Multiple Choice
Ethylene oxide is gas that:
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11. Controlling Microbial Growth
Chemical Gases: Ethylene Oxide, Ozone, & Formaldehyde
1:39 minutesProblem 4
Textbook Question
The most reactive of the four toxic forms of oxygen is:
a. The hydroxyl radical
b. The peroxide anion
c. The superoxide radical
d. Singlet oxygen
Verified step by step guidance1
Step 1: Understand that the question is asking about the most reactive form among the four toxic oxygen species listed: hydroxyl radical, peroxide anion, superoxide radical, and singlet oxygen.
Step 2: Recall that reactive oxygen species (ROS) vary in their reactivity and potential to cause cellular damage. The hydroxyl radical (•OH) is known for its extremely high reactivity due to its unpaired electron and ability to react with almost any biomolecule.
Step 3: Compare the reactivity of each species: the peroxide anion (O2^2-) is less reactive, superoxide radical (O2•-) is moderately reactive, singlet oxygen (an excited form of oxygen) is reactive but generally less so than hydroxyl radical.
Step 4: Recognize that the hydroxyl radical is the most reactive because it can initiate rapid and indiscriminate damage to DNA, proteins, and lipids, making it the most toxic form of oxygen species.
Step 5: Conclude that among the options, the hydroxyl radical is the most reactive toxic form of oxygen.
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Video duration:
1mKey Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Reactive Oxygen Species (ROS)
Reactive Oxygen Species are highly reactive molecules containing oxygen that can damage cellular components. They include free radicals like superoxide and hydroxyl radicals, as well as non-radical species like peroxide and singlet oxygen. Understanding their reactivity helps explain their biological effects.
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04:43
Reactive Oxygen Species
Hydroxyl Radical
The hydroxyl radical (•OH) is an extremely reactive ROS formed by the reduction of hydrogen peroxide. It can damage DNA, proteins, and lipids rapidly due to its high reactivity and short lifespan, making it the most reactive among common toxic oxygen species.
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Superoxide Radical and Other ROS
The superoxide radical (O2•−) is a less reactive ROS produced during cellular respiration. Peroxide anion (O2^2−) and singlet oxygen are also reactive but generally less damaging than hydroxyl radicals. Differentiating their reactivity levels is key to understanding oxidative stress.
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