Given the central metabolite pyruvate (pyruvic acid), predict the types of metabolic products from aerobic respiration, anaerobic respiration, or fermentation reactions. Are there other pathways from pyruvate to other metabolites you could predict?

Adenosine triphosphate, or ATP for short, is a high-vitality particle cells use as their vitality source. Inside these stages is a significant atom called pyruvate, now and again alluded to as pyruvic corrosive.
Pyruvate is the particle that takes care of the Krebs cycle, our second step in cell breath.
Pyruvate is a significant synthetic compound in natural chemistry. It is the yield of the digestion of glucose known as glycolysis.
Pyruvate acid can be changed into sugars by means of gluconeogenesis, to vitality through acetyl-CoA, to the amino corrosive alanine to unsaturated fats and to ethanol.
The pyruvate to acetyl CoA, each pyruvate particle loses one carbon iota with the arrival of carbon dioxide.
The electrons are moved to NAD+ to formed NADH, which is utilized by the deliver ATP during the breakdown of pyruvate.
The two most basic kinds of aging are (1) alcoholic maturation and (2) lactic corrosive aging.
(1) Alcoholic aging : the sort of maturation where ethyl liquor is the principle final result . This is normal in yeast (unicellular growth) and furthermore found in certain microscopic organisms.
Pyruvic corrosive (CH3COCOOH) is the least difficult of the alpha-keto acids, with a carboxylic corrosive and Pyruvic corrosive can be produced using glucose through glycolysis, changed over back to Pyruvate is a key convergence in the system of metabolic pathways.