Cellular Respiration cell cytoplasm mitochondria Eukaryotes glycolysis Glucose 6C Organic compound 3C TCA 3CO2 You exhale NAD+ NADH + H+ ETS O2.

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Presentation transcript:

Cellular Respiration cell cytoplasm mitochondria Eukaryotes glycolysis Glucose 6C Organic compound 3C TCA 3CO2 You exhale NAD+ NADH + H+ ETS O2 you inhale H2O Prokaryotes cell cytoplasm

Figure 07.03

Figure 07.11

What could have been in the flea dip that killed the girl? What killed the girl? https://www.polleverywhere.com/multiple_choice_polls/MTc2MDY1MjA1Mw

How could a product that is normally harmless to humans and pets have killed the girl? How could a harmless product kill https://www.polleverywhere.com/multiple_choice_polls/h7ZXOSVRUdRXIGF

What cellular function affected? https://www.polleverywhere.com/multiple_choice_polls/get6EABxEYycdr7

Part 3: ATP Analysis A more detailed analysis of the cells from the girl’s heart showed that ATP levels were reduced in the mitochondria. ATP levels in the cytoplasm of the heart cells, however, were normal. In addition, pyruvate and acetyl-CoA levels were normal in the cytoplasm of the heart cells.

What cellular process (or processes) was impaired by the Fleacide? Cellular process impaired? https://www.polleverywhere.com/multiple_choice_polls/tMzwrHBr51aXu67

What part of the ETS is impaired? What part of ETS affected? https://www.polleverywhere.com/multiple_choice_polls/poYzwAAbCvnnMxp

Some health food stores sell supplements containing NAD+ Some health food stores sell supplements containing NAD+. If you administered the supplement to the girl, could you have saved her? Why or why not? Could you have saved her? https://www.polleverywhere.com/free_text_polls/qzWm45NSKe9COf8

Could artificial respiration or oxygenation have saved the girl Could artificial respiration or oxygenation have saved the girl? Why or why not? Could oxygenation have saved the girl? https://www.polleverywhere.com/free_text_polls/5hsBvF1fyvfKBTb

Figure 3.15 This simplified diagram of a chloroplast shows the outer membrane, inner membrane, thylakoids, grana, and stroma. This OpenStax ancillary resource is © Rice University under a CC-BY 4.0 International license; it may be reproduced or modified but must be attributed to OpenStax, Rice University and any changes must be noted. Any images credited to other sources are similarly available for reproduction, but must be attributed to their sources.

Chloroplast