Biology: The Unity and Diversity of Life (MindTap Course List)
15th Edition
ISBN: 9781337408332
Author: Cecie Starr, Ralph Taggart, Christine Evers, Lisa Starr
Publisher: Cengage Learning
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Chapter 5, Problem 3DAA
One Tough Bug The genus Ferroplasma consists of a few species of acid-loving archaea. One species, Ferroplasma acidarmanus, was discovered in one of the most contaminated sites in the United States: Iron Mountain Mine in California. F. acidarmamus is the main constituent of .slime streamers (a type of biofilm) growing in water draining from this abandoned copper mine (right). The water is hot (about 40°C, or 104°F), heavily laden with arsenic and other toxic metals, and has a pH of zero.
F. acidarmanus cells have an ancient energy-harvesting pathway that uses electrons pulled from iron-sulfur compounds in minerals such as pyrite. Removing electrons from these compounds dissolves the minerals, so groundwater in the mine ends up with extremely high concentrations of solutes, including metal ions such as copper, zinc, cadmium, and arsenic. The pathway also produces .sulfuric acid, which lowers the pH of the water around the cell to zero.
F. acidarmanus cells keep their internal pH at a cozy 5.0 despite Living in an environment similar to hot battery acid. However, most of the cell’s enzymes function best al much lower pH (FIGURE 5.13). Thus, researchers think F. acidarmanus may have an unknown type of internal compartment that keeps their enzymes in a highly acidic environmental.
FIGURE 5.13 pH anomaly of Ferroplasma acidarmanus.
Left graphs showing pH activity profile of four enzymes isolated from Ferraplasma acidarmanus Researchers had expected all of these enzymes to function best at the calls’ cytoplasmic pH (5.0).
What is the optimal pH for the carboxylesterase?
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Chapter 5 Solutions
Biology: The Unity and Diversity of Life (MindTap Course List)
Ch. 5 - One Tough Bug The genus Ferroplasma consists of a...Ch. 5 - One Tough Bug The genus Ferroplasma consists of a...Ch. 5 - One Tough Bug The genus Ferroplasma consists of a...Ch. 5 - Which of the following statements is not correct?...Ch. 5 - ________ is lifes primary source of energy. a....Ch. 5 - Prob. 3SQCh. 5 - Prob. 4SQCh. 5 - Prob. 5SQCh. 5 - ______ are always changed by participating in a...Ch. 5 - Name one environmental factor that typically...
Ch. 5 - Prob. 8SQCh. 5 - A molecule that donates electrons becomes...Ch. 5 - All antioxidants ________. a. prevent other...Ch. 5 - Solutes tend to diffuse from a region where they...Ch. 5 - Prob. 12SQCh. 5 - A transport protein requires ATP to pump sodium...Ch. 5 - Immerse a human red blood cell in a hypotonic...Ch. 5 - Match each tern with its most suitable...Ch. 5 - Beginning physics students are often taught the...Ch. 5 - Describe diffusion in terms or entropy.Ch. 5 - What is a redox reaction?Ch. 5 - The enzyme trypsin is sold as a dietary...Ch. 5 - Catalase combines two hydrogen peroxide molecules...
