FFA Biotechnology
Which choice is the correct ranking of the following items in order of smallest to largest? i. 1. chromosomes 2. proteins 3. genes 4. Cell a. 2 3 1 4 c. 3 4 2 1 b. 4 2 3 1 d. 3 2 4 1
a. 23.14
Which is the item below that is true about animal breeding? a. Animal breeders need to select the parents carefully b. Animal breeders are only interested in traits for which selection is obvious and the genetic control or inheritance is easy to predict c. Animal breeding would be much easier if there was no variation within a species in the genes that control their traits. d. Although slightly more difficult, breeding between 2 different species (ex. cat and dogs) can be done just as breeding within the same species.
a. Animal breeders need to select the parents carefully
What is the name of the technique that allows geneticists to observe DNA fragments from a DNA sample and compare them based on the lengths of the fragments? a. Gel electrophoresis b. Gene gun c. Lateral flow strip test d. Polymerase Chain Reaction (PCR)
a. Gel electrophoresis
What is the definition of a chromosome? a. Macromolecules that are long DNA chains wound around proteins and contain genes. b. Amino acid chains that have a specific shape and function c. Segment of DNA that encodes a protein or an RNA molecule d. Organism's characteristics
a. Macromolecules that are long DNA chains wound around proteins and contain genes.
Identify advantages mice would have over cattle or even pigs as a model to discover animal function genes? a. Mice are cheaper to raise b. Mice do not make messes where they live or bleed when you cut them c. cattle and pigs have a very unique genetic code from other animals, mice would use a more common DNA code
a. Mice are cheaper to raise
In mitotic division.... a. New cells are exactly like the original cell b. new cells have 3/4 the original number of chromosomes c. new cells have three of each chromosome d. new cells have 1/2 the original number of chromosomes
a. New cells are exactly like the original cell
Proteins: a. are a chain of amino acids b. is a rare molecule in an organism
a. are a chain of amino acids
The things that are true about animal breeding are... a. breeding can only be done between 2 animals of the same species. b. although slightly more difficult, breeding between 2 different species (ex. cat and dogs) can be done just as breeding within the same species. c. animal breeding would be much easier if there was no variation within a species in the genes that control their traits. d. animal breeding is only done on domestic animals not wild animals.
a. breeding can only be done between 2 animals of the same species.
Nucleotides are: a. building blocks of genes b. molecules of sugar c. building blocks of proteins d. the same as genes
a. building blocks of genes
a: select parents; b: select offspring; c: identify a problem; d: cross parents e: determine what combination of traits would help a plant overcome a problem. The steps above are done by a plant breeder. The order they would do those steps is... a. c, e, a, d, b b. c, e, a, b, d c. d, b, c, e, a d. d, b, e, a, c
a. c, e, a, d, b
________ is a small part of the larger molecule that makes up a chromosome. a. Gene b. Protein c. Trait
a. gene
A transgenic organism is one that a. has genes inserted into it from another organism b. has genes created through mitosis c. normally occurs in nature d. none of the above
a. has genes inserted into it from another organism
Cell division that creates two genetically identical cells is called a. mitosis b. meiosis c. both a and b d. neither a or b
a. mitosis
In humans, genes control all of the following EXCEPT a. nutrition b. skin color c. eye color d. inherited diseases
a. nutrition
Why are marker genes often inserted into a cell's DNA along with genes of interest? a. to visually identify transgenic cells or organisms b. make the cells grow faster in culture c. add market appeal to the final transgenic organism d. protect the legal rights of a company to sell the transgenic product
a. to visually identify transgenic cells or organisms
Quantitative traits are a. traits are traits that are often controlled by many genes and are measured in amounts, such as inches, pounds, percent, quantity. b. traits are traits that are often controlled by one (or just a few) genes and their expression is either present or absent, such as no hair vs. hair, black fur color vs. brown fur color. c. traits that are not controlled by genes
a. traits are traits that are often controlled by many genes and are measured in amounts, such as inches, pounds, percent, quantity.
A fertilized egg is known as a a. zygote b. clone c. gamete d. anaphase
a. zygote
If the sequence of bases in a strand of DNA is represented by TACCAG, what would be the sequence of bases in the complementary DNA strand? a. TACCAG b. ATGGTC c. UADDAG d. AUGGUC
b. ATGGTC
The most commonly-used bacterium for gene transfer in plants is a. Bacillus thuringiensis b. Agrobacterium c. Escherichia coli d. none of the above
b. Agrobacterium
What is the definition of a protein? a. Macromolecules that are long DNA chains wound around proteins and contain genes. b. Amino acid chains that have a specific shape and function c. Segment of DNA that encodes a protein or an RNA molecule d. Organism's characteristics.
b. Amino acid chains that have a specific shape and function
The "BT" in BT corn stands for a. biologically tampered b. Bacillus thuringiensis c. bacteria tolerant d. bird tolerant
b. Bacillus thuringiensis
The reason DNA based detection works to detect a transgenic organism in more situations than Protein based detection is.... a. protein detection cannot be for a specific protein. b. DNA detection works in all tissues of an organism that is transgenic but protein detection may not.
b. DNA detection works in all tissues of an organism that is transgenic but protein detection may not.
