Yes
NO!
NO
catalase
The peroxizome contains catalase, an enzyme which facilitates the decomposition of H2O2 to H2O and O.
oxygen. catalase is an enzyme that breaks hydrogen peroxide down to form water and oxygen.
h2o
The higher the concentration of an enzyme, the faster the rate of decomposition. There is actually an enzyme in the human body that catalyses H2O2. It is catalase, which breaks down the toxic H2O2 into water (H2O) and oxygen (O2).
catalase
photosystem II
The chemical reaction is:C2H2 + H2O = CH3CHOand is possible with the enzyme acetylene hydratase.
Carbonic Anhydrase, I think :D
Hexokinase- This enzyme catalyzes the first reaction in glycolysis pathway.phosphotase- the enzyme that removes a phosphate group.Catalase- The enzyme that seperates peroxide (H2O2) into water and oxygen (H2O, O)As a rule of thumb, anything ending in the suffix -ase is 99.9% of the time an enzymeAmylase., Protease
The enzyme complex in the ETC and the H come together to produce H2O: Water.
Protein
Catalase is. it is an enzyme located in the liver that breaks down poisonous hydrogen peroxide into water and oxygen ( 2 H2O2 -----> 2 H2O + O2) and it is estimated to catalyse around 38 million molecules of hydrogen peroxide per second!
In enzymology, a (S)-2-haloacid dehalogenase (EC 3.8.1.2) is an enzyme that catalyzes the chemical reaction (S)-2-haloacid + H2O (R)-2-hydroxyacid + halide Thus, the two substrates of this enzyme are (S)-2-haloacid and H2O, whereas its two products are (R)-2-hydroxyacid and halide. http://en.wikipedia.org/wiki/(S)-2-haloacid_dehalogenase
An aminoacylase is a hydrolase enzyme which catalyzes the chemical reaction N-acyl-L-amino acid + H2O corresponds to a carboxylate + an L-amino acid.
You have to see what kind of enzyme it is.Since enzyme is SPECIFIC of doing a certain reaction, what it matters is what the enzyme is.For an example,Starch ---amylase--> MaltoseHydrogen Peroxide ---Catalyse---> Water (H2O) + Oxygen (O2)Please refer to http://wiki.answers.com/Q/What_is_the_product_of_an_enzyme
It decomposes H2O into H+ molecules and O2. The oxygen is useful for every breathing organism. The H+ are then used to reduce NADP to NAPDH, necessary for glucose synthesis later on in the processes. The Z enzyme also transfers electrons to an electron acceptor.