首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
γ-Tocopherol methyltransferase (γ-TMT) (EC 2.1.1.95) is a very important enzyme in tocopherol biosynthesis in all photosynthetic organisms. In this paper, we present the functional characterization and expression analysis of γ-TMT from the unicellular green alga Chlamydomonas reinhardtii. Recombinant TMT1 enzyme was purified and characterized. The size of TMT1 subunit was estimated as 37 kDa by sodium dodecylsulphate polyacrylamide gel electrophoresis (SDS-PAGE), in accordance with the predicted molecular size after TMT1 cDNA sequence. Recombinant TMT1 also showed an apparent molecular mass of 37 kDa in its native conformation, suggesting that native TMT1 has a monomeric structure similar to the plant TMTs already characterized. pH and temperature dependence of TMT1 activity were also similar to plant TMTs. Substrate specificity studies showed that Chlamydomonas TMT1 is responsible for the conversion of γ- and δ-tocopherol to α- and β-tocopherol, respectively. The kinetic properties of Chlamydomonas recombinant γ-TMT activity were studied and γ-TMT1 has a similar affinity for γ- and δ-tocopherol. Promoter sequence analysis and expression analysis by northern blot revealed that tmt1 expression is strongly upregulated by high light and downregulated by low temperature. This regulatory pattern of tmt1 expression supports the idea that γ- and α-tocopherol play specific roles in the adaptation to growth under low temperature and high light stress conditions.  相似文献   

2.
Protein-L-isoaspartate (D-aspartate) O-methyltransferases (EC 2.1.1.77) that catalyze the transfer of methyl groups from S-adenosylmethionine to abnormal L-isoaspartyl and D-aspartyl residues in a variety of peptides and proteins are widely distributed in procaryotes and eucaryotes. These enzymes participate in the repair of spontaneous protein damage by facilitating the conversion of L-isoaspartyl and D-aspartyl residues to normal L-aspartyl residues. In this work, we have identified an L-isoaspartyl methyltransferase activity in Arabidopsis thaliana, a dicotyledonous plant of the mustard family. The highest levels of activity were detected in seeds. Using degenerate oligonucleotides corresponding to two highly conserved amino acid regions shared among the Escherichia coli, wheat, and human enzymes, we isolated and sequenced a full-length genomic clone encoding the A. thaliana methyltransferase. Several methyltransferase cDNAs were also characterized, including ones that would encode full-length polypeptides of 230 amino acid residues. Messenger RNAs for the A. thaliana enzyme were found in a variety of tissues that did not contain significant amounts of active enzyme suggesting the possibility of translational or posttranslational controls on methyltransferase levels. We have identified a putative abscisic acid-response element (ABRE) in the 5-untranslated region of the A. thaliana L-isoaspartyl methyltransferase gene and have shown that the expression of the mRNA is responsive to exogenous abscisic acid (ABA), but not to the environmental stresses of salt or drought. The expression of the A. thaliana enzyme appears to be regulated in a distinct fashion from that seen in wheat or in animal tissues.  相似文献   

3.
Five functional isoforms of a novel plant thiol methyltransferase from the leaves of cabbage (Brassica oleracea L.) were purified to electrophoretic homogeneity. Pooled, partly purified preparations of the enzyme were previously shown to methylate thiol compounds released upon the hydrolysis of glucosinolates. The enzyme could also accept halide ions as substrates. The estimated molecular masses of the purified isoforms ranged between 26 and 31 kDa. The three most abundant isoforms of the enzyme could all catalyze the S-adenosyl-l-methionine-dependent methylation of thiocyanate, a number of organic thiols and iodide. However, the kinetic properties of these forms toward various substrates differed widely. None of the isoforms examined methylated the O- and N-equivalents of the thiol substrates. The three isoforms also had distinct pH optima, covering the range from 5 to 9. Their kinetic analysis indicated that they shared a sequential substrate binding mechanism and an Ordered Bi Bi mechanism for substrate binding and product release. Partial internal amino acid sequence from one isoform showed high similarity to an Arabidopsis EST of unknown function, and to a recently cloned methyl chloride transferase from Batis maritima. The differences in the pH optima and kinetic properties of the isoforms suggest that each may methylate a specific substrate or a narrow group of substrates under cellular conditions.  相似文献   

