Abstract

Ferredoxin (Fd)-dependent glutamate synthase is present in green leaves, etiolated leaves, shoots and roots of Arabidopsis thaliana (ecotype Columbia). In photosynthetic green leaves and shoots, Fd-dependent glutamate synthase accounts for more than 96% of the total glutamate synthase activity in vitro with the remaining activity derived from an enzyme that uses NADH as the electron donor. In etiolated leaves and roots, Fd-dependent glutamate synthase is 3-4-fold less active than in green leaves, but represents 70-85% of the total glutamate synthase activity in these tissues. Fd-dependent glutamate synthase is detected as a single peptide of 165 kDa on a western blot of green leaf and shoot tissues, and this Fd-dependent glutamate synthase polypeptide is 3-4-fold less abundant in etiolated leaves and roots. In these non-photosynthetic tissues, there is a higher activity of NADH-dependent glutamate synthase. The A. thaliana gltS mutant (strain CS254) contains only 1.7% and 17.5% of the wild-type Fd-dependent glutamate synthase activity in leaves and roots, respectively. Western blots indicate that the Fd-dependent glutamate synthase peptide of 165 kDa is absent from leaves and roots of the gltS mutant. In contrast, NADH-dependent glutamate synthase activity in leaves and roots is unaffected. During illumination of wild-type dark-grown leaves for 72 h, the levels of Fd-dependent glutamate synthase protein and its activity increased threefold to levels equivalent to those in green leaves. In contrast, NADH-dependent glutamate synthase activity decrease twofold during illumination. The complete nucleotide sequence of the complementary DNA for A. thaliana Fd-dependent glutamate synthase has been determined. Analysis of the amino acid sequence deduced from the complete cDNA sequence (5178 bp) has revealed that A. thaliana Fd-dependent glutamate synthase is synthesized as a 1648-amino-acid precursor protein (180090 Da) which consists of a 131-amino-acid transit peptide (14603 Da) and a 1517-amino-acid mature peptide (165487 Da). The A. thaliana Fd-dependent glutamate synthase has a high similarity to maize Fd-dependent glutamate synthase (83%) and to the analogous region of NADH-dependent glutamate synthase (42%) and NADPH-dependent glutamate synthases (40-43%) from different organisms. The A. thaliana Fd-dependent glutamate synthase contains the purF-type glutamine-amido-transfer domain as well as flavin and iron-sulfur-cluster-binding domains. The deduced primary structures of A. thaliana Fd-dependent glutamate synthase and of glutamate synthases from other organisms indicate that Fd-dependent glutamate synthase may have evolved from bacterial NADPH-dependent glutamate synthase. The cDNA hybridized to RNA of about 5.3 kb from different tissues of A. thaliana. A high steady-state level of Fd-dependent glutamate synthase mRNA is found in photosynthetic green leaves and shoots, and roots contain less mRNA for Fd-dependent glutamate synthase. In the gltS mutant, there are twofold and fourfold lower levels of Fd-dependent glutamate synthase mRNA in leaves and roots, respectively, relative to those in wild-type A. thaliana. Under continuous illumination of dark-grown leaves, the Fd-dependent glutamate synthase mRNA is induced twofold to a level equivalent to that in green leaves.

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