Concept explainers
One Tough Bug The genus Ferroplasma consists of a few species or acid-loving archaea. One species, F. acidarmanus, was discovered to be the main constituent of slime streamers (a type of biofilm) deep inside- an abandoned California copper mine (FIGURE 5.36). These cells use an ancient energy-harvesting pathway that combines oxygen with iron-sulfur compounds in minerals such as pyrite. Oxidizing these minerals dissolves them, so groundwater that seeps in to 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.
F. acidarmanus cells maintain their internal pH at a cozy 5.0 despite living in an environment similar to hot battery acid. Thus, researchers investigating Ferroprasma were surprised to discover that most of the cells' enzymes function best at very low pH (FIGURE 5 .37).
FIGURE 5.36 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 view, is hot (around 40°C, or 104°F), heavily laden with arsenic and other toxic metals, and has a pH of zero. The slime streamers growing in it are a biofilm dominated by a species of archaea Ferropiasma acidarmanus.
FIGURE 5.37 pH anomaly of Ferroplasma acidarmanus enzymes. The graphs (right) show the pH activity profiles of four enzymes isolated from Ferroplasma. Researchers had expected these enzymes to function best at the cells' cytoplasmic pH (5.0).
3. What is the optimal pH for ferroplasma carboxylesterase?
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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_forwardWhile bacteria can meet their nutrient needs and survive on acetic acid as a sole carbon source, human beings cannot. Provide a plausible explanation for this limitation in human beings.arrow_forwardOrganisms ATP NADH NADPH FADH2 Ethanol 1 20 100 0 0 50 2 350 400 0 100 1 3 500 410 200 100 1 Three organisms were tested biochemically for their production of energy, and various compounds were measured in each organism. The amounts found are shown in relative units. Based on this data, identify what kind of oganisms each is and why.arrow_forward
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