4.
A group of selenium (Se)‐hyperaccumulating species belonging to the genus Astragalus are known for their capacity to accumulate up to 0.6% of their foliar dry weight as Se, with most of this Se being in the form of Se‐methylselenocysteine (MeSeCys). Here, we report the isolation and molecular characterization of the gene that encodes a putative selenocysteine methyltransferase (SMT) enzyme from the non‐accumulator Astragalus drummondii and biochemically compare it with an authentic SMT enzyme from the Se‐hyperaccumulator Astragalus bisulcatus, a related species that lives within the same native habitat. The non‐accumulator enzyme (AdSMT) shows a high degree of homology with the accumulator enzyme (AbSMT) but lacks the selenocysteine methyltransferase activity in vitro, explaining why little or no detectable levels of MeSeCys accumulation are observed in the non‐accumulator plant. The insertion of mutations on the coding region of the non‐accumulator AdSMT enzyme to better resemble enzymes that originate from Se accumulator species results in increased selenocysteine methyltransferase activity, but these mutations were not sufficient to fully gain the activity observed in the AbSMT accumulator enzyme. We demonstrate that SMT is localized predominantly within the chloroplast in Astragalus, the principal site of Se assimilation in plants. By using a site‐directed mutagenesis approach, we show that an Ala to Thr amino acid mutation at the predicted active site of AbSMT results in a new enzymatic capacity to methylate homocysteine. The mutated AbSMT enzyme exhibited a sixfold higher capacity to methylate selenocysteine, thereby establishing the evolutionary relationship of SMT and homocysteine methyltransferase enzymes in plants.  相似文献   

5.
The first steps in the biosynthesis of glucosinolates and indole-3-acetic acid (IAA) in oilseed rape (Brassica napus L.) and Chinese cabbage (Brassica campestris ssp. pekinensis) involve the formation of aldoximes. In rape the formation of aldoximes from chain-extended amino acids, for aromatic and aliphatic glucosinolate biosynthesis, is catalysed by microsomal flavin-containing monooxygenases. The formation of indole-3-aldoxime from l-tryptophan, the potential precursor of both indole-3-acetic acid and indolyl-glucosinolates, is catalysed by several microsomal peroxidases. The biosynthesis of glucosinolates and indole-3-acetic acid was shown to be under developmental control in oilseed rape and Chinese cabbage. No monooxygenase activities were detected in cotyledons or old leaves of either species. The highest monooxygenase activities were found in young expanding leaves; as the leaves reached full expansion and matured the activities decreased rapidly. The indole-aldoxime-forming activity was found in all of the tissues analysed, but there was also a clear decrease in foliar activity with maturity in leaves of rape and Chinese cabbage. Partial characterisation of the Chinese cabbage monooxygenases showed that they have essentially identical properties to the previously characterised rape enzymes; they are not cytochrome P450-type enzymes, but resemble flavin-containing monooxygenases. No monooxygenase inhibitors were detected in microsomes prepared from either cotyledons or old leaves.Abbreviations DHMet dihomomethionine - FMO flavin-containing monooxygenase - HPhe homophenylalanine - IAA indole-3-acetic acid - l-Phe l-phenylalanine - l-Trp l-tryptophan - MO monooxygenase - IAALD indole-3-acetaldehyde - IAOX indole-3-aldoxime - THMet trihomomethionine  相似文献   

