Tricarboxylic acid cycle steps
The citric acid cycle involves two major reactions:
- Acetyl-CoA formation
- Tricarboxylic acid cycle reactions
Tricarboxylic Acid Cycle – Overview, Stages, Roles, Significance
Plants respire throughout their lives because the plant cell requires energy to survive; however, plants breathe in a unique way known as cellular respiration. Photosynthesis is the process by which plants generate glucose molecules by capturing and converting sunlight energy. Several live experiments demonstrate plant respiration. All plants respire in order to provide energy to their cells, allowing them to be active or alive.
Plants require oxygen to respire, and the process emits carbon dioxide. However, plants do have stomata (found in leaves) and lenticels (found in stems) that are actively involved in gas exchange. Plants lack specialized structures for gas exchange, in contrast to people and other creatures. Plant leaves, stems, and roots respire at a slower rate than other parts of the plant.
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