A 5 kDa protein (SCS23) from the 30 S subunit of the spinach chloroplast ribosome

AbstractThe proteins of the 30 S ribosomal subunits from spinach chloroplasts were investigated using a radical-free and highly reducing (RFHR) method of two-dimensional polyacrylamide gel electrophoresis (PAGE). Twenty-three proteins were resolved on the gel down to the smallest protein of 5 kDa. The N-terminal amino acid sequence of the 5 kDa protein showed no homology with that of any other protein stored in databases, and the copy numbers were estimated to be 0.88±0.16 and 0.72±0.04 in the 30 S subunits and the 70 S ribosomes, respectively. The results suggest that the 5 kDa protein, which we have called SCS23, may be an essential ribosomal protein specific to spinach chloroplasts

Dilated Cardiomyopathy Risk in Patients with Coronavirus Disease 2019: How to Identify and Characterise it Early?

Multiple lines of evidence have shown that elevated blood troponin is strongly associated with poor prognosis in patients with the novel coronavirus disease 2019 (COVID-19). Possible mechanisms of myocardial injury in COVID-19 include ischaemia due to circulatory and respiratory failure, epicardial or intramyocardial small coronary artery thrombotic obstruction due to increased coagulability, and myocarditis caused by systemic inflammation or direct binding of the virus to its receptor, angiotensin-converting enzyme-2 (ACE2), which is abundantly expressed in the heart. It is postulated that persistent immune activation upon viral infection increases the risk of developing dilated cardiomyopathy in COVID-19 patients

Studies on Alterations in Acid Phosphatase Activity, Body Weight and Ultrastructure of Adult Angiostrongylus cantonensis in Rats Treated with Flubendazole at a Subcurative Dose

Physiological effects of flubendazole on adult Angiostrongylus cantonensis were studied. Administration of flubendazole for 3 consecutive days (48-50 days post-infection) at 10 mg/kg/day did not affect the number of worms of and weight of adult female A. cantonensis recovered from rats 16 hr after termination of medication while it lowered the phosphatase activity by the intact worms. The possible modes of action of the drug were discussed together with electron-microscopic observation of the body wall of the worms recovered from the treated and non-treated rats

Anemia among freshmen of a faculty of physical education : Risk factors among female students

Purpose: The purpose of this study was to examine the frequency of anemia and to explore risk factors related to anemia among female students at admission. Methods: Participants were 2,361 freshmen in a faculty of physical education from 2008 to 2011. Risk factors for anemia were examined in 577 female students out of 2,361 students in total. Rates of anemia and iron storage depletion were examined in both male and female students, and risk factors for anemia were examined in a multiple logistic regression model. Results: The rate of anemia （less than 12 g/dl of hemoglobin） was 0.1% among males, 6.1% among females, and 1.7% among both sexes. The rate of anemia （less than 13 g/dl of hemoglobin） was 0.6% among males, 31.0% among females, and 8.0% among both sexes. The rate of ion storage depletion was 2.9% among males, 31.0% among females, and 25.3% among both sexes. A multiple logistic regression model indicated that sFe levels, TIBC, and CK levels were significant factors related to anemia among female students. Conclusion: The rate of anemia was 0.6% among male students（ defined as hemoglobin <13 g/dl） and 6.1% among female students（ defined as hemoglobin <12 g/dl） at admission. Results indicated that risk factors related to anemia in female students were an iron deficiency and elevated CK due to excessive exercise

The evolutionally-conserved function of group B1 Sox family members confers the unique role of Sox2 in mouse ES cells.