6.
The possible effects of environmental stress on plant chemistry that are important to herbivorous insects were examined by growing a wild crucifer, Erysimum cheiranthoides, under different nutrient regimes. Oviposition by the cabbage butterfly, Pieris rapae, is thought to be affected by the balance of glucosinolates (stimulants) and cardenolides (deterrents) at the surface of leaves. E. cheiranthoides seedlings were provided with three levels of nitrogen and two levels of sulfur for a period of 15 days before analysis of semiochemicals in whole leaf tissue and at the surface of the foliage. The ratio of cardenolides to glucosinolates in the plants at elevated C/N ratios followed the carbon/nutrient balance hypothesis. However, a high nitrogen supply enhanced biomass production to the extent that concentrations of secondary compounds were unchanged or reduced. The concentration of glucosinolates (glucoiberin and glucocheirolin) at the surface was positively related to whole tissue levels. However, cardenolide (erysimoside and erychroside) concentrations, which were highest in leaf tissue of nitrogen-deficient plants, had the lowest surface levels on foliage of these plants. Possible reasons for differential expression of cardenolides and glucosinolates in a plant as a result of nutrient deficiency are discussed.  相似文献   

7.
Indole glucosinolates (IG), a group of secondary metabolites found almost extensively in the order Brassicales, play an important role in the interaction between plant and insect or microorganism. In order to explore the possibility of IG metabolic engineering in Chinese cabbage hairy roots, three Arabidopsis cDNAs CYP79B2, CYP79B3, and CYP83B1 combined with rolABC were introduced into Chinese cabbage by Agrobacterium-mediated transformation. Overexpression of CYP79B2, CYP79B3, or CYP83B1 alone did not affect the accumulation levels of IG in transgenic hairy roots. However, when CYP83B1 was overexpressed together with CYP79B2 and/or CYP79B3, some of the transgenic hairy roots accumulated higher levels of glucobrassicin (GBC) or 4-methoxy glucobrassicin (4-OMeGBC) than control hairy root line carrying rolABC vector. With regard to the IG accumulation, overexpression of all three cDNAs showed no better than overexpression of both cDNAs. Both 4-OMeGBC and neoglucobrassicin (neo-GBC) were found to be the main components of IG that comprise about 90% of total IG in all types of Chinese cabbage hairy root lines. In transgenic hairy root lines rB3B1-8 and rB2B1B3-5, 4-OMeGBC increased to 2 and 1.5-fold, while neo-GBC decreased to 0.5 and 0.6-fold, respectively. This suggests that an increased production of 4-OMeGBC causes a reduction of neo-GBC level since the two types derive from a common precursor GBC. However, in terms of the total IG level, the transgenic hairy roots did not show significant differences from controls.  相似文献   

8.
The role of glucosinolates in the oviposition behaviour of the cabbage root fly,Delia radicum (L.) (Diptera, Anthomyiidae) was investigated using egg counts and electrophysiological recordings from tarsal contact chemoreceptors. The glucosinolates present both inside and on the surface of cauliflower leaves were determined. The total amounts obtained with the two methods differed by a factor of 100. The extract of the leaf surface contained about 60 μg per g leaf extracted (gle), the total leaf extract 7.5 mg per gle. The glucosinolate patterns of the two extracts were qualitatively similar, but the ratios of the content of individual glucosinolates showed considerable differences. The D sensilla on segment 3 and 4 of the tarsus ofD. radicum females were shown to contain a sensitive receptor cell for glucosinolates. In contrast, the receptor cells of the D sensilla of the other segments did not respond in a dose dependent way to these compounds. The glucosinolate receptors were found to be especially sensitive to glucobrassicin, gluconasturtiin and glucobrassicanapin with thresholds of about 10−8 M to 10−9 M. Large differences (up to two orders of magnitude) were observed among the different glucosinolates. A significant correlation was found between the behavioural discrimination index and the electrophysiological results. But no obvious correlation existed between the chemical nature of the glucosinolate side chain (e.g. indole, aromatic and aliphatic groups), and their stimulatory activity. However, a significant correlation was found between the overall length of the side chain and the biological activity. Although the flies discriminated clearly between model leaves with and without glucosinolates, a clear dose response curve was only obtained for the indole glucosinolate glucobrassicin. Since the most stimulatory fraction of the surface extract contained no glucosinolates, it was concluded that other compounds, in addition to glucosinolates, do play an important role for the stimulation of oviposition.  相似文献   

