Biochemical and Molecular Characterization of PvNTD2, a Nucleotidase Highly Expressed in Nodules from Phaseolus vulgaris.

Nucleotides are molecules of great importance in plant physiology. In addition to being elementary units of the genetic material, nucleotides are involved in bio-energetic processes, play a role as cofactors, and are also components of secondary metabolites and the hormone cytokinin. The common bean (Phaseolus vulgaris) is a legume that transports the nitrogen fixed in nodules as ureides, compounds synthetized from purine nucleotides. The first step in this pathway is the removal of the 5'-phosphate group by a phosphatase. In this study, a gene that codes for a putative nucleotidase (PvNTD2) has been identified in P. vulgaris. The predicted peptide contains the conserved domains for haloacid dehalogenase-like hydrolase superfamily. The protein has been overexpressed in Escherichia coli, and the purified protein showed molybdate-resistant phosphatase activity with nucleoside monophosphates as substrates, confirming that the identified gene codes for a nucleotidase. The optimum pH for the activity was 7-7.5. The recombinant enzyme did not show special affinity for any particular nucleotide, although the behaviour with AMP was different from that with the other nucleotides. The activity was inhibited by adenosine, and a regulatory role for this nucleoside was proposed. The expression pattern of PvNTD2 shows that it is ubiquitously expressed in all the tissues analysed, with higher expression in nodules of adult plants. The expression was maintained during leaf ontogeny, and it was induced during seedling development. Unlike PvNTD1, another NTD previously described in common bean, the high expression of PvNTD2 was maintained during nodule development, and its possible role in this organ is discussed.

Nuclease and ribonuclease activities in response to salt stress: Identification of PvRNS3, a T2/S-like ribonuclease induced in common bean radicles by salt stress.

The increase in soil salinization due to global climate change could cause large losses in crop productivity affecting, among other biological processes, to germination and seedling development. We have studied how salt stress affects nucleic acid degrading activities in radicles of common bean during seedling development. In radicles of common bean, a main nuclease of 37 kDa and two ribonucleases of 17 and 19 kDa were detected. Saline stress did not alter these three activities but induced a new ribonuclease of 16 kDa. All three ribonucleases are acidic enzymes that were inhibited by Zn. The 16 and 17 kDa ribonucleases are inhibited by guanilates. In the genome of common bean, we have identified 13 genes belonging to the T2 ribonuclease family and that are grouped in the 3 classes of T2 ribonucleases. The analysis of the expression of the 3 genes belonging to Class I (PvRNS1 to 3) and the unique gene from Class II (PvRNS4) in radicles showed that PvRNS3 is highly induced under salt stress.