Micro unit 7

Genotype

genetic makeup of an organism

DNA

the 3 steps of the polymerase chain reaction (PCR) are repeated over and over to generate copies of:

DNA or RNA genome and a protein coat

A bacteriophage consists of what two major components:

nonsense mutation

A base substitution that changes an amino acid-encoding codon to a stop codon is called:

Vector

A genetic element such as a plasmid or a bacteriophage that is used to introduce genetic material into a cloning host during recombinant DNA experiments is called a:

Base-pair mutagen

A mutagen that alters adenine so that it base-pairs with cytosine

Frameshift mutagen

A mutagen that causes inserttions

Ionizing radiation

A mutagen that causes the formation of highly reactive ions

No ionizing radiation

A mutagen that causes the formation of thymine dimers

Nucleosides analog

A mutagen that is incorporated into DNA in place of a normal base:

Frameshift

A mutation that results from an insertion or deletion of nucleotides, leading to a shift of the reading frame from the point of mutation downstream:

cDNA

A segment of eukaryotic DNA that lacks introns

Donor cell DNA

A transducing particle carries:

Released as a result of host cell lysis

After new virus particles have assembled in the bacterial host cell, they are usually:

selectable marker

Allows for elimination of bacterial cells that do not contain recombinant molecule or vector

origin of replication

Allows plasmid to replicate independent of host chromosome

restriction enzyme recognition site

Allows vector to be cut so that gene of interest can be inserted

DNA

An essential macromolecule that contains all of the information needed by a cell to synthesize its components

Mutant

An organism that has a mutation:

Mutation, insertion of transposons, acquiring plasmids

Bacteria can acquire antibiotic resistant by:

Transformation

Because E.coli cell's are not naturally competent, when used for cloning, they must be treated to induce them to take up DNA by the process of:

Plasmids and chromosomal DNA

Can be transferred from one cell to another by conjugation:

Broad host range

Can replicate in many different species:

Narrow host range

Can replicate in only one species:

mRNA

Carries the message for a polypeptide, translated by the ribosome

tRNA

Carries the specific amino acid to the ribosome

Chromosomes

Cells cannot survive their loss, found in all eukaryotes and prokaryotes

Genetically engineered bacteria

Chymosin or rennin, which is used to coagulate milk in cheese production, is now commonly made by:

repressor, activator

DNA-binding proteins control transcription. A binding protein that blocks transcription is called a ________ , while one that facilitates transcription is called an ________.

Translation

Decoding RNA to synthesize protein

Replication

Duplication of the genome

Translation

During what process is the information in mRNA used to synthesize a protein:

Doubles

Each PCR cycle _____ the number of copies of DNA.

Codon

Found on the mRNA and codes for an amino acid

Anticodon

Found on the tRNA and matches the codon

mutation and horizontal gene transfer

Genetic change in bacteria occurs through which two mechanisms:

Vaccines, pharmaceutical proteins, DNA, transgenic animals and plants

Genetic engineering has been used in the production of:

genetic engineering

Has been used to produce vaccines, pharmaceutical proteins, transgenic plants and animals, and DNA:

Vector

Human genes may be expressed by inserting the genes into an appropriate ______, and then placing them into E. Coli.

The recipient cell can potentially make large amounts of the protein encoded by that gene; the recipient cell has many copies of the recombinant molecule and thus many copies of the gene of interest

If a gene is cloned into a high-copy-number vector:

Wild type

If a scientist is working with bacteria that have the typical phenotype of those isolated from nature, the bacteria are considered to be:

Transduction

If you put a gene in a virus, the next step in genetic engineering would be:

For recombinant DNA technology, to cut DNA predictably into fragments

In a biotechnology lab, restriction enzymes are used:

Conjugation

In bacteria, _____ refers to DNA transfer requiring cell to cell contact.

Is integrated into the chromosome

In bacterial conjugation, F+ donor cells are high frequency recombinant (Hfr) cell's when the F plasmid:

F+

In bacterial conjugation, the term ______ designates a donor cell with an F plasmid

Start codon

In prokaryotes, the first AUG after a ribosome-binding site typically functions as a:

horizontal, vertical

In_____ gene transfer, DNA moves from one organism to another, while in ______ gene transfer, DNA is passed from a parent cell to its progeny.

Transcriptional terminators

Most transposons contain:

Selectable marker

Most vectors contain a ______, which is usually a gene that encodes resistance to an antibiotic that allows the researcher to eliminate any cells that have not taken up molecules containing the vector.

mRNA, rRNA, tRNA

The three different types of RNA used in gene expression

Transformation

The transfer of DNA from a donor to a recipient as naked DNA in solution is termed:

Transduction

The transfer of DNA from a donor to a recipient cell by a bacteriophage is termed:

Generalized transduction

The type of transduction that can transfer any genes of a host cell is called:

Direct selection possible

The use of an antibiotic resistance gene on a plasmid used in genetic engineering makes:

Palindromes

Restriction enzymes recognize and cleave DNA at sequences which are typically ________ meaning they are the same on both strands when read 5' to 3'.

