A Novel Nuclear-Encoded Protein, NDH-Dependent Cyclic Electron Flow 5, is Essential for the Accumulation of Chloroplast NAD(P)H Dehydrogenase Complexes

The chloroplast NAD(P)H dehydrogenase (NDH) complex, which reducesplastoquinones in thylakoid membranes, is involved in PSI cyclicelectron flow and chlororespiration. In addition to land plants,the NDH complex is conserved in cyanobacteria. In this study,we identified a novel NDH-related gene of Arabidopsis, NDH-dependentcyclic electron flow 5 (NDF5, At1g55370). Post-illuminationincreases in chlorophyll fluorescence were absent in ndf5 mutantplants, which indicated that NDF5 is essential for NDH activity.Sequence analysis did not reveal any known functional motifsin NDF5, but there was some homology in amino acid sequencebetween NDF5 and NDF2, a known NDH subunit. NDF5 and NDF2 homologswere present in higher plants, but not cyanobacteria. A singlehomolog, which had similarity to both NDF5 and NDF2, was identifiedin the moss Physcomitrella patens. Immunoblot analysis showedthat NDF5 localizes to membrane fractions of chloroplasts. Thestability of NdhH, a subunit of the NDH complex, as well asNDF5 and NDF2, was decreased in ndf5, ndf2 and double ndf2/ndf5mutants, resulting in a loss of NDH activity in these mutants.These results indicated that both NDF5 and NDF2 have essentialfunctions in the stabilization of the NDH complex. We proposethat NDF5 and NDF2 were acquired by land plants during evolution,and that in higher plants both NDF5 and NDF2 are critical toregulate NDH activity and each other's protein stability, aswell as the stability of additional NDH subunits.