共查询到19条相似文献,搜索用时 215 毫秒
1.
精氨酸代谢途径抗酸关键基因对乳酸乳球菌Lactococcus lactis NZ9000胁迫抗性的影响 总被引:2,自引:0,他引:2
【目的】寻找精氨酸代谢途径中与酸胁迫相关的关键作用因素。【方法】通过在Lactococcus lactis NZ9000中分别过量表达来源于Lactobacillus casei Zhang的精氨酰琥珀酸合成酶(ASS)和精氨酰琥珀酸裂解酶(ASL)改变精氨酸代谢提高酸胁迫抗性。【结果】与对照菌株对比,重组菌株在环境胁迫下表现了较高的生长性能、存活率和发酵性能。生理学分析发现,酸胁迫环境下,重组菌株细胞有较高的胞内NH4+、ATP含量和H+-ATPase活性,并显著提高了精氨酸脱亚胺酶(ADI)途径中的氨基酸浓度。进一步的转录分析发现,天冬氨酸合成、精氨酸代谢相关的基因转录水平上调。【结论】在L.lactis NZ9000中过量表达ASS或ASL可以引发精氨酸代谢流量的上调,进而提高了细胞的多种胁迫抗性。精氨酸合成途径广泛存在于多种微生物中,为微生物,尤其是工业微生物提高胁迫抗性提供了新思路。 相似文献
2.
【目的】研究酿酒酵母(Saccharomycesc erevisiae)中乙酰辅酶A合成酶基因ACS1和ACS2的生理作用。【方法】将来源于S.cerevisiae的ACS1和ACS2分别进行过量表达,研究过量表达ACS1和ACS2后S.cerevisiae胞内乙酰辅酶A含量、ATP水平、甲羟戊酸途径转录和乙醇耐受性等生理学特性变化。【结果】与出发菌株相比,过量表达ACS1和ACS2使得:(1)胞内乙酰辅酶A含量提高了2.19倍(ACS1)和5.02倍(ACS2);(2)胞内ATP含量提高了3.93倍(ACS1)和2.05倍(ACS2);(3)甲羟戊酸途径8个关键基因表达量显著上调;(4)S.cerevisiae对乙醇胁迫抵御能力显著增强。过量表达ACS1对乙醇胁迫的耐受能力强于过量表达ACS2。【结论】增加胞内乙酰辅酶A的含量可以显著增加甲羟戊酸途径碳代谢流量,并增强S.cerevisiae对发酵过程主要副产物乙醇的耐受能力。 相似文献
3.
【目的】谷氨酸棒杆菌是工业生产氨基酸的主要菌株,以缬氨酸高产菌株谷氨酸棒杆菌V1为研究对象,探讨磷酸烯醇式丙酮酸羧化酶(PEPC)和磷酸烯醇式丙酮酸羧激酶(PCK)介导的草酰乙酸回补途径对菌株生理特性以及主要氨基酸代谢流量的影响。【方法】通过基因工程手段,在谷氨酸棒杆菌V1中过表达pepc(编码PEPC)和pck(编码PCK),比较重组菌与出发菌关键酶活性、发酵特性以及主要氨基酸积累量变化。【结果】构建两株重组菌V1-pepc(强化草酰乙酸回补途径)和V1-pck(弱化草酰乙酸回补途径),重组菌生长均较出发菌延缓,总生物量、葡萄糖和硫酸铵消耗基本不变;过表达pck,PCK活性提高22.8%,丙氨酸、缬氨酸、谷氨酸、精氨酸积累量分别提高了11.8%、17.2%、27.8%和19.5%;过表达pepc,PEPC活性提高27.5%,同时PC活性降低12.9%,天冬氨酸族和谷氨酸族氨基酸的整体流量变化不大,丙氨酸族氨基酸的整体流量降低了14.7%。【结论】丙氨酸族氨基酸受此回补途径影响较大,天冬氨酸族氨基酸受此影响较小。 相似文献
4.
