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About 6 results
  • 12.E: Reactions at the α-Carbon, Part I (Exercises)
    https://chem.libretexts.org/Courses/SUNY_Oneonta/Organic_Chemistry_with_a_Biological_Emphasis_(SUNY_Oneonta)/12%3A_Reactions_at_the_-Carbon_Part_I/12.E%3A_Reactions_at_the_-Carbon_Part_I_(Exercises)
    erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the b...erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the biosynthesis of rhodomycinone, is derived in a single enzymatic step from akalonic methyl ester, in a reaction in which the carbon-carbon bond indicated by an arrow is formed.
  • 12.E: Reactions at the α-Carbon, Part I (Exercises)
    https://chem.libretexts.org/Courses/Oregon_Institute_of_Technology/OIT%3A_CHE_332_--_Organic_Chemistry_II_(Lund)/12%3A_Reactions_at_the_-Carbon_Part_I/12.E%3A_Reactions_at_the_-Carbon_Part_I_(Exercises)
    erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the b...erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the biosynthesis of rhodomycinone, is derived in a single enzymatic step from akalonic methyl ester, in a reaction in which the carbon-carbon bond indicated by an arrow is formed.
  • 12.E: Reactions at the α-Carbon, Part I (Exercises)
    https://chem.libretexts.org/Courses/Oregon_Institute_of_Technology/OIT_(Lund)%3A_Organic_Chemistry_with_a_Biological_Emphasis_(Soderberg)/12%3A_Reactions_at_the_-Carbon_Part_I/12.E%3A_Reactions_at_the_-Carbon_Part_I_(Exercises)
    erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the b...erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the biosynthesis of rhodomycinone, is derived in a single enzymatic step from akalonic methyl ester, in a reaction in which the carbon-carbon bond indicated by an arrow is formed.
  • 12.E: Reactions at the α-Carbon, Part I (Exercises)
    https://chem.libretexts.org/Courses/Oregon_Institute_of_Technology/OIT%3A_CHE_333_-_Organic_Chemistry_III_(Lund)/New_Page/12%3A_Reactions_at_the_-Carbon_Part_I/12.E%3A_Reactions_at_the_-Carbon_Part_I_(Exercises)
    erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the b...erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the biosynthesis of rhodomycinone, is derived in a single enzymatic step from akalonic methyl ester, in a reaction in which the carbon-carbon bond indicated by an arrow is formed.
  • 13.E: Reactions at the α-Carbon, Part I (Exercises)
    https://chem.libretexts.org/Courses/Nassau_Community_College/CHE200_-_Introduction_to_Organic_Chemistry_(Resch)/13%3A_Reactions_at_the_-Carbon_Part_I/13.E%3A_Reactions_at_the_-Carbon_Part_I_(Exercises)
    erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the b...erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the biosynthesis of rhodomycinone, is derived in a single enzymatic step from akalonic methyl ester, in a reaction in which the carbon-carbon bond indicated by an arrow is formed.
  • 7.P: Reactions at the α-Carbon, Part I (Problems)
    https://chem.libretexts.org/Courses/SUNY_Oneonta/Chem_322_Lecture_Content/07%3A_Reactions_at_the_-Carbon_Part_I/7.E%3A_Reactions_at_the_-Carbon_Part_I_(Exercises)
    erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the b...erythrose-4-phosphate) enters the active site and connects to what remains from the original ketose (the red part in the figure below) to form a new ketose (e.g. Aklaviketone, an intermediate in the biosynthesis of rhodomycinone, is derived in a single enzymatic step from akalonic methyl ester, in a reaction in which the carbon-carbon bond indicated by an arrow is formed.

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