Abstract
Globin-coupled sensors (GCSs) are multiple-domain transducers, consisting of a regulatory globin-like heme-binding domain and a linked transducer domain(s). GCSs have been described in both Archaea and bacteria. They are generally assumed to bind O(2) (and perhaps other gaseous ligands) and to transmit a conformational change signal through the transducer domain in response to fluctuating O(2) levels. In this study, the heme-binding domain, AvGReg178, and the full protein, AvGReg of the Azotobacter vinelandii GCS, were cloned, expressed, and purified. After purification, the heme iron of AvGReg178 was found to bind O(2). This form was stable over many hours. In contrast, the predominant presence of a bis-histidine coordinate heme in ferric AvGReg was revealed. Differences in the heme pocket structure were also observed for the deoxygenated ferrous state of these proteins. The spectra showed that the deoxygenated ferrous derivatives of AvGReg178 and AvGReg are characterized by a penta-coordinate and hexa-coordinate heme iron, respectively. O(2) binding isotherms indicate that AvGReg178 and AvGReg show a high affinity for O(2) with P(50) values at 20 degrees C of 0.04 and 0.15 torr, respectively. Kinetics of CO binding indicate that AvGReg178 carbonylation conforms to a monophasic process, comparable with that of myoglobin, whereas AvGReg carbonylation conforms to a three-phasic reaction, as observed for several proteins with bis-histidine heme iron coordination. Besides sensing ligands, in vitro data suggest that AvGReg(178) may have a role in O(2)-mediated NO-detoxification, yielding metAvGReg(178) and nitrate.
Highlights
Globin-coupled Sensor of A. vinelandii allosteric activator of cellulose synthase [15, 16], cellulose is not produced
We report the characterization of the Globin-coupled sensors (GCSs) of Azotobacter vinelandii (AvGReg)
A very weak marker line at ϳ619 nm suggests that a small high spin (HS) ferric component is present
Summary
Cloning and Expression of AvGReg178 and AvGReg—The A. vinelandii strain was purchased from American Type Culture. Values of the first-order rate constant for NO dissociation from AvGReg-NO and of AvGReg178-NO were obtained by mixing the AvGReg-NO or AvGReg178-NO (final concentration 2.2 ϫ 10Ϫ6 M and 1.9 ϫ 10Ϫ6 M, respectively) solution with the CO-dithionite (final concentration, 1.0 ϫ 10Ϫ4 M to 5.0 ϫ 10Ϫ4 M and 1.0 ϫ 10Ϫ2 M, respectively) solution under anaerobic conditions, at pH 8.3 (5.0 ϫ 10Ϫ2 M Tricine buffer) and T ϭ 20.0 °C. The time course of NO-mediated oxidation of AvGReg-O2 and AvGReg178-O2 was fitted to a two-exponential process according to the minimum reaction mechanism represented by Scheme 6 [31], honϩ AvGRegϩ-O2 ϩ NO O¡ metAvGRegϩ ϩ NO3Ϫ honϩ AvGReg178ϩ-O2 ϩ NO O¡ metAvGReg178ϩ ϩ NO3Ϫ hon# AvGReg#-O2 ϩ NO O ¡ metAvGReg# ϩ NO3Ϫ hon# AvGReg178#-O2 ϩ NO O ¡ metAvGReg178# ϩ NO3Ϫ where metAvGRegϩ and metAvGReg178ϩ, and metAvGReg# and metAvGReg178# represent the open fast and the closed slow ferric derivatives, respectively, and hon represents the rate of oxidation in MϪ1 sϪ1. The GGDEF sequences used for the alignment are described in supplemental Table S2
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