Human Biology: Concepts and Current Issues (8th Edition)
8th Edition
ISBN: 9780134042435
Author: Michael D. Johnson
Publisher: PEARSON
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Chapter 20, Problem 3AWK
Summary Introduction
To review:
Techniques used for the analysis of a dinosaur’s DNA (deoxyribonucleic acid).
Introduction:
The DNA or genetic content of an organism essentially depicts everything about that organism. It carries all the information needed to make that organism function. Various techniques can be used to further analyze the DNA and give us information about that particular organism that might be of biological relevance and may not be available through other studies.
Dinosaur DNA might be extremely difficult to extract because they disappeared millions of years ago and that would cause the integrity of the DNA to degrade. It is quite likely that the DNA of dinosaurs found might be fragmented. Even if the intact DNA is found, it would be difficult to prove that it is from a dinosaur. Thus, if one successfully manages to get dinosaur DNA that can be analyzed, a number of techniques can be used on it in order to answer a lot of evolutionary questions.
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Students have asked these similar questions
Given the situation: A paleontologist has recovered a tiny bit of organic material fromthe 400-year-old preserved skin of an extinct dodo. She would like to compare DNA from the sample with DNA from living birds.Which of the following would be most useful for increasing theamount of DNA available for testing?
Option a.) restriction fragment analysis
Option b.) polymerase chain reaction
Option c.) electrophoresis
In 1979, bones found outside Ekaterinburg, Russia, were shown to be those of Tsar Nicholas and his family, who were executed in 1918 by a Bolshevik firing squad in the Russian Revolution . To prove that the skeletons were those of the royal family, mtDNA was extracted from the bone samples, amplified by PCR, and compared with mtDNA from living relatives of the tsar’s family.
Q. Mitochondrial DNA from which living relatives would provide useful information for verifying that the skeletons were those of the royal family?
If you were to sequence a human genome today, how would the sequencing differ
from that done during the Human Genome Project? Choose only the best answer.
You would still use Sanger sequencing.
You would still assemble the sequencing reads into a genome using
bioinformatics.
You still need to clone the DNA fragments prior to sequencing them.
All three of the other statements are true.
Chapter 20 Solutions
Human Biology: Concepts and Current Issues (8th Edition)
Ch. 20 - Prob. 1QCCh. 20 - GM foods are created for a variety of reasons,...Ch. 20 - Should foods that contain genetically modified...Ch. 20 - Explain how DNA is sequenced.Ch. 20 -
2. Describe the enzymes used in recombinant DNA...Ch. 20 - Prob. 3CRCh. 20 - Discuss the polymerase chain reaction technique,...Ch. 20 - Prob. 5CRCh. 20 - Prob. 6CRCh. 20 - Prob. 7CR
Ch. 20 - Prob. 8CRCh. 20 - Prob. 9CRCh. 20 -
10. List the diseases that gene therapy may be...Ch. 20 - Prob. 1TYCh. 20 - Prob. 2TYCh. 20 - Which of the following is used to separate...Ch. 20 - Genetically engineered human insulin, human growth...Ch. 20 - Prob. 5TYCh. 20 - All of the following statements about transgenic...Ch. 20 -
7. "Gene pharming” refers to:
a. using transgenic...Ch. 20 - Prob. 8TYCh. 20 - Prob. 9TYCh. 20 - Prob. 10TYCh. 20 - Which of the following is needed for sequencing...Ch. 20 - A tiny amount of blood was recovered from a crime...Ch. 20 - Which technique will allow amplification of the...Ch. 20 - A gene for a bacterial protein with insecticide...Ch. 20 - Prob. 15TYCh. 20 -
1. What do you think are the chances that someone...Ch. 20 - Imagine a future in which the respiratory effects...Ch. 20 - Prob. 3AWKCh. 20 - Prob. 4AWKCh. 20 - Prob. 5AWKCh. 20 - There is interest in producing vaccines in foods....Ch. 20 - Transgenic plants have the potential to improve...
