Plant Nucleotide Metabolism. Hiroshi Ashihara

Plant Nucleotide Metabolism - Hiroshi Ashihara


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      Pyridine nucleotides (nicotinamide adenine dinucleotide [NAD] and nicotinamide adenine dinucleotide phosphate [NADP]) consist of two mononucleotides, namely AMP and nicotinamide mononucleotide (NMN). Since the AMP moiety is a product of purine biosynthesis, in a narrow sense, pyridine nucleotide synthesis results in the formation of nicotinate monophosphate (NaMN). Two distinct pathways called the ‘aspartate pathway’ and the ‘kynurenine pathway’ occur in different organisms. The aspartate pathway, in which aspartate, glutamine, glyceraldehyde-3-phosphate and PRPP are used as precursors, operates in plants (Figure 3.1c). This route is also found in most bacteria, including Escherichia coli. In contrast, mammals, fungi, and some bacteria produce NAD by the kynurenine pathway. The steps leading from quinolinate to NAD are conserved among prokaryotes and eukaryotes. Further details of these biosynthetic pathways are covered in Part IV.

      3.3.1 Nucleoside-Monophosphate Kinase


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Librs.Net
Enzymes EC Reaction References
1 Nucleoside-monophosphate kinase 2.7.4.4 ATP + Nucleoside monophosphate → ADP + Nucleoside diphosphate Noda (1962)
2 Nucleoside-diphosphate kinase 2.7.4.6 ADP + Nucleoside triphosphate → ATP + Nucleoside diphosphate Dorion and Rivoal (2015)
3 Adenylate kinase (= Myokinase) 2.7.4.3 AMP + ATP → 2 ADP Johansson et al. (2008)
4 Guanylate kinase 2.7.4.8 GMP + ATP → GDP + ADP Nomura et al. (2014)
5 UMP/CMP kinase (= Cytidylate kinase) 2.7.4.14 Zhou et al. (1998)
6 ATP synthase (H+-transporting two-sector ATPase) 3.6.3.14 ADP + Pi + H+out → ATP + H2O + H+in Li et al. (2012)
7 Phosphoglycerate kinase 2.7.2.3