The OSCE is a reliable evaluation method to estimate the preclinical examination of dental students. The most ideal assessment for OSCE is used the augmented reality simulator to evaluate. This literature review investigated a recently developed in virtual reality (VR) and augmented reality (AR) starting of the dental history to the progress of the dental skill. As result of the lacking of technology, it needs to depend on other device increasing the success rate and decreasing the risk of the surgery. The development of tracking unit changed the surgical and educational way. Clinical surgery is based on mature education. VR and AR simultaneously affected the skill of the training lesson and navigation system. Widely, the VR and AR not only applied in the dental training lesson and surgery, but also improved all field in our life.
Fructosyltransferases catalyze the transfer of a fructose unit from one sucrose/fructan to another and are engaged in the production of fructooligosaccharide/fructan. The enzymes belong to the glycoside hydrolase family 32 (GH32) with a retaining catalytic mechanism. Here we describe the crystal structures of recombinant fructosyltransferase (AjFT) from Aspergillus japonicus CB05 and its mutant D191A complexes with various donor/acceptor substrates, including sucrose, 1-kestose, nystose, and raffinose. This is the first structure of fructosyltransferase of the GH32 with a high transfructosylation activity. The structure of AjFT comprises two domains with an N-terminal catalytic domain containing a five-blade -propeller fold linked to a C-terminal -sandwich domain. Structures of various mutant AjFT-substrate complexes reveal complete four substrate-binding subsites (؊1 to ؉3) in the catalytic pocket with shapes and characters distinct from those of clan GH-J enzymes. Residues Asp-60, Asp-191, and Glu-292 that are proposed for nucleophile, transition-state stabilizer, and general acid/base catalyst, respectively, govern the binding of the terminal fructose at the ؊1 subsite and the catalytic reaction. Mutants D60A, D191A, and E292A completely lost their activities. Residues Ile-143, Arg-190, Glu-292, Glu-318, and His-332 combine the hydrophobic Phe-118 and Tyr-369 to define the ؉1 subsite for its preference of fructosyl and glucosyl moieties. Ile-143 and Gln-327 define the ؉2 subsite for raffinose, whereas Tyr-404 and Glu-405 define the ؉2 and ؉3 subsites for inulin-type substrates with higher structural flexibilities. Structural geometries of 1-kestose, nystose and raffinose are different from previous data. All results shed light on the catalytic mechanism and substrate recognition of AjFT and other clan GH-J fructosyltransferases.
Consumption of RS modified the intestinal microbiota, stimulated intestinal immunity and endocrine-responses, and modified systemic metabolomes in obese mice consuming an otherwise obesogenic diet.
Iron is essential for pathogen survival, virulence, and colonization. Feo is suggested to function as the ferrous iron (Fe 2؉ ) transporter. The enterobacterial Feo system is composed of 3 proteins: FeoB is the indispensable component and is a large membrane protein likely to function as a permease; FeoA is a small Src homology 3 (SH3) domain protein that interacts with FeoB; FeoC is a winged-helix protein containing 4 conserved Cys residues in a sequence suitable for harboring a putative iron-sulfur (Fe-S) cluster. The presence of an iron-sulfur cluster on FeoC has never been shown experimentally. We report that under anaerobic conditions, the recombinant Klebsiella pneumoniae FeoC (KpFeoC) exhibited hyperfine-shifted nuclear magnetic resonance (NMR) and a UV-visible (UV-Vis) absorbance spectrum characteristic of a paramagnetic center. The electron paramagnetic resonance (EPR) and extended X-ray absorption fine structure (EXAFS) results were consistent only with the [4Fe-4S] clusters. Substituting the cysteinyl sulfur with oxygen resulted in significantly reduced cluster stability, establishing the roles of these cysteines as the ligands for the Fe-S cluster. When exposed to oxygen, the [4Fe-4S] cluster degraded to [3Fe-4S] and eventually disappeared. We propose that KpFeoC may regulate the function of the Feo transporter through the oxygen-or iron-sensitive coordination of the Fe-S cluster.
The application of a nanometre-sized diamond in Raman-detectable biolabelling is
demonstrated in this study. The interaction of a lysozyme–nanodiamond complex with
bacteria E. coli was observed via Raman mapping using the diamond Raman signal as the
labelling marker. The results are compared with scanning electron microscope observations,
and the adsorbed lysozyme’s functionality is analysed. High antibacterial activity of
lysozyme–nanodiamond complex was observed, equivalent to active lysozyme in solution.
The results suggest that nanodiamond labelling can be effective and that it can
be applied in ambient conditions without complicated sample pre-treatments.
Substrate inhibition is a characteristic feature of many cytosolic sulfotransferases. The differences between the complex structures of SULT2A1/DHEA and SULT2A1/PAP or SULT2A1/ADT (Protein Data Bank codes are 1J99, 1EFH, and 1OV4, respectively) have enabled us to elucidate the specific amino acids responsible for substrate inhibition. Based on the structural analyses, substitution of the smaller residue alanine for Tyr-238 (Y238A) significantly increases the K i value for dehydroepiandrosterone (DHEA) and totally eliminates substrate inhibition for androsterone (ADT). In addition, Met-137 was proposed to regulate the binding orientations of DHEA and ADT in SULT2A1. Complete elimination or regeneration of substrate inhibition for SULT2A1 with DHEA or ADT as substrate, respectively, was demonstrated with the mutations of Met-137 on Y238A mutant. Analysis of the Met-137 mutants and Met-137/ Tyr-238 double mutants uncovered the relationship between substrate binding orientations and inhibition in SULT2A1. Our data indicate that, in the substrate inhibition mode, Tyr-238 regulates the release of bound substrate, and Met-137 controls substrate binding orientation of DHEA and ADT in SULT2A1. The proposed substrate inhibition mechanism is further confirmed by the crystal structures of SULT2A1 mutants at Met-137. We propose that both substrate binding orientations exhibited substrate inhibition. In addition, a corresponding residue in other cytosolic sulfotransferases was shown to have a function similar to that of Tyr-238 in SULT2A1.
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