Your search keyword '"Zayas, Carmen L."' showing total 2 results

1. The Methanosarcina mazei MM2060 Gene Encodes a Bifunctional Kinase/Decarboxylase Enzyme Involved in Cobamide Biosynthesis.

Author

Tavares NK, Zayas CL, and Escalante-Semerena JC

Subjects

Adenosine Triphosphate metabolism, Amino Acid Sequence, Archaeal Proteins chemistry, Archaeal Proteins genetics, Carboxy-Lyases chemistry, Carboxy-Lyases genetics, Cobamides genetics, Methanosarcina chemistry, Methanosarcina genetics, Open Reading Frames, Protein Kinases chemistry, Protein Kinases genetics, Sequence Alignment, Substrate Specificity, Archaeal Proteins metabolism, Biosynthetic Pathways, Carboxy-Lyases metabolism, Cobamides metabolism, Methanosarcina metabolism, Protein Kinases metabolism

Abstract

Cobamides (Cbas) are synthesized by many archaea, but some aspects of Cba biosynthesis in these microorganisms remain unclear. Here, we demonstrate that open reading frame MM2060 in the archaeum Methanosarcina mazei strain Gö1 encodes a bifunctional enzyme with l-threonine- O-3-phosphate (l-Thr-P) decarboxylase (EC 4.1.1.81) and l-Thr kinase activities (EC 2.7.1.177). In Salmonella enterica, where Cba biosynthesis has been extensively studied, the activities mentioned above are encoded by separate genes, namely, cobD and pduX, respectively. The activities associated with the MM2060 protein ( MmCobD) were validated in vitro and in vivo. In vitro, MmCobD used ATP and l-Thr as substrates and generated ADP, l-Thr-P, and ( R)-1-aminopropan-2-ol O-phosphate as products. Notably, MmCobD has a 111-amino acid C-terminal extension of unknown function, which contains a putative metal-binding motif. This C-terminal domain alone did not display activity either in vivo or in vitro. Although the C-terminal MmCobD domain was not required for l-Thr-P decarboxylase or l-Thr kinase activities in vivo, its absence negatively affected both activities. In vitro results suggested that this domain may have a regulatory or substrate-gating role. When purified under anoxic conditions, MmCobD displayed Michaelis-Menten kinetics and had a 1000-fold higher affinity for ATP and a catalytic efficiency 1300-fold higher than that of MmCobD purified under oxic conditions. To the best of our knowledge, MmCobD is the first example of a new class of l-Thr-P decarboxylases that also have l-Thr kinase activity. An archaeal protein with l-Thr kinase activity had not been identified prior to this work.

Published

2018

2. The cobZ gene of Methanosarcina mazei Go1 encodes the nonorthologous replacement of the alpha-ribazole-5'-phosphate phosphatase (CobC) enzyme of Salmonella enterica.

Author

Zayas CL, Woodson JD, and Escalante-Semerena JC

Subjects

Bacterial Proteins metabolism, Cloning, Molecular, Cobamides metabolism, Gene Expression Regulation, Archaeal, Halobacterium metabolism, Methanosarcina genetics, Transaminases metabolism, Bacterial Proteins genetics, Methanosarcina enzymology, Salmonella enterica enzymology, Transaminases genetics

Abstract

Open reading frame (ORF) Mm2058 of the methanogenic archaeon Methanosarcina mazei strain Gö1 was shown in vivo and in vitro to encode the nonorthologous replacement of the alpha-ribazole-phosphate phosphatase (CobC; EC 3.1.3.73) enzyme of Salmonella enterica serovar Typhimurium LT2. Bioinformatics analysis of sequences available in databases tentatively identified ORF Mm2058, which was cloned under the control of an inducible promoter and was used to support growth of an S. enterica strain under conditions that demanded CobC-like activity. The Mm2058 protein was expressed with a decahistidine tag at its N terminus and was purified to homogeneity using nickel affinity chromatography. High-performance liquid chromatography followed by electrospray ionization mass spectrometry showed that the Mm2058 protein had phosphatase activity that converted alpha-ribazole-5'-phosphate to alpha-ribazole, as reported for the bacterial CobC enzyme. On the basis of the data reported here, we refer to ORF Mm2058 as cobZ. We tested the prediction by Rodionov et al. (D. A. Rodionov, A. G. Vitreschak, A. A. Mironov, and M. S. Gelfand, J. Biol. Chem. 278:41148-41159, 2003) that ORF HSL01294 (also called Vng1577) encoded the nonorthologous replacement of the bacterial CobC enzyme in the extremely halophilic archaeon Halobacterium sp. strain NRC-1. A strain of the latter carrying an in-frame deletion of ORF Vng1577 was not a cobalamin auxotroph, suggesting that either there is redundancy of this function in Halobacterium or the gene was misannotated.

Published

2006