20.1 – 1 look at the illustration of “cloning a human gene in a bacterial plasmid” (figure...
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20.1 – 1Look at the illustration of “Cloning a Human Gene in a Bacterial Plasmid” (Figure 20.4 in the orange book). If the medium used for plating cells in step 5 did not contain ampicillin, cells containing no plasmid would be allowed to grow into colonies. What color would those colonies be, and why?
Cloning a human gene in a bacterial plasmid
Cloning a human gene in a bacterial plasmid
Bacterial cell
Human cell
Isolate DNA
Bacterial plasmid
Human chromosomes
lacZ gene
ampr gene
Restriction enzymes
Bacterial plasmid
gene of interest
ampr gene
broken
lacZ
gene
Mix together
Mix together
Add bacteria
Add bacteria
Grow on ampicillin
Grow on ampicillin
Add lactose mimic
Add lactose mimic
20.1 – 1Look at the illustration of “Cloning a Human Gene in a Bacterial Plasmid” (Figure 20.4 in the orange book). If the medium used for plating cells in step 5 did not contain ampicillin, cells containing no plasmid would be allowed to grow into colonies. What color would those colonies be, and why?
20.1 – 1White (No functional lacZ gene is present.)
20.1 – 2Imagine you want to study human β-globin, a protein found in red blood cells. To obtain sufficient amounts of the protein, you decide to clone the β-globin gene. Would you construct a genomic library or a cDNA library? What material would you use as a source of DNA or RNA?
20.1 – 2A cDNA library, made using mRNA from developing red blood cells, which would be expected to contain many copies of β-globin mRNA’s.
20.1 – 3What are two potential difficulties in using plasmid vectors of human proteins from cloned genes?
20.1 – 3Some human genes are too large to be incorporated into bacterial plasmids. Bacterial cells lack the means to process RNA transcripts, and even if the need for RNA processing is avoided by using cDNA, bacteria lack enzymes to catalyze the post-translational processing that many human proteins undergo.
20.2 – 1Suppose you carry out electrophoresis on a sample of genomic DNA isolated from an individual and treated with a restriction enzyme. After staining the gel with a DNA-binding dye, what would you see? Explain.
20.2 – 1Any restriction enzyme will cut DNA in many places, generating such a large number of fragments that they would appear as a smear rather than distinct bands when the gel is stained after electrophoresis.
20.2 – 2Explain why restriction fragment length polymorphisms (RFLPs) can serve as genetic markers even though they produce no visible phenotypic differences.
20.2 – 2RFLPs are inherited in a Mendelian fashion, and variations in RFLPs among individuals can be detected by Southern blotting.
20.3 – 1What is a major difference between a genetic (linkage) map and a physical map of a chromosome?
20.3 – 1In a genetic linkage map, genes and other markers are ordered with respect to each other, but only the relative distances between them are known. In a physical map, the actual distances between markers, expressed in base pairs, are known.
20.3 – 2In general, how does the approach to genome mapping used in the Human Genomic Project differ from the shotgun approach?
20.3 – 2The three-stage approach employed in the Human Genome Project involves genetic mapping, physical mapping, and then sequencing of short, overlapping fragments that previously have been ordered relative to each other.
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20.3 – 2The shotgun approach eliminates the genetic mapping and physical mapping stages; instead, short fragments generated by multiple restriction enzymes are sequenced and then subsequently ordered by computer programs that identify overlapping regions.
20.4 – 1Current estimates are that the human genome contains about 25,000 genes, but there is evidence for many more different polypeptides. What process might explain this discrepancy?
20.4 – 1Alternative splicing of RNA transcripts from a gene and post-translational processing of polypeptides.
20.4 – 2What is the major value of DNA microarray analysis for studying gene expression?
20.4 – 2It allows the expression of thousands of genes to be expressed simultaneously, thus providing a genome-wide view of which genes are expressed in different tissues, under particular conditions, or at different stages of development.
20.4 – 3Why is the genetic variation among people so much less than it is among individuals of many other species?
20.4 – 3Because the human species arose more recently than many other species, there has been less time for genetic variations in coding and noncoding DNA to accumulate.
20.5 – 1What is the advantage of using stem cells for gene therapy?
20.5 – 1Stem cells continue to reproduce themselves.
20.5 – 2List at least three different properties that have been acquired by crop plants via genetic engineering.
20.5 – 2•Herbicide resistance•Pest resistance•Disease resistance•Delayed ripening•Improved nutritional value