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81.
M. G. Akimov N. M. Gretskaya K. V. Shevchenko V. P. Shevchenko N. F. Myasoedov M. Yu. Bobrov V. V. Bezuglov 《Russian Journal of Bioorganic Chemistry》2007,33(6):602-606
Possible biosynthetic pathways of N-acyldopamines in rat tissues were compared. It was shown that an insignificant amount of the conjugation products was formed during the incubation of arachidonic acid and dopamine, whereas the substitution of tyrosine for dopamine resulted in the productive biosynthesis of N-arachidonoyldopamine. The biosynthesis presumably involves several closely conjugated enzymatic stages, and free fatty acids rather than their CoA esters served as the starting substrates. The decarboxylation stage probably precedes the stage of catechol system formation, because N-acetyltyramine (a probable intermediate) was easily oxidized by monophenol monooxygenase to N-acyldopamine, whereas N-acyltyrosine is hydrolyzed under these conditions. Biosynthesis of N-acyldopamines in a cell-free medium was accompanied by their methylation. The possibility of oxidative metabolism of N-acyldopamines, which could serve as co-substrates or inhibitors of different oxidoreductases, was shown for the first time. 相似文献
82.
83.
天然产物类药物的合成生物学研究 总被引:1,自引:0,他引:1
结构复杂多样的天然产物是现代药物的重要组成部分和新药发现的重要源泉。建立在基因工程及代谢工程、合成化学、基因组学、系统生物学等学科基础上的合成生物学研究对于结构复杂的天然产物类药物研究有特殊的意义。核心是通过在发酵友好、高效的微生物中设计、构建目标化合物的生物合成途径,经系统地调控和优化由重组微生物发酵生产来源稀缺的天然产物类药物或前体。该方法是不远的将来解决来源、成本与环境、资源协调问题最好的途径之一,也是解决海洋天然产物或特殊生境微生物药物面临的如何持续供应化合物这一个瓶颈问题的最佳选择。该文将对天然产物类药物合成生物学研究涉及的主要策略和重要进展进行阐述。 相似文献
84.
Yuan Wang Ren‐Jie Tang Xiyan Yang Xiaojiang Zheng Qiaolin Shao Qing‐Lin Tang Aigen Fu Sheng Luan 《Plant, cell & environment》2019,42(2):673-687
Multiple transporters and channels mediate cation transport across the plasma membrane and tonoplast to regulate ionic homeostasis in plant cells. However, much less is known about the molecular function of transporters that facilitate cation transport in other organelles such as Golgi. We report here that Arabidopsis KEA4, KEA5, and KEA6, members of cation/proton antiporters‐2 (CPA2) superfamily were colocalized with the known Golgi marker, SYP32‐mCherry. Although single kea4,5,6 mutants showed similar phenotype as the wild type under various conditions, kea4/5/6 triple mutants showed hypersensitivity to low pH, high K+, and high Na+ and displayed growth defects in darkness, suggesting that these three KEA‐type transporters function redundantly in controlling etiolated seedling growth and ion homeostasis. Detailed analysis indicated that the kea4/5/6 triple mutant exhibited cell wall biosynthesis defect during the rapid etiolated seedling growth and under high K+/Na+ condition. The cell wall‐derived pectin homogalacturonan (GalA)3 partially suppressed the growth defects and ionic toxicity in the kea4/5/6 triple mutants when grown in the dark but not in the light conditions. Together, these data support the hypothesis that the Golgi‐localized KEAs play key roles in the maintenance of ionic and pH homeostasis, thereby facilitating Golgi function in cell wall biosynthesis during rapid etiolated seedling growth and in coping with high K+/Na+ stress. 相似文献
85.
阿维链霉菌中aveD基因缺失对阿维菌素合成的影响 总被引:11,自引:0,他引:11
利用aveD基因的缺失载体pCZ8(pKC1139∷△aveD)对阿维菌素(Avermectin)产生菌阿维链霉菌(Streptomyces avermitilis)76\|9的aveD基因进行缺失获得aveD缺失突变株。经摇瓶发酵和HPLC检测,发现该突变株只产生阿维菌素B组分。说明将阿维链霉菌的aveD基因缺失,并不影响下游aveF的表达。缺失突变株的阿维菌素的总产量与出发菌株的总产量基本相同,突变株中B1的产量略有提高,阿维菌素B2的含量显著提高。 相似文献
86.
