T.A. Holak scite author profile

Distance constraints from two-dimensional NMR cross-relaxation data are used to derive a three-dimensional structure for acyl carrier protein from Escherichia coli. Several approaches to structure determination are explored. The most successful proves to be an approach that combines the early stages of a distance geometry program with energy minimization in the presence of NMR constraints represented as pseudopotentials. Approximately 450 proton to proton distance constraints including 50 long-range constraints were included in these programs. Starting structures were generated at random by the distance geometry program and energies minimized by a molecular mechanics module to give final structures. Seven of the structures were deemed acceptable on the basis of agreement with experimentally determined distances. Root-mean-square deviations from the mean of these structures for backbone atoms range from 2 to 3 A. All structures show three roughly parallel helices with hydrophobic residues facing inward and hydrophilic residues facing outward. A hydrophobic cleft is recognizable and is identified as a likely site for acyl chain binding.

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CAP2, cyclase-associated protein 2, is a dual compartment protein

Peche

Shekar

Leichter

et al. 2007

Cell. Mol. Life Sci.

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Cyclase-associated proteins (CAPs) are evolutionarily conserved proteins with roles in regulating the actin cytoskeleton and in signal transduction. Mammals have two CAP genes encoding the related CAP1 and CAP2. We studied the distribution and subcellular localization of CAP1 and CAP2 using specific antibodies. CAP1 shows a broad tissue distribution, whereas CAP2 is significantly expressed only in brain, heart and skeletal muscle, and skin. CAP2 is found in the nucleus in undifferentiated myoblasts and at the M-line of differentiated myotubes. In PAM212, a mouse keratinocyte cell line, CAP2 is enriched in the nucleus, and sparse in the cytosol. By contrast, CAP1 localizes to the cytoplasm in PAM212 cells. In human skin, CAP2 is present in all living layers of the epidermis localizing to the nuclei and the cell periphery. In in vitro studies, a C-terminal fragment of CAP2 interacts with actin, indicating that CAP2 has the capacity to bind to actin.

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Functional and Structural Characterization of Spl Proteases from Staphylococcus aureus

Popowicz

Dubin

Steć-Niemczyk

et al. 2006

Journal of Molecular Biology

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Solution conformation of thymosin .beta.4: a nuclear magnetic resonance and simulated annealing study

Zarbock¹,

Oschkinat²,

Hannappel³

et al. 1990

Biochemistry

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The conformation of the polypeptide thymosin beta 4 in solutions of 60% (v/v) trifluoroethanol-d3 and 50% (v/v) hexafluoroisopropyl-d2 alcohol in water is investigated by nuclear magnetic resonance (NMR) spectroscopy. Under these conditions thymosin beta 4 adopts an ordered structure. By use of a combination of two-dimensional NMR techniques, the 1H NMR spectrum of thymosin beta 4 is assigned. A set of 180 approximate interproton distance constraints is derived from nuclear Overhauser enhancement (NOE) measurements. These, together with 33 phi constraints obtained for JNH alpha coupling data and the 23 psi dihedral angles identified on the basis of the pattern of short-range NOEs, form the basis of a three-dimensional structure determination by dynamical simulated annealing. The calculations are carried out starting from three initial structures, an alpha-helix, an extended beta-strand, and a mixed alpha/beta structure. Ten independent structures are computed from each starting structure by using different random number seeds for the assignments of the initial velocities. All 30 calculated structures satisfy the experimental constraints, display very small deviations from idealized covalent geometry, and possess good nonbonded contacts. Analysis of the 30 converged structures indicates that there are two helical regions extending from residues 4-16 and from residues 30-40, which are well defined both in terms of atomic root mean square differences and backbone torsion angles. For the two helical regions individually the average backbone rms difference between all pairs of structures is approximately 2 A. The two helices exhibit typical amino acid preferences for specific locations at the ends of helices.(ABSTRACT TRUNCATED AT 250 WORDS)

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T.A. Holak

Three-dimensional structure of acyl carrier protein determined by NMR pseudoenergy and distance geometry calculations

CAP2, cyclase-associated protein 2, is a dual compartment protein

Functional and Structural Characterization of Spl Proteases from Staphylococcus aureus

Solution conformation of thymosin .beta.4: a nuclear magnetic resonance and simulated annealing study

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