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- The genus Ferroplasma consists of a few species of acid-loving archaea. One species, F. acidarmanus, was discovered to be the main component of slime streamers (a type of biofilm) deep inside an abandoned California copper mine (Figure 4.11A). F. acidarmanus cells use an ancient energy-harvesting pathway that combines oxygen with ironsulfur compounds in minerals such as pyrite. This reaction dissolves the minerals, so groundwater that seeps into the mine ends up with extremely high concentrations of metal ions such as copper, zinc, cadmium, and arsenic. The reaction also produces sulfuric acid, which lowers the pH of the water around the cells to zero. Despite living in an environment with a composition similar to hot battery acid, F. acidarmanus cells maintain their internal pH at a cozy 5.0. Thus, researchers investigating Ferroplasma metabolic enzymes were surprised to discover that most of the cells enzymes function best at very low pH (Figure 4.11B). A. Deep inside one of the most toxic sites in the United States: Iron Mountain Mine, in California. The water in this stream, which is about 1 meter (3 feet) wide in this photo, is hot (around 40C, or 104F), heavily laden with arsenic and other toxic metals, and has a pH of zero. Slime streamers growing in it are a biofilm dominated by a species of archaea, Ferroplasma acidarmanus. B. pH profiles of four enzymes isolated from F. acidarmus. Researchers had expected these enzymes to function best at the cells cytoplasmic pH (5.0). What does the dashed line signify?arrow_forwardMost metabolites pass through the cytoplasmic membrane via: secretion systems transport proteins osmosis diffusionarrow_forwardOne Tough Bug The genus Ferroplasma consists of a few species of acid-loving archaea. One species, Ferroplasma acidarmanus, was discovered in one of the most contaminated sites in the United States: Iron Mountain Mine in California. F. acidarmamus is the main constituent of .slime streamers (a type of biofilm) growing in water draining from this abandoned copper mine (right). The water is hot (about 40C, or 104F), heavily laden with arsenic and other toxic metals, and has a pH of zero. F. acidarmanus cells have an ancient energy-harvesting pathway that uses electrons pulled from iron-sulfur compounds in minerals such as pyrite. Removing electrons from these compounds dissolves the minerals, so groundwater in the mine ends up with extremely high concentrations of solutes, including metal ions such as copper, zinc, cadmium, and arsenic. The pathway also produces .sulfuric acid, which lowers the pH of the water around the cell to zero. F. acidarmanus cells keep their internal pH at a cozy 5.0 despite Living in an environment similar to hot battery acid. However, most of the cells enzymes function best al much lower pH (FIGURE 5.13). Thus, researchers think F. acidarmanus may have an unknown type of internal compartment that keeps their enzymes in a highly acidic environmental. FIGURE 5.13 pH anomaly of Ferroplasma acidarmanus. Left graphs showing pH activity profile of four enzymes isolated from Ferraplasma acidarmanus Researchers had expected all of these enzymes to function best at the calls cytoplasmic pH (5.0). Of the four enzymes profiled in the graphs, how many function optimally at a pH lower than 5? How many retain significant function at pH 5?arrow_forward
- Waterborne microorganisms can survive in water with small amounts of nutrients but thrive in polluted water, which is rich in nutrients. Why do you think that polluted water is considered rich in nutrients?arrow_forwardMicrobes that can survive and thrive in extreme environments are called extremophiles. In this context, what term is the most accurate to describe the microbes that can grow in salty wastewater? Acidophiles Psychrophiles Thermophiles O Halophilesarrow_forwardWhich of these are extreme microscopic organisms that require high temperatures to survive? thermophiles acidophiles alkaliphiles hyper-thermophiles?arrow_forward
- What is the range of salinities over which Halobacterium NRC-1 is able to survive? Why specifically does Halobacterium NRC-1 not survive at higher or lower salt concentrations? My answer The range in which Halobacterium NRC-1 would able to survive is between 234 ppt and 400 ppt. Halobacterium NRC-1 does not survive in lower salt concentrations because......arrow_forwardAnaerobic bacteria produces which of the following inhibitory toxic product? -methilane -cyanide oxides -fatty acids -sulphidesarrow_forwardWhich group of microorganisms requires high osmotic pressure to survive? Osmolyphiles Facultative halophiles Obligate halophiles Acidophiles Obligate halophiles AND Osmolyphilesarrow_forward
- Plants absorb several ions and water from soil. For this reason, it is necessary for the soil to have a pH value at the range of 6.0 – 8.0. Again, if the p4 is less than 3.0 or greater than 10, then the beneficial microbes of the soil die. Normally rainwater is slightly acidic, its p# value is 5.5. During thunderstorm nitrogen and oxygen of air react to form nitric oxide, which is oxidized to form nitrogen-dioxide. This nitrogen-dioxide reacts with water vapor and forms nitrous acid and nitric acid. Acid-rain occurs because of it. 2NO2+ H2O → HNO2+HNO3 Examination of soil in a region of Rajshahi revealed that its p" value was 6.43. Nitrogen-dioxide is formed in the air because of thunderstorms, and its concentration is 0.297 ppm. What will be the difference between the p" value of the soil after rain and the lowest standard pH value ?arrow_forwardBeer is produced by yeast fermentation of grain to ethanol. Why must the process of beer production be anaerobic?arrow_forwardSome suggest that lakes without fish populations due to acid depostiion can simply be stocked with young fish. Who might be satisfied with this solution? Explain. Explain why this action does not solve the problem.arrow_forward
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