Your research project is the characterization of a novel organism: I. confusia. You determine that I. confusia has all the enzymes for glycolysis, can produce lactate as a fermentation product of glucose. I. confusia has an electron transport chain that uses oxygen as a terminal electron acceptor and a membrane-bound ATPase that converts pairs of protons to ATP, but it does not have the enzymes that make up a TCA cycle. I confusia can use group translocation to move glucose across the cytoplasmic membrane. You are investigating I. confusia's ability to grow on the (fictional) artificial sweetener biocyonine. So far, you have observed I. confusia can grow aerobically on minimal media where biocyonine is the only carbon and energy source. You have also determined: I. confusia uses a transporter to move the bicyonine across the cytoplasmic membrane. I. confusia has a pathway that converts each molecule of bicyonine into 1 molecule of glyeraldehyde 3-phosphate. The glyeraldehyde 3-phosphate can proceed down the remaining steps of glycolysis. For each bicyonine molecule transported into the cell, and converted to glyeraldehyde 3-phosphate, costs the cell 2 ATP. What is the highest number of molecules of NADH that will be made when I.