Concept explainers
Videos
When Griffith injected mice with a combination of live rough-strain and heat-killed smooth-strain pneumococci, he discovered that (a) the mice were unharmed (b) the dead mice contained living rough-strain bacteria (c) the dead mice contained living smooth-strain bacteria (d) DNA had been transferred from the smooth-strain bacteria to the mice (e) DNA had been transferred from the rough-strain bacteria to the smooth-strain bacteria
Introduction: Transformation is a process by which bacterial cells uptake naked DNA from its environment. It is a process of horizontal gene transfer by which the genome of the bacteria gets altered due to the uptake of foreign gene. The experimental demonstration of transformation was done by bacteriologist Frederick Griffith.
Answer to Problem 1TYU
Correct answer: When Griffith injected mice with a combination of live rough-strain and heat-killed smooth-strain of pneumococci, he discovered that the dead mice contained living smooth-strain bacteria.
Hence, the correct answer is option (c).
Explanation of Solution
Reason for the correct answer:
Frederick Griffith’s principle of transformation states that a harmless strain of bacteria can be made virulent by exposing it to heat-killed bacterial strains. Griffith started the experiment to find out a vaccine against pneumonia. He selected two strains of pneumococci:
- 1. Smooth (S) strain that has a polysaccharide coat which makes them virulent strain.
- 2. Rough (R) strain that lacks capsule which makes them non-virulent strain.
The mice died when they were injected with the virulent S form of pneumococci. Pneumonia was not caused when the non-virulent R strain injection was given to the mice. Again mice survived when they were injected with the heat-killed S form. Then a mixture of heat-killed S and R strain was injected to the mice. The mice died by causing pneumonia. By all these observations, it concluded that virulent genes from the heat-killed S strain that causes pneumonia in mice got transformed to the non-virulent living R strain. Hence, he concluded that the transformation of the virulent gene made the harmless bacteria dangerous.
Option (c) is given as “the dead mice contained living smooth-strain bacteria”.
The mice died and live smooth cells were found in the dead mice.
Hence, the correct answer is option (c).
Reasons for incorrect answers:
Option (a) is given as, “the mice were unharmed”.
In the Griffith experiment, the mice died when injected with a combination of live rough cells and heat-killed smooth cells.
Hence, option (a) is incorrect.
Option (b) is given as, “the dead mice contained living rough-strain bacteria”.
The dead mice contained living smooth cells but not living rough cells.
Hence, option (b) is incorrect.
Option (d) is given as, “DNA had been transferred from the smooth-strain bacteria to the mice”.
The DNA from bacteria does not usually transfer to the host in which it lives. The DNA of mice was unaffected due to the presence of bacteria.
Hence, option (d) is incorrect.
Option (e) is given as, “DNA had been transferred from the rough-strain bacteria to the smooth-strain bacteria”.
The DNA was transferred from the smooth-strain bacteria to rough-strain bacteria.
Hence, option (e) is incorrect.
Hence, the options (a), (b), (d), and (e) are incorrect.
The DNA was transferred from the smooth-strain bacteria to rough-strain bacteria. Thus, the mice die and live smooth cells were found in the dead mice.
Want to see more full solutions like this?
