Bio Exam 2
Complete the statements below, and then number them to indicate the order of these two major steps necessary to copy a DNA sequence during PCR. _______The enzyme________"reads" each template strand and adds complementary nucleotides to make a new strand. _______The two original strands of the DNA molecule can be separated by_________.
(2) The enzyme DNA polymerase "reads" each template strand and adds complementary nucleotides to make a new strand. (1) The two original strands of the DNA molecule can be separated by heat.
On most food labels, the amount of energy stored is listed in kilocalories, which are also referred to as kcals or Calories (the capital "C" indicates kilocalories, not calories). One Calorie is
equal to 1,000 calories, or 1 kcal.
Break ATP hydrolysis is called a
ex
If you can eat one gram of each of the following, which would give you the greatest amount of ATP production? carbohydrate fat nucleic acid protein ethyl alcohol
fat
Which type of organic molecules store the most energy per gram? glycogen proteins starch fats (triglycerides) and glycerol nucleic acids
fats (triglycerides) and glycerol
Occurs entirely in the cytoplasm of eukaryotic cells apply to fermentation or aerobic respiration?
fermentation
Produces lactic acid or alcohol applies to fermentation or aerobic respiration?
fermentation
Chloroplasts are organelles specialized
for photosynthesis
If the basepairing is correct, the ribosome will catalyze
formation of a peptide bond between amino acids
Which of the following is/are necessary for biofuel production by algae? a. sunlight b. sugar c. CO2 d. soil e. all of the above f. a and b g. a and c
g. a and c
Which of the following is not correctly matched? the bond between two carbon atoms in glucose; potential energy wind turning a windmill; kinetic energy pizza; potential energy gasoline; kinetic energy leg muscle doing jumping jacks; kinetic energy
gasoline; kinetic energy
What is the energy source used for ATP production during aerobic respiration in human cells? glucose oxygen ATP water sunlight
glucose
Blood circulation in the human body delivers _____ to cells in order for aerobic respiration to occur. ATP and water glucose and oxygen water and oxygen glucose and ATP carbon dioxide and water
glucose and oxygen
You go outside and take a short walk down the street and back. Which of the following are you most likely to be using for energy? triglycerides nucleic acids protein glycogen fat
glycogen
the molecule that serves as short-term energy storage.
glycogen
You consistently eat more Calories than you expend each day. In the short term this extra energy is stored as _____, and in the long term it is stored as _____. starch; fat glycogen; protein sugar; glycogen glycogen; fat protein; fat
glycogen; fat
If you exercise for an extended period of time, you will use energy first from________, then from _______. a. fats; glycogen b. proteins; fats c. glycogen; proteins d. fats; proteins e. glycogen; fats
glycogen; fats
You exercise for one hour at the gym. During this exercise, you will first use energy from _____, then from _____. fats; glycogen proteins; fats glycogen; proteins glycogen; fats fats; proteins
glycogen; fats
What is the source of ATP produced during fermentation? glycolysis There is no ATP produced during fermentation. the citric acid cycle the electron transport system The third and fourth answers are correct.
glycolysis
Which step of cellular respiration does not require oxygen
glycolysis
Which step of cellular respiration is referred to as sugar splitting
glycolysis
Which of the following colors is least useful in photosynthesis? green orange blue yellow red
green
A hovercraft (that "hovers" over the surface, without touching the surface) traveling along a road should have less escape of _____ energy relative to a car driving the same distance. heat potential fuel chemical fuel, chemical, and potential
heat
Where does the energy to make ATP come from?
heterotrophs and
Short wavelengths correspond to
high energies
If chromosome pairs contain the same genes=
homologous
The nitrogenous bases make up the "rungs" of the helix by
hydrogen bonding with each other (forming base pairs)
_______amino acids tend to be found folded inside a protein, whereas _______ amino acids interact with water on the outside of the protein.
hydrophobic; hydrophilic
Being able to identify changes in genes can guide
identification of causes of disease
Chlorophyll a is found
in the Thylakoid membranes
The first stage or aerobic respiration, known as glycolysis, takes place
in the cell's cytoplasm.
Your pet plant is not doing a great job of making enough glucose to build cellulose for its cell walls. Which of the following is most likely to help? reducing the amount of time that the plant is exposed to sunlight increasing the CO2 concentration in the air near the plant decreasing the CO2 concentration in the soil near the plant adding cellulose to the soil in which the plant is growing adding glucose in the water used to water the plant
increasing the CO2 concentration in the air near the plant
Why is it important to inject a recombinant gene into an embryo instead of an adult? a. Adult cells do not divide b. Injecting the gene into an emboyo ensures that all body cells reviecne a copy of the gene c. Only embtoyic cells use regulatory sequence d. Adult cells would recognize a hybrid gene as foreign and would attack it. e. Adult cells are too large to handle for microinjections.
injecting the gene into an emboyo ensures that all body cells reviecne a copy of the gene
When NAD+ picks up electrons, it becomes NADH (the electron-carrying form of the molecule). NADH then carries the electrons to the
inner membrane of the mitochondria, where NADH gives them up (reverting to NAD+).
Gene: contains (its like the recipe)
instructions on how to build a protein
When is DNA duplicated in the cell cycle?
interphase S
Glycolysis is a series of chemical reactions that splits glucose in half,
into two smaller molecules of pyruvate. Each of these pyruvate molecules has three carbon atoms in its backbone.
In an undividing cell, the DNA genome is not condensed
into visible Chromosomes, it exists in chromatin form
The Stroma
is a fluid-filled compartment
The second stage of photosynthesis
is the Calvin cycle (take place in the chloroplast's stroma)
Scientists measure food energy in units called calories. A calorie (in lower case)
is the amount of energy required to raise the temperature of 1 g of water by 1°C (1 degree Celsius). In essence, a calorie is a measurement of energy—the capacity to perform a certain amount of work.
Failure to base-pair means that it
is the wrong tRNA carrying the wrong amino acid
The glucose made from photosynthesis is used by plants (or algae) in a variety of ways:
it can be used for growth-to build new plant parts, like stems and fruit-or as an energy source to power cellular reactions.
Carbon dioxide (CO2) is not just the gas that plants and algae take in during photosynthesis,
it is also the gas that is released by burning fossil fuels
Heat is best described as: kinetic energy associated with random particle motion. potential energy associated with the breaking of chemical bonds. kinetic energy associated with chemical bonds. kinetic energy associated with the formation of chemical bonds. potential energy associated with random particle motion.
kinetic energy associated with random particle motion.
As the cyclist begins to pedal, his body converts this potential energy into the
kinetic energy of muscle contraction and heat.
Catabolic
large molecules are broken down into small ones. Energy is released.
oxidation means
lost of an electron
Long wavelengths correspond to
low energies
You can think of the genetic code as the key that cracks the
mRNA code. ; the genetic code tells us what amino acid each codon stands for.
_______is the product of transcription, and _______ is the product of translation.
mRNA; a protein
DNA profiling with STRs is most accurate when: it is on the chromosome. many STRs are examined. it is in the coding region of the chromosome. it is from a parent to their child. contamination of DNA had occurred
many STRs are examined.
Cellular respiration takes place in the
mitochondria (power house)
Overall in photosynthesis, each molecule is
more energetic than its predecessor (energetically uphill)
How many human chromosomes are in Mitotic Prophase? How many sister chromatids?
46, 92
The number of calories in a gram of fat.
9
Waste products produced during respiration include
CO2, and H2O
An investigator has a DNA profile of a suspect and is comparing it to profiles of convicted individuals in a national database. This investigator has just accessed the database known as ________________. CODIS HELIX PCR GENOME STR
CODIS
When does carbon fixation occur in photosynthesis ?
