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1.
利用枯草杆菌的分泌系统构建分泌型表达载体表达和分泌外源基因产物具有重要的商业价值。我们用鸟枪法克枯草杆菌染色体的启动子和信号肽序列。将克隆的序列连接到能在枯草杆菌中复制的质粒pUB18上,获得分泌型表达载体pUS186。为了测试构建的载体pUS186的功能,将地衣杆菌α-淀粉酶基因的缺失了启动子和信号肽序列的片段重组进该质粒,经过Bal 31酶切,T4 DNA聚合酶补齐等处理,获得pUSA186I 相似文献
2.
枯草杆菌启动子—信号肽序列的克隆及序列分析 总被引:1,自引:1,他引:0
利用含红霉素抗生基因和缺启动子-信号肽序列的氨苄青霉素抗性基因的双功能质粒pGPB14为探针载体,克隆了枯草杆菌的启动子-信号肽序列并对克隆的片段进行序列分析。枯草杆菌染色体DNA经Sau3A酶解后与BanHI酶切的质粒pGPB14连接,转化大肠杆菌C600,筛选抗氨苄青霉素及抗红霉素的转化子,从双抗性转化子中提取重组质粒并经酶切分析,显示克隆的DNA片段在0.27-1.5kb之间。用Sanger 相似文献
3.
枯草杆菌启动子-信号肽序列的克隆及序列分析 总被引:1,自引:1,他引:0
利用含红霉素抗性基因和缺启动子-信号肽序列的氨苄青霉素抗性基因的双功能质粒pGPB14为探针载体,克隆了枯草杆菌的启动子-信号肽序列并对克隆的片段进行序列分析。枯草杆菌染色体DNA经Sau3A酶解后与BomHI酶切的质粒pGPB14连接,转化大肠杆菌C600,筛选抗氨苄青霉素及抗红霉素的转化子,从双抗性转化子中提取重组质粒并经酶切分析,显示克隆的DNA片段在0.27-1.5kb之间。用Sanger的双脱氧链终止法测定了10个克隆片段的DNA顺序,结果表明,克隆的片段都含有启动子、核糖体结合优点及信号肽序列。克隆片段可以在大肠杆菌和枯草杆菌中恢复氨苄青霉素抗性的表型。β-内酰胺酶活力测定结果证明:大肠杆菌的酶活力主要积累在周质空间内而枯草杆菌的酶活力主要分泌到胞外。 相似文献
4.
E.coli分泌表达载体的构建和人表皮生长因子在E.coli中的分泌… 总被引:2,自引:0,他引:2
采用PCR技术从E.coli基因组片中克隆出碱性磷酸酯酶的启动子和信号肽序列,在PhoA启动子5端设计了EcoRⅠ酶位点,在信号肽编码序列3端设计了HindⅢ酶切位点,将PCR产物酶切后EcoRⅠ-HindⅢ片段克隆至pBR322的EcoRⅠ-HindⅢ倍点,组构出含有PhoA启动子和信号肽序列的分泌表达载体pBM-Pho-,之后将人表皮生长因子的成熟肽基因克隆至该载体,使之有E.coli中获得分 相似文献
5.
采用PCR技术从E.coli基因组片段中克隆出碱性磷酸酯酶(PhoA)的启动子和信号肽序列.在PhoA启动予5'端设计了EcoRⅠ酶切位点,在信号肽编码序列3'端设计了HindⅢ酶切位点.将PCR产物酶切后EcoRⅠ-HindⅢ片段克隆至pBR322的EcoRⅠ-HindⅢ位点,组构出含有PhoA启动子和信号肽序列的分泌表达载体pBM-Pho-1.之后将人表皮生长因子的成熟肽基因克隆至该载体,使之在E.coli中获得分泌表达,另采用pINⅢ载体系统以分泌方式表达了人表皮生长因子。 相似文献
6.
利用枯草杆菌碱性蛋白酶E基因的信号顺序构建分泌表达载体 总被引:7,自引:0,他引:7
本文利用枯草杆菌碱性蛋白酶基因E(aprE),对建立枯草杆菌分泌表达的载体-宿主系统作了探讨。首先用大肠杆菌-枯草杆菌穿梭的启动子克隆质粒pGKV210对aprE的启动子功能进行检测,发现用E.coli作为研究aprE表达信号的“中间宿主”是可行的;然后在穿梭质coli作为研究,aprE表达信号的“中间宿主”是可行的;然后在穿梭质粒,进而构建了基于aprE启动子和信号顺序的分泌表达载体pSP1和p 相似文献
7.
