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Abstract: The α subunit of Gz (αz) harbors two N-terminal serine residues (at positions 16 and 27) that serve as protein kinase C-mediated phosphorylation sites. The cognate residues in the α subunit of Gt1 provide binding surfaces for the β1 subunit. We used three serine-to-alanine mutants of αz to investigate the functional importance of the two N-terminal serine residues. Wild-type or mutant αz was transiently coexpressed with different receptors and adenylyl cyclase isozymes in human embryonic kidney 293 cells, and agonist-dependent regulation of cyclic AMP accumulation was examined in a setting where all endogenous α subunits of Gi were inactivated by pertussis toxin. Replacement of one or both serine residues by alanine did not alter the ability of αz to interact with δ-opioid, dopamine D2, or adenosine A1 receptors. Its capacity to inhibit endogenous and type VI adenylyl cyclases was also unaffected. Functional release of βγ subunits from the mutant αz subunits was not impaired because they transduced βγ-mediated stimulation of type II adenylyl cyclase. Constitutively active mutants of all four αz subunits were constructed by the introduction of a Q205L mutation. The activated mutants showed differential abilities to inhibit human choriogonadotropin-mediated cyclic AMP accumulation in luteinizing hormone receptor-transfected cells. Loss of both serine residues, but not either one alone, impaired the receptor-independent inhibition of adenylyl cyclase by the GTPase-deficient mutant. Thus, replacement of the amino-terminal serine residues of αz has no apparent effect on receptor-mediated responses, but these serine residues may be essential for ensuring transition of αz into the active conformation. 相似文献
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Methionine synthesis from 3-methylthioribose in apple tissue 总被引:6,自引:0,他引:6
K H Yung S F Yang F Schlenk 《Biochemical and biophysical research communications》1982,104(2):771-777
The primary fate of 5-methylthioribose in apple tissue is the formation of methionine. Using dual labeled 5-methylthioribose, it was shown that both the CH3S- group and the ribose portion of 5-methylthioribose were equally incorporated into methionine. Thus, the pathway involves modification of the ribose portion of 5-methylthioribose into the 2-aminobutyrate portion of methionine. This pathway functions to recycle methionine for continued synthesis of ethylene in fruit tissues. The methionine cycle in relation to ethylene biosynthesis is presented. 相似文献
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Rat liver microsomes showed very active uridine diphosphate-galactose pyrophosphatase activity leading to the hydrolysis of uridine diphosphate-galactose into galactose1-phosphate and finally into galactose. The activity was observed in presence of buffers with wide ranges of pH. Different concentrations of divalent cations, such as Mn2+, Mg2+, and Ca2+ had no significant effect on the enzyme activity. A number of nucleotides and their derivatives inhibited the pyrophosphatase activity. Of these, different concentrations of uridine monophosphate, cytidine 5′-phosphate and cytidine 5′-diphosphate have slight or no effect; cytidine 5′-triphosphate, adenosine 5′-triphosphate, guanosine 5′-triphosphate, cytidine 5′-diphosphate-glucose and guanosine 5′-diphosphate-glucose showed strong inhibitory effect whereas cytidine 5′-diphosphate-choline showed a moderate effect on the pyrophosphatase. All these nucleotides also showed variable stimulatory effects on uridine diphosphate-galactose:glycoprotein galactosyltransferase activity in the microsomes which could be partly related to their inhibitory effects on uridine diphosphate-galactose pyrophosphatase. Among them uridine monophosphate, cytidine 5′-phosphate, and cytidine 5′-diphosphate stimulated galactosyltransferase activity without showing appreciable inhibition of pyrophosphatase, cytidine 5′-diphosphate-choline, although did not inhibit pyrophosphatase as effectively as cytidine 5′-triphosphate, guanosine 5′-triphosphate, adenosine 5′-triphosphate, cytidine 5′-diphosphate-glucose, and guanosine 5′-diphosphate-glucose but stimulated galactosyltransferase activity as well as those. The fact that cytidine 5′-diphosphate-choline stimulated galactosyltransferase more effectively than cytidine 5′-phosphate, cytidine 5′-diphosphate, and cytidine 5′-triphosphate suggested an additional role of the choline moiety in the system. It has been also shown that cytidine 5′-diphosphate-choline can affect the saturation of galactosyltransferase enzyme at a much lower concentration of uridine diphosphate-galactose. Most of the pyrophosphatase and galactosyltransferase activities were solubilized by deoxycholate and the membrane pellets remaining after solubilization still retained some galactosyltransferase activity which was stimulated by cytidine 5′-diphosphate-choline. In different membrane fractions a concerted effect of both uridine diphosphate-galactose pyrophosphatase and glycoprotein:galactosyltransferase enzymes on the substrate uridine diphosphate-galactose is indicated and their eventual controlling effects on the glycopolymer synthesis in vitro or in vivo need careful evaluation. 相似文献
