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BIO205 - CH9 - Recombinant DNA Technology - Tortora - Rio Salado - AZ

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How can microorganisms & plants be used as "factories" to produce unnatural chemicals/products?   By inserting genes into cells by recombinant DNA tech (rDNA) - genetic engineering  
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Another name for recombinant DNA (rDNA) technology.   genetic engineering  
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vector   A plasmid or virus used in genetic engineering to insert genes into a cell.  
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DNA vectors are often called __.   gene-cloning vectors, or cloning vectors.  
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Site-directed mutagenesis.   Techniques used to modify a gene in a specific location to produce the desired polypeptide.  
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Site-directed mutagenesis can be used to __.   make a specific change in a gene.  
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restriction enzymes   Special class of DNA - cutting enzymes that exist in many bacteria.  
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Restriction enzymes protect bacteria from __.   a hydrolyzing phage DNA - protected because cell methylates (add methyl groups).  
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methylates   Using restriction enzymes to add a methyl group to cytosines in DNA.  
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What role do restriction enzymes play?   Recognizes & digests (cuts) only are particular sequence of nucleotide bases in DNA.  
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What is useful about sticky ends left by staggered cuts?   They "stick" to complementary stretches of single-stranded DNA by base-pairing. Same enzymes used on 2 different sources of DNA will splice (recombine) in vitro.  
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Order of formation of rDNA molecule.   (1) restriction enzyme cuts 2 DNA at its particular site, (2) sticky ends formed, (3) sticky ends bond w/hydrogen bonds, (4) DNA ligase covalently bonds backbones of DNA pieces to produce rDNA molecules.  
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Why are restriction enzymes used to make recombinant DNA?   Because they produce staggered cuts that create "sticky ends" that can bond w/other DNA strands cut by same enzymes.  
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Most important property of a vector.   self-replication  
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What does an ori (origin of replication) allow a plasmid to do?   be self-replicating  
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Vectors serve as __.   vehicles for the replication of desired DNA sequences.  
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Which size of vector is easier to manipulate?   Smaller vectors, because larger DNA molecules are more fragile.  
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Most important property of a vector.   self-replication  
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What does an ori (origin of replication) allow a plasmid to do?   be self replicating  
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Vectors serve as __.   vehicles for the replication of desired DNA sequences.  
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Which size of vector is easier to manipulate?   Smaller vectors, because larger DNA molecules are more fragile.  
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What is special about shuttle vectors?   They are plasmids that are capable of existing in several different species & can be used to move cloned DNA sequences among speces.  
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Viral DNA   Vector that can usually accept much larger pieces of foreign DNA than plasmids can.  
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Name some viruses that are used as viral vectors.   Retro viruses, adenoviruses, & herpes viruses.  
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Polymerase chain reaction (PCR)   Technique by which small samples of DNA can be quickly amplified (increased quantities).  
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PCR can amplify __.   small samples of DNA  
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primers   Short pieces of nucleic acid added to help start reactions - complementary to ends of target DNA & hybridize fragments.  
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After each cycle of synthesis, DNA is __ to convert all the new DNA into a single strand.   heated  
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What enzyme copies DNA in PCR?   DNA polymerase  
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DNA polymerase for PCR comes from __.   Thermus aquaticus - a thermophilic bacterium - allows for heating by a thermalcycler.  
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PCR __ be used to amplify an entire genome.   cannot  
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In genetic engineering, a plasmid is inserted into a cell by __.   transformation  
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transformation   Procedure during which cells can take up DNA from environment - cells soaked in Ca chloride & made competent - heat added & then they take up DNA.  
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electroportation   Using electric current to create micro pores in membrane - cells then absorb DNA through pores.  
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protoplasts   Cell walls removed enzymatically to make bacteria vulnerable to experimentation.  
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Protoplast fusion   Protoplasts in a solution will fuse & create hybrid cell - can merge species like plant & alge.  
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Microinjection   inserting DNA into a cell w/glass micropipette  
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Foreign DNA will only survive if it __.   is present on self-replicating vector or is incorporated into a chromosome by recombination.  
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gene library   collection of clones containing different DNA fragments.  
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Genes are cloned into vectors using __.   restriction enzymes  
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The enzyme reverse transcriptase is used to synthesize __.   complementary DNA (cDNA)  
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cDNA is synthesized from __ template.   an mRNA  
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A DNA copy of mRNA is produced by __.   reverse transcriptase  
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cDNA   DNA made in vitro from an mRNA template.  
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The __ method is most common method of obtaining eukaryote genes.   cDNA  
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How does cDNA differ from synthetic DNA.   Synthetic DNA is created mechanically by assembling nucleotides as if letters of a keyboard, while cDNA contains exons from a mRNA template.  
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Blue-white screening for clones   If a bacterium received the original plasmid containing a piggy-backed gene, it will hydrolyze x-gal & produce a blue-colored compound.  
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Colony hybridization   ID of a colony containing a desired gene by using DNA probe complementary to that gene.  
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DNA probe   Short, labeled, single strand of DNA or RNA used to locate its complementary strand in a quantity of DNA.  
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DNA probes are labeled with?   A radioactive element of fluorescent dye.  
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In blue-white screening, white contains?   Foreign DNA  
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In blue-white screening, blue contains?   no foreign DNA  
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Why is E. coli used in genetic modifications.   They are grown easily & their genetics are known.  
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What is one disadvantage of using E. coli for genetic engineering.   They are gram-negative & produce endotoxins.  
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Why use yeast cells in genetic engineering?   They are eukaryotic & may carry plasmids.  
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gene silencing   Defense against viruses & transposons.  
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RNA interference (RNAi)   Target a particular gene - like a virus gene - and binds to mRNA & destroys it - silencing the expression of the gene.  
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One technique for genome sequencing is __.   random shotgun sequencing.  
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Random shotgun sequencing   Technique for determining the nucleotide sequence in an organism's genome.  
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bioinformatics   The science of understanding the function of genes through computer-assisted analysis.  
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proteomics   Science of determining all of the proteins expressed in a cell.  
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2 uses of Southern blotting   Genetic screening & DNA fingerprinting.  
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