Which of the following explain(s) how the reaction of carbon dioxide with water helps contribute to the observed Bohr effect? Select all that apply. The increased concentration of bicarbonate decreases the pH of the blood, stabilizing the deoxy form of Hb. The H* generated in this reaction results in a lower affinity of Hb for oxygen, causing more oxygen to be released to the surrounding tissues. The dissolved CO₂ can form a carbamate group with Hb, which promotes the release of oxygen. The H* generated interferes with the ionic interactions between the subunits of Hb increasing the affinity for oxygen. The H* generated in this reaction decreases the pH of the blood to stabilize the deoxy form of Hb. The H* forms a carbamate group with the amino termini of the Hb chains.

Chemistry
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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Which of the following explain(s) how the reaction of carbon dioxide with water helps
contribute to the observed Bohr effect? Select all that apply.
The increased concentration of bicarbonate decreases the pH of the blood, stabilizing the deoxy form of
Hb.
The H* generated in this reaction results in a lower affinity of Hb for oxygen, causing more oxygen to be
released to the surrounding tissues.
The dissolved CO₂ can form a carbamate group with Hb, which promotes the release of oxygen.
The H* generated interferes with the ionic interactions between the subunits of Hb increasing the
affinity for oxygen.
The H* generated in this reaction decreases the pH of the blood to stabilize the deoxy form of Hb.
The H* forms a carbamate group with the amino termini of the Hb chains.
Transcribed Image Text:Which of the following explain(s) how the reaction of carbon dioxide with water helps contribute to the observed Bohr effect? Select all that apply. The increased concentration of bicarbonate decreases the pH of the blood, stabilizing the deoxy form of Hb. The H* generated in this reaction results in a lower affinity of Hb for oxygen, causing more oxygen to be released to the surrounding tissues. The dissolved CO₂ can form a carbamate group with Hb, which promotes the release of oxygen. The H* generated interferes with the ionic interactions between the subunits of Hb increasing the affinity for oxygen. The H* generated in this reaction decreases the pH of the blood to stabilize the deoxy form of Hb. The H* forms a carbamate group with the amino termini of the Hb chains.
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