Chapter 20: DNA Technology and Genomics

Interactive Questions – Answers

20.1 The third sequence, because it has the same sequence running in opposite directions. The enzyme would probably cut between G and A, producing AATT and TTAA sticky ends.

20.2 a. bacterial plasmid

b. lacZ gene

c. restriction site

d. ampR (ampicillin resistance) gene

e. gene of interest

f. complementary sticky ends

g. human DNA fragments

h. recombinant plasmid

i. recombinant bacteria

j. plate with ampicillin and X-gal

  1. Plasmid and human DNA are isolated.
  2. Both DNAs are cut with same restriction enzyme. Single cut in plasmid disrupts lacZ gene; multiple fragments of human DNA formed.
  3. Fragments are mixed and some foreign fragments base-pair wit plasmid. DNA ligase seals ends
  4. Recombinant plasmids transform acteria with mutation in their lacZ gene.
  5. Plate bacteria on agar containing ampicillin and X-gal.

Cells containing recombinant plasmid are identified by their ability to grow in presence of the antibiotic and by their white color. Blue colonies contain plasmids hat resealed and thus have a functioning lacZ gene. Identify clones carrying gene of interest with nucleic acid probe or by protein product.

20.3 A genomic library contains copies of DNA segments from the entire genome. Thus, all genes should be represented, along with the regulatory sequences and introns. A cDNA library allows you to sequence only the exons of a gene, and also indicates which genes are expressed either in different cell types or at different stages of development in the same cell type.

20.4 a. By amplifying the gene prior to cloning, the later task of identifying clones carrying the

desired gene is simplified.

b. There is a limit to the number of accurate copies that can be made due to the

accumulation of relatively rare copying errors. Large quantities of a gene are better prepared by DNA cloning in cells, an the gene may be expressed in the cells.

20.5 Southern blotting procedure:

a. restriction enzyme treatment of samples

b. gel electrophoresis

c. blotting

d. hybridization with labeled probe

e. autoradiography

Crime samples contain blood from the victim and, presumably, the perpetrator. After

identifying the bands from the victim, the remaining fragments match those of Suspect

2’s fragment profile.

20.6 The public consortium followed a hierarchy of three stages: (1) genetic (linkage) mapping that established about 200 markers/chromosome; (2) physical mapping that clones and ordered smaller and smaller overlapping fragments (using YAC or BAC vectors for cloning the large fragments); and (3) DNA sequencing of each small fragment, followed by assembly of the overall sequence. The Celera whole-genome shotgun approach omitted the first two stages. Each chromosome was cut into small fragments, which were cloned in plasmid or phage vectors. The sequence of each fragment was determined, and powerful computers assembled the overlapping fragments t determine the overall sequence.

20.7 a. Comparing noncoding sequences in the human genome with those in the much smaller

yeast genome has revealed highly conserved sequences that have turned out to be

important regulatory control sequences in both. The functions of some human disease

genes have been identified through the study of similar yeast genes.

b. Once the sequence and organization of the smaller genome is determined, it can be used

as a framework for organizing the sequences from the larger genome.

20.8 a. Before, members of the extended family had to be tested to determine the variant of the

RFLP marker to which the disease-causing allele was linked. Then RFLP analysis was

done with the patient’s blood to determine which marker, and thus which allele, he or she

had inherited. Now the cloned gene can be used as a probe, and hybridization analysis

can detect the abnormal allele.

b. The major difficulty is to assure that proper control mechanisms are present so that the

gene is expressed at the proper time, in the proper place, and to the proper degree.

Insertion of the therapeutic gene must not harm other cell functions. Ethical

considerations include whether genetic engineering should be done on germ cells, thus

influencing the genetic makeup of future generations.

Structure Your Knowledge – Suggested Answers

  1. a. Bacterial enzymes that cut DNA at restriction sites, creating “sticky ends” that can base-pair with other fragments. Use: make recombinant DNA, form restriction fragments used for many other techniques

b. Mixture of molecules applied to gel in electric field; molecules separate, moving at different rates due to charge and size Use: separate restriction fragments into pattern of distinct bands, fragments can be removed from gel and retain activity or can be identified with probes

c. mRNA isolated from cell is treated with reverse transcriptase to produce a complementary DNA strand, and then a double-stranded DNA gene, minus introns and control regions. Use: creates genes that are easier to clone in bacteria, produces library of genes that are active in cell

d. Radioactively or fluorescently labeled single-stranded DNA or mRNA used to base-pair with complementary sequence of DNA or RNA. Use: locate gene in clone of bacteria, identify bands on gels, diagnose infectious diseases

e. DNA fragments separated by gel electrophoresis, transferred by blotting onto paper, labeled probe added, rinsed, autoradiography. Use: analyze DNA for homologous sequences, DNA fingerprinting

f. Single-stranded DNA fragments are incubated with four nucleotides, DNA polymerase, and four labeled dideoxy nucleotides that interrupt synthesis, samples separated by size sequence of nucleotides read from sequence of fluorescent tags. Use: determine nucleotide sequence

g. Polymerase chain reaction: DNA is mixed with heat-resistant DNA polymerase, nucleotides, and primers having complementary sequences for targeted DNA section and repeatedly heated to separate, cooled to pair with primers and replicate. Use: rapidly produce multiple copies of a gene of section of DNA in vitro

h. Restriction fragments analyzed by Southern blotting to compare different band patterns caused by DNA differences in restriction sites. Use: DNA fingerprints for forensic use, map chromosomes using RFLP markers, diagnose genetic diseases

i. Fluorescently labeled cDNA is made from a cell’s mRNA and applied to a DNA microarray of single-stranded DNA from many different genes attached to a glass grid. The intensity and location of fluorescence indicates gene expression in the cell. Use: test thousands of genes simultaneously to compare gene expression in different tissues or at different developmental stages or conditions.

  1. Agricultural applications: (1) production of vaccines and hormones, which will improve the health or productivity of livestock, (2) improvement of the genomes of agricultural plants and animals, (3) “pharm” animals or plants to produce human proteins, (4) development of plant varieties that have genes for resistance to diseases, herbicides, and insects

Medical applications: (1) development of vaccines, (2) diagnosis of genetic diseases, (3) treatment of genetic disorders, (4) production of insulin, human growth factor, TPA, and other useful products

Answers to Test your Knowledge – Multiple Choice Answers

1. c: produce a cut (usually staggered) at specific restriction sites on DNA

2. b

3. e: does all of the above

4. e: GAATTC

CTTAAG

5. c: the sequencing and systematic study of whole genomes

6.c: destruction of natural oil deposits

7. c: Ti plasmid

8. a: is a virus that is nonpathogenic

9. a: The signals that control gene expression are different and prokaryotic promoter regions

must be added to the vector

10. b: a cell produces mRNA for only a small portion of its genes

11. c: They signal the attachment of RNA polymerase

12. b: reverse transcriptase

13. d: DNA polymerase

14. a: restriction enzyme

15. c: can grow on plates with tetracycline but not with ampicillin

16. d: DNA fingerprinting

17. b: a portion of the amino acid sequence of that protein

18.d: CAG

19. c: STRs (simple tandern repeats)

20. b: More than one polypeptide can be produced from a gene by alternative splicing

21.a: a transgenic animal that produces large quantities of a pharmaceutical product

22.a: separation of fragments by gel electrophoresis

23.e: all of the above

24. d: a, b, and c

25. d