【目的】探究外源添加不同氨基酸和相容性溶质对谷氨酸棒杆菌(Corynebacterium glutamicum)在高糖胁迫环境下生长的影响及可能的作用机理。【方法】通过在培养基中外源添加各种氨基酸和相容性溶质,研究其对谷氨酸棒杆菌在高葡萄糖和高蔗糖胁迫下生长的影响,并分析添加精氨酸对高葡萄糖胁迫下菌株糖转运和代谢途径中关键酶转录水平的影响,以及对菌株发酵产氨基酸的影响。进一步探究了碱性氨基酸在其它棒状杆菌属中抵御高葡萄糖胁迫的潜在作用。【结果】在高葡萄糖胁迫条件下,外源添加赖氨酸、精氨酸和组氨酸后谷氨酸棒杆菌的生物量分别提高54.7%、50.0%和37.6%;而在高蔗糖胁迫条件下,添加脯氨酸和四氢嘧啶后菌株生物量增加20%以上。进一步研究表明,在高葡萄糖胁迫下,外源添加精氨酸后谷氨酸棒杆菌的葡萄糖利用速率提高约2.5倍,谷氨酸的发酵产量也增加了127.5%。此外,碱性氨基酸对其它4种棒状杆菌也具有一定的渗透保护效应。【结论】精氨酸对谷氨酸棒杆菌在高葡萄糖胁迫下具有良好的渗透保护作用,可能归因于其能促进葡萄糖的转运和代谢能力,同时发现碱性氨基酸的渗透保护效应对棒状杆菌属具有一定的普遍性。 相似文献
5.
【目的】蒙古黄芪是黄芪药材的重要基原植物,其主要种植地内蒙古、山西、甘肃等地均属于干旱半干旱地区,不定期的间歇式降雨造成了植物干旱复水循环。研究黄芪在干旱及复水过程中代谢产物的变化特征对于了解其响应自然间歇降雨的干旱胁迫机制非常关键。【方法】试验以一年生蒙古黄芪种苗为材料,进行反复干旱胁迫及复水处理后,测定盆栽土壤养分及其根长、根粗,采用基于NMR的代谢组学技术分析蒙古黄芪的初生差异代谢物,并进行差异代谢物筛选及代谢通路分析;采用亚硝酸钠-硝酸铝-氢氧化钠法、香草醛-冰醋酸比色法和苯酚-硫酸比色法测定反复干旱胁迫处理下蒙古黄芪根中总黄酮、总皂苷及多糖物质含量。【结果】(1)蒙古黄芪在面临干旱胁迫时会呈现根粗减小,根长和须根密度增加的趋势;(2)干旱及复水处理下,代谢组共检测到42种代谢产物,主要是氨基酸及其衍生物、有机酸、胺类及氨类化合物和糖类等;代谢通路分析发现,植株在反复干旱胁迫过程中主要会影响体内的氨基酸代谢途径,通过增加天冬氨酸、丙氨酸、谷氨酸、脯氨酸及精氨酸的含量,降低天冬酰胺、色氨酸和4-氨基丁酸和含量来增强自身抗旱性,具体表现为丙氨酸、谷氨酸、脯氨酸等代谢物增加1~3倍,色氨酸和4-氨基丁酸等代谢物下降约1~2倍。(3)在第1轮干旱胁迫下黄芪总皂苷积累,而第2轮干旱胁迫后黄芪皂苷、总黄酮类、多糖3种活性物质的生成量减少,均呈现下降趋势。【结论】氨基酸及其衍生物类与蒙古黄芪响应水分胁迫的机制密切相关,同时植株本身也会调节自身的次生代谢产物以响应环境变化。 相似文献
6.
