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1.
Diamine oxidase (DAO, EC 1.4.3.6.) activity and polyamine content were measured in the shoot apex, leaves, epicotyl, cotyledons, hypocotyl and roots of light-grown bean ( Phaseolus vulgaris L. cv. Lingot) and soybean ( Glycine max L. cv. Sakai) seedlings at 3 different stages of germination (5, 8 and 14 days) as well as in embryos and cotyledons from soaked seeds. No DAO activity was detected in embryos and cotyledons of either plants. In bean seedlings DAO activity was only detectable in the shoot apex, primary leaves and cotyledons, while in soybean the activity was only detectable in the hypocotyl and roots. During seedling growth, in both plants, a different pattern of DAO activity was observed. In both species spermidine and spermine were the most abundant polyamines in embryos and cotyledons. Cadaverine, absent in bean, was only detected in soybean embryos. In the seedlings of both plants, increasing gradients of putrescine, spermidine and spermine from base to shoot apex were found. A high concentration of cadaverine was present in soybean hypocotyls and roots. A possible correlation between DAO activity and the endogenous content of the preferential substrate is discussed in relation to the possible involvement of the enzyme in regulating the cellular level of polyamines.  相似文献   
2.
Spermidine is the most abundant polyamine in dormant turions of Hydrocharis morsus-ranae and Utricularia intermedia, and it is also the dominant polyamine in sprouts of U. intermedia. The putrescine level is high in young leaves of H. morsus-ranae. Cadaverine and homospermidine occur respectively in vernalized turions of H. morsus-ranae and of U. intermedia.  相似文献   
3.
4.
We have synthesized a novel reagent containing dansyl group, iodoacethyl dansylcadaverine (IADC), which specifically alkylates sulfhydryl groups. The carboxyl group of iodoacetic acid was activated with dicyclohexylcarbodiimide and was condensed with amino group of dansylcadaverine. Purity and chemical structure of IADC was confirmed with mass spectrometry (MS) and NMR. IADC alkylated GSH but not GSSG, which was confirmed by MS. The reactivity of IADC with proteins was also investigated with Western blotting using anti-dansyl antibody. IADC reacted only with sulfhydryl-containing proteins. The specificity of the interaction of IADC with sulfhydryl groups in proteins was confirmed by adding excessive amount of a well-known sulfhydryl-specific reagent, 5, 5'-dithiobis(2-nitrobenzoic acid), which led to a complete inhibition. To show the usefulness of IADC, the cysteines in glyceraldehyde-3-phosphate dehydrogenase (GAPDH) from chicken muscle were modified with this reagent, and GAPDH was then digested by lysyl endopeptidase. The peptides generated from digestion of IADC-incorporated GAPDH were applied to an anti-dansyl immunoaffinity column. The peptide fragments bound and eluted from the column were separated by HPLC, and the amino acid sequence of each peptide was analyzed, and peptide was identified as the one containing a Cys residue(s). These data showed that IADC is a useful reagent to specifically identify the positions of a Cys residue(s) in proteins.  相似文献   
5.
Polyamines and stress: Biological role, metabolism, and regulation   总被引:4,自引:0,他引:4  
In this review, we consider recent advances in the study of the multifaceted biological role of polyamines, primarily under stress conditions, discuss molecular mechanisms controlling their anabolism, catabolism, and transport, and also the regulation of gene expression for key enzymes of their biosynthesis and degradation. To understand the place and role of polyamines in plant adaptation, we focus the data concerning gene expression obtained by modern physicochemical methods on mutant and transgenic plants and also on natural stress-tolerant species manifesting a high tolerance to salinity, drought, and other abiotic factors.  相似文献   
6.
The gene of a bacterial lysine decarboxylase (ldc) fused to arbcS transit peptide coding sequence (tp), and under the control of the CaMV 35S promoter, was expressed in hairy root cultures ofNicotiana tabacum. The fusion of theldc to the targeting signal sequence improved the performance of the bacterial gene in the plant cells in many respects. Nearly all transgenic hairy root cultures harbouring the35S-tp-ldc gene contained distinctly higher lysine decarboxylase activity (from 1.5 to 30 pkat LDC per mg protein) than those which had been transformed with constructs in which the gene had been directly cloned behind the CaMV 35S promoter. The higher enzyme activity led to the accumulation of up to 0.7% cadaverine on a dry mass basis. In addition, part of the cadaverine pool was used for increased biosynthesis of anabasine, an alkaloid which was hardly detectable in control cultures. The best line contained anabasine levels of 0.5% dry mass, which could further be enhanced by feeding of lysine.  相似文献   
7.