Zusammenfassung In der Frucht vonPoncirus trifoliata liegen in der Außenschale Drüsenzellkomplexe, die ein monoterpenreiches ätherisches Öl mit geringem Anteil an Sesquiterpenen und O-haltigen Substanzen produzieren. Ähnlich aussehende Exkretzellkomplexe aus den Saftschläuchen enthalten hauptsächlich Sesquiterpenkohlenwasserstoffe (STKW) und O-haltige Komponenten und sehr wenig Monoterpenkohlenwasserstoffe (MTKW). Im Schalenöl konnten nach gaschromatographischer Trennung mit Hilfe der Massenspektrometrie 19 Komponenten identifiziert werden, im Saftschlauchöl 25.Elektronenmikroskopische Aufnahmen der jüngsten Drüsenzellen beider Drüsenkomplexe lassen erkennen, daß beide Terpenklassen wahrscheinlich hauptsächlich bzw. ausschließlich plastidär entstehen.Exogen angebotenes14CO2 wird zunächst überwiegend in die MTKW eingebaut, erst später nimmt die Markierung der STKW und O-haltigen Komponenten stark zu. Über den Ferntransportweg angebotenes14C-Leucin führt anfangs zu einer starken Markierung der STKW und O-haltigen Komponenten, erst später verschiebt sich der Einbau etwas mehr in Richtung MTKW. Als Hauptursache für den differenten Einbau wird das Vorhandensein zweier Typen von Drüsenzellkomplexen mit unterschiedlichen Syntheseleistungen angesehen.Die aus dem14CO2 in der Außenrinde gebildeten Assimilate werden zuerst in das MTKW-reiche Öl der Schalenexkretbehälter eingebaut. Die überwiegend STKW erzeugenden Saftschlauchbehälter werden erst später beliefert. Beim Leucinangebot über die Fruchtstiele scheint es gerade umgekehrt zu verlaufen. Die aufeinanderfolgenden Maxima der Ölproduktion in den beiden Drüsenzellkomplex-Typen und die Änderung des Komponentenspektrums ihres ätherischen Öls im Verlauf der Vegetationsperiode tragen ebenfalls zu einem je nach Jahreszeit unterschiedlichen Einbau in die MTKW und STKW bei.
Compartmentation of mono- and sesqui-terpene biosynthesis of the essential oil inPoncirus trifoliata
Summary The fruit ofPoncirus trifoliata shows glandular cell complexes in the exocarp, which produce a volatile oil rich in monoterpenes but poor in sesquiterpenes and oxigenated compounds. The juice vesicles of the endocarp possess similar cell complexes mainly containing sesquiterpenes and oxigenated compounds, whereas monoterpenes only occur in small amounts. By the use of combined gas chromatography-mass spectrometry 19 components of the rind oil and 15 compounds of the endocarp oil could be identified.As demonstrated by electron microscopy the terpenes most probably are synthesized predominantly, if not exclusively in plastids. As shown by gasradiochromatography radioactive precursors (14CO2 and14C-leucine) are incorporated into mono- and sesqui-terpenes to a different extent.This is due to two gland types producing essential oils of different composition with regard to their mono- and sesqui-terpene percentage. In fruit development the exocarp glands differentiate earlier than the endocarp glands do. The activity of exogenously applied14CO2 first reaches the peripheral glands and later on appears in the interior glands. Depending upon the growth season, labelled leucine transported by the conducting tissues from lower plant parts leads to a high specific activity of the sesqui-terpenes and oxigenated compounds. It could be argued that in this instance the glands of the pulp are better provided with precursors than the exocarp glands. The successive maxima of essential oil production in both glandular complexes, and the changes in the concentration of individual oil constituents during the ontogeny of the fruit also contribute to different incorporation ratios of radioactive precursors into mono- and sesqui-terpenes.相似文献
87.
Kai Hilpert Dirk FH Winkler Robert EW Hancock 《Biotechnology & genetic engineering reviews》2013,29(1):31-106
Spatial organization of metabolic enzymes may represent a general cellular mechanism to regulate metabolic flux. One recent example of this type of cellular phenomenon is the purinosome, a newly discovered multi-enzyme metabolic assembly that includes all of the enzymes within the de novo purine biosynthetic pathway. Our understanding of the components and regulation of purinosomes has significantly grown in recent years. This paper reviews the purine de novo biosynthesis pathway and its regulation, and presents the evidence supporting the purinosome assembly and disassembly processes under the control of G-protein-coupled receptor (GPCR) signaling. This paper also discusses the implications of purinosome and GPCR regulation in drug discovery. 相似文献
88.
昆虫神经肽研究进展 总被引:4,自引:0,他引:4
徐卫华 《生物化学与生物物理进展》1997,24(2):116-120
近年来鉴定了化学结构的昆虫神经肽数目呈快速上升趋势, 家蚕滞育激素和性信息素合成激活肽被分离纯化.三种近年出现的研究方法对寻找新型昆虫神经肽起到重要作用,已经成功地鉴定了数个新型神经肽.昆虫神经肽cDNA或基因组DNA克隆显示了新的结构信息和神经肽间的相互关系. 相似文献
89.
A second Warburg-like effect in cancer metabolism: The metabolic shift of glutamine-derived nitrogen
Manabu Kodama Keiichi I. Nakayama 《BioEssays : news and reviews in molecular, cellular and developmental biology》2020,42(12):2000169
Carbon and nitrogen are essential elements for life. Glucose as a carbon source and glutamine as a nitrogen source are important nutrients for cell proliferation. About 100 years ago, it was discovered that cancer cells that have acquired unlimited proliferative capacity and undergone malignant evolution in their host manifest a cancer-specific remodeling of glucose metabolism (the Warburg effect). Only recently, however, was it shown that the metabolism of glutamine-derived nitrogen is substantially shifted from glutaminolysis to nucleotide biosynthesis during malignant progression of cancer—which might be referred to as a “second” Warburg effect. In this review, address the mechanism and relevance of this metabolic shift of glutamine-derived nitrogen in human cancer. We also examine the clinical potential of anticancer therapies that modulate the metabolic pathways of glutamine-derived nitrogen. This shift may be as important as the shift in carbon metabolism, which has long been known as the Warburg effect. 相似文献
90.