Calvin cycle
How do you think replacing one amino acids in a protein with another amino acid would affect the shape of that protein? Changing one amino acids always changes the shape The protein will not be as tightly coiled Changing one amino acid may or may not change the shape of the protein.
Changing one amino acid may or may not change the shape of the protein.
DNA can be "wrapped" around proteins called histones to form
Chromosomes
_______ on mRNA interact with _______ on tRNA to allow the _______ to connect amino acids in the correct order during translation.
Codons; anticodons; ribosome
1st Step to creating a DNA profile
Collect cells from crime scene evidence and extract DNA.
4th Step to creating a DNA profile
Compare STR banding patterns. The gel shows the results of three different STR regions (green, red, and blue bands) analyzed from the DNA in a crime scene sample and in three suspects.
In a comparison of two different light bulbs, how could you infer which one was more efficient in terms of energy conversion? Compare lumens. Compare bulb wattage. Compare longevity of the bulbs. Compare costs. Compare bulb temperature.
Compare bulb temperature.
Reguatory sequence
Controls the timing, location, and amount of gene. When where and how much.
What are the comments of ATP? DNA, sugar, nitrogens amino group, phosphates, sugar nitrogenous base, saccharide, phosphates carboxyl group
nitrogenous base, saccharide, phosphates
Introns:
non-coding regions of DNA
The cytoskeleton is the i
nternal scaffolding of the cell
DNA is a polymer composed of
nucleotides
RNA polymerase carries out unwinding
of DNA and synthesis of messenger RNA (mRNA)
Nucleic Acids are the information bearing molecules
of all life on earth
fossil fuels
oil, gas, and coal. fossil fuels are considered to be nonrenewable because they take millions of years to form
autotrophs—
organisms such as plants, algae, and certain bacteria that can use the energy of sunlight to build organic molecules. Their name means, literally, "self-feeders"—and as you might expect, autotrophs make their own food
Which of the following is NOT a product of aerobic respiration? oxygen carbon dioxide ATP water All of the above are products of aerobic respiration.
oxygen
The output for the overall reaction of photosynthesis are
oxygen (O2), and glucose (C6H12O6)
A genome is the complete DNA sequence for a
particular organism or individual
A protein is a chain of amino acids linked by
peptide bonds
Algae that glow at night are termed: sea algae. phosphorescent. photosynthetic. light capable. dark algae.
phosphorescent
Light energy from the sun travels to Earth in waves. These waves of light are made up of discrete packets of energy called
photons
What is the process by which plants produce food and oxygen? glycolysis citric acid cycle electron transport photosynthesis fermentation
photosynthesis
Energy from sunlight is captured by
pigments of Photosystem II
All plants carry out photosynthesis but not all photosynthetic organisms are
plants
Which of the following can produce biofuels? plants algae microalgae plants and algae plants, algae, and microalgae
plants, algae, and microalgae
Three basic types of autotrophs are:
plants, algae, some bacteria
A laboratory technique used to replicate, and thus amplify a specific DNA segment, is called: polymerase chain reaction. DNA replication. translation. transcription. protein synthesis.
polymerase chain reaction.
If a cell cycle check point is triggered:
potential for apoptosis (programmed cell death)
Release some "energy" to
power some members of the electron transport chain
mutations orginate in the
DNA
Chromosomes are made up of
DNA molecules would around proteins.
Polymerase Chain Reaction (PCR) ingredients
DNA template Nucleotides: A, T, G, C DNA polymerase DNA primers ATP, GTP, CTP, TTP
Coding sequence
Determines the sequence of amino acids in the protein.What you are going to make.
A patient has metastatic melanoma—skin cancer. Is surgery a viable option for this patient? a. Yes, because you can easily remove all the cancerous cells. b. No, because the cancerous cells have spread throughout the body. c. Yes, because metastatic refers to a cancer that is resistant to chemotherapy. d. No, because metastatic refers to a cancer that is not resistant to chemotherapy. e. Skin cancer can easily be surgically removed even if it has spread throughout the body.
b. No, because the cancerous cells have spread throughout the body.
True or false Each person carries the same number of STR repeats on both maternal and paternal chromosomes.
False
True or false G pairs with T
False
The site of triglyceride storage in the body
Fat cell
Which of the following statements does NOT accurately describe human DNA? Human DNA is located within the nucleus. Humans have 22 pairs of chromosomes and two gender chromosomes. Males receive one X chromosome from their mother. Human DNA is a unique combination of DNA inherited from both parents. Females receive two X chromosomes from their mother.
Females receive two X chromosomes from their mother.
Energizing the sugar (the 2nd step
First, 6 ATP molecules react with 6 3-PGA molecules Transfer phosphate onto the 3-PGA Then 3-PGA derivatives are reduced (accept electrons) while, 6 NADPH molecules are oxidized (give up electrons)
photosynthesis accomplishes two main things
First, it converts light energy from the sun into chemical energy that can be used as food and fuel by plants and animals . Second, it captures carbon dioxide gas from the air and incorporates those carbon atoms into sugar in a process called carbon fixation
Who imaged DNA using x-ray crystallography, leading to the discovery of DNA's structure?
Franklin
Centrosomes are duplicated during
G2 phase
What is GA3P?
GA3P is a three-carbon sugar
Concerns voiced regarding Biotechnology
Genetic manipulation is "unnatural" Genetically altered organisms are unsafe Genetically altered animals/crops are dangerous to the environment Genetically altered animals/crops are dangerous for humans to consume
The aerobic respiration of glucose can be summarized by this equation:
Glucose + Oxygen → Energy + Carbon dioxide + Water
A 5'6? female weighs 167 pounds. Use Infographic 6.2 to determine her BMI. Would she be considered underweight, normal weight, overweight, or obese?
Her BMI would be ~27, which would place her in the overweight category according to the CDC.
_________ chromosomes are the same size and contain the same genes
Homologous
Electrons are removed from
Hydrogen atoms and passed along an electron transport chain
Many types of algae can divert the sugars they make by photosynthesis into lipids that can be used to make biodiesel. Biodiesel is a promising replacement for fossil fuels. Describe the energy conversions required to make algal lipids for biodiesel and explain why biodiesel might be a more promising fuel than lipids extracted from animals.
In biofuel-producing algae, the energy of sunlight is converted to lipids. These store a large amount of energy per gram. Animals can produce lipids only after ingesting plant products. Animal lipids thus add a step (and additional energy transfer and loss) between the energy of sunlight and the energy stored in organic molecules.
FERMENTATION OCCURS WHEN OXYGEN IS SCARCE
In the absence of oxygen, fermentation reactions follow glycolysis. Fermentation occurs in the cytoplasm and converts the products of glycolysis into lactic acid (or alcohol in some organisms). The only ATP produced is the small amount produced during glycolysis.
Global warming is linked to elevated atmospheric carbon dioxide levels. How might this affect photosynthesis? If global warming should cause ocean levels to rise, in turn causing forests to be immersed in water, how would photosynthesis be affected?
Increased levels of carbon dioxide should increase the amount of photosynthesis by plants, algae and photosynthetic bacteria. However, if land plants are submerged (because of rising ocean levels), they will not be able to survive to carry out photosynthesis.
Produce a genetically modified organism (GMO)
Insert recombinant gene into goat embryo Implant embryo into surrogate female goat Produce transgenic offspring *insert gene from one species into another species
Each chloroplast has the following....
Inter membrane space, thylakoid, stroma, thlakoid lumen, Granum stack of thylakoids, Inner membrane, outer membrane
Which of the following statements about DNA replication is FALSE? It is called semiconservative. It uses complementary base pairing. Before it can occur, DNA must be unwound from the proteins. It is used in STR analysis. It does not require the enzyme DNA polymerase when it occurs in the cell.