双功能枯草杆菌诱导型高效表达分泌载体的构建与鉴定 总被引:1,自引:0,他引:1
利用大肠杆菌质粒pSP72和枯草杆菌质粒pUB18共整合得到双功能克隆载体pSB。在pSB多克隆位点依次引入枯草杆菌果聚糖蔗糖酶基因启动子-信号肽序列sacBp.s.、地衣芽孢杆菌淀粉酶基因终止子序列α-amyT和短小芽孢杆菌增强子基因degQ,最终构建了双功能枯草杆菌诱导型高效表达分泌载体pSBPTQ。将VasostatinⅠ基因作为靶基因检测sacBp.s.、α-amyT和degQ在pSBPTQ进行外源基因表达时的功能,结果表明,在蔗糖诱导下,sacB启动子有效启动了Vasostatin I基因的表达和分泌,α-amy T提高了VasostatinⅠ基因的转录效率,而degQ明显增强了VasostatinⅠ基因的表达水平。VasostatinⅠ基因在蔗糖诱导下成功表达并分泌到枯草杆菌细胞外,蛋白质分泌效率达到90%左右。质粒稳定性试验结果表明,经过40个世代之后,质粒pSBPTQ在枯草杆菌DB1342中仍旧保持在83%以上。 相似文献
8.
美洲鲽抗冻蛋白基因的亚克隆及构建转基因鱼的表达载体 总被引:1,自引:0,他引:1
用限制性内切酶Pst I部分消解含有美洲鲽抗冻蛋白基因的pCT5质粒,分离得到324bp的片段,将此片段亚克隆到pUC19质粒中,筛选到pUC-AF重组子。从pUC-AF重组子中,用BamHI和HirdⅢ切下324bp的抗冻蛋白基因,再重组到含有SV40病毒启动子的pKSV-10的载体中,构建成转基因鱼的表达载体,此表达载何可用于鱼的基因转移的研究。 相似文献
9.
抗菌肽ABP3基因的克隆及其在Pichia pastoris中的表达 总被引:7,自引:0,他引:7
用化学合成法合成以植物偏爱密码子编码的新抗菌肽ABP3基因片段,合成片段拼接后,与pUC19重组,经限制酶片段分析与核苷酸序列分析,获得抗菌肽ABP3基因。ABP3基因与表达载体pBIC9重组,构建受乙醇氧化酶1基因(AOX1)的启动子与转录终止区控制的酵母表达质粒,转化GS115宿主菌,经表型筛选,阳性克隆用甲醇诱导表达,重组ABP3以分泌型表达,具抗菌活性,且符合ABP3的抗菌特性。 相似文献
10.
将克隆的解淀粉芽胞杆菌强启动子经DNA序列分析后连接到能在枯草杆菌中复制的质粒pUB18上,构建枯草杆菌表达载体pUB23。为了测试构建的表达载体能否表达外源基因,将地衣杆菌抉失了启动子的α-淀粉酶基因接到pUB23上启动子的下游,组建重组质粒,转化枯草杆菌QB1130(amy~-),获得能分泌α-淀粉酶的转化株,证明缺失了启动子的结构基因在pUB23上克隆启动子的启动下获得表达。酶活力测定结果表明,表达水平是用原启动子时的2.5倍. 相似文献
11.
Secretion of phospholipase B from Saccharomyces cerevisiae 总被引:2,自引:0,他引:2
Phospholipase B and lysophospholipase activity is secreted from yeast cells (Saccharomyces cerevisiae) growing aerobically in batch cultures during the exponential phase. A glycoprotein with both activities running on SDS-polyacrylamide slab gels as a broad band between 200 000 and 280 000 Da was purified about 2500-fold by gel filtration, chromatofocusing and hydrophobic interaction chromatography with octyl-Sepharose. The secreted phospholipase has a slightly higher carbohydrate content of 41 mumol/mg protein compared to a form of the enzyme associated to the plasma membrane described in the previous communication (Witt, W., Schweingruber, M.E. and Mertsching, A. (1984) Biochim. Biophys. Acta 795, 108-116) and exerts very similar enzymatic properties. Fatty acids are set free from lysophosphatidylcholine with a 68-fold higher rate than from phosphatidylcholine with a concomitant generation of the corresponding diacyl compound. pH optima of 3.0 and 3.5 were determined with phosphatidylcholine and lysophosphatidylcholine, respectively. During the enzymatic degradation of the cell wall, high amounts of phospholipase activity were released, indicating that the enzyme is present in the periplasmatic space or associated to cell wall components. 相似文献
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Chondrocytes obtained from epiphyseal cartilage of fetal guinea pigs or ear cartilage of young rabbits were cultured in monolayer. The influence of colchicine, cytochalasin B, and p-nitrophenyl-β-d-xylopyranoside on secretion of proteoglycans was investigated. Radioactive sulfate was used as a precursor. As observed previously in other systems, β-d-xylosides initiated the synthesis of free chondroitin sulfate chains, competing with the endogenous proteoglycan core protein acceptor. The molecular weights of the chondroitin sulfate chains synthesized both on the xyloside and on the core-protein acceptor in maximally stimulated cells were similar and significantly lower than in proteoglycans synthesized in the absence of xyloside. The size of the chondroitin sulfate chains synthesized on the xyloside was inversely related to the concentration of this compound. This finding suggests that the chain length is dependent on the ratio between available acceptor and chain-lengthening enzymes or precursors. Cytochalasin B, a microfilament-modifying agent, inhibited proteoglycan synthesis, without any effect on secretion. Cells treated with cytochalasin B could be stimulated with β-d-xyloside to synthesize free chondroitin sulfate chains to the same relative degree as cells with intact microfilaments. Colchicine, an antimicrotubular agent, partially inhibited synthesis and secretion of proteoglycan. However, cells treated with colchicine could be stimulated with β-d-xyloside to synthesize and secrete free chondroitin sulfate chains to about the same relative degree as cells with intact microtubules. The data suggest that microtubules may have a facilitatory rather than an obligatory role in the secretion of proteoglycans and that at least part of the effect of colchicine is located at or after the site of glycosaminoglycan synthesis. 相似文献
13.