【目的】通过琥珀酸放线杆菌Actinobacillus succinogenes CGMCC1593对酸胁迫的生理应答和转录组学分析,探究琥珀酸放线杆菌酸胁迫的机制。【方法】测定不同pH对细胞生长、H+-ATPase、细胞内pH的影响;测定酸胁迫前后细胞膜和谷氨酸脱氢酶的变化、谷氨酸对琥珀酸放线杆菌生长的影响;通过RNA-seq测序分析酸胁迫条件下的差异表达基因。【结果】随pH值的降低,细胞生长受抑制,H+-ATPase的活性下降。pH 4.7酸胁迫后,细胞膜受到严重损伤,谷氨酸对酸胁迫后的细胞有保护作用,GDH酶活响应酸胁迫后略有增加。酸胁迫后,39个基因差异表达较为显著,其中49%基因属于应激蛋白、转运蛋白,小部分基因与代谢相关。【结论】本文探究了琥珀酸放线杆菌酸胁迫下的生理及转录应答,研究结果可为寻找增强琥珀酸放线杆菌耐酸性策略提供参考。 相似文献
7.
巴氏醋杆菌高酸度醋发酵过程的能量代谢分析 总被引:2,自引:0,他引:2
【目的】初步分析了Acetobacter pasteurianus CICIM B7003-02在醋酸发酵过程中的能量代谢状况, 通过强化细胞能量代谢水平以提升菌株高酸发酵的产酸强度。【方法】探明A. pasteurianus CICIM B7003-02在高酸度醋发酵的不同阶段中三羧酸循环底物含量、乙醇呼吸链酶活及能量代谢酶基因的转录水平等代谢特点, 分析用于醋酸发酵的产能代谢途径及其作用。【结果】发现A. pasteurianus CICIM B7003-02在醋酸发酵初期, 主要通过苹果酸/琥珀酸回补偶联有氧呼吸途径产能。进入醋酸快速积累阶段, 乙醇呼吸链为主要供能代谢途径。发酵后期苹果酸/琥珀酸回补途径配合乙醇呼吸链供能。基于上述研究, 采取添加琥珀酸和苹果酸强化细胞产能, 促进高酸度醋发酵强度。【结论】能量供给影响醋杆菌耐酸能力和醋酸生产能力。确定乙醇呼吸链为醋酸发酵的主要供能系统。强化细胞产能手段可达到提高醋酸发酵强度的目的。 相似文献
8.
以EMP途径与TCA循环中间代谢物的添加为对照,研究在尿素为氮源的产甘油假丝酵母发酵过程中添加氨基酸对甘油产量的影响。结果表明:对甘油产量有强促进作用的氨基酸有谷氨酸、谷氨酰胺、天冬氨酸、天冬酰胺、甘氨酸、赖氨酸、酪氨酸、脯氨酸、组氨酸和丝氨酸,其最适添加浓度在0.26~0.45g/L之间,丙酮酸、α_酮戊二酸、草酰乙酸、柠檬酸和琥珀酸的最适添加浓度在0.24~0.42g/L之间;赖氨酸最适于在0h添加,丙酮酸和草酰乙酸在第14h,谷氨酸、谷氨酰胺、组氨酸、脯氨酸、天冬氨酸、酪氨酸、甘氨酸、α_酮戊二酸和琥珀酸在第30h,天冬酰胺、丝氨酸和柠檬酸在第48h;在最适条件下添加这些促进剂,甘油产量均呈显著增加趋势,转化率和增加率分别达到60%和16%以上。氨基酸的作用机理为其脱氨形成的碳骨架经特定的分解代谢途径进入TCA循环,使其强化,导致碳代谢流在3_磷酸甘油醛节点处发生转移,使甘油合成途径的代谢流增加。 相似文献
9.