It does not require the enzyme DNA polymerase when it occurs in the cell.
Which of the following is a function of photosynthesis? It provides the oxygen we breathe. It indirectly provides fossil fuels. It produces firewood for us to burn. It provides the oxygen we breathe and indirectly provides fossil fuels. It provides the oxygen we breathe, it indirectly provides fossil fuels, and it produces firewood for us to burn.
It provides the oxygen we breathe and indirectly provides fossil fuels.
Why are energy-rich lipids from algae more useful as a fuel than energy-rich sugars and other carbohydrates produced by photosynthetic organisms like corn and wheat?
Lipids store more energy per gram than carbohydrates. This means that more energy is stored per gram of lipid than of carbohydrates.
How does the ribosome know where to start and stop?
Look for the start codon, which is AUG
Polymerase Chain Reaction (PCR):
Making DNA in a test tube
Microtubules have formed mitotic spindle (cage-like structure) Chromosomes line up at the spindle midline or equator (metaphase plate)
Metaphase
Nuclear membrane has completely disintegrated Microtubules attached to sister chromatids of each chromosome via kinetochor
Metaphase
Chromatin is packaged into chromosomes during
Mitosis
The site of glycogen storage in the body
Muscle and liver
Single nucleotide polymorphism (SNP
Must occur in at least 1% of human population variation in a single nucleotide at a defined position in the genome
What are the products of the light reactions?
NADPH and ATP
How does the cell know when to express a specific gene?
Need to employ: DNA regulatory sequences and proteins that recognizes these sequences
Five molecules of G3P (GA3P) are used to regenerate RuBP (step 4
Need to reform RuBP to be able to start cycle all over aga
Can animals directly use the energy of sunlight to make their own food (in their own bodies)?
No. Animals cannot carry out photosynthesis. However, they rely on photosynthesis, as they eat plant material that is the product of photosynthesis, and animal material that is sustained by eating plants.
DNA Regulatory Sequences
Non-coding DNA segments Include: promoters, enhancers silencers
How many province acids are directly produced by the Electrong transport chain 1 2 3
None of the above
There are two important features of the genetic code.
One, the code is redundant: multiple codons specify the same amino acid. Two, the genetic code is universal, which means that it is virtually the same in all living organisms.
Which of the following statements about the Polymerase Chain Reaction is FALSE? Amplification of DNA requires DNA, primers, DNA polymerase, and nucleotides. Only a specific region of DNA is copied in the reaction. Only a single strand of DNA can be amplified at a time. The amount of DNA in each PCR cycle is doubled. Amplification of DNA occurs if a single DNA molecule is present.
Only a single strand of DNA can be amplified at a time.
Types of regulatory sequences (DNA sequences)
Operator, promoter, enhancer, silencer
Heterotrophs
Organisms, such as humans and other animals, that obtain energy by eating organic molecules that were produced by other organisms.
If DNA polymerase doesn't correct it self the error rate is
Original error rate: 1 error/100,000 base pairs
The BMI estimates body fat from the indirect measures of height and weight, and translates it into an easy-to-digest number.
People with a BMI between 25 and 29.9 are considered overweight; people with a BMI of 30 and above are considered obese.
Photosynthesis and respiration form a continuous cycle, with the outputs of one process serving as the inputs of the other.
Photosynthesis -> glucose -> oxygen -> respiration-> carbon dioxide ->
Compare and contrast the ways photosynthetic algae and animals obtain and use energy
Photosynthetic algae rely on photosynthesis for the production of sugars that can be used for short-term energy needs or for longer-term energy storage. Animals cannot make their own sugars (or other energy-rich organic molecules) from scratch, so must obtain them from their diet.
Transporting Electrons Energetically "downhill" from
Photosystem II to Photosystem I
Translation:
Polypetide chains (proteins) are synthesized by ribosomes using mRNA as a template
There are four levels of structure in proteins
Primary protein structure is the sequence of a chain of amino acid. Secondary protein structure occurs when the sequence of amino acids are linked by hydrogen bonds.
Many biofuels require arable land for their production. Discuss competing needs for arable lands in the context of human needs for food and fuel, and how algae may alleviate this tension.
Producing biofuels from traditional crops (e.g., corn) means that these crops are grown on land that could otherwise be used to for human food. By replacing food crops with fuel crops, the demand for (and price of) of crops to feed humans rises. In contrast, given water and nutrients, algae can be grown (in vats or closed systems) on land that is otherwise unsuitable for food crops. In this case, fuel crops are not competing with food crops for valuable arable land.
Centrosome copies move to the "poles" & synthesize microtubules Chromosomes begin to line up along equatorial plane of cell
Prophase
Chromatin condensed into visible chromosomes Nuclear membrane disintegrates
Prophase
Chromatin condenses into chromosomes during which stage of mitosis
Prophase
Transcription Factors
Proteins Activators & repressors
How did the bases fit together?
Purine and a pyrimidine; consistent with x-ray diffraction data
If reaction X is more efficient than reaction Y, what would you predict in terms of energy? Reaction Y will occur faster than reaction X. Reaction X will be less costly to carry out than reaction Y. Reaction Y will heat up the environment more than reaction X. Reaction X will occur faster than reaction Y. Reaction X will heat up the environment more than reaction Y.
Reaction Y will heat up the environment more than reaction X.
How do the redundant properties of the genetic code protect humans from some mutations?
Some mutations will not change the amino acid coded by the mRNA codon.
photosynthesis can be summarized in the following equation
Sunlight + Water + Carbon dioxide → Oxygen + Glucose
Which of the following occurs during the "photo" reactions of photosynthesis? Carbon dioxide is converted to glucose, and chemical energy is used. Sunlight is captured. Carbon dioxide is converted to glucose. Chemical energy is used. Water is formed from hydrogen and oxygen.
Sunlight is captured.
Chromosomes de-condense back into chromatin-only form Nuclear membrane reforms
Telophase
Microtubules begin to disintegrate Two sets of protein filaments (microfilaments) form at equatorial plane 1 cell with 2 nuclei (plural of nucleus)
Telophase
NUCLEOTIDE:
The building block, or monomer, of a nucleic acid.
Mitotic Spindle forms Spindle fibers (aka microtubules) become attached to the sister chromatids of each chromosome via kineochores
Transition to Metaphase
The molecule that serves as long-term energy storage.
Triglyceride
True or false DNA evidence can be obtained from saliva left in a bite mark.
True
True or false _ Genetic information is passed on to the next generation in the form of DNA molecules.
True
A gene has the sequence ATCGATTG. What is the sequence of the complementary RNA?
UAGCUAAC
Appotosis
When a normal cell sustains irreparable damage, it udergoes programmed cell death. The cellular suicide prevents cells from producing more damage daughter cells.