Hisashi Kato-Noguchi 《Plant signaling & behavior》2009,4(8):737-739
Nevertheless both plants are taxonomically quite distinct, momilactone A and B have been found only in rice and the moss, Hypnum plumaeforme which often forms large pure colonies. But biological meanings of momilactone A and B in H. plumaeforme is unknown. UV-irradiation induced a 15- and 16-fold increase in the secretion level of momilactone A and B, respectively, by H. plumaeforme into the growth medium. Jasmonic acid and the protein phosphatase inhibitor, cantharidin, also increased the momilactone A and B secretion levels by 12- to 15-fold. Cantharidin acts as an elicitor, jasmonic acid is an important signaling molecule regulating inducible defense genes against the pathogen infections. Therefore, elicitor and/or pathogen attacks may increase the secretion of momilactone A and B. As momilactone A and B are phytoalexic and allelopathic, the increasing secretion of momilactone A and B may be associated with the activation of the defense responses of H. plumaeforme in the rhizosphere where plants must compete with invading root systems of neighboring plants and prevent from bacteria and fungi infections. Momilactone A and B may be able to prevent H. plumaeforme from pathogen infections and help competition with neighboring plants resulting in the formation of pure colonies.Key words: defense mechanism, growth inhibitor, momilactone, musci, pathogen, phytoalexin, rhizosphereAlthough rice and the moss Hypnum plumaeforme Wils are taxonomically quite distinct, momilactone A and B have so far been found only in rice and H. plumaeforme.1–4 Momilactone A and B in rice plants are known to be synthesized as a part of defensive responses and exhibit antibacterial and antifungal activities.5–7 Rice plants were also found to secrete momilactone A and B from their roots into the rhizosphere and exhibit alleloapthic activities against weed plants.1,8–10 The plant rhizosphere is a densely populated area in which plant roots must compete with invading root systems of neighboring plants for space, water and mineral nutrients, and with other soil-bore organisms including bacteria and fungi.11–14 Therefore, momilactone A and B probably play an important role in rice defense mechanism in the rhizosphere as antimicrobial and allelopathic agents. However, it has not clear that biological meanings of momilactone A and B in H. plumaeforme. H. plumaeforme is often dominative in plant communities and forms large pure colonies.15,16H. plumaeforme was grown on MS growth medium and the concentrations of momilactone A and B in the medium were determined as the secretion levels of momilactone A and B from H. plumaeforme. The secretion levels of momilactone A and B were 4.0 and 6.3 µg g−1 dry weight of H. plumaeforme, respectively (4 Thus, the secretion levels of momilactone A and B, respectively, were 6.8 and 27% of momilactone A and B concentrations in H. plumaeforme. Therefore, although the endogenous concentration of momilactone A in H. plumaeforme was greater than that of momilactone B, the secretion level of momilactone B was much greater than that of momilactone A, which suggests that momilactone B may be selectively secreted into the medium than momilactone A. In addition, biological activity of momilactone B was much greater than that of momilactone A.10
Open in a separate windowH. plumaeforme was transplanted on MS growth medium and grown at 25°C with a 12-h photoperiod for 5 days as described previously.4 During the incubation, additional UV-irradiation (80 min par day, UV, emission peak 253 nm; 10 µmol m−1s−1 at plant level) was made. Momilactone A and B concentrations in the medium were then determined as the secretion levels by H. plumaeforme. For cantharidin- and jasmonic acid-treatments, H. plumaeforme was transplanted on MS growth medium containing 200 µM cantharidin or 100 µM jasmonic acid, and grown at 25°C with a 12-h photoperiod for 5 days. All manipulations were carried out under sterile conditions. Control plants were incubated MS growth medium for 5 days. Means ± SE from five independent experiments with five assays for each determination are shown.UV-irradiation (80 min-irradiation per day for 5 days, UV: emission peak 253 nm; 10 µmol m−1s−1 at plant level) increased the secretion levels of momilactone A and B by 15- and 16-fold, respectively (4Jasmonic acid and cantharidin increased the secretion of momilactone A and B by H. plumaeforme (4 Cantharidin is the