How do genetic engineers and plant breeders work together? a. They do not work together. A company uses either plant breeder or genetic engineering to make new varieties, but not both. b. Genetic engineers add new genes and plant breeders combine these new genes with the best combinations of genes between different plants. c. Genetic engineers always finish the genetic improvement process that plant breeders start so they are responsible for making the seeds sold to farmers. d. Plant breeders add new genes and genetic engineers combine these new genes with the best combinations of genes between different plants.
b. Genetic engineers add new genes and plant breeders combine these new genes with the best combinations of genes between different plants.
Which are reasons why mice can be good model organisms for gene discovery? a. Mice were the first domesticated animals to provide milk, food and fur. b. Mice use a universal genetic code so the DNA sequence of a mouse gene will be similar to the sequence of the gene that works in a similar way in other animals. c. Mice are easy to manipulate so they grow as large a cow or live as long as a person.
b. Mice use a universal genetic code so the DNA sequence of a mouse gene will be similar to the sequence of the gene that works in a similar way in other animals.
A plant breeder wants to cross a red flowered penstemon and a strong stemmed penstemon. The plants are perfect flowers. If the breeder wants the strong stemmed penstemon to be the mail parent, he should? a. Remove the stamen from the flowers but be careful not to damage the pistil. b. Remove the stamen from the flowers and collect the pollen the plants are shedding, without worrying about damaging the pistil. c. Remove the pistil and then carefully place it in the flower of the other parent. d. Do nothing, the flower is already a male and female.
b. Remove the stamen from the flowers and collect the pollen the plants are shedding, without worrying about damaging the pistil.
Two genes that the genetic engineer could work with are gene A and gene B. Gene A from algae, is turned on in salt water and encodes an enzyme that breaks down oil. Gene B is from soil bacteria, is turned on in soil and encodes an enzyme that breaks down plant material. Which transgene could be used to create a genetically engineered soil bacteria that can clean up oil spills? a. Use the promoter from gene A and coding region from gene B b. Use the promoter from gene B and the coding region from gene A c. Use gene B d. Use gene A
b. Use the promoter from gene B and the coding region from gene A
What is a difference between mitosis and meiosis? a. meiosis happens faster than mitosis b. meiosis is used to make gametes that can genetically vary and mitosis makes identical cells. c. meiosis happens throughout an organisms life but mitosis only happens in young organisms. d. meiosis replicates chromosomes and mitosis replicates proteins.
b. meiosis is used to make gametes that can genetically vary and mitosis makes identical cells
For natural sexual reproduction to take place, parents have to be a. the same size c. the same color b. of similar species d. the same age
b. of similar species
This is the molecule that actually does work in the cell such as catalyze a chemical reaction. a. Gene b. Protein c. Trait
b. protein
A masked gene is known as a. genotype b. recessive c. dominant d. gamete
b. recessive
Pig producers would like female pigs that have more piglets per litter. If a pig geneticist knew what gene or genes were responsible for litter size they could genetically engineer their best meat production breeds to have more offspring. The motivation for doing this would be... a. pig breeders cannot increase litter size using classical methods b. the genetic engineering approach to increasing litter size might be faster than the classical breeding approach.
b. the genetic engineering approach to increasing litter size might be faster than the classical breeding approach.
Plants are easier to transform than animals because... a. they have fewer genes than animals b. they have cells that can be cultured more easily to produce new plants in a test tube or on a petri dish c. the cells that are targeted to be transformed are so big you do not need a microscope to see them. d. they have a cell wall
b. they have cells that can be cultured more easily to produce new plants in a test tube or on a petri dish
Most humans have _________ pairs of chromosomes a. 20 b. 21 c. 23 d. 25
c. 23
A plant breeder makes a cross between two plants that are both the genotype Aa (Aa X Aa). How many different genotypes with respect to the A,a genes will be produced in their offspring? a. 1 b. 2 c. 3 d. 4
c. 3
A potato breeder develops a variety of potatoes that makes excellent French fries, has good yield and gives potato farmers very little management problems. Can the plant breeder retire? a. No, the breeder cannot retire because the improved plants they create and select for farmers cannot be propagated by the farmer, only by the plant breeder. b. Yes, potato varieties that meet farmer and consumer needs today will always fit those needs decades later. c. No, the growing environment can change and so a variety that grows well now, may not grow as well years from now. The breeder needs to always be working for future change.
c. No, the growing environment can change and so a variety that grows well now, may not grow as well years from now. The breeder needs to always be working for future change.