In the presence of oxygen we use ________ to fuel ATP production. What process do plants use to fuel ATP production from food? a. aerobic respiration; photosynthesis b. aerobic respiration; aerobic respiration c. fermentation; aerobic respiration d. fermentation; photosynthesis e. glycolysis; photosynthesis
b. aerobic respiration; aerobic respiration
What is a genetically modified organism?
b. any modified organism that produces a product it does not normally make
Which of the following properties should a promising new ovarian cancer drug have? a. blocks mitosis in noncancerous cells b. blocks mitosis in cancerous cells c. prevents entry into S phase in normal cells d. enhances the activity of cell cycle checkpoints in noncancerous cells e. b and d
b. blocks mitosis in cancerous cells
During fermentation, how does NADH give up electrons to regenerate NAD+? a. by giving electrons to O2 b. by giving electrons to pyruvate c. by giving electrons to glucose d. by giving electrons to the electron transport chain e. by giving electrons to another NAD+
b. by giving electrons to pyruvate
In addition to the base, what are the other components of a nucleotide? a. sugar and polymerase b. phosphate and sugar c. phosphate and polymerase d. phosphate and helix e. helix and sugar
b. phosphate and sugar
The sugars & phosphates make up the
backbone of the helix
If the synthesis reactions do not require sunlight, why does carbon dioxide fixation stop in the dark? because the plant runs out of ATP from the "photo" reactions in the dark because the plant runs out of oxygen from the "photo" reactions in the dark because the plant runs out of glucose in the dark because the plant runs out of carbon dioxide in the dark because the plant runs out of water in the dark
because the plant runs out of ATP from the "photo" reactions in the dark
Which of the following is NOT a fossil fuel? biofuels coal nuclear electric power natural gas petroleum
biofuels
Algae also make proteins and carbohydrates (sugars), which can be converted into other
biofuels, like ethanol and butanol. These biofuels can be mixed with gasoline to power cars.
Antithrombin prevents
blood clots
The measurement we use to estimate body fat based on height and weight is called _____. body height index body fat present fat index body mass units body mass index
body mass index
A gene contains instructions for
building RNAs & proteins
Taxol is not a "silver bullet"
but it prolongs survival
During aerobic respiration in a human cell, how does NADH give up electrons to regenerate NAD+? by giving electrons to another NAD by giving electrons to molecular oxygen by giving electrons to pyruvate by giving electrons to glucose All of the above.
by giving electrons to molecular oxygen
Each chromosome contains a. DNA only. b. proteins only. c. DNA and proteins. d. the same number of genes and STRs. e. the entire genome of a cell.
c. DNA and proteins.
If the sequence of one strand of DNA is AGTCTAGC, what is the sequence of the complementary strand? a. AGTCTAGC b. CGATCTGA c. TCAGATCG d. GTCGACGC e. GCTAGACT
c. TCAGATCG
Which is the best definition of cancer? a. a disease in which there are tumors b. a disease in which cells are the problem c. a disease in which unregulated cell division occurs d. a disease in which cell division does not occur e. a disease in which chemotherapy helps cells divide
c. a disease in which unregulated cell division occurs
If you ingest carbon in the form of sugar, how is that carbon released from your body? a. as sugar b. as fat c. as CO2 d. as protein e. in urine
c. as CO2
The energy in a cereal bar is_______energy. The energy of a cyclist pedaling is_______energy a. light; chemical b. potential; chemical c. chemical; kinetic d. potential; potential e. kinetic; potential
c. chemical; kinetic
What process is most directly prevented in the absence of adequate oxygen? a. citric acid cycle b. glycolysis c. electron transport chain d. a, b, and c e. glycolysis and the citric acid cycle
c. electron transport chain
Which process is not correctly matched with its cellular location? a. glycolysis—cytoplasm b. citric acid cycle—mitochondria c. glycolysis—mitochondria d. electron transport—mitochondria e. none of the above; they are all correctly matched
c. glycolysis—mitochondria
Glucose is a product of photosynthesis. Where do the carbon atoms in glucose come from? a. starch b. cow manure c. molecules in air d. water e. soil
c. molecules in air
DNA replication is said to be semiconservative because a newly replicated, double-stranded DNA molecules consists of a. two old strands. b. two new strands. c. one old strand and one new strand. d. two strands, each with a mixture of old and new DNA. e. any of the above, depending on the cell type
c. one old strand and one new strand.
Kinetic energy is best described as a. stored energy. b. light energy. c. the energy of movement. d. heat energy. e. any of the above, depending on the situation.
c. the energy of movement.
When cells accumulate enough DNA damage to interfere with multiple checkpoints, the result is
cancer. Cancer cells plow through the cell cycle uninhibited, divide uncontrollably, and in many cases eventually form a mass of cells called a tumor
The chemical energy generated in the "photo" step is used in the "synthesis" step to convert
carbon dioxide into the energy-rich sugar glucose.
Mutations in proteins involved in
cell cycle checkpoints
Point mutation:
change in sequence without change in length
The bonds that hold molecular subunits together represent a form of stored called
chemical energy; breaking these bonds releases that stored energy, making it available to power cell functions.
The molecule that absorbs and reflects these wavelengths of light is the pigment chlorophyll—a crucial player in photosynthesis.
chlorophyll that actually captures the energy of sunlight.
In plants, photosynthesis occurs in an organelle called the chloroplast
chloroplast found in cells that make up the green parts of the plant.
Before Mitosis:
chromatin
DNA found in the nucleus is called
chromatin
Prophase:
chromatin condenses into chromosomes
Genetic information is stored in the nucleus in dense structures called
chromosomes
Exons:
coding regions of DNA
Amino acids are specified by groups of three nucleotides; each group is called a
codon. Each codon is like a word: its letters name a particular amino acid (for example, the codon GGU specifies the amino acid glycine).
Which of the following is the correct sequence in creating a DNA profile? collect DNA→gel electrophoresis→extract DNA→PCR to amplify STRs→ gel electrophoresis PCR to amplify sample→extract DNA→gel electrophoresis→analyze gel collect DNA→PCR to amplify sample→gel electrophoresis→extract DNA→ gel electrophoresis collect DNA→extract DNA→gel electrophoresis→PCR to amplify STRs→ analyze gel collect DNA→extract DNA→PCR to amplify STRs→gel electrophoresis→ analyze gel
collect DNA→extract DNA→PCR to amplify STRs→gel electrophoresis→ analyze gel
Genetic engineering
combine regulatory sequence of 1 gene with coding sequence of another gene
Before 1945, there were basically two ways to treat cancer:
cut it out or zap it with radiation. T
If we were to perform a cell cycle backwards which is the correct answer
cypotokinesisi, mitosis, interphase
Where in the cell does fermentation take place? Fermentation does not occur in cells. mitochondria cytoplasm nucleus both in the cytoplasm and mitochondria
cytoplasm
A cell with 46 chromosomes undergoes mitosis and cytokinesis before fully completing S-phase. Which of the following would be a likely result? b. 1 normal daughter cell with 46 chromosomes and 1 abnormal daughter cell with 46 chromosomes and 1 abnormal doughtier cell with 23 chromosomes. c. 2 daughter cells with 23 chromosomes. d. 2 daughter cells with 46 chromosomes
d. 2 daughter cells with 46 chromosomes
The_______chromosomes in a human cell from inside the cheek are found in the_____. a. 46; cytoplasm b. 23; nucleus c. 24; cytoplasm d. 46; nucleus e. 22; nucleus
d. 46; nucleus
Which of the following series has the stages of the cell cycle in the proper order? a. mitosis, S, G1, G2, cytokinesis b. G1, S, cytokinesis, mitosis c. G1, G2, interphase, mitosis, cytokinesis d. G1, S, G2, mitosis, cytokinesis e. S, Mitosis, G1, cytokinesis, G2
d. G1, S, G2, mitosis, cytokinesis
You are starting your own forensics lab and need to purchase the proper elements for PCR analysis. In addition to the DNA samples from the crime scenes, what other molecular items would you need? primers and RNA polymerase primers, DNA polymerase, and nucleotides only primers primers, RNA polymerase, and nucleotides primers and nucleotides
primers, DNA polymerase, and nucleotides
Electronegativity:
different substances have different affinities for electrons
If a person wants to lose weight, which of the following are viable strategies? a. substituting plain water for regular soda b. eating the same number of Calories, but eating them all as fruit and veggies instead of burgers and fries c. adding more fruits and veggies on top of the current diet d. exercising more e. a and d
e. a and d
When considering which biofuel is the most sustainable, which of the following must be considered? a. water use b. energy use c. fertilizer and pesticide use d. a and c e. a, b, and c
e. a, b, and c
Which of the following statements correctly reflects the interactions between aerobic respiration and photosynthesis? a. The carbon in the glucose that plants make is the same carbon in the carbon dioxide we breathe out. b. The carbon dioxide we breathe out is the same carbon in the food we eat. c. The oxygen we use in aerobic respiration is the same oxygen produced by plants in photosynthesis. d. a and c e. a, b, and c
e. a, b, and c
Which of the following processes require normal cell division? a. embryonic development b. wound healing c. replacement of blood cells d. intestinal tract and skin cell replacement e. all of the above
e. all of the above
Why are algae considered more valuable for biofuel than plants (such as corn)? a. because their photosynthetic products are an oil b. because they are cheaper to grow c. because they do not require as much CO2 d. because they do not require as much fertilizer e. all of the above
e. all of the above
Following mitosis and cytokinesis, daughter cells are __________. a. genetically unique b. genetically identical to each other c. genetically identical to the parent cell d. contain half of the parent cell's chromosomes e. b and c
e. b and c
which of the following could be possible if a single nucleotide in the regulatory sequence of DNA controlling transcription was changed? a. the protein could be produced at a faster rate. b. the protein controlled could be produced in a different tissue. c. the function of the protein could change. d. shape of the protein could change e. both the first and second are correct.
