To analyze:
The ratio of purine to pyrimidine for the given set of deoxyribonucleic acid (DNA), observation of a pattern, and the relation of this pattern to the DNA structure.
Given:
The composition of DNA is different in different organisms. The composition of DNA bases in some organisms is tabulated as follows in Table 1:
Table 1: The composition of DNA bases in some organisms
| Organism and the tissue from which DNA is extracted | The composition of DNA base (%) | |||
| Adenine | Guanine | Cytosine | Thymine | |
| Herring sperm | 27.8 | 22.2 | 22.6 | 27.5 |
| Rat bone marrow | 28.6 | 21.4 | 21.5 | 28.4 |
| Human sperm | 30.7 | 19.3 | 18.8 | 31.2 |
| Escherichia coli | 26.0 | 24.9 | 25.2 | 23.9 |
| Yeast | 31.3 | 18.7 | 17.1 | 32.9 |
Introduction:
Purines are the heterocyclic compounds, which contain carbon, hydrogen, and nitrogen atoms. They contain a double ring system. Pyrimidine is also heterocyclic compounds, but they contain a single ring. The concentration of both purines and pyrimidine are important to define the genetic code of an individual. The DNA consist of two types of purines, that are, guanine (G) and adenine (A) (remember ‘i’ in purine, adenine, and guanine), and two types of pyrimidine, that are, thymine (T) and cytosine (C) (remember ‘y’ in cytosine, thymine, and pyrimidine).
Explanation of Solution
Each purine is bonded to a pyrimidine with the help of hydrogen bonds. The adenine is bonded to thymine by two hydrogen bonds and cytosine is bonded to guanine by three hydrogen bonds. The rule of bonding of a pyrimidine with a purine is called as the Chargaff’s rule. The number of purines is always equal to the number of pyrimidines.
The ratio of purine to pyrimidine is calculated by dividing the total amount of purine with the total amount of pyrimidines and it can be seen in Table 2 given below:
Table 2: Ratio of purine to pyrimidine
| Organism and the tissue from which DNA is extracted | Purines | Pyrimidines | Ratio | ||
| A+G | C+T | ||||
| Herring sperm pyrimidines ratio | |||||
| Rat bone marrow | |||||
| Human sperm | |||||
| Escherichia coli | |||||
| Yeast |
From Table 2, it is clear that the ratio of purine to pyrimidine is always equal to 1. This means that the DNA always occurs as a double helix structure in which one purine is always bonded to one pyrimidine.
Thus, it can be calculated from Tables 1 and 2 that each organism has a different composition of DNA bases but the ratio of purines to pyrimidine is always equal to 1 indicating that DNA is a double helix structure, in which each purine is hydrogen bonded to a pyrimidine.
Want to see more full solutions like this?
Chapter 4 Solutions
Life: The Science of Biology
- There is one base pair for every 0.34 nm of DNA and the totalcontour length of all the DNA in a single human cell is 2 m.Calculate the number of base pairs in a single cell. Assumingthat there are 1014 cells in the human body, calculate the totallength of DNA. How does this estimate compare to the distance from the earth to the sun (1.5 * 108km)?arrow_forwardAssume that the molar percentage of thymine in a double stranded DNA is 20. What are the percentages of the four bases (G, C, T, A)? b. The base content of a sample of DNA is as follows: A=31% G=31% T=19% C=19%. What conclusion can be drawn from this information?arrow_forwardA plot showing the % of denaturation as a function of temperature for a melting point of a DNA sample under 0.12 M NaCl gives an equation of a line of Y= 0.0074 X - 0.044. (where Y is the % of denaturation and X is the temperature in °C) Question: Calculate the melting point of this DNA in °C.arrow_forward
- Assume the energy of hydrogen bonds per base pair to be 5.86 kJ•mol-1. Given two complementary strands of DNA containing 145 base pairs each, calculate the ratio of two separate strands to hydrogen-bonded double helix in solution at 319 K. ratio = Supnorting Matorialsarrow_forwardDraw the following structures and rate their relative solubilities in water (most soluble to least soluble): deoxyribose, guanine, phosphate. How are these solubilities consistent with the three-dimensional structure of double-stranded DNA?arrow_forwardIf DNA concentration is 2 grams, what would be the molar concentration of human DNA in a human cell?arrow_forward
- The Tm of a DNA strand can be calculated by hand using the formula: (2 ℃)(?????? ?? ? + ?) + (4 ℃)(?????? ?? ? + ?) = ??℃ Using this formular, calculate the Tm for the following DNA sequence: [CTTTCACAGCCACTATCCAGCGGTAC] Note: This formula has several limitations and is not useful for sequences longer than 14 bp. Use the Internet search to find an online Tm calculator. Use this calculator to find the Tm of the above sequence. Using information from your search, identify three factors that can affect the Tm.arrow_forwardThe complementary strands of DNA in the double helixare held together by hydrogen bonds: G ≡ C or A = T.These bonds can be broken (denatured) in aqueous solutions by heating to yield two single strands of DNA(see Figure 1-13a). How would you expect the relativeamounts of GC versus AT base pairs in a DNA doublehelix to affect the amount of heat required to denatureit? How would you expect the length of a DNA doublehelix in base pairs to affect the amount of heat requiredto denature it?arrow_forwardWhen DNA is heated, it denatures; that is, the strands separate because hydrogen bonds are broken and some base-stacking and hydrophobic interactions are disrupted. The higher the temperature, the larger the number of hydrogen bonds that are broken. After reviewing DNA base pair structure, determine which of the following molecules will denature first as the temperature is raised. Explain your reasoning. a. 5′-GCATTTCGGCGCGTTA-3′ 3′-CGTAAAGCCGCGCAAT-5′ b. 5′-ATTGCGCTTATATGCT-3′ 3′-TAACGCGAATATACGA-5′arrow_forward
- What is the concentration of a DNA solution that absorbs 0.812 and 0.463 at 260 and 280 nm, respectively? Is the DNA solution considered to be good quality? Why or why not?arrow_forwardThe sequences of several short single-stranded DNA molecules are shown below. Imagine each sequence as a typical double-stranded DNA molecule, with antiparallel strands held together by Watson-Crick base- pairs between the complementary bases. Which of these double-stranded molecules would have the highest melting temperature (Tm)? 5' ACTGAGTCTCTGACTAGTCT 3' 5' ACTTAGTCTATGACTAGTCT 3' 5' ACTTAATCTATGAATAGTCT 3' 5' ACTGCGTCTCCGACTAGTCT 3' 5' ACTGCGTCTCCGACGAGCCT 3'arrow_forwardThe two sides of the DNA double helix are connected by pairs of bases (adenine, thymine, cytosine, and guanine). Because of the geometric shape of these molecules, adenine bonds with thymine and cytosine bonds with guanine. The figure (Figure 1) shows the thymine-adenine bond. Each charge shown is ±e, and the H−N distance is 0.110 nm . Calculate the net force that thymine exerts on adenine. To keep the calculations fairly simple, yet reasonable, consider only the forces due to the O−H−N and the N−H−N combinations, assuming that these two combinations are parallel to each other. Remember, however, that in the O−H−N set, the O− exerts a force on both the H+ and the N−, and likewise along the N−H−N set. Express your answer in newtons. Is the net force attractive or repulsive?arrow_forward
Human Heredity: Principles and Issues (MindTap Co...BiologyISBN:9781305251052Author:Michael CummingsPublisher:Cengage Learning