. What accounts for this more rapid rate of water transport in these organs?
Presence of aquaporin channels for facilitated diffusion of water
Sickle cell anemia is a condition in which red blood cells exhibit a characteristic "sickle" shape. This arises from a mutation or change in one of the amino acids found in hemoglobin. A single amino acid mutation would directly affect a proteins ________ structure.
Primary
Points of control in eukaryotic gene expression include ____. (Check all that apply)
RNA processing translation transcription post-translation
The process that most involves the selective uptake of a specific cargo molecule into the cell through receptor binding and aggregation
Receptor-mediated endocytosis
Which factors are utilized by the cell to recognize the stop codon and disassemble the translation machinery?
Release factors
Why would a diet containing unsaturated fats that form triglycerides be better for an athlete when considering energy levels and health?
Saturated fats are packed closer together, making their breakdown for energy release less efficient and forming unnecessary fat deposits
Sodium concentrations are higher outside and glucose concentrations are higher inside the cell. Using the same membrane protein for Na+ and glucose transport, what is it called when a Na+ electrochemical gradient is used to drive glucose transport into the cell against its concentration gradient?
Secondary active transport
Subunits (monomers) sometimes build up to form a macromolecule (polymer). Which of the listed molecules is NOT a monomer of a polymer
Steroid
The movement of sucrose and H+ into the cell by the same membrane protein reflects the actions of what type of transporter?
Symporter
Which statement about RNA processing in eukaryotes is INCORRECT?
The excision of introns from pre-mRNA is the only modification required to produce a mature mRNA.
What makes phospholipids good at forming cellular membranes?
The polar and non polar regions create an amphipathic bilayer of phospholipids
In the equation, C6H12O6 + 6O2 → 6CO2 + 6H2O, ATP and heat would be on which side of the reaction?
The products because this is an exergonic reaction.
When considering nomenclature for scientific names, what is the difference between the two primates, Homo sapiens and Homo erectus?
They are animals of a different species.
Which protein influences the ability of RNA polymerase to transcribe genes?
Transcription factors
Which product(s) of nonstructural genes are never translated?
Transfer RNA and ribosomal RNA
Which membrane component is most important for allowing large, charged molecules to pass through the membrane?
Transmembrane proteins
A community is composed of different populations of animals and plants.
True
An mRNA molecule, which contains the information to make a polypeptide, is constructed using a DNA template.
True
Both eukaryotes and prokaryotes require a promoter region for gene transcription.
True
DNA is a double helix structure whose strands are held together by hydrogen bonds with A to T and C to G base pairing.
True
Diffusion is the movement of a molecule from an area of high to low concentration.
True
Diffusion is the movement of molecules from an area of high to low concentration
True
Glycolysis involves ten enzyme-catalyzed steps that can be grouped into three phases: energy investment phase, cleavage phase, and the energy liberation phase.
True
Ion gradients across the membrane drive numerous cellular functions
True
Lipids and carbohydrates can both be used by animals to store energy.
True
Loosely packed chromatin is said to be in an open conformation.
True
Photons from light can boost an electron to a higher energy state.
True
Plant behavior is defined as response to stimuli
True
Plant behavior is defined as response to stimuli.
True
Temperature, pH, and ionic concentrations each play an important role in the proper functioning of enzymes.
True
The presence of integral proteins allows membranes to be selectively permeable to certain molecules.
True
The primary structure of a protein ultimately determines its three-dimensional structure.
True
The termination of translation occurs when a release factor recognizes the stop codon.
True
When a molecule of NAD+ gains a hydrogen atom, the molecule becomes reduced.
True
When table salt dissolves in water, the salt is called the solute
True
Whether a signaling molecule operates locally or over long distances, it must bind to a specific receptor to elicit a cellular response.
True
Carbohydrate assembly occurs by
a dehydration reaction between monosaccharides that form polysaccharides and disaccharides
When NADP+ __________.
accepts electrons in the light reaction, it is reduced to form NADPH
The production of second messengers in signal transduction offers at least two advantages, speed and
amplification
If orange juice has a pH of 4 then it can be described as
an acidic solution
If orange juice has a pH of 4 then it can be described as
an acidic solution.
In photosynthesis, carbon dioxide gas is reduced and combines to form glucose. This is an example of
anabolism
In photosynthesis, carbon dioxide gas is reduced and combined to form glucose. This is an example of
anabolism.