In rape leaf discs the response to osmotic stress has been found to be associated with increases in putrescine and 1,3-diaminopropane (an oxidation product of spermidine and/or spermine) and decreases in spermidine titers. In contrast, agmatine and spermine titers showed small changes while cadaverine accumulated massively. Similar results were observed in whole rape seedlings subjected to drought conditions. -DL-difluoromethylarginine (DFMA), a specific irreversible inhibitor of arginine decarboxylase, strongly inhibited polyamine accumulation in unstressed rape leaf discs, which suggested that the arginine decarboxylase pathway is constitutively involved in putrescine biosynthesis. In leaf discs treated under high osmotic stress conditions, both DFMA and DFMO (-DL-difluoromethylornithine, a specific and irreversible inhibitor of ornithine decarboxylase) inhibited the accumulation of polyamines. Although the stressed discs treated with DFMA had a lower concentration of putrescine than those treated with DFMO, we propose that under osmotic stress the synthesis of putrescine might involve both enzymes. DFMA, but not DFMO, was also found to inhibit cadaverine formation strongly in stressed explants. The effects on polyamine biosynthesis and catabolism of cyclohexylamine, the spermidine synthase inhibitor, aminoguanidine, the diamine-oxidase inhibitor and -aminobutyric acid, a product of putrescine oxidation via diamine oxidase or spermidine oxidation via polyamine oxidase were found to depend on environmental osmotic challenges. Thus, it appears that high osmotic stress did not block spermidine biosynthesis, but induced a stimulation of spermidine oxidation. We have also demonstrated that in stressed leaf discs, exogenous ethylene, applied in the form of (2-chloroethyl) phosphonic acid or ethephon, behaves as an inhibitor of polyamine synthesis with the exception of agmatine and diaminopropane. In addition, in stressed tissues, when ethylene synthesis was inhibited by aminooxyacetic acid or aminoethoxyvinylglycine, S-adenosylmethionine utilization in polyamine synthesis was not promoted. The relationships between polyamine and ethylene biosynthesis in unstressed and stressed tissues are discussed.  相似文献   
8.
赖氨酸脱羧酶,可以催化赖氨酸脱羧生成戊二胺。戊二胺是重要的平台化合物,可以合成新型聚酰胺材料、脂肪族异氰酸酯等新材料。本研究对来自于产酸克雷伯氏菌的赖氨酸脱羧酶进行异源表达。以pUC18质粒为载体,将来源于产酸克雷伯氏菌的赖氨酸脱羧酶基因ldc克隆到大肠杆菌,得到菌株LN18。在添加0.5 mmol/L IPTG的LB培养基中,对LN18进行摇瓶培养,发酵液酶活可达到35 U/g发酵液,从发酵液制备的赖氨酸脱羧酶粗酶蛋白的酶活可以达到30 000 U/g粗蛋白。产酸克雷伯氏菌赖氨酸脱羧粗酶蛋白大小约80 kDa,粗酶的最适温度和pH值分别为55℃和5.5,与文献中报道的大肠杆菌的赖氨酸脱羧酶Cad A在pH 8.0几乎没有酶活不同,产酸克雷伯氏菌的赖氨酸脱羧酶在pH 8.0的酶活达到最优pH下酶活的30%以上。金属离子对酶活有一定的影响,Mg~(2+)对酶活有促进作用,Fe~(2+)、Zn~(2+)、Ca~(2+)有一定的抑制作用。  相似文献   
9.
In growing Lathyrus sativus seedlings, the levels of DNA, RNA and protein markedly decreased in the cotyledons and progressively increased in the embryo-axis. In cotyledons, spermidine and spermine contents were substantially reduced while those of agmatine and putrescine were sharply increased. By contrast the embryo-axis progressively accumulated relatively larger amounts of agmatine, homoagmatine. putrescine, cadaverine, spermidine and spermine in parallel with similar changes in its DNA, RNA and protein content. While the cotyledons contained ca 50% of the total agmatine and putrescine present in the plant embryo by day 10, the embryo-axis, though representing less than 20% of the dry wt, contained 90 and 75% of total cadaverine and homoagmatine respectively of the seedlings. Spermidine and spermine levels of this tissue were also comparatively higher, being of the order of 80 and 50% respectively of the total. The root and shoot portions of the embryo-axis also exhibited a similar relationship between changes in DNA, RNA and protein and all the above amines during development. However, the polyamine content of the shoots was relatively higher than those of the roots during the growth period.  相似文献   
10.
Lysine decarboxylase converts l ‐lysine to cadaverine as a branching point for the biosynthesis of plant Lys‐derived alkaloids. Although cadaverine contributes towards the biosynthesis of Lys‐derived alkaloids, its catabolism, including metabolic intermediates and the enzymes involved, is not known. Here, we generated transgenic Arabidopsis lines by expressing an exogenous lysine/ornithine decarboxylase gene from Lupinus angustifolius (La‐L/ODC) and identified cadaverine‐derived metabolites as the products of the emerged biosynthetic pathway. Through untargeted metabolic profiling, we observed the upregulation of polyamine metabolism, phenylpropanoid biosynthesis and the biosynthesis of several Lys‐derived alkaloids in the transgenic lines. Moreover, we found several cadaverine‐derived metabolites specifically detected in the transgenic lines compared with the non‐transformed control. Among these, three specific metabolites were identified and confirmed as 5‐aminopentanal, 5‐aminopentanoate and δ‐valerolactam. Cadaverine catabolism in a representative transgenic line (DC29) was traced by feeding stable isotope‐labeled [α‐15N]‐ or [ε‐15N]‐l ‐lysine. Our results show similar 15N incorporation ratios from both isotopomers for the specific metabolite features identified, indicating that these metabolites were synthesized via the symmetric structure of cadaverine. We propose biosynthetic pathways for the metabolites on the basis of metabolite chemistry and enzymes known or identified through catalyzing specific biochemical reactions in this study. Our study shows that this pool of enzymes with promiscuous activities is the driving force for metabolite diversification in plants. Thus, this study not only provides valuable information for understanding the catabolic mechanism of cadaverine but also demonstrates that cadaverine accumulation is one of the factors to expand plant chemodiversity, which may lead to the emergence of Lys‐derived alkaloid biosynthesis.  相似文献   
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