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1.
J AOAC Int ; 96(6): 1343-9, 2013.
Article in English | MEDLINE | ID: mdl-24645513

ABSTRACT

IDEXX has produced a robust and improved rapid test kit optimized to detect penicillin G in a variety of milk matrixes. The SNAP Beta-Lactam ST Test Kit is designed to be run without the use of a heat block. The new test is optimized to ensure a detection capability for penicillin G that is at or below the European Union maximum residue limit of 4 parts per billion. The test can be used with commingled cow milk, commingled goat milk, commingled sheep milk, and reconstituted whole fat powdered milk. The SNAP Beta-Lactam ST Test Kit contains all the items necessary to run and interpret the test in a single package. No heat block or reader is required. The results can be read visually or with an IDEXX SNAPshot or SNAPshot DSR Reader. The total assay time is approximately 7 minutes.


Subject(s)
Anti-Bacterial Agents/analysis , Chemistry, Pharmaceutical/methods , Drug Residues/analysis , Food Inspection/standards , Milk/chemistry , Penicillin G/analysis , Animals , Cattle , European Union , Food Contamination , Food Safety/methods , Sheep
2.
Proc Natl Acad Sci U S A ; 106(1): 85-90, 2009 Jan 06.
Article in English | MEDLINE | ID: mdl-19118202

ABSTRACT

The selectins are cell adhesion proteins that must resist applied forces to mediate leukocyte tethering and rolling along the endothelium and have 2 conformational states. Selectin-ligand bond dissociation increases only modestly with applied force, and exhibits catch bond behavior in a low-force regime where bond lifetimes counterintuitively increase with increasing force. Both allosteric and sliding-rebinding models have emerged to explain catch bonds. Here, we introduce a large residue into a cleft that opens within the lectin domain to stabilize the more extended, high-affinity selectin conformation. This mutation stabilizes the high-affinity state, but surprisingly makes rolling less stable. The position of the mutation in the lectin domain provides evidence for an allosteric pathway through the lectin domain, connecting changes at the lectin-EGF interface to the distal binding interface.


Subject(s)
Allosteric Regulation , Cell Adhesion , Models, Molecular , Selectins/metabolism , Lectins , Models, Chemical , Mutation , Protein Conformation , Protein Structure, Tertiary , Yeasts
3.
Biochim Biophys Acta ; 1774(9): 1148-55, 2007 Sep.
Article in English | MEDLINE | ID: mdl-17702677

ABSTRACT

Integrins are cell-surface heterodimeric proteins that mediate cell-cell, cell-matrix, and cell-pathogen interactions. Half of the known integrin alpha subunits contain inserted domains (I domains) that coordinate ligand through a metal ion. Although the importance of conformational changes within isolated I domains in regulating ligand binding has been reported, the relationship between metal ion binding affinity and ligand binding affinity has not been elucidated. Metal and ligand binding by several I domain mutants that are stabilized in different conformations are investigated using isothermal titration calorimetry and surface plasmon resonance studies. This work suggests an inverse relationship between metal ion affinity and ligand binding affinity (i.e. constructs with a high affinity for ligand exhibit a low affinity for metal). This trend is discussed in the context of structural studies to provide an understanding of interplay between metal ion binding and ligand affinities and conformational changes.


Subject(s)
Cations, Divalent/chemistry , Integrins/chemistry , Amino Acid Substitution , Calcium/chemistry , Calorimetry , Intercellular Adhesion Molecule-1/chemistry , Intercellular Adhesion Molecule-1/genetics , Magnesium/chemistry , Manganese/chemistry , Protein Structure, Tertiary , Surface Plasmon Resonance
4.
Nat Immunol ; 7(8): 883-9, 2006 Aug.
Article in English | MEDLINE | ID: mdl-16845394

