Enzyme activity was measured based on the determination of α-keto

Enzyme activity was measured based on the determination of α-ketobuty rate resulting from ACC cleavage by ACC deaminase (Penrose & Glick, 2003). Pseudomonas putida UW4 and Mesorhizobium sp. MAFF303099 were used as a positive and negative control, respectively. The region of the genomes from M. loti R7A, Mesorhizobium sp. MAFF303099, M. ciceri bv. biserrulae WSM1271, M. australicum WSM2073T, and M. opportunistum WSM2075T that contain the acdS gene were analyzed to determine

the acdS gene ‘neighborhood’. Talazoparib concentration The intergenic regions upstream of the acdS gene in M. loti R7A, Mesorhizobium sp. MAFF303099, M. ciceri bv. biserrulae WSM1271, M. australicum WSM2073T, and M. opportunistum WSM2075T were examined for putative upstream activator sequences (UAS). Putative NifAUAS (5′-TGT-N9–11-ACA-3′) (Alvarez-Morales et al., 1986; Buck et al., 1986; Morett & Buck, 1988) were searched in the immediate upstream region of the acdS genes using FUZZNUC (http://mobyle.pasteur.fr/cgi-bin/portal.py#forms::fuzznuc), a Web-based program of the European Molecular Biology Open Software Suite (EMBOSS) (Rice et al., 2000). The acdS, nifH,

nodC, and 16S rRNA gene sequences (Table 1) were analyzed using bioedit v.7.0.5.3 (Hall, 1999) and aligned with muscle (Edgar, 2004). To obtain the best substitution model for the construction of the phylogenetic trees, the resulting acdS, nifH, nodC, and 16S rRNA gene alignments were learn more analyzed with jModeltest (Posada, 2008). The best substitution model for each phylogenetic analysis was chosen based on the lowest Bayesian Information Criteria and Akaike Information Criteria values. All phylogenetic trees were constructed with mega v.5.05

(Tamura et al., 2011) using the maximum likelihood method and the corresponding best substitution model selected. A bootstrap analysis of 1000 replicates was conducted for every phylogenetic Venetoclax analysis. Genes encoding putative ACC deaminase were detected in 10 of 12 Mesorhizobium type strains, as well as in all 18 chickpea Mesorhizobium isolates studied in this work (Table 1). In Mesorhizobium huakuii CCBAU2609T and Mesorhizobium amorphae ACCC19665T, the ACC deaminase gene was not detected by either PCR or Southern hybridization. Southern hybridization showed that only one copy of the acdS gene is present in most of the acdS+ Mesorhizobium type strains (Supporting Information, Fig. S1). All Portuguese chickpea mesorhizobia showed one copy of the acdS gene (data not shown). In these isolates, the acdS gene is present in a fragment of about 8 kb, similar to the fragment obtained from M. ciceri UPM-Ca7T after total DNA digestion with BamHI. Most Mesorhizobium strains used in this study possess an acdS gene; however, ACC deaminase activity under free-living conditions was not detected in any of these strains (Table 1). The acdS gene sequences here obtained share high identity (84–99%) with the previously described acdS gene of Mesorhizobium sp. MAFF303099.

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