Transcribed Image Text:

Internal respiration During internal respiration, the small amount of oxygen transported in dissolved plasma (1) quickly diffuses out of the plasma into interstitial fluid. Carbon dioxide diffuses into the blood and a small amount remains dissolved in the plasma (2). Most of the carbon dioxide continues into the red blood cell where some of it combines with hemoglobin (3) to form carbaminohemoglobin (4). Most carbon dioxide, however, combines with water (5) to form carbonic acid (6). This reaction is catalyzed by carbonic anhydrase. The carbonic acid then dissociates into hydrogen and bicarbonate ions (7). As bicarbonate ion concentration inside the red blood cell increases, bicarbonate ions diffuse out of the red blood cell into plasma (8) in exchange for chloride ions (9). Bicarbonate ions act as buffers within the plasma, controlling pH. Within the red blood cell, hydrogen ions (10) are buffered by hemoglobin (11). When hemoglobin binds hydrogen ions, it has a lower affinity for oxygen. As a result, oxygen dissociates from hemoglobin (12), diffuses out of the red blood cell and out of the blood, down its pressure gradient. The interaction between hemoglobin's affinity for oxygen and its binding of hydrogen ions is called the Bohr effect. By forming hydrogen ions, carbon dioxide loading facilitates oxygen unloading.

Transcribed Image Text:

TISSUE CELL CO: CO: O2 CO: ALVEOLUS plasma | 1 7 red blood 2 8 cell 9 3 CO: Co2 + Hb + HBCO2 4 10 5 11 O, + HHb. HbO, + H* 12 CO: carbonic anhydrne Co. + H:O" H:COs • H* + HCO, HCO; C1-