cransporter proteins to move CO2 out of her bloodstream Her blood vessels will always be constricted YES CO2 will not leave her cells as easily following aerobic metabolism

Hi can I get help on this really soon please!! I do not understand this! Scenario: Jenelle F. has a condition wherein she retains an unusually high concentration of CO2 in her blood stream at all times. The medical doctor tells her that she should probably take it easy for a while until they can figure out a way to help her. Jenelle loves to exercise though, and so she comes to you to ask why she has try to rest as much as possible. What might be one consequence of this ailment?(see image)

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### Understanding Transport and Metabolism #### Key Points: 1. **Transporter Proteins and CO2:** - Additional transporter proteins are necessary to facilitate the removal of carbon dioxide (CO2) from the bloodstream. 2. **Blood Vessel Constriction:** - There is a persistent constriction of blood vessels. 3. **Effective CO2 Removal:** - The document affirms, "YES," indicating agreement or confirmation of a point not specified in isolation. 4. **Aerobic Metabolism:** - Following aerobic metabolism, CO2 does not exit cells as efficiently. 5. **Osmotic Pressure and Fluid Dynamics:** - Osmotic pressure causes water to move out of capillaries nearer to the venules than is typically observed. This text highlights the physiological dynamics impacting the body's ability to manage carbon dioxide and fluid balance, emphasizing the role of transporter proteins, vascular health, and osmotic pressure in maintaining homeostasis.