NAD+animalAnimal model2010

Three different and tissue-specific NAD-malic enzymes generated by alternative subunit association in Arabidopsis thaliana.

The Journal of biological chemistry

confidence

Key findings

Plant mitochondrial NAD-malic enzyme (NAD-ME) forms three tissue-specific isoforms (NAD-ME1, NAD-ME2, NAD-MEH) via subunit association; no clinical/biological endpoints reported.

View source on PubMed (PMID 20133948) ↗

Sample size
Not reported
Population
Arabidopsis thaliana (plant)
Dosing
Not applicable
Duration
Not reported
Route
Not applicable
Blinding
not_reported
Controls
none
Drug class
coenzyme
Full abstract

The Arabidopsis thaliana genome contains two genes encoding the mitochondrial NAD-malic enzyme (NAD-ME), NAD-ME1 (At2g13560) and NAD-ME2 (At4g00570). The characterization of recombinant NAD-ME1 and -2 indicated that both enzymes assemble as active homodimers; however, a heterodimeric enzyme (NAD-MEH) can also be detected by electrophoretic studies. To analyze the metabolic contribution of each enzymatic entity, NAD-MEH was obtained by a co-expression-based recombinant approach, and its kinetic and regulatory properties were analyzed. The three NAD-MEs show similar kinetic properties, although they differ in the regulation by several metabolic effectors. In this regard, whereas fumarate activates NAD-ME1 and CoA activates NAD-ME2, both compounds act synergistically on NAD-MEH activity. The characterization of two chimeric enzymes between NAD-ME1 and -2 allowed specific domains of the primary structure, which are involved in the differential allosteric regulation, to be identified. NAD-ME1 and -2 subunits showed a distinct pattern of accumulation in the separate components of the floral organ. In sepals, the NAD-ME1 subunit is present at a slightly higher proportion than the NAD-ME2 subunit, and thus, NAD-MEH and NAD-ME1 act in concert in this tissue. On the other hand, NAD-ME2 is the only isoform present in anthers. In view of the different properties of NAD-ME1, -2, and -H, we suggest that mitochondrial NAD-ME activity may be regulated by varying native association in vivo, rendering enzymatic entities with distinct allosteric regulation to fulfill specific roles. The presence of three different NAD-ME entities, which originate by alternative associations of two subunits, is suggested to be a novel phenomenon unique to plant mitochondria.

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