Photosynthesis in the Higher Plant, Vicia faba: III. Serine, a Precursor of the Tricarboxylic Acid Cycle

Evidence is presented to support the hypothesis that serine, rather than 3-phosphoglycerate of the Calvin cycle, is a precursor of the tricarboxylic acid cycle during photosynthesis by the higher plant, Vicia faba. Identification of the serine intermediate is based upon a unique C₁ > C₂ > C₃ isotope distribution for that metabolite following the fixation of ¹⁴CO₂. This labeling pattern, while incompatible with an origin either in the Calvin cycle or the glycolate pathway, satisfies a critical criterion for the 3-carbon precursor of the anomalously labeled organic acids. The predominant carboxyl carbon atom labeling of serine reflects either a mixing of two pools of that metabolite, ie., C₁ = C₂ > C₃ and C₁ > C₂ = C₃, or a higher order of complexity in its synthesis. An anomalous C₁ = C₂ > C₃ < C₄ distribution for aspartate, however, suggests an origin by the carboxylation of a 3-carbon intermediate related to serine which has a C₁ = C₂ > C₃ distribution. The latter distribution has been proposed for the serine intermediate of the postulated formate pathway. This pathway is described by the generalized metabolic sequence: CO₂ → formate → serine → organic acids. Corresponding carbon atom distributions for citrate (C₁ > C₂), aspartate (C₂ > C₃), and serine (C₂ > C₃) belie a precursor-product relationship with alanine (C₂ = C₃), which is a molecular parameter of the Calvin cycle product, 3-phosphoglycerate.