The genome of the halophilic archaea contains three ORFs that show homology with glutamine synthetase (GS) (, , and ). Previous studies have focused on the role of GlnA-1, suggesting that proteins GlnA-2 and GlnA-3 could play a different role to that of GS. Glutamine synthetase (EC 6.3.1.2) belongs to the class of ligases, including 20 subclasses of other different enzymes, such as aspartate-ammonia ligase (EC 6.3.1.1), glutamate-ethylamine ligase (EC 6.3.1.6), and glutamate-putrescine ligase (EC 6.3.1.11). The reaction catalyzed by glutamate-putrescine ligase is comparable to the reaction catalyzed by glutamine synthetase (GS). Both enzymes can bind a glutamate molecule to an amino group: ammonium (GS) or putrescine (glutamate-putrescine ligase). In addition, they present the characteristic catalytic domain of GS, showing significant similarities in their structure. Although these proteins are annotated as GS, the bioinformatics and experimental results obtained in this work indicate that the GlnA-2 protein (HFX_1688) is a glutamate-putrescine ligase, involved in polyamine catabolism. The most significant results are those related to glutamate-putrescine ligase's activity and the analysis of the transcriptional and translational expression of the gene in the presence of different nitrogen sources. This work confirms a new metabolic pathway in the domain which extends the knowledge regarding the utilization of alternative nitrogen sources in this domain.