These sequences are homologous to parts of F-box genes found in other Prunus species (65.7-99.3% amino acid identity), and share features of their basic gene structures, which include defined amino acid domains. Analysis of the 5′ terminal regions of the two entire coding sequences indicates the presence of a conserved F-box region. Other regions have two variable regions, named V1 and V2, as well as two hypervariable regions. Phylogenetic analysis revealed that SFB33, BI 6727 cost SFB38, and SFB47 clustered together,
and were distantly related to the other SFB gene we identified. The SFB50 gene was closely related to a SFB gene from Prunus pseudocerasus, suggesting that the interspecies amino acid identities obtained by comparison with other Prunus SFB genes were greater than the intraspecies identities. The new sequences have been deposited in GenBank, with accession numbers HQ148064-HQ148083, JN019789, and JN019790. Our findings may enable more efficient breeding of Chinese apricot and further molecular characterization of SFB genes. (C) 2014 Elsevier B.V. All rights reserved.”
“Objective. The goal of this work is to investigate t-m phase transformation, and subsurface damage in 3Y-TZP after sandblasting.\n\nMethods. Commercial grade 3Y-TZP powder was conventionally sintered and fully dense specimens OSI-744 clinical trial were obtained. Specimens were sandblasted using different particle sizes (110
and 250 mu m) and pressures (2 and 4 bar) for 10s. Phase transformation
was measured on the surface and in the cross-section using X-ray diffraction and micro Raman spectroscopy, respectively. Subsurface damage was investigated on cross-sections using SEM and in shallow cross-sections machined by focused ion beam.\n\nResults. NU7441 Sandblasting induced monoclinic volume fraction is in the range of 12-15% on the surface. In the cross-section, a non-homogeneous phase transformation gradient is found up to the depth of 12 +/- 1 mu m. The subsurface damage observed was plastic deformation in grains with the presence of martensite plates, and this effect is found to be larger in specimens sandblasted with large particles.\n\nSignificance. The extent of subsurface tetragonal-monoclinic transformation and damage induced by sandblasting are reported for different sandblasting conditions. This knowledge is critical in order to understand the effect of sandblasting on mechanical properties of zirconia used to fabricate 123 Dental crowns and frameworks. (C) 2013 Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved.”
“Background. Limited information exists about the real impact of the etiology of shock on early and late outcome after emergency surgery in acute native mitral valve endocarditis (ANMVE). This multicenter study analyzed the impact of the etiology of shock on early and late outcome in patients with ANMVE.\n\nMethods.