不同溶氧对谷氨酸棒杆菌代谢的影响 总被引:1,自引:0,他引:1
【目的】以谷氨酸棒杆菌为研究对象,分别控制在0、30%、50%3种溶氧水平下进行发酵,分析不同溶氧水平下代谢的变化。【方法】通过检测发酵代谢物中有机酸、氨基酸的含量,以及测定代谢途径中关键酶活性及其编码基因的表达情况来考察不同溶氧水平下物质代谢发生的变化。通过检测胞内还原力和ATP的含量来分析不同溶氧水平对能量代谢产生的影响。【结果】谷氨酸棒杆菌代谢支路受溶氧的影响而发生改变,氨基酸、有机酸的产量也随之改变。特别是在低溶氧(0)情况下,细胞内氧化磷酸化减弱,导致维持生命活动所必需的ATP供应减少,因此细胞通过增强底物水平磷酸化来产生ATP以满足生命活动的需求。在此情况下,胞内NADH得到较多积累,TCA循环代谢流量减小,而转向糖酵解、乙醛酸循环等,并且这个过程伴随多种杂酸包括乳酸、缬氨酸、亮氨酸等的产生,必将影响目的产物的产量。【结论】研究结果对于进一步采取措施优化溶氧的控制策略,提高目的产物的产量具有指导意义。 相似文献
10.
【背景】大肠杆菌(Escherichia coli)以谷氨酸为前体经C5途径合成有限的血红素。【目的】探究胞内谷氨酸代谢及谷氨酰-tRNA还原酶基因(hem A)过表达对5-氨基乙酰丙酸(5-Aminolevulinic Acid,ALA)和血红素合成的影响。【方法】通过Red同源重组敲除与谷氨酸代谢有关的mscS与aroG,构建hemA表达载体并导入基因缺失菌株中。【结果】mscS单敲除或mscS与aroG双敲除对菌体生长无显著影响。与出发菌株相比,单敲除与双敲除菌株的谷氨酸含量均有所增加,ALA含量略微下降,血红素含量分别增加了11.6%和35.7%。在双敲除菌株中进一步过表达hemA后,胞内血红素含量增至47.603μmol/L。【结论】通过调控谷氨酸代谢流量与过表达hemA可促进血红素的合成,该结果为增强C5途径的血红素合成提供了新的思路。 相似文献
11.
Zhang J Fu RY Hugenholtz J Li Y Chen J 《Applied and environmental microbiology》2007,73(16):5268-5275
Previously we showed that glutathione (GSH) can protect Lactococcus lactis against oxidative stress (Y. Li et al., Appl. Environ. Microbiol. 69:5739-5745, 2003). In the present study, we show that the GSH imported by L. lactis subsp. cremoris SK11 or produced by engineered L. lactis subsp. cremoris NZ9000 can protect both strains against a long-term mild acid challenge (pH 4.0) and a short-term severe acid challenge (pH 2.5). This shows for the first time that GSH can protect a gram-positive bacterium against acid stress. During acid challenge, strain SK11 containing imported GSH and strain NZ9000 containing self-produced GSH exhibited significantly higher intracellular pHs than the control. Furthermore, strain SK11 containing imported GSH had a significantly higher activity of glyceraldehyde-3-phosphate dehydrogenase than the control. These results suggest that the acid stress resistance of starter culture can be improved by selecting L. lactis strains capable of producing or importing GSH. 相似文献
12.
为研究谷胱甘肽(GSH)在乳酸乳球菌NZ9000抗氧胁迫中的生理作用,以能够生物合成GSH的重组菌NZ9000(pNZ3203)为实验菌株进行了研究。结果表明,在较高H2O2胁迫剂量(150mmol/L H2O2,15min)下,前培养3h、5h和7h(即乳酸链球菌素诱导1h、3h和5h)时的重组菌细胞的存活率分别是处于相应生长时期对照菌NZ9000(pNZ8148)的1.8±0.1倍、2.6±0.1倍和2.9±0.3倍。表明GSH可以提高宿主菌NZ9000对H2O2所引发氧胁迫的抗性。GSH还可以提高宿主菌NZ9000对其它化学物质(如超氧阴离子自由基生成剂———甲萘醌)所引发氧胁迫的抗性。这表现在经20mmol/L甲萘醌处理60min后,前培养5h(即乳酸链球菌素诱导3h)时重组菌细胞的存活率是对照菌的6.2±0.1倍。由此表明,通过代谢工程手段在菌株NZ9000中引入GSH合成能力,可以提高宿主菌对氧胁迫的抗性。 相似文献
13.