e. both the first and second are correct.
Which step of aerobic respiration actually consumes oxygen? glycolysis citric acid cycle electron transport both glycolysis and the citric acid cycle All steps of aerobic respiration consume oxygen.
electron transport
Why are energy-rich lipids from algae more useful as a fuel than energy-rich sugars and other carbohydrates produced by photosynthetic organisms such as corn and wheat? a. The sugars contain less chemical energy than the lipids. b. The sugars require an additional fermentation step to produce usable chemical energy. c. The lipids can be used directly as fuel. d. a and c e. a, b, and c
a, b, and c
Which of the following statements about PCR is true? a. DNA polymerase is the enzyme that copies DNA in PCR. b. Primers are not necessary for PCR. c. PCR does not require nucleotides. d. PCR does not generate a complementary DNA strand. e. PCR can make only a few copies of a DNA molecule.
a. DNA polymerase is the enzyme that copies DNA in PCR.
Which STR will have migrated farthest through an electrophoresis gel? a. GAAG repeated twice b. GAAG repeated three times c. AGCT repeated five times d. GAAG repeated seven times e. AGCT repeated seven times
a. GAAG repeated twice
Why is recombinant protein production in the milk of transgenic animals an efficient strategy?
a. because milk is secreted, so the protein can be obtained noninvasively b. because milk is produced in relatively large quantities c. because mammary glands naturally secrete large quantities of proteins into milk d. because milk is easier to obtain than other secretions (e.g., urine, sweat, and saliva)
Where in the cell does fermentation take place? a. cytoplasm b. mitochondria c. nucleus d. cytoplasm and mitochondria e. Fermentation doesn't occur in cells, it occurs in circulating blood.
a. cytoplasm
In the development of chemotherapeutic agents for cancer, what factors must be considered?
a. environmental costs if the agent is from a living specimen b. production costs if the agent is rare or hard to isolate c. side effects the drug may have on noncancerous cells
Photosynthetic algae are a. eukaryotic autotrophs. b. prokaryotic autotrophs. c. eukaryotic heterotrophs. d. prokaryotic heterotrophs
a. eukaryotic autotrophs.
iven 1 g of each of the following, which would yield the greatest amount of ATP by aerobic respiration? a. fat b. protein c. carbohydrate d. nucleic acid e. alcohol
a. fat
Which step of aerobic respiration generates the most ATP? glycolysis the citric acid cycle fermentation electron transport They all generate the same amount of ATP.
electron transport
In the electron transport chain between photosystem II and photosystem I, and the
electron transport chain between photosystem I and NADP+, the electrons are transferred energetically "downhill"
Most cellular activities (e.g. protein synthesis, locomotion, etc...) are
endergonic (require the cell to use energy)
DNA polymerase adds nucleotides but also
proofreads each new nucleotide against the template
Algae is not a plant it belongs to what kingdom
protista
Possible treatment options for
radiation therapy
Each amino acid is joined to the correct tRNA by an enzyme that
recognizes the subtle differences in shape of each tRNA
The combined reduction and oxidation is known as a:
redox reaction
Enhancer:
region of DNA that increases the rate of RNA transcription
Silencer:
region of DNA that slows down RNA transcription
Operator:
region of DNA upstream of the gene itself, before the "START" codon
Promoter:
region of DNA where RNA polymerase binds
Transcriptional regulation involves
regulatory sequences and transcription factors
Splicesomes
remove introns from RNA and "splice" together eons
biofuels
renewable fuels made from living organisms
DNA sequencing led to the identification of the
sequence of genes (the blue prints of proteins)
Shivering (uncontrolled muscle contractions) warms you up because: shivering muscles attract heat from other parts of the body, and shivering muscles produce a lot of sweat, and sweat heats you up. shivering muscles produce a lot of sweat, and sweat heats you up. shivering muscles are contracting more, therefor there are more reactions occurring, each of which releases some energy as heat. shivering muscles are better at collecting heat from sunlight. shivering muscles attract heat from other parts of the body.
shivering muscles are contracting more, therefor there are more reactions occurring, each of which releases some energy as heat.
Building blocks for glycogen is
simple sugars
In mitosis, ____ separate during anaphase
sister chromatids
Anabolic
small molecules are assembled into large ones. Energy is required.
The two strands of linked nucleotides pair up and twist around each other to form a
spiral-shaped double helix. The sugars and phosphates form the outside "backbone" of the helix and the bases form the internal "rungs," like steps on a twisting ladder. The bases are held together by hydrogen bonds.
In the "photo" step, chloroplasts capture the energy of sunlight, converting it to chemical energy. During the process, water is
split releasing oxygen as a by-product.
In humans, fermentation takes place primarily during bursts of energy-intensive tasks, such as
sprinting or power weight-lifting.
What determines how a protein folds?
a. the interaction of the shared core structure of all the amino acids in the protein b. the interaction of the side chains of each individual amino acid c. the interaction of the amino acids with water in the proteins environment
Which of the following photon wavelengths contains the greatest amount of energy? a. violet b. red c. green d. yellow e. blue
a. violet
During electron transport, these energetic electrons are passed like hot potatoes from NADH down a chain of molecules in the inner mitochondrial membrane. Eventually the electrons are passed to oxygen molecules, which
accept the electrons and combine with hydrogen atoms to produce water. As electrons pass down the chain, they supply the energy needed to form ATP. This electron transport chain fuels the bulk of ATP production
Energy from food is ultimately captured in a molecule called
adenosine triphosphate (ATP) that our cells use to carry out energy-requiring functions.
Does production of large amounts of ATP happen during fermentation or aerobic respiration?
aerobic respiration
Requires oxygen applies to fermentation or aerobic respiration?
aerobic respiration
produces carbon dioxide and water applies to fermentation or aerobic respiration?
aerobic respiration
The primary process that all eukaryotic organisms, including plants, use to convert food energy into ATP is a form of cellular respiration called
aerobic respiration. "Aerobic" means "in the presence of oxygen," and this form of cellular respiration predictably requires a continual source of oxygen.
organisms, like certain fungi and bacteria, fermentation is the main way of obtaining energy. In some of these organisms, fermentation produces
alcohol rather than lactic acid as a by-product.