9.
Carotenoids are indispensable pigments of the photosynthetic apparatus in plants, algae, and cyanobacteria and are produced, as well, by many bacteria and fungi. Elucidation of biochemical pathways leading to the carotenoids that function in the photosynthetic membranes of land plants has been greatly aided by the use of carotenoid-accumulating strains of Escherichia coli as heterologous hosts for functional assays, in vivo, of the otherwise difficult to study membrane-associated pathway enzymes. This same experimental approach is uniquely well-suited to the discovery and characterization of yet-to-be identified enzymes that lead to carotenoids of the photosynthetic membranes in algal cells, to the multitude of carotenoids found in nongreen plant tissues, and to the myriad flavor and aroma compounds that are derived from carotenoids in plant tissues. A portfolio of plasmids suitable for the production in E. coli of a variety of carotenoids is presented herein. The use of these carotenoid-producing E. coli for the identification of cDNAs encoding enzymes of carotenoid and isoprenoid biosynthesis, for characterization of the enzymes these cDNAs encode, and for the production of specific carotenoids for use as enzyme substrates and reference standards, is described using the flowering plant Adonis aestivalis to provide examples. cDNAs encoding nine different A. aestivalis enzymes of carotenoid and isoprenoid synthesis were identified and the enzymatic activity of their products verified. Those cDNAs newly described include ones that encode phytoene synthase, β-carotene hydroxylase, deoxyxylulose-5-phosphate synthase, isopentenyl diphosphate isomerase, and geranylgeranyl diphosphate synthase.  相似文献   

10.
Selenocysteine methyltransferase (SMT), specifically methylates selenocysteine (SeCys) to produce the nonprotein amino acid Se-methyl selenocysteine (SeMSC) and played key role of removing selenium toxic effect at higher levels to the plant. Here we report the cloning of a cDNA encoding selenocysteine methyltransferase from Camellia sinensis (CsSMT) and expression of CsSMT in Escherichia coli. CsSMT isolated by RT-PCR and RACE-PCR reaction. CsSMT is a 1,401 bp cDNA with an open reading frame predicted to encode a 351 amino acid, 40.5 kDa protein; The predicted amino acid sequences of CsSMT shows 74% identity with A. bisulcatus selenocysteine methyltransferase (AbSMT) and 69% identity with Broccoli (Brassica oleracea var. italica) selenocysteine methyltransferase (BoSMT), and shares 53, 73 and 65% identity, respectively, with Arabidopsis thaliana homocysteine S-methyltransferase AtHMT1, AtHMT2, and AtHMT3, and 65% to Zea mays homocysteine S-methyltransferase (ZmHMT2). Analyses of CsSMT showed that it lacks obvious chloroplast or mitochondrial targeting sequences and contains a consensus sequence of GGCC for a possible zinc-binding motif near the C-terminal and a conserved Cys residue upstream of the zinc-binding motif as other related methyltransferases. Expression of CsSMT correlated with the presence of SMT enzyme activity in cell extracts, and bacteria containing recombinant CsSMT plasmid showed much high tolerance to selenate and selenite.  相似文献   

