NADP+-dependent malic enzyme of Rhizobium meliloti

Abstract

The bacterium Rhizobium meliloti, which forms N2-fixing root nodules on alfalfa, has two distinct malic enzymes; one is NADP+ dependent, while a second has maximal activity when NAD+ is the coenzyme. The diphosphopyridine nucleotide (NAD+)-dependent malic enzyme (DME) is required for symbiotic N2 fixation, likely as part of a pathway for the conversion of C4-dicarboxylic acids to acetyl coenzyme A in N2-fixing bacteroids. Here, we report the cloning and localization of the true gene (encoding the triphosphopyridine nucleotide [NADP+]-dependent malic enzyme) to a 3.7-kb region. We constructed strains carrying insertions within the time gene region and showed that the NADP+-dependent malic enzyme activity peak was absent when extracts from these strains were eluted from a DEAE-cellulose chromatography column. We found that NADP+-dependent malic enzyme activity was not required for N2 fixation, as time mutants induced N2-fixing root nodules on alfalfa. Moreover, the apparent NADP+-dependent malic enzyme activity detected in wild-type (N2-fixing) bacteroids was only 20% of the level detected in free- living cells. Much of that residual bacteroid activity appeared to be due to utilization of NADP+ by DME. The functions of DME and the NADP+-dependent malic enzyme are discussed in light of the above results and the growth phenotypes of various time and dine mutants.