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Bouayad A Fouron JC Hou X Beauchamp M Quiniou C Abran D Peri K Clyman RI Varma DR Chemtob S 《American journal of physiology. Regulatory, integrative and comparative physiology》2004,286(5):R903-R909
The synthesis of PGE(2), the major vasodilator prostanoid of the ductus arteriosus (DA), is catalyzed by PGE(2) synthases (PGES). The factors implicated in increased PGE(2) synthesis in the perinatal DA are not known. We studied the developmental changes of PGES along with that of cyclooxygenase (COX)-2 and cytosolic phospholipase A(2) (cPLA(2)) in the DA of fetal (75-90% gestation) and immediately postnatal newborn (NB) piglets. Levels of microsomal PGES (mPGES), COX-2, and PGE(2) in the DA of NB were approximately 7-fold higher than in fetus; activities of cytosolic PGES (cPGES) and cPLA(2) in DA of the fetus and NB did not differ. Because platelet-activating factor (PAF) could regulate COX-2 expression, the former was measured and found to be more abundant in the DA of the NB than of fetus. PAF elicited an increase in mPGES, COX-2, and PGE(2) in fetal DA to levels approaching those of the NB; cPGES, cPLA(2), and COX-1 were unaffected. In perinatal NB DA, PAF receptor antagonists BN-52021 and THG-315 reduced mPGES, COX-2, and PGE(2) levels and were associated with increased DA tone. It is concluded that PAF contributes in regulating DA tone by governing mPGES, COX-2, and ensuing PGE(2) levels in the perinate. 相似文献
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Masaru Suzuki Mitsuzo Kuno Tsunetomo Asm Yoshio Nakao 《Bioscience, biotechnology, and biochemistry》2013,77(3):657-661
A novel process for the microbial production of alkaline protease on an industrial scale was successfully established by using a kabicidin resistant mutant, No. 5–128B, derived from Fusarium sp. S–19–5. The most suitable carbon source for producing alkaline protease was n-paraffins (C10~C14) and the effective nitrogen source was dried-yeast cells containing no nucleic acid, the optimum concentrations being 12.5% (w/v) and 7.0% (w/v), respectively. The optimal temperature and initial pH for protease production were 24°C and 6.0, respectively. Under the optimal conditions using a shaker flask mutant No. 5–128B produced 41000 PU/ml of alkaline protease, which corresponded to about 10 times the amount produced by the parent strain. The relation between the high ability to produce alkaline protease and the resistance to kabicidin, a polyene antibiotic, is discussed. 相似文献
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pH responsiveness of fibrous assemblies of repeat-sequence amphipathic α-helix polypeptides 下载免费PDF全文
Toshiaki Takei Kouhei Tsumoto Atsuhito Okonogi Akiko Kimura Shuichi Kojima Kazumori Yazaki Tsunetomo Takei Takuya Ueda Kin-ichiro Miura 《Protein science : a publication of the Protein Society》2015,24(5):883-894
We reported previously that our designed polypeptide α3 (21 residues), which has three repeats of a seven-amino-acid sequence (LETLAKA)3, forms not only an amphipathic α-helix structure but also long fibrous assemblies in aqueous solution. To address the relationship between the electrical states of the polypeptide and its α-helix and fibrous assembly formation, we characterized mutated polypeptides in which charged amino acid residues of α3 were replaced with Ser. We prepared the following polypeptides: 2Sα3 (LSTLAKA)3, in which all Glu residues were replaced with Ser residues; 6Sα3 (LETLASA)3, in which all Lys residues were replaced with Ser; and 2S6Sα3 (LSTLASA)3; in which all Glu and Lys residues were replaced with Ser. In 0.1M KCl, 2Sα3 formed an α-helix under basic conditions and 6Sα3 formed an α-helix under acid conditions. In 1M KCl, they both formed α-helices under a wide pH range. In addition, 2Sα3 and 6Sα3 formed fibrous assemblies under the same buffer conditions in which they formed α-helices. α-Helix and fibrous assembly formation by these polypeptides was reversible in a pH-dependent manner. In contrast, 2S6Sα3 formed an α-helix under basic conditions in 1M KCl. Taken together, these findings reveal that the charge states of the charged amino acid residues and the charge state of the Leu residue located at the terminus play an important role in α-helix formation. 相似文献
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