11.
Angiosperms and algae possess two distinct glyceraldehyde-3-phosphate dehydrogenase (GAPDH) enzymes, an NAD+-dependent tetramer involved in cytosolic glycolysis and an NADP+-dependent enzyme of the Calvin cycle in chloroplasts. We have found that the gymnosperm Pinus sylvestris possesses, in addition to these, a nuclear-encoded, plastid-specific, NAD+-dependent GAPDH, designated GapCp, which has not previously been described from any plant. Several independent full-size cDNAs for this enzyme were isolated which encode a functional transit peptide and mature subunit very similar to that of cytosolic GAPDH of angiosperms and algae. A molecular phylogeny reveals that chloroplast GapCp and cytosolic GapC arose through gene duplication early in chlorophyte evolution. The GapCp gene is expressed as highly as that for GapC in light-grown pine seedlings. These findings suggest that aspects of compartmentalized sugar phosphate metabolism may differ in angiosperms and gymnosperms and furthermore underscore the contributions of endosymbiotic gene transfer and gene duplication to the nuclear complement of genes for enzymes of plant primary metabolism.  相似文献   

12.
Worldwide, the most two important cryptic species of Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) are MEAM1 (Middle East–Asia Minor 1, “B” biotype) and MED (Mediterranean, “Q” biotype). Although both B. tabaci MEAM1 and MED are polyphagous, they differ greatly in host choice and performance on various host plants. MEAM1 prefer to settle and perform better than MED on cabbage (Brassica oleracea), for example, but the underlying mechanism is largely unexplored. In the present study, we first measured the contents of the main secondary insect-resistant substances (glucosinolates and phenolics) and main nutrients (soluble proteins, total amino acids and total nitrogen) in five cabbage genotypes. We then examined the settling and oviposition choices of MEAM1 and MED on the five cabbage genotypes, respectively. The settling and oviposition preferences of both MEAM1 and MED were negatively related to the content of total phenolics rather than to the content of glucosinolates or main nutrients. Furthermore, our results showed that MEAM1 ranked the host quality of the cabbage genotypes more accurately than MED. The results at least in part indicate that total phenolics rather than glucosinolates mediate the host choice of B. tabaci MEAM1 and MED on the five cabbage genotypes.  相似文献   

13.
Natural populations of wild cabbage (Brassica oleracea) show significant qualitative diversity in heritable aliphatic glucosinolates, a class of secondary metabolites involved in defence against herbivore attack. One candidate mechanism for the maintenance of this diversity is that differential responses among herbivore species result in a net fitness balance across plant chemotypes. Such top-down differential selection would be promoted by consistent responses of herbivores to glucosinolates, temporal variation in herbivore abundance, and fitness impacts of herbivore attack on plants varying in glucosinolate profile. A 1-year survey across 12 wild cabbage populations demonstrated differential responses of herbivores to glucosinolates. We extended this survey to investigate the temporal consistency of these responses, and the extent of variation in abundance of key herbivores. Within plant populations, the aphid Brevicoryne brassicae consistently preferred plants producing the glucosinolate progoitrin. Among populations, increasing frequencies of sinigrin production correlated positively with herbivory by whitefly Aleyrodes proletella and negatively with herbivory by snails. Two Pieris butterfly species showed no consistent response to glucosinolates among years. Rates of herbivory varied significantly among years within populations, but the frequency of herbivory at the population scale varied only for B. brassicae. B. brassicae emerges as a strong candidate herbivore to impose differential selection on glucosinolates, as it satisfies the key assumptions of consistent preferences and heterogeneity in abundance. We show that variation in plant secondary metabolites structures the local herbivore community and that, for some key species, this structuring is consistent over time. We discuss the implications of these patterns for the maintenance of diversity in plant defence chemistry.  相似文献   

