After several rounds of experiments like those described above, you find that you have identified five different genes involved in the biosynthesis of tryptophan in this organism. You name them Gene 1 through Gene 5. Based on your knowledge of the pathway of tryptophan biosynthesis from Problem Set 2, you set out to compare this with the pathway in your new yeast species.

The figure below shows the pathway of tryptophan in most organisms.

You try growing a representative mutant from each complementation group (gene) on medium containing various intermediates in the tryptophan biosynthetic pathway and summarize your results in the table below. The symbol "+" indicates that a mutant in that gene grew when provided with only that compound in minimal medium. The symbol "-" indicates no growth under those conditions.

Compound Gene 1 Gene 2 Gene 3 Gene 4 Gene 5
Shikimate - - - - -
Shikimate-3-P - - - - -
Carboxyvinyl-3-P-shikimate - - - - -
Chorismate - - - - -
Anthranilate - - - + -
Phosphoribosyl anthranilate - - - + +
Carboxyphenylamino deoxyribulose-5P - + - + +
Indoleglycerol-P + + - + +
Indole + + - + +
Tryptophan + + + + +
Based on these data and the pathway shown above, give the most likely name of the enzyme encoded by each gene (when grading your answer, we will ignore capitalization, spaces, and dashes):

Gene 1
unanswered
Gene 2
unanswered
Gene 3
unanswered
Gene 4
unanswered
Gene 5