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Hoon‐Hee Ryu Nam‐Yung Park Dae Ro Yoon Un‐Hyuck Kim Chong S. Yoon Yang‐Kook Sun 《Liver Transplantation》2020,10(25)
A new class of layered cathodes, Li[NixCoyB1?x?y]O2 (NCB), is synthesized. The proposed NCB cathodes have a unique microstructure in which elongated primary particles are tightly packed into spherical secondary particles. The cathodes also exhibit a strong crystallographic texture in which the a–b layer planes are aligned along the radial direction, facilitating Li migration. The microstructure, which effectively suppresses the formation of microcracks, improves the cycling stability of the NCB cathodes. The NCB cathode with 1.5 mol% B delivers a discharge capacity of 234 mAh g?1 at 0.1 C and retains 91.2% of its initial capacity after 100 cycles (compared to values of 229 mAh g?1 at 0.1 C and 78.8% for pristine Li[Ni0.9Co0.1]O2). This study shows the importance of controlling the microstructure to obtain the required cycling stability, especially for Ni‐rich layered cathodes, where the main cause of capacity fading is related to mechanical strain in their charged state. 相似文献
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Li‐Hsuan Ho Yung‐I Lee Shu‐Ying Hsieh I‐Shiuan Lin Yun‐Chien Wu Han‐Yu Ko Patrick A. Klemens H. Ekkehard Neuhaus Yi‐Min Chen Tzu‐Pi Huang Chih‐Hsin Yeh Woei‐Jiun Guo 《Plant, cell & environment》2021,44(1):20-33
Gastrodia elata, a fully mycoheterotrophic orchid without photosynthetic ability, only grows symbiotically with the fungus Armillaria. The mechanism of carbon distribution in this mycoheterotrophy is unknown. We detected high sucrose concentrations in all stages of Gastrodia tubers, suggesting sucrose may be the major sugar transported between fungus and orchid. Thick symplasm‐isolated wall interfaces in colonized and adjacent large cells implied involvement of sucrose importers. Two sucrose transporter (SUT)‐like genes, GeSUT4 and GeSUT3, were identified that were highly expressed in young Armillaria‐colonized tubers. Yeast complementation and isotope tracer experiments confirmed that GeSUT4 functioned as a high‐affinity sucrose‐specific proton‐dependent importer. Plasma‐membrane/tonoplast localization of GeSUT4‐GFP fusions and high RNA expression of GeSUT4 in symbiotic and large cells indicated that GeSUT4 likely functions in active sucrose transport for intercellular allocation and intracellular homeostasis. Transgenic Arabidopsis overexpressing GeSUT4 had larger leaves but were sensitive to excess sucrose and roots were colonized with fewer mutualistic Bacillus, supporting the role of GeSUT4 in regulating sugar allocation. This is not only the first documented carbon import system in a mycoheterotrophic interaction but also highlights the evolutionary importance of sucrose transporters for regulation of carbon flow in all types of plant‐microbe interactions. 相似文献
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TzuCheng Sung YiPeng Jiang JheYu Hsu QingDong Ling Hao Chen Suresh S. Kumar Yung Chang ShihTien Hsu Qingsong Ye Akon Higuchi 《Cell proliferation》2021,54(3)
IntroductionIt is important to prepare ‘hypoimmunogenic’ or ‘universal’ human pluripotent stem cells (hPSCs) with gene‐editing technology by knocking out or in immune‐related genes, because only a few hypoimmunogenic or universal hPSC lines would be sufficient to store for their off‐the‐shelf use. However, these hypoimmunogenic or universal hPSCs prepared previously were all genetically edited, which makes laborious processes to check and evaluate no abnormal gene editing of hPSCs.MethodsUniversal human‐induced pluripotent stem cells (hiPSCs) were generated without gene editing, which were reprogrammed from foetal stem cells (human amniotic fluid stem cells) with mixing 2‐5 allogenic donors but not with single donor. We evaluated human leucocyte antigen (HLA)‐expressing class Ia and class II of our hiPSCs and their differentiated cells into embryoid bodies, cardiomyocytes and mesenchymal stem cells. We further evaluated immunogenic response of transient universal hiPSCs with allogenic mononuclear cells from survival rate and cytokine production, which were generated by the cells due to immunogenic reactions.ResultsOur universal hiPSCs during passages 10‐25 did not have immunogenic reaction from allogenic mononuclear cells even after differentiation into cardiomyocytes, embryoid bodies and mesenchymal stem cells. Furthermore, the cells including the differentiated cells did not express HLA class Ia and class II. Cardiomyocytes differentiated from transient universal hiPSCs at passage 21‐22 survived and continued beating even after treatment with allogenic mononuclear cells. 相似文献
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