Degradative amino acid decarboxylation pathways in bacteria generate secondary metabolic energy and provide resistance against acid stress. The histidine decarboxylation pathway of Streptococcus thermophilus CHCC1524 was functionally expressed in the heterologous host Lactococcus lactis NZ9000, and the benefits of the newly acquired pathway for the host were analyzed. During growth in M17 medium in the pH range of 5-6.5, a small positive effect was observed on the biomass yield in batch culture, whereas no growth rate enhancement was evident. In contrast, a strong benefit for the engineered L. lactis strain was observed in acid stress survival. In the presence of histidine, the pathway enabled cells to survive at pH values as low as 3 for at least 2 h, conditions under which the host cells were rapidly dying. The flux through the histidine decarboxylation pathway in cells grown at physiological pH was under strict control of the electrochemical proton gradient (pmf) across the membrane. Ionophores that dissipated the membrane potential (ΔΨ) and/or the pH gradient (ΔpH) strongly increased the flux, whereas the presence of glucose almost completely inhibited the flux. Control of the pmf over the flux was exerted by both ΔΨ and ΔpH and was distributed over the transporter HdcP and the decarboxylase HdcA. The control allowed for a synergistic effect between the histidine decarboxylation and glycolytic pathways in acid stress survival. In a narrow pH range around 2.5 the synergism resulted in a 10-fold higher survival rate. 相似文献
14.
Fu RY Bongers RS van Swam II Chen J Molenaar D Kleerebezem M Hugenholtz J Li Y 《Metabolic engineering》2006,8(6):662-671
This study describes how a metabolic engineering approach can be used to improve bacterial stress resistance. Some Lactococcus lactis strains are capable of taking up glutathione, and the imported glutathione protects this organism against H(2)O(2)-induced oxidative stress. L. lactis subsp. cremoris NZ9000, a model organism of this species that is widely used in the study of metabolic engineering, can neither synthesize nor take up glutathione. The study described here aimed to improve the oxidative-stress resistance of strain NZ9000 by introducing a glutathione biosynthetic capability. We show that the glutathione produced by strain NZ9000 conferred stronger resistance on the host following exposure to H(2)O(2) (150 mM) and a superoxide generator, menadione (30 microM). To explore whether glutathione can complement the existing oxidative-stress defense systems, we constructed a superoxide dismutase deficient mutant of strain NZ9000, designated as NZ4504, which is more sensitive to oxidative stress, and introduced the glutathione biosynthetic capability into this strain. Glutathione produced by strain NZ4504(pNZ3203) significantly shortens the lag phase of the host when grown aerobically, especially in the presence of menadione. In addition, cells of NZ4504(pNZ3203) capable of producing glutathione restored the resistance of the host to H(2)O(2)-induced oxidative stress, back to the wild-type level. We conclude that the resistance of L. lactis subsp. cremoris NZ9000 to oxidative stress can be increased in engineered cells with glutathione producing capability. 相似文献
15.
A subconvulsant dose of sodium fluoroacetate inhibited the metabolic utilization of intracerebrally-administered N-acetyl-l -[U-14C]asparticacid and the labelling of glutamine from this precursor in mouse brain, but not the labelling of glutamate or aspartate. A convulsant dose also inhibited the utilization of l -[U-14C]aspartic acid. When intraperitoneal injection of a convulsant dose of sodium fluoroacetate was followed by intracerebral injection of N-acetyl-l -[U-14C]asparticacid, the levels of N-acetylaspartate, aspartate and glutamate in brain were lowered, while the glutamine content was increased. The specific radioactivity of glutamine relative to that of glutamate was much lower when these compounds were labelled from l -[U-14C]aspartic acid than when N-acetyl-l -[U-14C]aspartic acid was used as the precursor. Intracerebral injection of tracer amounts of l -[U-14C]aspartic acid reduced the content of N-acetylaspartate in brain and raised the glutamine content. Sodium fluoroacetate had no additional effect on the relative specific radioactivity of glutamine or the content of N-acetylaspartate, aspartate, glutamate or glutamine when l -[U-14C]aspartic acid was the precursor. We consider the results to be consistent with a selective inhibition both by sodium fluoroacetate and by exogenous aspartic acid of the tricarboxylic acid cycle in brain associated with the biosynthesis of glutamine. We suggest that the activity of this pathway may regulate the metabolism of N-acetylaspartate and aspartate. 相似文献
16.