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- 1 2 Today's technology has made it easier to quickly and accurately generate DNA profiles. In this part of the activity, you will model the process yourself to solve a crime. Good luck, detective! Crime Report: A thief has stolen a priceless collection of jewels from the Museum of Precious Jewels. Forensic technicians obtained skin cells from a forehead print left on the glass enclosure of the jewel exhibit. DNA has been isolated and PCR amplified for some of the standard STR loci. A partial genetic profile generated from the collected DNA is shown in Figure 5. 10 50 DNA Profile from Forehead Print Number of base pairs 00 50 40 D58818 075830 I 16 MU DES1179 Shandand (10) 70 CSF1PO DITS820 80 100 Figure 5. The DNA profile of the forehead print from the scene of the crime. Each colored line shows the alleles for one of four of the core CODIS STR loci (D5S818, CSF1PO, D7S820, D8S1179). and data for the four STR loci that were included in the A suspect was identified in the case. Her DNA…arrow_forwardHumans have very similar DNA sequences, with approximately 999/1000 letters being ide One possible way of telling the difference between these very similar sequences is by: Genetic engineering Analyzing RFLPS using gel electrophoresis Comparing the total amount of DNA from two or more peoplearrow_forwardWhat is DNA fingerprinting? what is its application/s (legally and medically) and limitation/s? How does this technology work? i.e in genomic DNA identification? What is its molecular basis? How does molecular biology paved way for the emergence of this technology?arrow_forward
- An effective DNA probe can sometimes be developed by knowing the amino acid sequence of the protein encoded by the gene. A student argued that this is too time-consuming since the complete amino acid sequence must be determined in order to create the probe. Does the student have a valid argument? Why or why not?arrow_forward"DNA Sequence Analysis Relies on Bioinformatics Applications and Genome Databases". Explain this ?arrow_forwardAfter you design the PCR primers, you run the PCR on fluid from the patient’s nasal swab. Next, you need to evaluate the results. PCR makes billions of copies of just one sequence in a sample. Since you know the sequence, you also know the length (number of nucleotides) of the region you copied. There are about 130 nucleotides in the N gene fragment. This is typically stated as 130 base pairs. How can you visualize DNA and estimate its size? Load the DNA sample into an agarose gel (similar in consistency to jello) and apply an electric current to the gel. The DNA is charged and will move through the gel. The longer the DNA fragment, the more slowly it moves. The DNA is visualized by adding a fluorescent dye to your sample that sticks to DNA. When you look at the gel under UV light, the DNA should glow. What is the charge of a DNA molecule? Based on #1, would you expect DNA to be drawn to the (+) or (-) electrode of the gel electrophoresis chamber?arrow_forward
- Molecular biologists rely on many, often sophisticated, techniques to pursue their discipline. One may list ultracentrifugation, electron microscopy, X-ray diffraction, electrophoresis, and computer interfacing as fundamental tools. Model organisms provide the raw materials for study. List three "organisms" (or organismic groups) often used by recombinant DNA technologists and describe a major advantage of each group.arrow_forwardThere are three basic steps of DNA extraction: cell lysis, separation, and extraction. In the procedure for extracting DNA from human cheek cells, which parts belong to or explain the aforementioned three basic steps? You may refer to the following procedure: http://www.planet-science.com/categories/experiments/biology/2012/03/extract-your-own-dna.aspxarrow_forwardA researcher used polymerase chain reaction (PCR) to test four individual nematodes for the presence of a mutation in Gene Y. When amplified, the fragments of DNA containing the mutated gene alleles were 250 base pairs long and the normal (wild type) alleles were 350 base pairs long. To identify the genotypes of the individual nematodes, the researcher used gel electrophoresis to visualize the PCR results. 1.000 bp 500 bp 300 bp 200 bp 100 bp Remember that these nematodes are diploid organisms and as such, inherited two copies of Gene Y. Which of the following statements is a correct analysis of these results a) Nematode As homozygous for this gene and has two copies of the mutated allele. O b) Nematode C is heterozygous for this gene and has one copy of the mutated allele and one copy of the normal (wild type) allele. O) Nematode D is heterozygous for this gene and has one copy of the mutated allele and one copy of the normal (wild type) allele. ) d) Nematode B is homozygous for this…arrow_forward
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