The first eukaryotic forms of life to appear on the planet Earth were the: eubacteria. algae. animals. None of the above.
algae
Which of the following requires the least amount of fertilizer to grow? algae rapeseed, canola soybeans corn wood residue
algae
In Paris, which of the following are likely to have smaller portion sizes relative to Philadelphia? restaurant meals supermarket packages of food recipe portion sizes All of the above. both restaurant meals and supermarket packages of food
all of the above
Different versions of antithrombin is known as
alleles
Proteins are polymers of
amino acids
Is photosynthesis catabolic or anabolic
anabolic
During which stage of the cell cycle do sister chromatids separate from each other? a. telophase b. interphase c. prophase d. metaphase e. anaphase
anaphase
Example of pharming, The drug Atryn
antithrombin human protein anti-clotting or anticoagulant
When we ingest more Calories than our bodies need, they are stored as glycogen molecules in muscle and liver cells. Once the body's glycogen stores have been replenished,
any excess Calories are stored as triglyceride molecules in fat cells.
Oil reserves buried deep underground are: finite. take millions of years to replenish. lie outside U.S. borders. finite and take millions of years to replenish. are finite, take millions of years to replenish, and lie outside U.S. borders.
are finite, take millions of years to replenish, and lie outside U.S. borders.
Centrosomes are organelles where microtubules
are synthesized and organized
Each nucleotide consists of a: sugar. phosphate. base. both sugar and phosphate. sugar, phosphate, and base.
sugar, phosphate, and base.
photosynthesis, organisms like plants and algae capture the energy of
sunlight and convert it into the chemical energy of energy-rich molecules—otherwise known as food.
The input for the overall reaction of photosynthesis are
sunlight, water(h20) and carbon dioxide (C02)
autotrophs
synthesize their own food, which is then used to synthesize ATP in respiration
Anti-condon is found in the
tRNA
The ribosome relies on complementary base pairing (hydrogen bonding) between the
tRNA's anticodon and the mRNA's codon
Photosynthesis has two main steps
the "photo" step and the "synthesis" step
Glucose and these other sugars provide the building materials for a variety of metabolic reactions in the cell—for example,
the assembly of amino acids for protein synthesis and the synthesis of the oils that make up biofuels.
Energy—defined as
the capacity to do work—is critical to all life on earth. Energy powers every activity we perform, from the more obvious ones like breathing, thinking, and running to less obvious activities like building the molecules that make up our bodies.
During the second stage, the citric acid cycle, a series of reactions strips electrons from the bonds between
the carbon and hydrogen atoms that were originally in glucose (and are now in pyruvate). The process releases CO2, which is ultimately exhaled from an organism's lungs.
The electrons then go through the third and last stage of aerobic respiration:
the electron transport chain.
In the reaction center of photosystems I and II, energy from sunlight is transferred to
the electrons, boosting them to a higher energy level (energetically "uphill")
Just as a gold bar must be converted to currency in order to buy merchandise,
the energy in food must be converted to ATP before it can be used by the cell.
One of the reasons photosynthetic organisms are so important on the planet Earth is that: they are necessary for all of life's various processes. they produce coal. they produce biofuels. they produce oil. the energy-rich molecules they produce are used by all living organisms to fuel cellular processes.
the energy-rich molecules they produce are used by all living organisms to fuel cellular processes.
Photosynthesis takes place in
the leaves of a plant
What controls the timing of gene expression?
the regulatory sequence for a gene
Once the mRNA copy is made, it leaves the nucleus and attaches to a complex piece of cellular machinery in the cytoplasm called
the ribosome. This is the start of translation.
NADPH and ATP enter the Calvin cycle which takes place in
the stroma of the chloroplast
But chlorophyll is the main pigment involved in photosynthesis. When red and blue photons of sunlight hit chlorophyll, the electrons in its atoms become excited. These excited electrons are used to generate an energy-carrying molecule known
as adenosine triphosphate (ATP), which is used in the "synthesis" part of photosynthesis to make sugar
tRNAs supply the amino acids to the ribosome to use appropriately
as building blocks based on the mRNA template
For the large majority of us, when we eat Calories beyond what our bodies require, the extra energy is stored in one of two places:
as glycogen in muscle and liver cells, or as triglycerides in fat cells.
When energy is used to power our cars—or our brain cells—that energy is not destroyed, it merely changes form, a principle known
as the conservation of energy.
Chromosome pairs 1-22 are known as
autosomes
Why would the cell make apoptosis the default mechanism when a problem in the cell cycle is detected? a. Apoptosis ensures the survival of the cell by fixing the problem with the cell cycle. b. Apoptosis ensures that the cell dies instead of leading to cancer. c. Apoptosis causes the cell to enter the cell cycle without control checkpoints. d. a and c
b. Apoptosis ensures that the cell dies instead of leading to cancer.
During aerobic respiration, what molecule has (and carries) electrons stripped from food? a. NAD+ b. NADH c. O2 d. H2O e. pyruvate
b. NADH
Photosynthesis occurs in:
the thylakoid membranes (light reactions) and the chloroplast stroma (calvin cycle)
algae remove CO2 from the atmosphere as they grow, they release little net CO2 when they are burned
they are basically just returning to the atmosphere the same carbon they had removed.
Photosystem I energetically boosts electrons against and
they are passed to the electron carrier NADP+ to form NADPH
heterotrophs
this energy comes from food obtained by eating other organisms
Heterotrophs can then either use
this energy to grow, in which case the energy will become stored in the chemical bonds in their bodies, or to move and power other chemical reactions in cells.
As the energy-rich bonds in glucose and pyruvate are broken, the electrons from
those bonds are picked up by a molecule known as NAD+
Chemical energy is potential energy, meaning that it is stored and waiting for use. When the cyclist eats and digests the bar, digestion breaks then
those chemical bonds, and the stored energy is released.
Gel electrophoresis is best described as a laboratory technique used: to analyze DNA samples (it separates DNA fragments by size). to separate DNA into coding and non-coding DNA. to analyze DNA by separating them in chromosomes. to stain chromosomes different colors (for identification purposes). None of the answer options is correct.
to analyze DNA samples (it separates DNA fragments by size).
Which of the following best describes the "point" of the "photo" reactions of photosynthesis? to capture the energy of sunlight in a chemical form to split water and to generate oxygen to split water to make glucose to generate oxygen
to capture the energy of sunlight in a chemical form
Why do cells need ATP? to make glycogen for long-term energy storage in case of famine to make sugar to power cell functions to make proteins
to power cell functions
In living cells, reduction and oxidation occur
together
The enzyme NADP+ reductase "reduces" NADP+ by
transferring electrons to NADP+ to form NADPH.
So our bodies store most excess Calories as
triglycerides in fat cells, which actually allows us to carry around less weight overall. The body burns this fat only after it has already used up food molecules in the bloodstream and in stored glycogen.
Light reactions take place in
two molecular structures known as photosystems (found in the thylakoid membrane)
AFTER interphase, chromatin condenses into chromosomes, each chromosome is composed of:
two sister chromatids joined by a centromere
A gene is a
unit of heredity
Which of the following lists the colors of light in order from shortest wavelength to longest wavelength? red, yellow, green, violet violet, red, yellow, green green violet, yellow, red violet, green, yellow, red yellow, green, red, violet
violet, green, yellow, red
The portion of the spectrum between 400 and 750 nanometers is called
visible light
chloroplast,
which is present in the leaf cells of plants and the cells of photosynthetic algae
The central dogma of biology: DNA is transcribed into RNA,
which is translated into proteins
. Without oxygen, glycolysis still occurs, but its products are shunted into a different process, fermentation,
which takes place in the cell's cytoplasm (as opposed to the mitochondria).
