Module 11 Set 3
Quiz yourself by thinking what should be in
each of the black spaces below before clicking
on it to display the answer.
Help!
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| Pentose-Phosphate pathway: oxidation steps | produce NADPH, which is needed for biosynthesis
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| Pentose-Phosphate pathway: sugar transformation reactions produce | sugars needed for biosynthesis
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| Pentose-Phosphate pathway: sugars can also | be further degraded
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| Pentose-Phosphate pathway function: NADPH produced | are source of electron
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| Pentose-Phosphate pathway function: Source of 4- and 5- | carbon sugars for many purposes
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| Pentose-Phosphate pathway function: Intermediates | may be used to produce ATP
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| Pentose-Phosphate pathway function: NADPH can be converted | NADH, which yields ATP
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| Pentose-Phosphate pathway function: Pentose carbon source | can be converted to hexose
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| Transition Reaction step 1: | Connects glycolysis to the TCA.
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| Transition Reaction step 2: | Pyruvate is converted to a two-carbon acetyl group attached to coenzyme A, CO2 is released
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| Transition Reaction step 3: | This oxidation reaction removes electrons from pyruvate by dehydrogenase using NAD+ as coenzyme.
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| Transition Reaction step 4: | Reaction occurs twice for each original glucose molecule.
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| Tricarboxylic Acid Cycle is also called | citric acid cycle and Kreb’s cycle
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| Tricarboxylic Acid Cycle completes | oxidation and degradation of glucose and other molecules
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| Tricarboxylic Acid Cycle is common in | aerobic bacteria, free-living protozoa, most algae, and fungi
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| Tricarboxylic Acid Cycle is amphibolic: | provides carbon skeletons for biosynthesis
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To hide a column, click on the column name.
To hide the entire table, click on the "Hide All" button.
You may also shuffle the rows of the table by clicking on the "Shuffle" button.
Or sort by any of the columns using the down arrow next to any column heading.
If you know all the data on any row, you can temporarily remove it by tapping the trash can to the right of the row.
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