Background. Left ventricular (LV) midwall geometry has been described conventionally as the sum of the chamber radius and half of the wall thickness; this convention is based on the assumption of uniform transmural thickening during systole. However, theoretical considerations and experimental data indicate that the inner half (inner shell) of the LV wall thickens more than the outer half (outer shell). Thus, an end-diastolic circumferential midwall fiber exhibits a relative migration toward the epicardium during systole. As a result, the conventional method provides an overestimate of the extent of the midwall fiber shortening.Methods and Results. We developed an ellipsoidal model with a concentric two-shell geometry (nonuniform thickening) to assess midwall fiber length transients throughout the cardiac cycle. This modified midwall method was used in the analysis of LV cineangiograms from 15 patients with systemic arterial hypertension and 14 normal subjects. Study groups were classified according to LV mass index (LVMI): 14 normal subjects (group I), eight hypertensive patients with a normal LVMI (group II), and seven hypertensive patients with an increased LVMI (group III). There were no significant differences in LV end-diastolic pressure or volume among the three groups; the ejection fraction was slightly greater in group 11 (70+5%) than in groups I (65±8%) and III (664±4%), but this trend did not achieve statistical significance. Values for endocardial and conventional midwall fractional shortening (FS) were also similar in the three groups. By contrast, FS by the concentric two-shell geometry (modified midwall method) in
Although the prognosis of multivessel spasm is believed to be poor, this may not necessarily be so. Anginal attacks due to sequential and simultaneous multivessel spasm seem to be more dangerous than those involving single-vessel spasm or migratory multivessel spasm.
Fluorescent proteins such as green fluorescent protein (GFP) from Aequorea victoria are often used as markers for transient expression and stable transformation in plants, given that their detection does not require a substrate and they can be monitored in a nondestructive manner. We have now evaluated the red fluorescent protein DsRed2 (a mutant form of DsRed from Discosoma sp.) for its suitability as a visual marker in combination with antibiotic selection for genetic transformation of soybean [Glycine max (L.) Merrill]. Transient and stable expression of DsRed2 in somatic embryos was readily detected by fluorescence microscopy, allowing easy confirmation of gene introduction. We obtained several fertile transgenic lines, including homozygous lines, that grew and produced seeds in an apparently normal manner. The red fluorescence of DsRed2 was detected by fluorescence microscopy without background fluorescence in both leaves and seeds of the transgenic plants. Furthermore, in contrast to seeds expressing GFP, those expressing DsRed2 were readily identifiable even under white light by the color conferred by the transgene product. The protein composition of seeds was not affected by the introduction of DsRed2, with the exception of the accumulation of DsRed2 itself, which was detectable as an additional band on electrophoresis. These results indicate that DsRed2 is a suitable reporter (even more suitable than GFP) for genetic transformation of soybean.
A novel synthetic route to (+)-manzamine A was developed. It highlights an amazingly efficient construction of a highly strained 15-membered ring across a cyclohexenone ring with the aim of installing the requisite functionalities in a completely stereocontrolled manner. Other key features include a stereoselective Diels-Alder reaction of an optically active butenolide, construction of the 15-membered ring by intramolecular Mitsunobu reaction of a nosyl amide, [3,3]-sigmatropic rearrangement of allyl cyanate for stereoselective introduction of nitrogen functionality at a sterically congested position, and a ring-closing metathesis in the presence of labile functional groups.
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