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1.
Ishige Fumiharu; Yamazaki Ken'ichi; Mori Hitoshi; Imaseki Hidemasa 《Plant & cell physiology》1991,32(5):681-690
The ethylene-induced synthesis and accumulation of proteinswere studied in the primary leaves of azuki bean (Vigna angularis).Seven different proteins, designated AZ17, 23, 27, 32, 35, 36,42 according to their molecular masses, were synthesized andaccumulated in response to ethylene. AZ27 and AZ42 were purifiedto homogeneity and characterized. AZ27 was identified as anacidic chitinase and accumulated in the extracellular space.The sequence of the 40 N-terminal amino acids of AZ27 showedno similarity to that of a basic chitinase from bean and tobacco,but it was highly homologous to that of a chitinase from virus-infectedcucumber leaves. AZ42 was identified as a glycoprotein thataccumulated intracellularly. A search for proteins with sequenceshomologous to an internal sequence of 18 amino acids in AZ42was unsuccessful. Immunochemical examination revealed that auxinand abscisic acid enhanced the ethylene-induced accumulationof AZ27 but not of AZ42. In contrast, levels of AZ42 were notaffected by auxin or abscisic acid, but cytokinin suppressedthe accumulation of one of the doublet bands of AZ42. TranslatablemRNAs coding for AZ27 and AZ42 were not present in leaves thathad not been treated with ethylene, but levels of these mRNAsincreased after such treatment. (Received March 1, 1991; Accepted May 8, 1991) 相似文献
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Serotyping is the foundation of pathogenic Escherichia coli diagnostics; however, few laboratories have this capacity. We developed a molecular serotyping protocol that targets, genetically, the same somatic and flagellar antigens of E. coli O26:H11 used in traditional serotyping. It correctly serotypes strains untypeable by traditional methods, affording primary laboratories serotyping capabilities. 相似文献
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Bono A 《BMJ (Clinical research ed.)》1990,300(6732):1095
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Kazushige Dobashi Kohtaro Asayama Hidemasa Hayashibe Norihiko Uchida Makio Kobayashi Akira Kawaoi Kiyohiko Kato 《Virchows Archiv. B, Cell pathology including molecular pathology》1991,60(1):67-72
Two forms of superoxide dismutase, CuZn-SOD and MnSOD, have been investigated in the kidneys of streptozotocin-induced diabetic rats using both radio-immunoassay and immunoenzyme staining. The rats were killed 2, 8 and 12 weeks after the induction of diabetes mellitus and the kidneys excised. Two weeks after the induction of diabetes, the kidneys were hypertrophied because of the proliferation of renal tubular epithelium. However, the total CuZnSOD content of the kidneys did not increase and, because of the epithelial proliferation, the CuZnSOD concentration in each proximal tubular cell was decreased. Armanni-Ebstein lesions were found in the distal tubules 8 and 12 weeks after the induction of diabetes. The cells in these lesions were intensely stained for CuZnSOD, suggesting an adaptive response to the enhanced oxidative stress. The MnSOD staining in the thick ascending limbs of Henle's loops was enhanced in the diabetic kidneys, while that in the cortical tubules was unaltered. MnSOD was assumed to increase in response to hypermetabolism associated with the proliferation of renal tubules. This was most marked in the cells which were rich in mitochondria, again suggesting an adaptive response to enhanced oxidative stress induced by diabetes mellitus. The glomeruli of both the diabetic and control groups were not stained for SODs, and no significant microscopic change was found even 12 weeks after the induction of diabetes mellitus. 相似文献
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IAA-induced and l-aminocyclopropane-l-carboxylic acid (ACC)-dependentethylene production in etiolated mung bean (Vigna radiata [L]Wilczek) hypocotyl sections does not occur in epidermal cells(Todaka and Imaseki 1985). Mung bean hypocotyls contain a proteinwhich inhibits auxin-induced ethylene biosynthesis in hypocotylsections (Sakai and Imaseki 1975a, b). This inhibitory proteinwas also found to inhibit ACC-dependent ethylene productionin hypocotyl sections, but not in hypocotyl sections from whichthe epidermis had been removed. Uptake of ACC by both unpeeledand peeled sections was not inhibited by the protein. Similarly,IAA-induced ethylene production was inhibited by the proteinin unpeeled hypocotyl sections, but not in peeled sections.The protein was not inactivated in peeled sections, as proteinsynthesis by peeled sections was inhibited to the same extentas in unpeeled sections. The protein inhibited incorporationof 3,4-[14C]-methionine into ACC and ethylene in unpeeled sections,but not in peeled sections, whereas oxidation of the labeledmethionine into CO2 was inhibited by the protein to a similarextent in both types of hypocotyl sections. KCN, a potent inhibitorof ethylene production, inhibited both IAA-induced and ACC-dependentethylene production in both peeled and unpeeled hypocotyl sections.It is likely that the epidermis plays some role in controllingethylene production which occurs in stem cells other than epidermalcells. (Received July 16, 1985; Accepted October 21, 1985) 相似文献
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1-Aminocyclopropane-1-carboxylate (ACC) synthase, which formsAGC from S-adenosylmethionine (SAM), was purified to homogeneityfrom sliced and aged mesocarp tissue of Cucurbita maxima Duch.cv Ebisu fruits, and its enzymatic properties were determined.The specific activity of the purified enzyme was 220 mU/mg proteinat 30°C at 50 µM SAM. Native ACC synthase has a relativemolecular mass of 160 ± 10 kDa and consisted of two subunitsof about 84±3 kDa. S-adenosylhomocysteine (SAH), S-methylmethionine(SMM) and L-methionine did not serve as substrate. The enzymereaction was competitively inhibited by aminoethoxyvinylglycine(AVG) (Ki, 2.5 µM), aminooxyacetic acid (Ki, 40 µM)and SAH (Ki, 30 µM). The reaction was also strongly inhibitedby semicarbazide, and less effectively by homocysteine. Theenzyme was rapidly inactivated by its substrate, SAM in thepresence of pyridoxalphosphate (PLP), but in the absence ofPLP, SAM-induced inactivation was much slower. Inactivationdid not occur by SAH and SMM, SAM analogs without substrateactivity. Pyridoxal phosphate was an essential cofactor to beadded to a reaction mixture for maximum activity, but an enzymepreparation from which pyridoxal phosphate was removed by SephadexG-25 gel filtration exhibited one-eighth activity which wasinhibited by semicarbazide, this indicating that a small amountof pyridoxal phosphate is firmly bound to the enzyme. (Received May 6, 1986; Accepted May 20, 1986) 相似文献
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