protein serine/threonine phosphatase inhibitor, and has been shown to mimic elicitor action and activate defense responses of plants against pathogen attacks.17,18 Jasmonic acid is an important signaling molecule in plants for the activation of defense mechanisms in response to wounding, herbivores and pathogen attacks.19–21 Therefore, these results indicate that elicitor and/or pathogen attacks may also increase the production of momilactone A and B in H. plumaeforme and the secretion of momilactone A and B. In addition, the endogenous concentrations of momilactone A in jasmonic acid- and cantharidin-treated H. plumaeforme were greater than those of momilactone B, but the secretion levels of momilactone B was much greater than that of momilactone A.The ratio of momilactone A to momilactone B in control, UV-irradiated, and jasmonic acid-and cantharidin-treated H. plumaeforme was 2.5 (control), 2.4 (UV-irradiation), 2.3 (cantharidin-treatment) and 2.3 (jasmonic acid-treatment). Thus, UV-irradiation, and jasmonic acid- and cantharidin-treatments increased the endogenous concentrations of momilactone A and B but did not alter the momilactone A and B ratio, which suggest that the production of momilactone A and B in H. plumaeforme may be increased by these treatments due to the induction of the biosynthesis prior to the branch point of momilactone A and B biosynthetic pathway. It was found in rice that UV-irradiation increased induction of gene OsCyc1 encoding syn-copalyl diphosphate synthase which catalyzes the reaction from geranylgeranyl diphosphate to syn-copalyl diphosphate. This reaction is prior to the branch point of momilactone A and B biosynthesis (Otomo et al. 2004).22 In higher plants, UV-irradiation leads to the induction of a range of genes involved in pathogenesis-related proteins, and to the increase in jasmonic acid and/or salicylic acid levels.23 Therefore, the increases in momilactone A and B in H. plumaeforme by UV-irradiation might be caused by UV-induced increase of unknown jasmomic acid-like substances.The secretion level of momilactone B was 1.6- (control), 1.6- (UV irradiation), 1.7- (cantharidin-treatment) and 1.6-fold (jasmonic acid-treatment) greater than the respective secretion level of momilactone A (12,13 Through the root exudation of compounds, plants are able to regulate the soil microbial community in their immediate vicinity, change the chemical and physical properties of the soil, and inhibit the growth of competing plant species.11–14Momilactone A and B were reported to have antimicrobial activities6,7,22 and alleloapthic activities.1,8–10 Therefore, the increasing secretion of momilactone A and B may be associated with the activation of the defense responses of H. plumaeforme against pathogens and competitive neighboring plants. The secretion of momilactone A and B into the rhizosphere may provide a competitive advantage for H. plumaeforme to form pure colony through the prevention of bacteria and fungi infections and the growth inhibition of competitive plant species. However, the involvement of momilactone B for the defense mechanism may be greater than momilactone A because growth inhibitory activity and secretion level of momilactone B were grater than those of momilactone A. 相似文献
Table 1
Effects of UV-irradiation, cantharidin and jasmonic acid on the secretion of momilactone A and B from H. plumaeforme| Secretion level (µg g−1 dry weight of H. plumaeforme) | ||||
| Control | UV-radiation | Cantharidin | Jasmonic acid | |
| Momilactone A | 4.0 ± 0.2 | 61 ± 5.2 | 46 ± 3.4 | 59 ± 4.7 |
| Momilactone B | 6.3 ± 0.2 | 99 ± 7.2 | 74 ± 6.1 | 97 ± 6.9 |
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Synthesis and Secretion of Hypoxyproline-containing Macromolecules in Carrots: III. Metabolic Requirements for Secretion 
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下载免费PDF全文 Using pulse-chase experiments with radioactive proline, it is possible to study the rapid transfer from the cytoplasm to the cell wall of the hydroxyproline-rich protein found in the cell walls of higher plants. The secretion of this protein is not obligatorily coupled to protein synthesis. Secretion is completely inhibited by uncouplers of oxidative phosphorylation and strongly inhibited by the inhibitors of electron transport, cyanide and azide. It is concluded that the transfer of proteins from the cytoplasm to the cell wall is an energy-requiring step. 相似文献
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