Chapter 12 Solutions
Biology (MindTap Course List)
- examples of synamtomorphy.arrow_forwardE. Bar Graph Use the same technique to upload the completed image. We will use a different type of graph to derive additional information from the CO2 data (Fig A1.6.2) 1. Calculate the average rate of increase in COz concentration per year for the time intervals 1959-1969, 1969- 1979, etc. and write the results in the spaces provided. The value for 1959-1969 is provided for you as an example. 2. Plot the results as a bar graph. The 1959-1969 is plotted for you. 3. Choose the graph that looks the most like yours A) E BAR GRAPH We will use a different type of graph to derive additional information from the CU, data (rig. nive). Average Yearly Rate of Observatory, Hawall interval Rate of increase per year 1959-1969 0.9 1969-1979 1979-1989 1989-1999 1999-2009 Figure A1.6.2 1999-2009 *- mrame -11- -n4 P2 جية 1989-1999 1979-1989 1969-1979 1959-1969 This bar drawn for you as an example 1.0 CO, Average Increase/Year (ppmv) B) E BAR GRAPH We will use a different type of graph to derive…arrow_forwardUse the relationships you just described to compute the values needed to fill in the blanks in the table in Fig A1.4.1 depth (a) 1.0 cml 0.7 cml cm| base dimensions (b, c)| 1.0 cm| 1.0 cm| 1.0 cm 1.0 cm| 1.0 cm| 1.0 cm volume (V) 1.0_cm' cm'| cm'| density (p) 1.0 g/cm'| 1.0 g/cm 1.0 g/cm' mass (m)| 0.3 g Column 1: depth at 1.0 cm volume mass Column 2: depth at 0.7 cm volume mass Column 3: unknown depth depth volumearrow_forward
- San Andreas Transform Boundary Plate Motion The geologic map below of southern California shows the position of the famous San Andreas Fault, a transform plate boundary between the North American Plate (east side) and the Pacific Plate (west side). The relative motion between the plates is indicated by the half arrows along the transform plate boundary (i.e., the Pacific Plate is moving to the northwest relative to the North American Plate). Note the two bodies of Oligocene volcanic rocks (labeled Ov) on the map in the previous page located along either side of the San Andreas Fault. These rocks are about 23.5 million years old and were once one body of rock. They have been separated by displacement along the fault. 21. Based on the offset of these volcanic rocks, what is the average annual rate of relative plate motion in cm/yr? SAF lab 2.jpg Group of answer choices 0.67 cm/yr 2 cm/yr 6.7 cm/yr 1.5 cm/yr CALIFORNIA Berkeley San Francisco K Os Q San Andreas Fault Ov…arrow_forwardThese are NOT part of any graded assignment. Are there other examples of synapomorphy. What is it called when the traits retained are similar to ancestors?arrow_forwardPlease hand draw everying. Thank you! Draw a gram positive bacterial cell below. Your cell should have the following parts, labeled: A coccus shape A capsule The gram positive cell wall should have the peptidoglycan labeled, as well as its component parts (NAM, NAG, and teichoic acid) A cell membrane Fimbriae A nucleoid Ribosomes Inclusionsarrow_forward
- Draw a gram negative bacterial cell below. Your cell should have the following parts, labeled: A bacillus shape Fimbriae Amphitrichous flagella 2 membranes (outer and inner) The outer membrane should have lipopolysaccharide (LPS) with lipid A and O antigens Periplasmic space The thin peptidoglycan cell wall between the 2 membranes A nucleoid Ribosomes Inclusionsarrow_forwardBacterial species Cell wall type Example: S. mitis Gram positive S. epidermidis H. pylori M. bovis S. marcescens Shape and arrangement Coccus, streptococcus Drawing 0000000arrow_forwardDraw a gram positive bacterial cell below. Your cell should have the following parts, labeled: A coccus shape A capsule The gram positive cell wall should have the peptidoglycan labeled, as well as its component parts (NAM, NAG, and teichoic acid) A cell membrane Fimbriae A nucleoid Ribosomes Inclusionsarrow_forward
Principles Of Radiographic Imaging: An Art And A ...Health & NutritionISBN:9781337711067Author:Richard R. Carlton, Arlene M. Adler, Vesna BalacPublisher:Cengage Learning
- Essentials of Pharmacology for Health ProfessionsNursingISBN:9781305441620Author:WOODROWPublisher:Cengage
Biology: The Dynamic Science (MindTap Course List)BiologyISBN:9781305389892Author:Peter J. Russell, Paul E. Hertz, Beverly McMillanPublisher:Cengage Learning