Fats and fatty acids
are insoluble in water
Molecules are made up of __________.
atoms
A cell responds to a signal it sent. This is an example of
autocrine signaling
A cell secretes a growth factor that binds to receptors on its own membrane preventing it from proliferating. This is an example of
autocrine signaling
If the tight junctions in the intestine were disrupted
bacteria could move from the intestines into the bloodstream causing an infection
The phenomenon through which populations of organisms change over several generations is termed
biological evolution
For water to vaporize
both energy must be supplied and hydrogen bonds broken
A comparison of mitochondria and chloroplast shows that __________.
both generate ATP via a H+ electrochemical gradient
The organelles most likely to have to ability to divide and reproduce themselves like a cell would be
both mitochondria and chloroplasts
The addition of a strong acid like HCl to an aqueous solution would result in
both the release of H+ and a decrease in pH
The process of breaking glycogen down to glucose is an example of
catabolism.
The process through which cells can detect and respond to signals in their extracellular environment is called
cell communication
Where does the Calvin cycle occur?
chloroplast stroma
The best way to distinguish an epigenetic effect from other types of gene regulation would be to
confirm that the change in gene expression is passed from cell to cell but does not involve a change in the DNA sequence.
The organelle responsible for the biosynthesis of proteins that are destined for secretion by the cell is the
endoplasmic reticulum
Following a meal, glucose must move from the gut lumen where there is a high glucose concentration into the intestinal cell where there is a relatively low level of glucose. This movement is called
facilitated diffusion
Eukaryotes differ from prokaryotes, in part because eukaryote cells
have a membrane-bound nucleus.
A significant role played by pH buffers is to
limit major shifts in the amount of H+ and OH- in solution
Cyanide binds and impairs one of the molecules involved in the synthesis of ATP. The target organelle for cyanide must be
mitochondria
In the reaction A- + B → A + B-, ________
molecule A is oxidized and molecule B is reduced.
All of the following are a form of potential energy that can be used by a cell except
nitrogen.
A substrate binding to an enzyme is most similar to a signal molecule binding to a
receptor
The primary function of an enzyme or any biological catalyst is to
reduce the energy of activation and increase the rate of a reaction.
In a catabolic reaction, electrons from food are
removed by oxidation and stored in NADH.
An activator is to an enhancer as a(n) _____ is to a silencer.
repressor
In the Calvin Cycle, CO2 binds to __________.
ribulose bisphosphate
Glycogen is to animal cells as ________ is to plant cells.
starch
Roots contain starch-heavy plastids known as:
statoliths
The main structure for gas exchange in plants is called the __________.
stomata
The ATP made during glycolysis is generated by
substrate-level phosphorylation.
What serves as the "translator" or intermediary between an mRNA codon and an amino acid?
tRNA
The grouping or classification of a species is termed
taxonomy
Both ATP and NADPH are required for ___________.
the Calvin cycle only
The atomic number of an atom is
the number of protons in the atom
In all exergonic reactions
the reaction proceeds with a net release of free energy
In some cases, just a few hormone molecules binding to the surface of a cell can trigger a very large response because
the signal is amplified by activation of enzymes that each catalyze multiple reactions
The ultimate source of energy for reactions in a plant is __________.
the sun
A variety of finch species within the Hawaiian Islands have acquired different types of beaks needed for utilizing specific food resources. What is the likely process by which these different species of finches came about?
vertical descent with mutation
If you wanted to install lights to grow plants indoors, the type of light would you want to use is __________.
visible light, because it has low energy wavelengths
If you wanted to install lights to grow plants indoors, the type of light would you want to use is
visible light, becuase it has low energy wavelengths
What type of bonds form from the unequal sharing of electrons?
Polar covalent
Boa constrictors on an island are an example of a/an __________.
Population
NADPH is produced by __________.
light reactions alone
Which is the largest molecule?
A polysaccharide, starch
Which of the following base pairs would be targeted and repaired by a mismatch repair system?
A-G
________ bind two or more ions or molecules and transport them in opposite directions across a membrane.
Antiporters
_________ bind two or more ions or molecules and transport them in opposite directions across a membrane
Antiporters
Plants require a lot of water for transpiration, metabolism, and photosynthesis. How is water used in photosynthesis?
As an electron donor
In the periodic table, the value that refers to the number of protons and neutrons is
Atomic mass
Which is FALSE when comparing RNA and DNA?
Both are composed of the same types of nucleotides.
A bowl of sugar water is very stable. However, cells can rapidly break down sugar into carbon dioxide and water. What is the best explanation for this observation?
Enzymes in the cell catalyze the breakdown of glucose.
If a person's ability to form steroids in his/her body was destroyed, what functions would be affected?
Estrogen would no longer be produced in the body.
A dehydration reaction that builds larger molecules from smaller units requires the addition of a water molecule.
False
A single gene always encodes for a protein.
False
If the sequence for one strand of DNA is 3′-TCGATT-5′ then its complementary strand would have a sequence of 3′-AGCTAA-5′.
