The KANNO blood group system.

The KANNO blood group system (International Society of Blood Transfusion [ISBT] 037) includes one high-prevalence antigen, KANNO1, across ethnic groups. Sporadic KANNO1- cases among East and South Asians are theoretically estimated by the DNA database library. Anti-KANNO1 has been found most often among Japanese women with current or prior pregnancy. Thus far, there are no reported cases of hemolytic transfusion reaction or hemolytic disease of the fetus and newborn due to anti-KANNO1.

Impact of psm-mec in the mobile genetic element on the clinical characteristics and outcome of SCCmec-II methicillin-resistant Staphylococcus aureus bacteraemia in Japan.

Over-expression of alpha-phenol-soluble modulins (PSMs) results in high virulence of community-associated methicillin-resistant Staphylococcus aureus (MRSA). The psm-mec gene, located in the mobile genetic element SCCmec-II, suppresses PSMαs production. Fifty-two patients with MRSA bacteraemia were enrolled. MRSA isolates were evaluated with regard to the psm-mec gene sequence, bacterial virulence, and the minimum inhibitory concentration (MIC) of vancomycin and teicoplanin. Fifty-one MRSA isolates were classified as SCCmec-II, and 10 had one point mutation in the psm-mec promoter. We compared clinical characteristics and outcomes between mutant MRSA and wild-type MRSA. Production of PSMα3 in mutant MRSA was significantly increased, but biofilm formation was suppressed. Wild-type MRSA caused more catheter-related bloodstream infections (30/41 vs. 3/10, p 0.0028), whereas mutant MRSA formed more deep abscesses (4/10 vs. 3/41, p 0.035). Bacteraemia caused by mutant MRSA was associated with reduced 30-day mortality (1/10 vs. 13/41, p 0.25), although this difference was not significant. The MIC90 of teicoplanin was higher for wild-type MRSA (1.5 mg/L vs. 1 mg/L), but the MIC of vancomycin was not different between the two groups. The 30-day mortality of MRSA with a high MIC of teicoplanin (≥1.5 mg/L) was higher than that of strains with a lower MIC (≤0.75 mg/L) (6/10 vs. 6/33, p 0.017). Mutation of the psm-mec promoter contributes to virulence of SCCmec-II MRSA, and the product of psm-mec may determine the clinical characteristics of bacteraemia caused by SCCmec-II MRSA, but it does not affect mortality.

Characterization of Molecular Structure of Starch Granules in Suspension-cultured Cells from Ipomoea cordatotriloba Denn.

The molecular structure of starch granules formed in suspension-cultured cells of Ipomoea cordatotriloba Denn. was characterized by its chain length distribution, which was compared to those of the starches from the root and leaf of the original plant. The cultured cell starches were spherical and had a very small granule size (about 2 µm). The debranched starches roughly separated into three fractions during gel-permeation chromatography, and the fractions were defined as Fr.1, 2, and 3, respectively. The chain length distribution of the debranched cultured cell starch showed that the high molecular weight fraction (Fr.1), referred to as an amylose fraction, was much less than those of the root and leaf starches. The ratio of the two lower fractions (Fr.3/Fr.2) of the cultured cell starch, which was mainly derived from unit chains of amylopectin, was greatest among the starches, suggesting that the amylopectin from the cultured cell starch has much shorter unit chains. By X-ray diffraction analysis, it was found that both cultured cell and leaf starch granules have low crystallinity.