14.
Locating a resistance mechanism to the cabbage aphid in two wild Brassicas   总被引:1,自引:0,他引:1  
Feeding behaviour of the cabbage aphid,Brevicoryne brassicae, was monitored electronically on two resistantBrassica species,B. fruticulosa andB. spinescens, and compared with a susceptible controlB. oleracea var.capitata cv. Offenham Compacta. Aphids, monitored for 10 h on the under side of leaves, performed recognizable feeding behaviour on all species. Electrical Penetration Graphs (EPGs) of aphids on resistant and susceptible plants showed no difference in behaviour for aphids on resistantBrassica species compared to susceptible until stylets penetrated the phloem sieve elements when a large reduction in the duration of passive phloem uptake (E2 pattern) onB. fruticulosa was indicated. Although feeding behaviour on 6 week-old plants ofB. spinescens was similar to the susceptible controls, behaviour on 10 week-old plants was similar to that recorded forB. fruticulosa. The mechanism of resistance is thought to be located in the sieve element as the normal sieve element salivation (E1) signal was either quickly terminated by withdrawal of the stylets from the sieve element or continued as a disrupted E2 pattern. Analysis of secondary plant compounds in the threeBrassica species only identified significant differences in the glucosinolate profile. No reproducible differences were detected in the concentration of phenolics or anthocyanins. The major glucosinolate component ofB. fruticulosa andB. spinescens was gluconapin rather than glucobrassicin and glucoiberin as found in the susceptible host plant. However, both pure glucosinolates and glucosinolate extracts from all three species did not reduce aphid survival on chemically-defined artificial diets. These results suggest that the mechanism of resistance may be a mechanical blocking of the sieve element or stylets rather than a difference in the secondary plant chemistry of glucosinolates and phenolics.  相似文献   

15.
蒋佳  朱星宇  李晶 《西北植物学报》2020,40(9):1549-1557
色氨酸是合成蛋白质的重要氨基酸,也是植物生长激素IAA和某些次生代谢产物的前体物质,对植物生长发育及病虫害防御有重要作用。为了探究色氨酸对白菜型油菜(Brassica rapa L)生长发育及防御物质累积的影响及其可能的机制,该研究采用外源色氨酸对油菜幼苗进行叶面喷施,分析了色氨酸对油菜幼苗生长发育及生长素IAA和次生代谢产物芥子油苷合成的影响。结果表明:(1)低浓度色氨酸(100 mg/L)处理可有效地促进油菜叶片与根系的发育,但随着浓度增高,促进作用逐渐减弱。(2)荧光定量PCR分析表明,外源色氨酸处理后,油菜幼苗叶片中生长素IAA的3条合成途径都被激活,IPA途径的BrTAA1和BrYUCCA8、IAM途径的BrAMI1及IAOx途径的BrCYP71A13和BrNIT2等关键酶基因的表达均受到强烈的诱导,因而导致IAA的含量显著提高。(3)外源色氨酸处理还激活了下游的吲哚族芥子油苷的合成途径调控因子基因BrMYB34、BrMYB51和BrMYB122以及合成酶基因BrCYP79B2、BrCYP79B3、BrCYP83B1、BrSUR1的表达,同时抑制了其降解酶基因BrTGG1、BrPEN2的表达,从而引起吲哚族芥子油苷的累积。研究发现,外源色氨酸处理可通过调控生长素IAA合成途径和吲哚族芥子油苷的合成途径相关基因表达,有效地促进油菜生长调节物质和生物防御物质的累积,从而增加生物量和提高潜在抗病能力。  相似文献   

16.
The glucosinolates of a Saharan crucifer Schouwia purpurea (Forskål) (Brassicaceae) were determined by liquid chromatography. Two of these glucosinolates and sinigrin were tested for their deterrent effect on Schistocerca gregaria (Forskål) (Orthoptera: Acrididae). Glucobrassicin, three indolyls and epigoitrin were synthesized for this purpose. Epiprogoitrin was extracted from Crambe seeds. Choice tests on artificial substrate compared feeding responses to glucosinolates and to related breakdown products released when the plant is eaten. Breakdown products were more efficient in deterring the generalist locust than were glucosinolates. Two patterns of dose responses were recorded: glucosidic compounds deterred or stimulated feeding, depending on the concentration tested; aglycones did not stimulate feeding at any concentration. Allyl isothiocyanate, a volatile compound, was a 100-fold higher deterrent than its substrate (sinigrin).  相似文献   

17.
The de novo synthesis of pyrimidine nucleotides in plants has been analysed on a molecular level with special focus on cDNA cloning and structure analysis of all genes involved and their expression pattern during development. The exhaustive cloning of all cDNAs resulted from screening with heterologous cDNAs or by using complementation strategies with Escherichia coli mutants and subsequent enzyme activity measurements. Southern hybridization and comparison with the Arabidopsis genome reveals plant specific aspects and a simple genomic organization of pyrimidine synthesis in plants, which is superimposed by the postulated, complex subcellular compartmentalization. Northern hybridization evinces coordinated expression of all genes under developmental control during tobacco leaf growth.  相似文献   

18.
Cytochromes P450 in the biosynthesis of glucosinolates and indole alkaloids   总被引:1,自引:0,他引:1  
Characteristic of cruciferous plants is the synthesis of nitrogen- and sulfur-rich compounds, such as glucosinolates and indole alkaloids. The intact glucosinolates have limited biological activity, but give rise to an array of bio-active breakdown products when hydrolysed by endogenous β-thioglucosidases (myrosinases) upon tissue disruption. Both glucosinolates and indole alkaloids constitute an important part of the defence of plants against herbivores and pathogens, with the difference that a basal level of glucosinolates is ever-present in the plant whereas indole alkaloids are true phytoalexins that are de novo synthesised upon pathogen attack. With the completion of the genome sequence of the model plant, Arabidopsis thaliana, which is a crucifer, many genes involved in the biosynthesis of glucosinolates and indole alkaloids have been identified and cytochromes P450 are key players in these pathways. In the present review, we will focus on the cytochromes P450 in the biosynthesis of both groups of compounds. Their functional roles and regulation will be discussed.  相似文献   

19.
硫苷是十字花科植物的一种次生代谢产物,其合成途径受细胞色素P450的CYP79家族蛋白的调控,该实验采用同源克隆技术在甘蓝型油菜中克隆到了CYP79B1基因,命名为BnCYP79B1(GenBank登录号为JX535391.1)。BnCYP79B1基因cDNA全长1 625bp,编码一个含有541个氨基酸、理论等电点为8.88。序列对比结果显示,BnCYP79B1与花椰菜CYP79B1在DNA序列上的相似性为98.83%,推测蛋白氨基酸序列的相似性为99.26%。通过不同时期不同部位BnCYP79B1基因表达量的分析,发现BnCYP79B1基因在高秆高硫苷品系的根中表达量较高,而对矮秆高硫苷品系则是叶中表达量较高。在BnCYP79B1表达总量上,高秆品系较矮秆品系高,高硫苷品系较低硫苷品系高。  相似文献   

20.
A new galactose-specific lectin was purified from seeds of a Caesalpinoideae plant, Bauhinia variegata, by affinity chromatography on lactose-agarose. Protein extracts haemagglutinated rabbit and human erythrocytes (native and treated with proteolytic enzymes), showing preference for rabbit blood treated with papain and trypsin. Among various carbohydrates tested, the lectin was best inhibited by D-galactose and its derivatives, especially lactose. SDS-PAGE showed that the lectin, named BVL, has a pattern similar to other lectins isolated from the same genus, Bauhinia purpurea agglutinin (BPA). The molecular mass of BVL subunit is 32 871 Da, determined by MALDI-TOF spectrometry. DNA extracted from B. variegata young leaves and primers designed according to the B. purpurea lectin were used to generate specific fragments which were cloned and sequenced, revealing two distinct isoforms. The bvl gene sequence comprised an open reading frame of 876 base pairs which encodes a protein of 291 amino acids. The protein carried a putative signal peptide. The mature protein was predicted to have 263 amino acid residues and 28 963 Da in size.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号