ABSTRACT

Crystal structures of the lectin and epidermal growth factor (EGF)-like domains of P-selectin show 'bent' and 'extended' conformations. An extended conformation would be 'favored' by forces exerted on a selectin bound at one end to a ligand and at the other end to a cell experiencing hydrodynamic drag forces. To determine whether the extended conformation has higher affinity for ligand, we introduced an N-glycosylation site to 'wedge open' the interface between the lectin and EGF-like domains of P-selectin. This alteration increased the affinity of P-selectin for its ligand P-selectin glycoprotein 1 (PSGL-1) and thereby the strength of P-selectin-mediated rolling adhesion. Similarly, an asparagine-to-glycine substitution in the lectin-EGF-like domain interface of L-selectin enhanced rolling adhesion under shear flow. Our results demonstrate that force, by 'favoring' an extended selectin conformation, can strengthen selectin-ligand bonds.


Subject(s)
Epidermal Growth Factor/chemistry , L-Selectin/chemistry , Leukocyte Rolling/immunology , P-Selectin/chemistry , Animals , Cell Adhesion/immunology , Cell Line , Epidermal Growth Factor/immunology , Flow Cytometry , Humans , L-Selectin/immunology , P-Selectin/immunology , Protein Structure, Quaternary , Shear Strength , Transfection
5.
J Mol Biol ; 355(1): 72-84, 2006 Jan 06.
Article in English | MEDLINE | ID: mdl-16300786

ABSTRACT

Proteins interact with nucleotides to perform a multitude of functions within cells. These interactions are highly specific; however, the molecular basis for this specificity is not well understood. To identify factors critical for protein-guanine nucleotide recognition the binding of two closely related ligands, guanosine 3'-monophosphate (3'GMP) and inosine 3'-monophosphate (3'IMP), to Ribonuclease Sa (RNase Sa), a small, guanylyl-endoribonuclease from Streptomyces aureofaciens, was compared using isothermal titration calorimetry, NMR, X-ray crystallography and molecular dynamics simulations. This comparison has allowed for the determination of the contribution of the exocyclic amino group "N2" of the guanine base to nucleotide binding specificity. Calorimetric measurements indicate that RNase Sa has a higher affinity for 3'GMP (K=(1.5+/-0.2)x10(5)) over 3'IMP (K=(3.1+/-0.2)x10(4)) emphasizing the importance of N2 as a key determinant of RNase Sa guanine binding specificity. This result was unexpected as the published structural data for RNase Sa in complex with 3'GMP showed only a potential long-range interaction (>3.3A) between N2 and the side-chain of Glu41 of RNase Sa. The observed difference in affinity is largely due to a reduction in the favorable enthalpy change by 10 kJ/mol for 3'IMP binding as compared to 3'GMP that is accompanied by a significant difference in the heat capacity changes observed for binding the two ligands. To aid interpretation of the calorimetric data, the first crystal structure of a small, guanylyl ribonuclease bound to 3'IMP was determined to 2.0 A resolution. This structure has revealed small yet unexpected changes in the ligand conformation and differences in the conformations of the side-chains contacting the sugar and phosphate moieties as compared to the 3'GMP complex. The structural data suggest the less favorable enthalpy change is due to an overall lengthening of the contacts between RNase Sa and 3'IMP as compared to 3'GMP. The long-range interaction between N2 and Glu41 is critical for positioning of the nucleotide in the binding cleft for optimal contact formation. Thus, combined, the data demonstrate how a long-range interaction can have a significant impact on nucleotide binding affinity and energetics.


