Abstract
All organisms possess fundamental metabolic pathways to ensure that needed carbon and sulfur compounds are provided to the cell in the proper chemical form and oxidation state. For most organisms capable of using CO2 as sole source of carbon, ribulose-1,5-bisphosphate (RuBP) carboxylase/oxygenase (Rubisco) catalyzes primary carbon dioxide assimilation. In addition, sulfur salvage pathways are necessary to ensure that key sulfur-containing compounds are both available and, where necessary, detoxified in the cell. Using knock-out mutations and metabolomics in the bacterium Rhodospirillum rubrum, we show here that Rubisco concurrently catalyzes key and essential reactions for seemingly unrelated but physiologically essential central carbon and sulfur salvage metabolic pathways of the cell. In this study, complementation and mutagenesis studies indicated that representatives of all known extant functional Rubisco forms found in nature are capable of simultaneously catalyzing reactions required for both CO2-dependent growth as well as growth using 5-methylthioadenosine as sole sulfur source under anaerobic photosynthetic conditions. Moreover, specific inactivation of the CO2 fixation reaction did not affect the ability of Rubisco to support anaerobic 5-methylthioadenosine metabolism, suggesting that the active site of Rubisco has evolved to ensure that this enzyme maintains both key functions. Thus, despite the coevolution of both functions, the active site of this protein may be differentially modified to affect only one of its key functions.
Highlights
Ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) is the essential enzyme for carbon fixation
Requirement of Rubisco for Anaerobic metabolized in the Rubiscodependent anaerobic sulfur (MTA) Metabolism— Previous studies of MTA metabolism in R. rubrum demonstrated that Rubisco-like protein (RLP), which catalyzes the isomerization of MTRu-1P to MTXu-5P [27] (Fig. 1; H), is required for aerobic MTA metabolism, it is not required under anaerobic conditions (strain WR (⌬rlpA)) (Fig. 2, A and B) [14]
These results suggest that Rubisco plays a functional role in anaerobic MTA metabolism in R. rubrum that differs from RLP and subsequent enzymes of the aerobic pathway (Fig. 1)
Summary
Ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) is the essential enzyme for carbon fixation. Rubisco Role in Carbon and Sulfur Metabolism involved in sulfur metabolism [5, 9], and subsequent studies with RLP from Bacillus subtilis [10] and other organisms [11, 12] indicated that the YkrW class of RLPs catalyzes a key reaction of an essential sulfur (methionine) salvage pathway, which enables these organisms to metabolize and detoxify MTA (see Fig. 1; compound 4) They do this by catalyzing the conversion of 2,3-diketo-5-methylthiopentyl-1-phosphate (DK-MTP-1-P; 10) to 2-hydroxy-3-keto-5-methylthiopent[1]ene-1-phosphate (HK-MTPene-1P; 11) (see Fig. 1; reaction L) [10, 12]. These results suggest that the quintessential carbon fixation enzyme, Rubisco, catalyzes an essential reaction required for anaerobic MTA metabolism
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