Radiation types include:
x-rays, gamma rays, & charged particles
1 molecule of glucose broken down to produce
36 ATP molecules, CO2 and H2O waste products
Purine Bases
Adenine Guanine
Alternative splicing;
Another level of regulation is processing of the RNA produced by transcription
True or false All DNA sequences encode information to produce proteins.
False
The reaction to synthesize glucose from carbon dioxide and water has a ___ & is ____
+ (Delta sign)G, endergoinc
How many nucleotides does it take to code for an amino acids?
3 nucleotides (1 condon) = 1 amino acid 4^3=64
Polymerase Chain Reaction (PCR): Steps
1.)Open double-stranded DNA template using heat normally helicase does this job in the cell 2.)Drop temperature and allow DNA primers to bind (anneal) normally primase does this job in a cell 3.)Raise temperature and allow DNA polymerase to synthesize DNA
During examination of a gel containing 10 STRs from a heterozygous mother and her biological child, how many bands should be identical in size? 1 5 8 10 20
10
Currently, forensic scientists use _____ STRs on _____ different chromosomes. 15; 14 12; 22 7; 8 1; 23 2; 12
15; 14
How many ATPs are produced during fermentation? 1 2 3 4 5
2
How many molecules of G3P are needed to from one glucose molecule
2
In general, humans have 23 pairs of chromosomes. How many pairs?
2
When you look at the genome composition of Organism X, you determine that is made up of 30% Adenine (A). Based on this information, you determine that it must contain ______ Cytosine. A. 30 B. 60 C. 40 D. 20 E. 0
20%
What energy source drives the Calvin cycle (Carbon reactions) of photosynthesis, and where does it come from? a. The kinetic energy ATP made from light absorption drives the Calvin cycle. b. The chemical energy ATP made from light absorption is a requirement of the Calvin cycle. c. The chemical energy of light made from glucose drives the Calvin cycle. d. The kinetic energy of light absorption made from ATP drives the Calvin cycle. e. The chemical energy ATP made from glucose drives the Calvin cycle.
?? e. The chemical energy ATP made from glucose drives the Calvin cycle.
CANCER:
A disease of unregulated cell division: cells divide inappropriately and accumulate, in some instances forming a tumor.
GEL ELECTROPHORESIS:
A laboratory technique that separates fragments of DNA by size.
UNSATURATED FAT:
A plant fat, such as olive oil; unsaturated fats are liquid at room temperature.
gene
A sequence of DNA that contains the information to make at least one protein.
CHROMOSOME:
A single, large DNA molecule wrapped around proteins. Chromosomes are located in the nuclei of most eukaryotic cells.
Why would a dark dust cloud that prevented sunlight from reaching Earth's surface be potentially devastating to animal life?
A thick and dense dust cloud could prevent sunlight from reaching photosynthetic organisms at Earth's surface. If these organisms are not able to "harvest" the energy in sunlight, they will not be able to grow and store valuable molecules. This will seriously (and negatively) affect the ability of animals (including humans) to meet their nutritional and energetic needs.
TRANSFER RNA (TRNA):
A type of RNA that transports amino acids to the ribosome during translation.
TRANS FAT:
A type of vegetable fat that has been hydrogenated, that is, hydrogen atoms have been added, making it solid at room temperature.
Which enzyme is directly responsible for ATP synthesis
ATP synthase
What do you think are some of the advantages and disadvantages of growing algae in enclosed tubes or bags compared to growing them in open vats? Make a table listing the advantages and disadvantages of each approach and explain your reasoning.
Advantages include the ability to control conditions (e.g., carbon dioxide concentration, temperature, nutrients, pH) to maximize lipid production from sunlight and carbon dioxide. The major disadvantage is the cost of maintaining such a sophisticated system. Growing algae in vats is far less expensive, but the process may be less efficient and is vulnerable to competing or harmful species entering and attacking the algae in the vats.
If DNA polymerase corrects it self the proofreading rate is
After proofreading: 1 error/1 billion basepairs
What are issues with mass producing algae?
Algae needs to be stirred frequently to incorporate carbon dioxide. Also during the summer sunlight is so intense that is actually over saturates the microbes, limiting their growth.
Which of the following can be used to grow algae? freshwater that may be contaminated in some way (and as such could not be used to water agricultural crops) saltwater derived from oceans, or artificially created by mixing freshwater and salt land that has been depleted of nutrients by over-farming land that would not be considered suitable for raising livestock All of the answer options are correct
All of the answer options are correct
A young husband and wife have decided that they want to grow algae to produce biofuels. They successfully harvest oils, carbohydrates, and proteins from the algae they have grown; however, they are left with hundreds of pounds of algal cell walls. How can they use these cell walls to assure that nothing from their operation is wasted? They can burn these algal cell walls to generate electricity, which can be used to light several homes in their community. They can burn these algal cell walls to generate heat, which in turn can be used to warm houses during the cold months. They can donate or sell these algal cell walls to nearby agricultural farms to be used as fertilizer for crops. All of the answer options are ways in which this couple could use algal cell walls. They cannot use these cell walls for any purpose; they will have to be discarded (winding up as "waste" from this algae-growing operation).
All of the answer options are ways in which this couple could use algal cell walls.
2nd Step to creating a DNA profile
Amplify multiple STR regions by PCR.
SATURATED FAT:
An animal fat, such as butter; saturated fats are solid at room temperature.
Sister chromatids are pulled apart by the mitotic spindle -Degradative enzymes -Motor proteins Once separated, each former sister chromatid is now referred to as a daughter chromosome
Anaphase
The energy of sunlight exists in the form of a. glucose. b. photons. c. gamma rays. d. ions. e. particles.
B. Photons
What organelle(s) would a nonphotosynthetic alga need to be able to carry out photosynthesis? a. mitochondria b. nucleus c. chloroplast d. solar transformer e. cell membrane
C. Chlorplast
Which of the following statements does not accurately describe human DNA? A.Human DNA is a unique combination of DNA inherited from both parents B.Males receive one X chromosome from their mother. C.Females receive two X chromosomes from their mother. D. human have 22 pairs of chromosomes and two sex chromosomes and two sex chromosomes. E. Human DNA is located within the nucleus.
C. Females receive one X chromosomes from their mother.
AEROBIC RESPIRATION TRANSFERS FOOD ENERGY TO ATP
During aerobic respiration, our cells use the oxygen we inhale to help extract energy from food. Cells convert the energy stored in food molecules into the bonds of ATP, the cell's energy currency.
Cell cycle checkpoints
During the cell cycle, a system of checkpoints regulates a cell progress. Checkpoints prevent a cell from progressing to the next stage unit it accurately finishes the current stage.
Choose the statements that correctly describe the organization of DNA ___ is/are made of_____, and contains many_____ A.) DNA; chromosomes; chromosomes;genes B.)Chromosomes;DNA;Chromosomes;genes C.) DNA; genes; genes; chromosomes D.) Genes; DNA; genes; chromosomes E.) Both B & D
E.) B&D
DNA replication is semi-conservative
Every DNA molecule is half old and half new A base pairs with T G base pairs with C Base pair: hydrogen bonds
3rd Step to creating a DNA profile
Separate STR's by gel electrophoresis. PCR products are inserted into a gel. An electric current applied to the gel causes polar DNA to migrate through it. Shorter fragments travel farther; longer fragments remain near the top.
Homologous Chromosomes exist as pairs with ONE exception...
