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With regards to the possible mechanism by which fructose accelerates ethanol metabolism, a literature review indicates a possible shift in the metabolism of fructose in the presence of alcohol. This shift has been linked to the production in the liver of NAD+ which facilitates alcohol oxidation. Therefore, in the presence of alcohol, the metabolism of fructose in the liver is diverted from NAD+ to NADH requiring pathways, which in turn generates the NAD+ needed for alcohol oxidation<ref>Agro Food Industry hi tech Sep-Oct2009, Vol. 20 No.5; Fructose and its effect on alcohol elimination from blood following alcohol consumption; Fernando Schved</ref>.
 
With regards to the possible mechanism by which fructose accelerates ethanol metabolism, a literature review indicates a possible shift in the metabolism of fructose in the presence of alcohol. This shift has been linked to the production in the liver of NAD+ which facilitates alcohol oxidation. Therefore, in the presence of alcohol, the metabolism of fructose in the liver is diverted from NAD+ to NADH requiring pathways, which in turn generates the NAD+ needed for alcohol oxidation<ref>Agro Food Industry hi tech Sep-Oct2009, Vol. 20 No.5; Fructose and its effect on alcohol elimination from blood following alcohol consumption; Fernando Schved</ref>.
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Index 1:
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=== Index 1 ===
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{|class = "wikitable"
 +
|-
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!scope = "col"|Verse No.
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!scope = "col"|Name as per Charaka
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!scope = "col"|Latin Name
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!scope = "col"|Useful part
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!scope = "col"|''Rasa''
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|-
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|23
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|''Yava''
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|''-''
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|''-''
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|''-''
 +
|-
 +
|}
 +
 
 
Verse no. Name as per Charaka Lattin name Useful Part Rasa
 
Verse no. Name as per Charaka Lattin name Useful Part Rasa
 
23 Yava  
 
23 Yava