False
If there is 28% adenine, then there must be 28% cytosine for the DNA composition of a particular organism.
False
In prokaryotic cells, the electron transport system occurs in the mitochondria.
False
Metabolism refers to only those reactions that release energy.
False
If a cell's splicesomes were mutated so they no longer functioned normally, what consequences would result?
Introns would remain in the mature mRNA.
In water, MgCl2 dissociates into Mg2+ and Cl-. Based on this information what type of bond is involved in the formation of MgCl2?
Ionic
A researcher determined that a strain of E. coli is producing a shortened version of a protein required for glucose metabolism. What type of mutation could be responsible for this shorter than normal protein?
Nonsense mutation
Amino acid is to protein as as _______ is to nucleic acid
Nucleotide
The amino acids of a growing polypeptide chain are held together by what kind of bond during the elongation stage of translation?
Peptide
How does a macrophage (immune cell) consume a bacteria?
Phagocytosis
The equation, 6CO2 + 6H2O →C6H12O6 + 6O2, describes which process?
Photosynthesis
Sodium ions move from one cardiac muscle cell to an adjacent cell causing them to contract in unison. This is an example of
direct intracellular signaling
When one oxygen atom shares two pairs of electrons with another oxygen atom, O2 is formed via a(n)
double covalent bond
A community of organisms interacting with their physical environment is a/an
ecosystem
After ATP donates a phosphate group in a couple reaction, it becomes ADP. The ADP can be converted back to ATP in a(an) ________ reaction.
endergonic
Hormones are released from one cell and act on other cells in distant organs. This is an example of
endocrine signaling
When insulin is secreted from the pancreas and acts on muscle cells to increase glucose uptake, this is an example of
endocrine signaling
For heart muscles to beat in a coordinated rhythm ions must move from one cell to the next through ________.
gap junctions
You inject a dye into a cell and observe that it moves into adjacent cells. This would occur through ________.
gap junctions
A cell's ability to control their level of gene expression is called
gene regulation.
During a period of low water availability, the prokaryotic structure that would protect a cell from desiccation (drying out) is the
glycocalyx
Gravitropism is defined as
growth in response to the force of gravity
Water
has cohesive properties
Whether the external temperature is hot or cold, birds maintain an internal body temperature of approximately 40°C. This is an example of
homeostasis
When placed in an aqueous solution, amphipathic molecules will orient themselves with
hydrophobic hydrocarbon chains in the middle, and hydrophilic head groups facing the water.
A(n) ________ operon is one whose transcription is increased by effector molecules.
inducible
Intervening sequences that are transcribed, but not translated into protein are called
introns.
A dehydration reaction
is used to form polymers.
The LEAST hydrophilic substance is
oil
Cellular respiration produces the most energy in the form of ATP from
oxidative phosphorylation.
A cell secretes a growth factor that binds to receptors on neighboring cells causing them to proliferate. This is an example of
paracrine signaling
The organisms that most specifically utilize light energy to make organic molecules from inorganic molecules are __________.
photoautotrophs
Gap junctions in animal cells are most similar to ________ in plant cells?
plasmodesmata
During glycolysis, glucose is broken down into
pyruvate.
Water held behind a dam would best reflect
potential energy.
In a eukaryotic cell, the direct product of transcription is
pre-mRNA.
The sequence of amino acids in a protein is its _____ structure.
primary
The sequence of amino acids in a protein is its ______ structure.
primary
A plant performing photosynthesis will __________.
produce oxygen and consume carbon dioxide
A cell wall is present in
prokaryotic and plant cells
Transcription begins near a site in the DNA called the
promoter
The macromolecule composed of amino acids is a
protein
What structure best represents a polymer?
protein
The nucleus of an atom is composed of
protons and neutrons
During glycosis, glucose is broken down into
pyruvate
In the reation pyruvate + CoA + NAD+ > acetyl CoA + CO2 + NADH,
pyruvate is oxidized and NAD+ is reduced
In the reaction pyruvate + CoA + NAD+ → acetyl CoA + CO2 + NADH,
pyruvate is oxidized and NAD+ is reduced.
A protein's _____ structure contains helixes and sheets that result from hydrogen bonding between carboxyl and amino groups of the polypeptide chain.
secondary
The best way to describe cellular membranes is
semifluid with lipid rafts
The portion of an amino acid that makes it unique among the 20 different amino acids is its
side chain or R-group.
Diabetics can be given insulin that binds to receptors on cells throughout the body increasing glucose uptake. Insulin is an example of a
signal
The gonads produce steroids. The specific steroid-producing organelles in gonad cells are
smooth endoplasmic reticulum
If contents of the intestines can leak into the blood then ________ must have been damaged
tight junctions
The process that produces mRNA from DNA is called
transcription.