What is the definition of a gene? a. Macromolecules that are long DNA chains wound around proteins and contain genes. b. Amino acid chains that have a specific shape and function c. Segment of DNA that encodes a protein or an RNA molecule d. Organism's characteristics
c. Segment of DNA that encodes a protein or an RNA molecule
A peanut breeder would like to develop a variety that produces sweet flavored nuts for the peanut butter industry. They search the world collection of peanut lines and they cannot find any that produce sweet flavor. What should they do next? a. They will need to cross peanuts with sugar beets or sugar cane to get sweet peanuts. b. Grow peanuts in a high sugar environment so they acquire the sweet flavor trait. c. Treat a peanut plant or peanut seeds with a mutagen in the hopes that a random mutation will make a new allele that can make peanuts produce sweet nuts. d. Give up, there is nothing they can do to incorporate this trait into peanuts.
c. Treat a peanut plant or peanut seeds with a mutagen in the hopes that a random mutation will make a new allele that can make peanuts produce sweet nuts.
Why do tree breeders need to be more patient than corn breeders? a. Trick question, trees do not have flowers so there are not tree breeders. b. Trees produce very few seeds. c. Trees have a longer generation time so it takes longer for the breeder to select individuals that have the right traits d. All trees have the same traits so there is no motive for doing plant breeding with trees
c. Trees have a longer generation time so it takes longer for the breeder to select individuals that have the right traits
Proteins are: a. is a rare molecule in an organism b. can mutate into a different protein c. a protein's structure is determined by a gene (DNA)
c. a protein's structure is determined by a gene (DNA)
Mitosis is used a. in plant tissue culturing b. to grow and develop tissues c. all of the above d. none of the above
c. all of the above
Select the statement that is true about animal breeding are. a. animal breeders are only interested in traits for which selection is obvious and the genetic control or b. inheritance is easy to predict c. animal breeders have a goal of improving a trait or traits in their breed or species of animal d. they all have the same traits they want to improve, no matter what the animal species or breed.
c. animal breeders have a goal of improving a trait or traits in their breed or species of animal
During transcription, the DNA code of a single gene is read and a copy is made called mRNA. Why is it not necessary for the entire DNA molecule (every one of hundreds of genes on the chromosome) to be copied during transcription? (check all that apply) a. an mRNA strand the size of a chromosome would be too large to travel outside of the nucleus to the cytoplasm. b. not every gene is active in the cell at the same time...meaning not every protein is being produced all the time in every cell of an organism. c. both of the above are true d. Trick question, the entire chromosome IS copied into mRNA and travels into the cytoplasm.
c. both of the above are true
Most organisms are _________ meaning that they have two chromosomes that control each trait. a. haploid b. triploid c. diploid d. polyploidy
c. diploid
Clones are a. organisms from which genes are removed b. genes that cause the production of twins c. genetically identical organisms d. organisms which produce a clone protein
c. genetically identical organisms
Bacteria are different from plants and animals in that they a. are all genetically identical because they never change b. have more genes than plants and animals c. have fewer genes than plants and animals d. replicate slower than plants and animals
c. have fewer genes than plants and animals
Which is the most accurate description of plant transformation? a. genes inserted into thousands of cells in a seed and if enough cells incorporate the genes, the plant is considered genetically engineered. b. genes inserted into pollen , seeds made from the pollen produce transgenic plants. c. the immature embryo might get removed from a plant, but these embryos are induced to develop masses of cells on a petri dish and it is these cells that are targeted for gene delivery before they develop into plants. d. genes are shot at the plant leaves and the leaves develop into flowers, then seeds
c. the immature embryo might get removed from a plant, but these embryos are induced to develop masses of cells on a petri dish and it is these cells that are targeted for gene delivery before they develop into plants.
A corn plant has the genotype BbRr where BB and Bb plants are resistant to corn borers while bb plants are not AND RR and Rr plants are resistant to Roundup Herbicide while rr plants are not. A corn breeder selfs the BbRr plant and produces hundreds of offspring. They grow hundreds of plants from these seeds. What fraction of all of these offspring from selfing BbRr will be BOTH corn borer resistant AND Roundup resistant? a. ¼ b. ¾ c. ¾ + ¾ = 6/4 d. ¾ X ¾ = 9/16
d. 3/4 x 3/4 = 9/16
What is the definition of a phenotype? a. Macromolecules that are long DNA chains wound around proteins and contain genes. b. Amino acid chains that have a specific shape and function c. Segment of DNA that encodes a protein or an RNA molecule d. Organism's characteristics
d. Organism's characteristics
A corn plant has the genotype BbRr where BB and Bb plants are resistant to corn borers while bb plants are not AND RR and Rr plants are resistant to Roundup Herbicide while rr plants are not. Which of the follow is a genotype that could be made by selfing this BbRr plant? a. BbRr b. BBRR c. bbrr d. all of the above
d. all of the above
Which type of genetic engineer must clone (copy) a gene as part of their work? a. Microbial genetic engineer b. Plant genetic engineer c. Animal genetic engineer. d. All of the above
d. all of the above
Biotechnology can be used in all of the following EXCEPT a. protecting plants from pests b. increasing animal reproduction rate c. making proteins for human medicine d. creating a living thing entirely from non-living molecules
d. creating a living thing entirely from non-living molecules