Subject(s)
Guanosine Monophosphate/metabolism , Isoenzymes/metabolism , Nucleotides/metabolism , Ribonucleases/metabolism , Binding Sites , Crystallography, X-Ray , Guanosine Monophosphate/chemistry , Inosine Monophosphate/metabolism , Isoenzymes/chemistry , Molecular Conformation , Nucleotides/chemistry , Protein Binding , Ribonucleases/chemistry , Streptomyces aureofaciens/enzymology , Substrate Specificity , Thermodynamics
6.
J Mol Biol ; 346(3): 895-905, 2005 Feb 25.
Article in English | MEDLINE | ID: mdl-15713470

ABSTRACT

Using the binding of a nucleotide inhibitor (guanosine-3'-monophosphate) to a ribonuclease (ribonuclease Sa) as a model system, we show that the salt-dependence of the interaction arises due to specific ion binding at the site of nucleotide binding. The presence of specific ion-protein binding is concluded from a combination of differential scanning calorimetry and NMR data. Isothermal titration calorimetry data are then fit to determine the energetic profile (enthalpy, entropy, and heat capacity) for both the ion-protein and nucleotide-protein interactions. The results provide insight into the energetics of charge-charge interactions, and have implications for the interpretation of an observed salt-dependence. Further, the presence of specific ion-binding leads to a system behavior as a function of temperature that is drastically different from that predicted from Poisson-Boltzmann calculations.


Subject(s)
Proteins/chemistry , Proteins/metabolism , Binding Sites , Binding, Competitive , Calorimetry, Differential Scanning , Enzyme Stability , Escherichia coli/enzymology , Guanosine Monophosphate/chemistry , Guanosine Monophosphate/metabolism , Ions , Isoenzymes/chemistry , Isoenzymes/metabolism , Ligands , Models, Chemical , Nuclear Magnetic Resonance, Biomolecular , Protein Binding , Recombinant Proteins/chemistry , Recombinant Proteins/metabolism , Ribonucleases/chemistry , Ribonucleases/metabolism , Salts , Thermodynamics
7.
Biochemistry ; 42(17): 5058-64, 2003 May 06.
Article in English | MEDLINE | ID: mdl-12718549

ABSTRACT

The observed stability of a protein is altered when ligands bind, which results in a shift in the melting temperature (T(m)). Binding to the native state in the absence of binding to the denatured state will necessarily lead to an increase in the T(m), while binding to the unfolded state in the absence of native state binding will decrease the T(m) relative to that of the protein in the absence of ligand. These effects are required by the thermodynamics of reversible folding. However, the relationship between binding affinity and the magnitude of the observed temperature shift is not a simple correlation (i.e., a larger shift in T(m) does not necessarily mean tighter binding) and is complicated by interaction with the denatured state. Using exact simulations, the range of behavior for the dependence of the observed T(m) shift on the energetics of ligand binding is investigated here. Specifically, differential scanning calorimetry (DSC) curves are simulated for protein unfolding in the presence of ligands binding to both the native and denatured states. The results have implications for drug screening and the determination of heat capacity changes for protein unfolding.


Subject(s)
Protein Denaturation , Protein Folding , Proteins/chemistry , Binding Sites , Calorimetry, Differential Scanning , Drug Evaluation, Preclinical/methods , Kinetics , Ligands , Models, Theoretical , Thermodynamics
8.
Protein Sci ; 12(4): 871-4, 2003 Apr.
Article in English | MEDLINE | ID: mdl-12649444

ABSTRACT

The binding of anions to proteins occurs in numerous physiological and metabolic processes. In an effort to understand the factors important in these interactions, we have studied the weak binding of phosphate and sulfate to a protein-protein complex using isothermal titration calorimetry. To our knowledge, this is the first system in which the thermodynamics of anion binding have been determined calorimetrically. By studying both phosphate and sulfate binding and using a range of pH values, the charge on the anion was varied from approximately -1 to -2. Surprisingly, no dependence of the binding energetics on the charge of the anion was observed. This result indicates that charge-charge interactions are not the dominant factor in binding and suggests the importance of hydrogen bonding in specifically recognizing and coordinating anions.


Subject(s)
Egg Proteins/metabolism , Phosphates/metabolism , Potassium Compounds/metabolism , Sulfates/metabolism , Animals , Calorimetry , Static Electricity , Thermodynamics , Turkeys
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