Lactic acid (also called lactate).
The product of glycolysis in the cytoplasm is pyruvic acid (= pyruvate). If there is not enough oxygen for the mitochondria to oxidize the pyruvic acid, the enzyme lactic acid (or lactate) dehydrogenase, which is in the cytoplasm, reduces the pyruvic acid to lactic acid.
Uranium 235
Lactate
It produces lactic acid.
false
skeletal muscle
2 ATP from glycolysis, as the rest of the process does not go on!
Glucose
The ending product of anaerobic respiration in muscle cells is lactic acid.
Lactic acid fermentation is an anaerobic process. This means that lactic acid is produced in the absence of oxygen. This usually occur in bacteria cells but can also occur in muscle cells.
Cardiac muscle cells can respire in both aerobic and anaerobic environments. However, the main difference is that the energy required by the cardiac muscle cells is obtained differently in the aerobic and anaerobic environments.
No, Cardiac muscle makes most of its ATP via aerobic mechanisms (not anaerobic mechanisms).
The substance produced when proteins are digested is amino acids. Amino acids are the building blocks of proteins and are essential for various bodily functions, such as muscle building, enzyme production, and hormone regulation.
As Anaerobic respiration takes place in two different processes so we have different products according to the process.In the case of alcoholic fermentation (such as in yeast), alcohol (C2H5OH) and CO2 are produced as the main products of anaerobic respiration.In case of lactic acid fermentation (e.g in muscle cells of humans) pyruvic acid is converted into lactic acid (C3H6O3)in anaerobic respiration.
As Anaerobic respiration takes place in two different processes so we have different products according to the process.In the case of alcoholic fermentation (such as in yeast), alcohol (C2H5OH) and CO2 are produced as the main products of anaerobic respiration.In case of lactic acid fermentation (e.g in muscle cells of humans) pyruvic acid is converted into lactic acid (C3H6O3)in anaerobic respiration.