Phage DNA is destroyed in a host cell

Restriction enzymes were first discovered with the observation that:

Vector

Self-replicating DNA that can carry a foreign gene

There are indications that genes from genetically modified organisms may be inadvertently transferred to other species

True about genetically modified products:

Plasmids

Typically do not encode genes essential to the life of the cell

DNA probe

Used to identify bacteria carrying a specific gene

Aligning amino acids and catalyzing formation of peptide bonds between them; ribosomes detect sequences that indicate where translation should start and finish

What are the roles of ribosomes in translation:

Amino acids are joined together by peptide bonds

What describes the elongation phase of translation:

Ribosomes assemble on the mRNA

What initiates translation:

Deoxynucleotides, DNA polymerase, Primers, Template DNA

What is needed for the polymerase chain reaction (PCR):

RNA processing to remove introns

What is the second step used to make cDNA

selectable marker gene and restriction enzyme recognition site

What is typically found in a vector used for cloning:

light repair, dark repair, proofreading by DNA polymerase

What methods are used by a cell to prevent mistakes from occurring in DNA:

DNA replication proceeds in only one direction around the bacterial chromosome

What statement is false?

Recombinant DNA

When two or more DNA molecules are linked together using in vitro methods, the resulting molecule is called:

Protoplast fusions

Which method is "hit and miss" that is, does not add a specific gene to a cell:

Frameshift

Which type of mutation alters the reading frame of a gene:

It is degenerate: more than one codon can code for a specific amino acid

Why is the genetic code said to be redundant:

DNA

The molecule that contains all the instructions needed to produce a cell's components is:

Human DNA

The necessary ingredients for DNA synthesis can be mixed together in a test tube. The DNA polymerase is from Thermus aquaticus and the template is from a human cell. The DNA synthesized would be most similar to:

Genotype

The nucleotide sequence in the DNA of a cell or an organism:

sigma factor

The part of bacterial RNA polymerase that recognizes a promoter is a subunit called:

Differential disease diagnosis, amplifying target DNA

The polymerase chain reaction (PCR) is used in:

Genetic engineering

The process of altering an organisms genetic information in vitro is called:

Recombination

The rearrangement of genes to form new combinations is called:

Terminator sequence

The region of DNA that signals the end of an RNA transcript is the:

transgenic organisms

Cloned genes introduced into a plant or an animal create:

gene library

Collection of clones containing different DNA fragments

Ribosome

Composed of rRNA and proteins, performs translation

Transcription

Conversion of a DNA message (gene) to a RNA strand

Translation

Conversion of mRNA to a protein

Transcription

Copying DNA into RNA

initiation, elongation, termination

Correct order of events in transcription

Small

DNA fragments move farther in the gel when electrophoresis is used:

DNA ligase

Joins segments of DNA

Possible allergens, genetic transfer to weeds

Legitimate concerns about genetically modified (GM) organisms include:

Plasmids and chromosomes

Made of double stranded DNA , Contains an origin of replication

DNA polymerase

Makes a molecule of DNA from a DNA template

RNA polymerase

Makes a molecule of RNA from a DNA template

adenine, guanine, cytosine, thymine

Nucleobases found in DNA

High copy number

Occur in many copies in a cell:

Low copy number

Occur in one or a few copies per cell:

Are self-replicated outside the chromosome

Plasmids differ from transposons because plasmids

Clone

Population of genetically identical cells carrying a specific foreign gene

mRNA

Proteins are synthesized by translating:

Template

RNA is synthesized using a strand of DNA called the:

spliceosome

Removal of introns

Lysed bacterial cells & secreted into the environment by bacteria

Sources of "naked" DNA

Sticky ends

Staggered cuts in a double-stranded DNA molecule by a restriction enzyme leave single-stranded overhangs known as:

1-double-stranded DNA molecule binds to surface receptor 2- nucleases degrade one strand of double-stranded DNA at the cell surface 3- single-stranded DNA enters cell after one strand has been degraded 4-single-stranded DNA integrates into genome after entering the cell 5- strand being replaced by donor DNA is defraded

Steps in order of DNA-mediated transformation into the correct order:

True

T/F: Regulating gene expression involves controlling mRNA synthesis and rapid destruction of mRNA transcripts

True

T/F: The native or wild type strain describes the typical phenotype of strains isolated from nature.

False

T/F: a codon and an anticodon base pair with each other because they have identical nucleotide sequences.

False

T/F: researchers performing genetic engineering can carry out their experiments unregulated, because this technology is so safe.

Nucleotide, amino acid

The ______ sequence of DNA encodes the ______ sequence of protein.

70S

The bacterial ribosome is _____, which is composed of a 30S and 50S subunit.

reverse transcriptase

The enzyme _____ is used to convert mature, eukaryotic mRNA into a strand of complementary DNA.

Ligation

The fourth basic step of genetic engineering

Serve as a template for protein synthesis

The function of mRNA is to:

Conjugation

Transfer of a plasmid from a donor cell to a recipient cell

Transduction

Transfer of genetic material from one cell to another by a bacteriophage

Transformation

Transfer of naked DNA from the environment to a recipient cell

Gel electrophoresis

a lab technique that separates fragments of DNA by size by using electricity to force the DNA through a gel-like matrix:

Transposase

insertion of DNA segments into DNA

Transcript

mRNA is produced when a region of DNA known as the template is copied. The newly synthesized strand of mRNA is called the: