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This study aimed to overexpress a glucose oxidase gene (GOD1) in Aureobasidium sp. P6 to achieve Ca2+-gluconic acid (GA) overproduction. The GOD1 gene was cloned, deleted, and overexpressed. A protein deduced from the GOD1 gene of Aureobasidium sp. P6 strain had 1824 bp that encoded a protein with 606 amino acids, with a conserved NADB-ROSSMAN domain and a GMC-oxred domain. Deleting the GOD1 gene made the disruptant GOK1 completely lose the ability to produce GA and GOD1 activity, whereas overexpressing the GOD1 gene rendered the transformant GOEX8 to produce considerably more Ca2+-GA (160.5?±?5.6 g/L) and higher GOD1 activity (1438.6?±?73.2 U/mg of protein) than its parent P6 strain (118.7?±?4.3 g/L of Ca2+-GA and 1100.0?±?23.6 U/mg of GOD1 protein). During a 10-L fermentation, the transformant GOEX8 grown in the medium containing 160.0 g/L of glucose produced 186.8?±?6.0 g/L of Ca2+-GA, the yield was 1.2 g/g of glucose, and the volumetric productivity was 1.7 g/L/h. Most of the produced GOD1 were located in the yeast cell wall. The purified product was identified to be a GA. The transformant GOEX8 overexpressing the GOD1 gene could produce considerably more Ca2+-GA (186.8?±?6.0 g/L) than its wild-type strain P6.  相似文献   

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The plant specific DREPP proteins have been shown to bind Ca2+ and regulate the N-myristoylation signaling and microtubule polymerization in Arabidopsis thaliana. The information about DREPP proteins in other plants is, however, scarce. In the present study, we isolated the DREPP gene from a halophytic grass, Sporobolus virginicus, and tested whether the gene was involved in alkaline salt stress responses. The SvDREPP1 was cloned from S. virginicus by RACE methods. The isolated gene showed high homology to DREPP homologs from C4 grasses, Setaria italica, and Panicum hallii as well as rice (OsDREPP1). The encoded protein contained 202 amino acid residues. It was expressed in E. coli, and its biochemical properties were studied. It was observed that SvDREPP1 was not only Ca2+-binding protein, but also bind to calmodulin and microtubules. The SvDREPP1 mRNA expression in plants grown under alkaline salt stress was upregulated by 3.5 times over the control in leaf tissues after 48-h treatment, whereas it was increased for 6.0 times in the root tissues at 36 h. The data suggests the importance of SvDREPP1 in regulating alkali salt stress responses in the leaf tissues.  相似文献   

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Many phytopathogenic micro-organisms such as bacteria and fungi produce pectin methylesterases (PME) during plant invasion. Plants and insects also produce PME to degrade plant cell wall. In the present study, a thermostable pectin methylesterase (CtPME) from Clostridium thermocellum belonging to family 8 carbohydrate esterase (CE8) was cloned, expressed and purified. The amino acid sequence of CtPME exhibited similarity with pectin methylesterase from Erwinia chrysanthemi with 38% identity. The gene encoding CtPME was cloned into pET28a(+) vector and expressed using Escherichia coli BL21(DE3) cells. The recombinant CtPME expressed as a soluble protein and exhibited a single band of molecular mass approximately 35.2 kDa on SDS-PAGE gels. The molecular mass, 35.5 kDa of the enzyme, was also confirmed by MALDI-TOF MS analysis. Notably, highest protein concentration (11.4 mg/mL) of CtPME was achieved in auto-induction medium, as compared with LB medium (1.5 mg/mL). CtPME showed maximum activity (18.1 U/mg) against citrus pectin with >85% methyl esterification. The optimum pH and temperature for activity of CtPME were 8.5 and 50 °C, respectively. The enzyme was stable in pH range 8.0–9.0 and thermostable between 45 and 70 °C. CtPME activity was increased by 40% by 5 mM Ca2+ or Mg2+ ions. Protein melting curve of CtPME gave a peak at 80 °C. The peak was shifted to 85 °C in the presence of 5 mM Ca2+ ions, and the addition of 5 mM EDTA shifted back the melting peak to 80 °C. CtPME can be potentially used in food and textile industry applications.  相似文献   

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Although a high number of chickens carry Campylobacter jejuni, the mechanistic action of colonization in the intestine is still poorly understood. The current study was therefore designed to investigate the effects of C. jejuni on glucose uptake, amino acids availability in digesta, and intracellular calcium [Ca2+]i signaling in the intestines of broiler chickens. For this, we compared: control birds (n?=?60) and C. jejuni-infected birds (n?=?60; infected orally with 1?×?108 CFU of C. jejuni NCTC 12744 at 14 days of age). Our results showed that glucose uptake was reduced due to C. jejuni infection in isolated jejunal, but not in cecal mucosa at 14 days postinfection (dpi). The decrease in intestinal glucose absorption coincided with a decrease in body weight gain during the 2-week post-infectious period. A reduction in the amount of the amino acids (serine, proline, valine, leucine, phenylalanine, arginine, histidine, and lysine) in ileal digesta of the infected birds at 2 and/or 7 dpi was found, indicating that Campylobacter utilizes amino acids as a carbon source for their multiplication. Applying the cell-permeable Ca2+ indicator Fluo-4 and two-photon microscopy, we revealed that [Ca2+]i was increased in the jejunal and cecal mucosa of infected birds. The muscarinic agonist carbachol induced an increase in [Ca2+]i in jejunum and cecum mucosa of control chickens, a response absent in the mucosa of infected chickens, demonstrating that the modulation of [Ca2+]i by Campylobacter might be involved in facilitating the necessary cytoskeletal rearrangements that occur during the bacterial invasion of epithelial cells. In conclusion, this study demonstrates the multifaceted interactions of C. jejuni with the gastrointestinal mucosa of broiler chickens. For the first time, it could be shown that a Campylobacter infection could interfere with intracellular Ca2+ signaling and nutrient absorption in the small intestine with consequences on intestinal function, performance, and Campylobacter colonization. Altogether, these findings indicate that Campylobacter is not entirely a commensal and can be recognized as an important factor contributing to an impaired chicken gut health.  相似文献   

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The gene expression profile chip of salt-resistant wheat mutant RH8706-49 under salt stress was investigated. The overall length of the cDNA sequence of the probe was obtained using electronic cloning and RT-PCR. An unknown gene induced by salt was obtained, cloned, and named TaDi19 (Triticum aestivum drought-induced protein). No related report or research on the protein is available. qPCR analysis showed that gene expression was induced by many stresses, such as salt. Arabidopsis thaliana was genetically transferred using the overexpressing gene, which increased its salt tolerance. After salt stress, the transgenic plant demonstrated better physiological indicators (higher Ca2+ and lower Na+) than those of the wild-type plant. Results of non-invasive micro-test technology indicate that TaDi19-overexpressing A. thaliana significantly effluxed Na+ after salt treatment, whereas the wild-type plant influxed Na+. Chelating extracellular Ca2+ resulted in insignificant differences in salt tolerance between overexpressing and wild-type A. thaliana. Subcellular localization showed that the gene encoding protein was mainly located in the cell membrane and nucleus. TaDi19 was overexpressed in wild-type A. thaliana, and the transgenic lines were more salt-tolerant than the control A. thaliana. Thus, the wheat gene TaDi19 could increase the salt tolerance of A. thaliana.  相似文献   

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This study intended to purify and characterise exo-inulinase of diesel-degrading Paenibacillus sp. D9. The whole genome sequencing of Paenibacillus sp. D9 revealed to possess the sacC gene that is encoded as exo-inulinase/levanase. This isolate was capable of producing a maximum of 50.9 IU/mL of exo-inulinase activity within 3 days at 30?°C, 200 rpm and pH of 7.0 on minimal salt medium agar supplemented with 1% (w/v) inulin. An exo-inulinase of 58.5 kDa was purified using ammonium sulphate precipitation, HiTrap QFF column and MMC column chromatographies with a specific activity of 4333 IU/mg, 7.1% recovery and a 4.3-fold increase in purity. The purified D9 exo-inulinase had temperature and pH optimum at 40?°C and pH 4.0, respectively, with the Michaelis constant of 5.5 mM and a maximal velocity of 476.2 IU/mg, respectively. Catalytic constant, k cat was calculated to be 42.6 s?1 with a catalytic efficiency (k cat /K m ) of 7.6 s?1 mM?1. The presence of Ca2+ enhanced the activity of D9 exo-inulinase while Hg2+ completely inhibited the activity, other compounds such as Fe3+ and Cu2+ had an inhibitory effect. The results of amino acid alignment and the complete degradation of inulin into fructose by the purified enzyme confirmed that inulinase from Paenibacillus sp. D9 is an exo-form. The phylogenetic tree based on the protein sequences indicates that bacterial exo-inulinases possess a common ancestry.  相似文献   

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This study isolated extracellular polysaccharides (EPS) as a powder material from cyanobacterial blooms and the powdered EPS was used to trigger colony formation of dispersed unicellular M. aeruginosa by controlling EPS concentration in culture medium. The effect of Ca2+ ions on the colony formation of M. aeruginosa was also investigated, then the interaction between EPS and Ca2+ ions on colony formation was discussed. The results showed that the addition of the powdered EPS into the medium did not cause morphological changes of M. aeruginosa, suggesting that EPS alone would not induce the colony formation of M. aeruginosa. On the other hand, a high concentration of calcium ions (1000 mg/l) caused colony formation. When EPS and Ca2+ ions in the culture medium were adjusted to 200 and 1000 mg/l, respectively, the colony density, the average cell number per colony and the particle size of M. aeruginosa showed ca. 1.7–2.0 times greater values than those in the Ca2+ added medium. Calcium ion contributed to the aggregation of M. aeruginosa via crosslinked reaction with negatively charged M. aeruginosa cells, and the addition of EPS possessing negatively charged functional groups such as carboxy groups could enhance the reaction, promoting the crosslinked reaction between EPS and Ca2+ ions.  相似文献   

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Optimal temperature and light are both necessary conditions for coral survival. Light enhances calcification, and thermal stress disrupts Ca2+ homeostasis. As calcium is involved in many important metabolic activities, in this study, we cloned the calmodulin-like protein (CaLP) gene of one of the scleractinian corals, Galaxea astreata. We also detected the relative mRNA expression levels of gaCaLP using the calcium channel blocker verapamil and CaCl2 treatment under conditions of light and dark, and compared expression levels under controlled temperature conditions. Full-length gaCaLP cDNA comprised 1290 nucleotides and contained 498 bp open reading frame that encoded a protein with 165 amino acids. With CaCl2, expression levels of gaCaLP only increased in the presence of light, suggesting that light may be a restrictive factor in CaLP expression when sufficient calcium is available in the environment. In addition, after verapami treatment, we noted that a down regulation of gaCaLP, suggesting that the expression of CaLP is closely related to extracellular Ca2+ influx. Under temperature stress at both high (30 °C) and low (20 °C) temperatures, expression levels of gaCaLP showed an initial increase, followed by a decreasing trend as treatment progressed. Expression levels reached their maximum value at 24 h. This result showed that CaLP participated in a temperature stress response, and Ca2+ homeostasis was disrupted during stress. The findings of the present study will help determine the function and regulatory mechanisms of gaCaLP.  相似文献   

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Recent studies have shown that the sensitivity of apamin-sensitive K+ current (I KAS, mediated by apamin-sensitive small conductance calcium-activated potassium channels subunits) to intracellular Ca2+ is increased in heart failure (HF), leading to I KAS upregulation, action potential duration shortening, early after depolarization, and recurrent spontaneous ventricular fibrillation. We hypothesized that casein kinase 2 (CK2) interacted with small conductance calcium-activated potassium channels (SK) is decreased in HF, and protein phosphatase 2A (PP2A) is increased on the opposite, upregulating the sensitivity of I KAS to intracellular Ca2+ in HF. Rat model of volume-overload HF was established by an abdominal arteriovenous fistula procedure. The expression of SK channels, PP2A and CK2 was detected by Western blot analysis. Interaction and colocalization of CK2 with SK channel were detected by co-immunoprecipitation analysis and double immunofluorescence staining. In HF rat left ventricle, SK3 was increased by 100 % (P < 0.05), and SK2 was not significantly changed. PP2A protein was increased by 94.7 % in HF rats (P < 0.05), whereas the level of CK2 was almost unchanged. We found that CK2 colocalized with SK2 and SK3 in rat left ventricle. With anti-CK2α antibody, SK2 and SK3 were immunoprecipitated, the level of precipitated SK2 decreased by half, whereas precipitated SK3 was almost unchanged. In conclusion, the increased expression of total PP2A and decreased interaction of CK2 with SK2 may underlie enhanced sensitivity of I KAS to intracellular Ca2+ in volume-overload HF rat.  相似文献   

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A chimeric Bacillus thuringiensis toxin (Bt) gene, cry2AX1was cloned in a bi-selectable marker free binary vector construct. The cry2AX1 gene, driven by the Chrysanthemum rbcS1 promoter, was introduced into JK1044R, the restorer line (Oryza sativa L. ssp. Indica) of a notified commercially grown rice hybrid in India, by Agrobacterium-mediated transformation. Its effect against two major lepidopteran insect pests viz., yellow stem borer (YSB) Scirpophaga incertulas, rice leaf folder (RLF) Cnaphalocrocis medinalis and one minor insect pest, oriental army worm (OAW) Mythimna separata was demonstrated through bioassays of transgenic rice plants under laboratory and greenhouse conditions. The rbcS1 promoter with chloroplast signal peptide was used to avoid Cry2AX1 protein expression in rice seed endosperm tissue. A total of 37 independent transformants were generated, of which after preliminary molecular characterization and YSB bioassay screening, five events were selected for their protein expression and bioefficacy against all three rice insect. One elite transgenic rice line, BtE15, was identified with Cry2AX1 expression ranging from 0.68 to 1.34 µg g?1 leaf fresh weight and with 80–92 % levels of resistance against rice pests at the vegetative and reproductive stages. Increase in Cry2AX1 protein concentration was also observed with crop maturity. The Cry2AX1protein concentration in the de-husked seeds was negligible (as low as 2.7–3.6 ng g?1). These results indicate the potential application of cry2AX1 gene in rice for protection against YSB, RLF and OAW.  相似文献   

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An ethylene receptor gene named BoERS1 was cloned from a bamboo (Bambusa oldhamii) cDNA library. The open reading frame of BoERS1 was 1,899 bp and encoded a 632-amino acid protein, which contains the five conserved motifs (H, N, G1, F, and G2 boxes) of the bacterial two-component system histidine kinases and shows high sequence similarity with other ethylene receptors in plants, such as rice and maize. Expression of BoERS1 in bamboo shoots increased with the growth of the emerging shoots. In an in vitro kinase assay, the expressed histidine kinase domain of BoERS1 (BHK) was phosphorylated in the presence of Mn2+, and LC-ESI-MS/MS analysis showed that four amino acids, namely T442, S444, S489, and S503, were phosphorylated. It is interesting to note that S489 and S503 are located in a loop region (L1) that is found only in plant histidine kinase-containing enzymes. The identification of multiple phosphorylation sites on BoERS1 provides a new avenue for future structure–function studies of the ethylene receptor protein family.  相似文献   

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Mus musculus centrin 1 (MmCen1) is located at the cilium of photoreceptor cells connecting the outer segment through signal transduction components to the metabolically active inner segment. In the cilium, MmCen1 is involved in the translocation of transducin between compartments as a result of photoreceptor activation. In this study, we report the crystal structure of wild-type MmCen1 and its Ca2+-binding properties using structure-based mutagenesis. The crystal structure exhibits three structural features, i.e. four Ca2+ equally occupied at each EF-hand motif, structural changes accompanying helix motion at the N- and C-lobes, and adoption of N–C type dimerization when Ca2+ binds to EF-hand I and II in the N-lobe. The presence of MmCen1 dimers was confirmed in solution by native PAGE. Isothermal titration calorimetry data showed sequential binding of Ca2+ at four independent sites. Mutations S45A and D49A in EF-hand I alone disrupted the Ca2+-binding property of the wild-type protein. Based on the crystal structure of MmCen1, we suggest that a dimerization mode between the N- and C-lobes may be required by Ca2+ binding at the N-lobe.  相似文献   

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Reactive oxygen species (ROS) and calcium (Ca2+), two crucial intracellular signaling molecules, have been reported to play important roles in chlorophyll biosynthesis. In this study, we aimed to investigate whether disturbance of chlorophyll synthesis affects chloroplast ROS and Ca2+ homeostases. Chlorophyll biosynthesis was inhibited at the Mg branch by virus-induced gene silencing (VIGS) of CHLI gene encoding the Mg chelatase CHLI subunit in pea (Pisum sativum). Subsequently, ROS and intracellular free Ca2+ concentration ([Ca2+]i) in these chlorophyll-deficient pea plants were evaluated by histochemical and fluorescent staining assays. The results showed that the superoxide anion and hydrogen peroxide were predominantly generated in chloroplasts of the yellow leaves of pea VIGS-CHLI plants. The expression of genes encoding chloroplast antioxidant enzymes (CuZn-superoxide dismutase, ascorbate peroxidase, glutathione reductase, phospholipid glutathione peroxidase, peroxiredoxin and thioredoxins) were also decreased in the leaves of VIGS-CHLI plants compared with the control plants. Additionally, the [Ca2+]i were significantly reduced in the yellow leaves of VIGS-CHLI plants compared with the green leaves of VIGS-GFP control plants. The expression of genes encoding Ca2+ signaling related proteins (thylakoid Ca2+ transporter, calmodulins and calcineurin B-like protein) was down-regulated in yellow VIGS-CHLI leaves. These results indicate that inhibition of chlorophyll biosynthesis at the Mg branch by silencing CHLI affects chloroplast ROS homeostasis and Ca2+ signaling and down-regulates the expression of ROS scavenging genes and Ca2+ signaling related genes.  相似文献   

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