Sex chromosomes Chromosome pair 23: X & Y are not homologous to each other
Light energy
The energy of the electromagnetic spectrum of radiation that is visible to the human eye.
On which of the following items could a crime lab use PCR? saliva- and bloodstained nightshirts fingernail clippings vaginal swabs The first two answers are correct. The first three answers are correct.
The first three answers are correct.
Gene expression:
The information encoded in a gene is transcribed and then translated into a protein
Why do many species of algae appear green?
The main photosynthetic pigment is chlorophyll, which reflects green wavelengths.
DEOXYRIBONUCLEIC ACID (DNA):
The molecule of heredity, common to all life forms, that is passed from parents to offspring.
ANTICODON:
The part of a tRNA molecule that binds to a complementary mRNA codon.
CYTOKINESIS:
The physical division of a cell into two daughter cells.
CELL DIVISION:
The process by which a cell reproduces itself; cell division is important for normal growth, development, and repair of an organism.
Heating a protein can cause it to denature, or unfold. What do you think would happen to the function of a protein in a denatured state?
The protein would not be functional because the three-dimensional shape dictates protein's function.
MITOSIS:
The segregation and separation of duplicated chromosomes during cell division.
GENETIC CODE:
The set of rules relating particular mRNA codons to particular amino acids.
As a college student, you are trying to be healthy and Calorie conscious by making yourself a lettuce and tomato sandwich for supper. After making the sandwich, you decide it needs something extra. In the store you find bacon (20 g of fat), lean chicken (20 g of protein), or sprouts (20 g of carbohydrates) that you would add. Which of these would provide the lowest Calorie count for your sandwich? Both meats would be identical if you add 20 g of each. The sprouts or the chicken would add the fewest Calories. The sprouts would add the fewest Calories. The bacon would add the fewest Calories. The chicken would add the fewest Calories.
The sprouts or the chicken would add the fewest Calories.
CHEMOTHERAPY:
The treatment of disease, specifically cancer, by the use of chemicals.
Why do you think that longer meal times translate into fewer Calories consumed?
There are many possibilities. One is that by spending longer eating each meal (eating more slowly), there is time for the body to register that it is "full"—that it has had enough—before an excessive amount of Calories have been wolfed down.
What would happen to humans and other animals if algae, cyanobacteria, and plants were wiped out? Would we only lose a food source (e.g., plants), or would there be other repercussions?
There would be several repercussions for humans if photosynthetic organisms were wiped out. First, critical food and energy sources would be eliminated. Second, in the absence of photosynthesis by plants and algae, there would be a reduction in oxygen levels in the atmosphere, affecting our ability to carry out key energy-related reactions in our cells.
What do algae, cyanobacteria, and plants have in common?
They are all photosynthetic—that is, they carry out photosynthesis, using the energy from sunlight and carbon dioxide from air to synthesize sugars.
What do the lungs have to do with aerobic respiration? They are the major sites of aerobic respiration. They take up carbon dioxide from the air. They take up glucose from the air. They take up oxygen from the air. The first two choices are correct.
They take up oxygen from the air.
If you wanted to get the most possible energy from photosynthetic algae, should you eat algae directly or feed algae to a cow and then eat a burger made from that cow? Explain your answer.
You should eat the algae. If you eat the algae directly, you ingest 100% of their energy. If you feed the algae to a cow, only ~10% of the stored algal energy makes it into stored cow (burger) energy. A great deal of energy is lost between the algae and the cow.
Thrombosis:
a blood clot that restricts blood flow
ATP is both: a long-term and short-term energy storage molecule. a building block of DNA and an energy-storing molecule. a sugar and a fat. an amino acid and a nucleotide. The first two choices are correct.
a building block of DNA and an energy-storing molecule.
Which of the following would provide a more sustainable fix for one's body weight? a change in eating culture moving to Paris using only single-serving sizes eating more energy-dense foods All of the above.
a change in eating culture
. Glycogen is the energy-storing carbohydrate found in animal cells. You can think of glycogen as
a short-term storage system. When we require short bursts of energy—in a sprint, for example—the body breaks down glycogen to obtain energy.
A chromosome is: a large protein complex that surrounds and protects DNA. the sequences that do not hold the instructions for proteins. all the genetic material found within a person's cells. a single, large DNA molecule found in the nucleus of human cells. a large protein found in the Golgi complex of human cells.
a single, large DNA molecule found in the nucleus of human cells.
By preventing blood from clotting in the wrong place at the wrong time, antithrombin helps prevent
a stroke or a heart attack.
nucleotide—has three parts:
a sugar, a phosphate, and a base. The phosphate group of one nucleotide binds to the sugar group of the next nucleotide to form a chain of interlinked nucleotides
A type of vegetable fat that has been hydrogenated is: both trans fat and unsaturated fat. a saturated fat. both saturated fat and trans fat. an unsaturated fat. a trans fat.
a trans fat.
Light energy is used to split
a water molecule into Hydrogen and Oxygen
Which of the following individuals with inherited antithrombin defiecny would be most likely to require immediate treatment with antithrombin? a women giving birth a young boy undergoing surgery a man who also has type 1 diabetes an elderly woman
a women giving birth a young boy undergoing surgery
Photons of different wavelengths contain
different amounts of energy, and different objects on earth absorb and reflect different wavelengths of light.
A moderately active 21-year-old female has a choice of eating a 2,500-Calorie meal that is primarily protein or a 2,500-Calorie meal that is primarily sugar. What would be the result, in terms of energy, of choosing one over the other? a. Nothing; she would burn all these Calories, given her age, gender, and activity level. b. She would store the excess Calories as protein, regardless which meal she ate. c. She would store the excess Calories as protein if she ate the protein meal, and as glycogen if she ate the sugar meal. d. In either case, once her glycogen stores are replenished, she will store the excess Calories as fat. e. Regardless of the number of Calories, she will get more energy from the sugar meal.
d. In either case, once her glycogen stores are replenished, she will store the excess Calories as fat.
What would be the result if a cell completed interphase and mitosis but failed to complete cytokinesis? a. You would only have one cell. b. You would have twice as many chromosomes as the parent cell. c. You would have two cells that are half the size of the parent cell. d. a and b e. b and c
d. a and b
During aerobic respiration, how does NADH give up electrons to regenerate NAD+? a. by giving electrons to O2 b. by giving electrons to pyruvate c. by giving electrons to glucose d. by giving electrons to the electron transport chain e. by giving electrons to another NAD+
d. by giving electrons to the electron transport chain
Which type of organic molecule stores the most energy per gram? a. proteins b. starch c. nucleic acid d. fats (triglycerides) e. glycogen
d. fats (triglycerides)
Compared to aerobic respiration, fermentation produces ________ ATP. a. much more b. the same amount of c. a little less d. much less e. no
d. much less
What allows different cells types the ability to produce different proteins and therefore have different identities? a. different cell types have different genes b. the type of ribosome found in cell varies c. all cells produce all proteins, but some cells secrete proteins they do not need. d. only certain cells are able to turn on regulatory sequence and express certain genes.
d. only certain cells are able to turn on regulatory sequence and express certain genes.
An individual's STR may vary from the same STR of another individual by a. the order of nucleotides. b. the specific bases present. c. the specific chromosomal location of the STR. d. the number of times a particular sequence is repeated. e. the number of coding regions.
d. the number of times a particular sequence is repeated.
Which of the following represents genetic variation between individuals? a. whether or not G pairs with C or T b. the presence of STRs in their genomes c. the number of chromosomes in the nucleus d. the sequence of nucleotides along the length of each chromosome e. the number of chromosomes received from each parent
d. the sequence of nucleotides along the length of each chromosome