BACKGROUND: In mouse ES cells, the function of Sox2 is essential for the maintenance of pluripotency. Since the Sox-family of transcription factors are well conserved in the animal kingdom, addressing the evolutionary origin of Sox2 function in pluripotent stem cells is intriguing from the perspective of understanding the origin of pluripotency. RESULTS: Here we approach this question using a functional complementation assay in inducible Sox2-null ES cells. Assaying mouse Sox proteins from different Groups, we found that only Group B1 and Group G proteins were able to support pluripotency. Interestingly, invertebrate homologs of mammalian Group B1 Sox proteins were able to replace the pluripotency-associated function of mouse Sox2. Moreover, the mouse ES cells rescued by the Drosophila SoxNeuro protein are able to contribute to chimeric embryos. CONCLUSIONS: These data indicate that the function of mouse Sox2 supporting pluripotency is based on an evolutionally conserved activity of the Group B1 Sox family. Since pluripotent stem cell population in developmental process could be regarded as the evolutional novelty in vertebrates, it could be regarded as a co-optional use of their evolutionally conserved function

1006-44 A Prognostic Factor in Coronary Artery Disease (CAD): Platelet-Dependent Thrombin Generation in Patients with CAD

We examined platelet-dependent thrombin generation in patients with coronary artery disease (CAD). Thrombin generation was measured according to the method of Aronson et al (Circulation, 1992). 0.5ml of platelet rich plasma (PRP, 15×104/ml) was prepared, and 40mM of CaCl, was added to start clotting. 0.5mM of S-2238 was added to each sample in a microtiter plate every 10min, and the plate was read kinetically at a wavelength of 405nm on a microtiter plate reader. The patients with CAD devided into 3 groups.Thrombin generation 20 min after CaCI2, additon is:Control (n=12)48±10(mOD)Stable angina (SAP) (n=15)79±27Unstable angina (UAP) (n=15)**562±155Acute myocardial infarct (AMI) (n=43)**440±269**p&lt;0.01 compared to SAPThe patients with UAP and AMI showed marked increase in thrombin generation compared to SAP and control subjects. AMI patients with severe coronary artery disease (Group B) showed higher levels of thrombin generation (Group A, Gensini score&lt;32: 382±248 mOD vs Group B, Gensini score&gt; 31: 578±238, P&lt;0.05). LVEF of group A is significantly higher than that of group B (P &lt; 0.05). These findings indicate that patients with UAP and AMI have an evidence of hypercoagulable states and that platelet-dependent thrombin generation may play an important role in pathophysiology of UAP or AMI, and may be a prognostic factor in CAD

Dynorphin induced magnetic ordering in lipid bilayers as studied by 31P NMR spectroscopy

AbstractLipid bilayers of dimyristoyl phosphatidylcholine (DMPC) containing opioid peptide dynorphin A(1–17) are found to be spontaneously aligned to the applied magnetic field near at the phase transition temperature between the gel and liquid crystalline states (Tm=24°C), as examined by 31P NMR spectroscopy. The specific interaction between the peptide and lipid bilayer leading to this property was also examined by optical microscopy, light scattering, and potassium ion-selective electrode, together with a comparative study on dynorphin A(1–13). A substantial change in the light scattering intensity was noted for DMPC containing dynorphin A(1–17) near at Tm but not for the system containing A(1–13). Besides, reversible change in morphology of bilayer, from small lipid particles to large vesicles, was observed by optical microscope at Tm. These results indicate that lysis and fusion of the lipid bilayers are induced by the presence of dynorphin A(1–17). It turned out that the bilayers are spontaneously aligned to the magnetic field above Tm in parallel with the bilayer surface, because a single 31P NMR signal appeared at the perpendicular position of the 31P chemical shift tensor. In contrast, no such magnetic ordering was noted for DMPC bilayers containing dynorphin A(1–13). It was proved that DMPC bilayer in the presence of dynorphin A(1–17) forms vesicles above Tm, because leakage of potassium ion from the lipid bilayers was observed by potassium ion-selective electrode after adding Triton X-100. It is concluded that DMPC bilayer consists of elongated vesicles with the long axis parallel to the magnetic field, together with the data of microscopic observation of cylindrical shape of the vesicles. Further, the long axis is found to be at least five times longer than the short axis of the elongated vesicles in view of simulated 31P NMR lineshape