17.
乳酸乳球菌食品级诱导表达系统的构建及异源蛋白的表达 总被引:2,自引:0,他引:2
以α-aga基因为食品级选择标记构建了乳酸乳球菌食品级高效诱导细胞内和细胞壁锚定表达系统,并用这一表达系统表达了铜绿假单胞菌融合外膜蛋白基因OprF/H。首先以pRAF800和pNZ8048构建了含有α-aga、PnisA-MCS-TpepN和θ复制子的乳酸乳球菌食品级细胞内诱导表达载体pRNA48,再以pRNA48和pVE5524为出发载体构建了含有α-aga、PnisA-SPUsp45-nucA-CWAM6-t1t2和θ复制子的乳酸乳球菌细胞壁锚定诱导表达载体pRNV48。然后以食品级载体pRNA48和pRNV48为基础,构建了不含抗生素抗性选择标记的铜绿假单胞菌融合外膜蛋白基因的表达质粒pRNA48-OprF/H和pRNV48-OprF/H。利用nisin进行重组乳酸乳球菌菌株的诱导表达,通过SDS-PAGE和Western blot分析,检测到表达蛋白分别占细胞内可溶蛋白的9.6%和细胞壁锚定蛋白的9.8%,表达产物具有免疫原性,可与含OprF/H的乳球菌以及铜绿假单胞菌发生特异性的凝集反应。 相似文献
18.
在乳酸乳球菌中表达外源谷氨酰胺转胺酶显著改善宿主菌好氧生长性能 总被引:1,自引:0,他引:1
为改善乳酸乳球菌的生长性能,以轮枝链霉菌染色体DNA为模板,扩增得到编码谷氨酰胺转胺酶成熟酶的基因mtg,将其克隆到质粒pNZ8148中,电转化乳酸乳球菌NZ9000,获得乳酸乳球菌NZ9000(pFL001)(重组菌)。在不控制pH条件下,重组菌的胞外pH显著高于对照菌NZ9000(pNZ8148);前者的最高生物量可达4.13gL,而后者只有0.34gL。在控制pH为6.5±0.1的条件下,重组菌最高生物量为4.73gL,对葡萄糖的菌体最高平均得率为71.1gmol,而相同条件下对照菌最高生物量为2.6gL,对葡萄糖的菌体最高平均得率为27.3gmol。由此表明,重组菌与对照菌相比,好氧生长性能得到显著改善。可能的原因是mtg的活性表达升高了重组菌的胞内pH,原先用于泵出胞内H 所需的部分能量可能因此得到节省,这样相应增加了用于细胞生长的能量。 相似文献
19.
Juan Zhang Rui-Yan Fu Jeroen Hugenholtz Yin Li Jian Chen 《Applied microbiology》2007,73(16):5268-5275
Previously we showed that glutathione (GSH) can protect Lactococcus lactis against oxidative stress (Y. Li et al., Appl. Environ. Microbiol. 69:5739-5745, 2003). In the present study, we show that the GSH imported by L. lactis subsp. cremoris SK11 or produced by engineered L. lactis subsp. cremoris NZ9000 can protect both strains against a long-term mild acid challenge (pH 4.0) and a short-term severe acid challenge (pH 2.5). This shows for the first time that GSH can protect a gram-positive bacterium against acid stress. During acid challenge, strain SK11 containing imported GSH and strain NZ9000 containing self-produced GSH exhibited significantly higher intracellular pHs than the control. Furthermore, strain SK11 containing imported GSH had a significantly higher activity of glyceraldehyde-3-phosphate dehydrogenase than the control. These results suggest that the acid stress resistance of starter culture can be improved by selecting L. lactis strains capable of producing or importing GSH. 相似文献