The vitamin Niacin is used to form nicotinamide adenosine dinucleotide, which readily shuttles between its oxidized (NAD*) and reduced (NADH) forms. The latter serves as a cellular equivalent to NaBH4. The essential portions of the structures are shown below. Outline a mechanism for the cellular conversion of pyruvate to lactate. (Note: like NaBH4, NADH cannot reduce carboxylic acid carbonyls). нн NADH OH `NH2 `NH2 CO2 N. pyruvate lactate NAD* NADH

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The vitamin Niacin is used to form nicotinamide adenosine dinucleotide, which readily shuttles between its oxidized (NAD+) and reduced (NADH) forms. The latter serves as a cellular equivalent to NaBH4. The essential portions of the structures are shown below. Outline a mechanism for the cellular conversion of pyruvate to lactate. (Note: like NaBH4, NADH cannot reduce carboxylic acid carbonyls).

The vitamin Niacin is used to form nicotinamide adenosine dinucleotide, which
readily shuttles between its oxidized (NAD*) and reduced (NADH) forms. The latter serves as a
cellular equivalent to NaBH4. The essential portions of the structures are shown below. Outline a
mechanism for the cellular conversion of pyruvate to lactate. (Note: like NaBH4, NADH cannot
reduce carboxylic acid carbonyls).
нн
NADH
OH
`NH2
`NH2
CO2
N.
pyruvate
lactate
NAD*
NADH
Transcribed Image Text:The vitamin Niacin is used to form nicotinamide adenosine dinucleotide, which readily shuttles between its oxidized (NAD*) and reduced (NADH) forms. The latter serves as a cellular equivalent to NaBH4. The essential portions of the structures are shown below. Outline a mechanism for the cellular conversion of pyruvate to lactate. (Note: like NaBH4, NADH cannot reduce carboxylic acid carbonyls). нн NADH OH `NH2 `NH2 CO2 N. pyruvate lactate NAD* NADH
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