Term
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Definition
A technique of amplification that results in clones of identical cells containing the recombinant DNA molecule.
Donor DNA is fragmented my restriction enzymes and inserted into a vector. The donor DNA and vector DNA together are called recombinant DNA. The cell replicates and results in a clone of the recombinant. |
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Definition
Restriction enzymes "cut" the DNA
DNA Ligase "glues" the DNA |
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Term
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Definition
A sequence of letters that can be read the same forwards and backwards.
*RACECAR*
5' GAATTC 3'
3' CTTAAG 5'
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Definition
An accessory chromosome used in generating recombinant DNA molecules. They "carry" and amplify the gene of interest. |
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Term
What kinds of vectors can be used to carry DNA? |
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Definition
Plasmids, modified bacterial viruses, Cosmids, PAC, BAC and YAC
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Term
What are the differences among vectors? |
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Definition
Plasmid Vectors: replicate independent of bacterial chromosome. Routinely used are those that carry genes for drug resistance.
Bacteriophage Vectors: Ask Dr. G to Explain
Cosmids: Vector for larger DNA inserts. Can carry 35-45kb inserts. Engineered hybrids of lambda phage particles which act as syringes.
YAC (yeast artificial chromosome): For insterts larger than 300kb. |
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Term
How do you insert donor DNA into a vector? |
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Definition
Use restriction enzymes to cut the donor DNA into a set of restriction fragments. Cut vector DNA at the cleavage site. Mix the donor and vector DNA. Complementary "sticky" ends of donor and vector DNA bind to each other (hybridization). DNA Ligase "glues" the fragments together. The recombinant DNA is formed. (pg719) |
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What is a genomic library?
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Definition
A genomic library is a collection of recombinant DNA in either bacterial or phage chromosomes that together make up the entire genome of the donor DNA.
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What is making a DNA library also known as? |
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Definition
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What is shot gun cloning? |
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Definition
Cloning a large sample of fragments with hopes that one will contain the desired gene. |
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Definition
A molecule (either DNA, RNA or protein) that recognizes and marks the desired clone.
This is a screening technique screen for the fragment of interest. |
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Term
What are the two types of probes? |
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Definition
Those that recognize a specific nucleuc acid sequence
Those that recognize a specific protein |
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Can you describe gel electrophoresis? |
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Definition
Gel electrophoresis separates the molecules in the mixture by size.
A mixture of linear DNA molecules is placed into a well in an agarose gel. The well side of the gel is attached to the cathode (+). The molecules contain charges themselves and move towards the opposite end of the gel towards the anode (-). The speed of diffusion through the gel is inversely dependent on their size. Bands can be visualized by staining with ethiduim bromide which fluoresces under UV light. If the fragments are separated well enough, the fragments can be cut from the gel and the DNA sample can be purified. Therefore, DNA electrophoresis can be either diagnostic or preparative. |
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How does gel electrophoresis determine the size of the molecule? (ie how can you tell how big or small it is by looking at the gel?) |
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Definition
The absolute size of each fragment in the mixture can be determined by comparing its location on the gel with the locations of the molecular marker fragments (of known size). |
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Why is gel electrophoresis used in southern blots, pcr, sanger sequencing, etc? |
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Definition
To separate out DNA fragments by size for further analysis! |
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Definition
A method for transferring separated DNA fragments from the gel after gel electrophoresis to a filter membrane. There are three types: Southern, Northern and Western |
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What is PCR and how does it work? |
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Definition
PCR= Polymerase Chain Reaction
1. Start with a solution containing DNA source, the primers, deoxyribonucleotides (AGCT), and a heat tolerent DNA polymerase (Taq polymerase).
2. Denature DNA
3. Primers hybridize to their complementary sequences in the ssDNA molecule in a cooled solution.
4. Taq Polymerase extends the DNA segment from the primers.
5. Complementary new strands are synthesized forming two double stranded DNA molecules identical with the parental dsDNA molecule
**This represents one cycle**
Three cycles are required to completely isolate a fragment of interest. After about 25 cycles, the target sequence has been amplified about 10^6 fold. |
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Term
How do we identify the DNA sequence of a fragment? |
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Definition
Most popular method: Sanger Sequencing
A cloned DNA segment can be sequenced by characterizing a serial set of turncated synthetic DNA fragments, each terminated at different positions corresponding to the incorporation of a dideoxynucleotide. |
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Term
What is amniocentesis and chronic villus sampling? |
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Definition
Amniocentesis is a procedure that allows fetal cells to be taken from the anmiotic fluid and analyzed to identify a number of known disorders.
Chronic Villus Sampling is a related procedure in which a small sample of cells from the placenta are aspirated out with a long syringe. CVS can be performed earlier in pregnancy. |
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Term
Why are both recombination maps and physical maps important? |
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Definition
Genetic maps are useful for strain building, interpreting evolutionary mechanisms and discovering a genes unknown function. Discovering a genes function is facilitated by integrating information on recombination and physical maps. |
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Term
What are the differences between recombination maps and physical maps? |
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Definition
Recombination maps: map the loci of genes that have been identified by mutant phenotypes showing single-gene inheritance. Positions are not relative distances and have to do with linkage.
Physical maps: show the genes as segments arranged along the DNA molecule that constitutes a chromosome. |
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When does crossing over occur? |
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Definition
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What kind of recombination frequency is diagnostic for linkage? |
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Definition
A recombination frequency of less that 50% is diagnostic for linkage. |
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How do we measure distance when we map? |
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Definition
By determining the frequency of recombinants
Measured in map units (mu)
total recominants/total progeny=%recombinants=mu |
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Are map unit distances relative or absolute? |
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Definition
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What can affect distances in recombination maps?
(Why are they less accurate than distance maps?) |
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Definition
Multiple Crossovers (Distance)
Location of gene "hot spots"
Other Biological factors (Age, Sex, Genotype, Environmental Influences)
They are less accurate because we fail to take into account the true # of recombinants.
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How do we correct for unseen multiple crossovers? |
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Definition
Haldane function
Kosamm function
Perkins fucntion (for fungi)
These are mathematical functions used to get around the multiple crossover problem. |
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Term
What are the common phenotypic ratios expected from testcrosses?
Mono, Di, Trihybrid? |
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Definition
Monohybrid 1:1
Dihybrid 1:1:1:1
Trihybrid 1:1:1:1:1:1:1:1 |
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