The dimeric Repressor of Primer (Rop) protein, a widely used model system for the study of coiled-coil 4-α-helical bundles, is characterized by a remarkable structural plasticity. Loop region mutations lead to a wide range of topologies, folding states, and altered physicochemical properties. A protein-folding study of Rop and several loop variants has identified specific residues and sequences that are linked to the observed structural plasticity. Apart from the native state, native-like and molten-globule states have been identified; these states are sensitive to reducing agents due to the formation of nonnative disulfide bridges. Pro residues in the loop are critical for the establishment of new topologies and molten globule states; their effects, however, can be in part compensated by Gly residues. The extreme plasticity in the assembly of 4-α-helical bundles reflects the capacity of the Rop sequence to combine a specific set of hydrophobic residues into strikingly different hydrophobic cores. These cores include highly hydrated ones that are consistent with the formation of interchain, nonnative disulfide bridges and the establishment of molten globules. Potential applications of this structural plasticity are among others in the engineering of bio-inspired materials.recurrent tertiary motifs | core packing | disulfide bonds | dimensionless Kratky plot R ecurrent motifs of tertiary structure are convenient model systems for studying protein folding and potentially also for the design of bio-inspired materials. For protein design purposes, structural plasticity is an important, although poorly understood, parameter to be considered, as it is among the main reasons that the re-engineering of proteins toward novel materials is not yet satisfactorily manageable (1, 2).The present study focuses on the structural plasticity associated with the 4-α-helical bundle (4HB) motif. 4HBs consist of four amphipathic α-helices packed in a parallel or antiparallel fashion (3, 4). Their folding is largely determined by a repeating pattern of hydrophobic and hydrophilic residues, organized on the basis of seven-residue repeats (heptads) (5). Being the simplest tertiary motif, 4HBs have been subject to numerous proteinfolding studies; attempts have been made to exploit them as building blocks for bio-inspired materials (6).A paradigm of a highly regular 4HB is the RNA-binding ColE1 Repressor of Primer (Rop) protein (7-9), also referred to as RNA-one-modulator (ROM). Each monomer is an α-helical hairpin consisting of two antiparallel α-helices connected by a short loop. The sequence of Rop displays a heptad repeats pattern that is interrupted only in the loop region.Structural simplicity makes Rop an attractive model system for the study of the folding of 4HBs. The loop region and the hydrophobic core have thereby attracted particular attention, as these regions are linked with the remarkable ability of Rop mutants to adopt altered topologies and properties (10-15). Striking examples of loop variants include mutant Loopless Rop...
Augmented reality (AR) is a new and promising technology that has been incorporated into several aspects of our everyday life, including surgery. Examples of its application throughout various fields of surgery, although most of them are in experimental stage, have already been demonstrated and published. In this article, we describe the utilization of AR to design effectively and accurately surgical flap markings just with the help of an AR-compatible mobile phone and a low-cost application. We believe that, due to its ease of use, AR will play a pivotal role to the education and the training in the field of plastic surgery and burns, and other surgical specialties alike.
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