提高光滑球拟酵母乙酰辅酶A水平促进α－酮戊二酸合成

[目的]为了了解光滑球拟酵母中乙酰辅酶A含量对其碳代谢及其通量的影响.[方法]将来源于酿酒酵母中编码乙酰辅酶A合成酶ACS2基因过量表达于发酵法生产丙酮酸的生产菌株Torulopsis glabrata中,获得了一株乙酰辅酶A合成酶活性提高9.2倍(1.20 U/mg protein)的重组菌T. glabrataACS2-1.[结果]与出发菌株WSH-IP303相比,重组菌T glabrataACS2-1:(1)能以乙酸为唯一碳源在胞内积累0.94 mmol/(L·g DCW)的L酰辅酶A;(2)以葡萄糖为唯一碳源时胞内乙酰辅A浓度、α-酮戊二酸产量和Cα-KG,Cpyr是出发菌株WSH-IP303的3.22、2.05和2.52倍;(3)在葡萄糖培养基中添加4 g/L 乙酸,使乙酰辅酶A浓度、α-酮戊二酸产量和CαKG>>/Cpyr是出发菌株WSH-IP303的4.55、2.47和3.75倍,α-酮戊二酸浓度达到17.8 g/L.[结论]这一结果表明,改变细胞内关键辅因子的浓度能使碳代谢流的流向与通量发生改变,从积累丙酮酸转向过量积累α-酮戊二酸.     

乙酰辅酶A合成代谢对酿酒酵母生理功能的影响

【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。     

乙酸渗漏型丙酮酸高产菌的选育

对Torulopsis glabrata WSH-IP303进行NTG诱变,挑选以乙酸为补充碳源的平板上透明圈较大的菌落,经初筛和复筛,发现T.glabrataWSH-LQ307生产丙酮酸能力强且稳定。以乙酸为补充碳源摇瓶培养48h,其丙酮酸产量（46.2g/L)比出发菌株（38.3g/L)提高21%,采用该菌株在5L发酵罐上进行4批发酵实验,丙酮酸产量在64h最高可达68.7g/L,对葡萄糖的转化率为0.651g/g。     

挖掘与调控乙酸胁迫响应基因提高重组酿酒酵母合成番茄红素水平

【背景】乙酰辅酶A是酿酒酵母异源合成番茄红素的重要中间产物,胞质中乙酰辅酶A主要来自乙酰辅酶A合成酶催化乙酸合成。【目的】通过外源添加乙酸盐结合调控乙酸胁迫应答基因增加胞内乙酰辅酶A含量,改善细胞生长,促进番茄红素合成。【方法】在合成番茄红素的重组酵母菌中过表达乙酰辅酶A合成酶编码基因(acs2),在发酵过程中添加10g/L乙酸盐,结合转录组学分析挖掘乙酸胁迫响应基因,进行单一和组合调控。【结果】添加乙酸盐后,重组菌Y02中番茄红素含量增加了19.14%,但细胞生长受到抑制,转录组学结果表明adk2、fap7、hem13、elo3、pdc5、set5、pmt5、hst4、clb2和swe1表达水平增加,因此构建了单基因和双基因过表达菌株,其中Y02-set5-hst4菌在添加乙酸盐后细胞生长得到了显著改善,同时胞内乙酰辅酶A浓度提高了78.21%,番茄红素含量和产量达到12.62 mg/g-DCW和108.67 mg/L,与对照菌Y02相比分别提高了42.76%和67.13%。同时该菌中甲羟戊酸途径中关键基因erg12、erg20和hmg1的表达量与对照菌相比分别上调了1.70、1.4...     

鱼腥藻PCC 7120乙酰辅酶A合成酶All0769的缺失降低异形胞频率

研究鉴定了All0769为鱼腥藻PCC 7120中乙酰辅酶A合成酶,通过CRISPR/Cpf1系统敲除鱼腥藻PCC7120中的乙酰辅酶A合成酶(由all0769编码),探究了乙酰辅酶A合成酶在异形胞分化中的调控机制。结果所示:All0769能在体外反应中催化乙酰辅酶A的生成。在供氮环境下,敲除all0769会影响藻细胞生长速率。而无论环境中是否存在化合氮,Δall0769突变株的乙酰辅酶A和α-酮戊二酸含量均显著减少。在供氮环境下,Δall0769突变株中检测到(26.17±1.55) nmol/mg protein的乙酰辅酶A,而在野生型中检测出(43.04±1.09) nmol/mg的乙酰辅酶A。Δall0769突变株的α-酮戊二酸[(1.41±0.24) nmol/mg protein]低于野生型的α-酮戊二酸[(2.13±0.05) nmol/mg protein]。在缺氮环境下,Δall0769突变株中检测到(10.00±2.81) nmol/mg protein的乙酰辅酶A,而在野生型中检测出(29.82±4.04) nmol/mg protein的乙酰辅酶A。Δall07...     

一种基于途径分析提高丙酮酸产量的育种策略

为进一步提高光滑球拟酵母发酵生产丙酮酸的水平 ,在途径分析的基础上提出了一种组成型降低丙酮酸脱酸酶、但增强乙酰辅酶A合成酶活性的育种策略。通过亚硝基胍诱变 ,获得 1株乙酸需求型突变株CCTCCM2 0 2 0 19,在外加乙酸的培养基中表现出高于出发株 2 1%的丙酮酸生产能力和良好的遗传稳定性。检测突变株CCTCCM2 0 2 0 19中丙酮酸代谢相关酶的活性发现 :(1)丙酮酸脱羧酶活性降低了 4 0 % ;(2 )外加乙酸与否的条件下 ,乙酰辅酶A合成酶的活性分别提高了 10 3 5 %和 5 7 4 % ;(3)添加乙酸和突变对丙酮酸羧化酶、丙酮酸脱氢酶系、乙醇脱氢酶和乙醛脱氢酶的活性没有显著影响。在含有乙酸的培养基中突变株细胞干重比出发株高 2 1 7% ,可能是因为乙酰辅酶A合成酶活性的提高 ,补充了因丙酮酸脱羧酶活性降低而引起的胞质乙酰辅酶A短缺。在 7L罐中含有 6g L乙酸钠的培养基中发酵 6 2h ,丙酮酸产量达到 6 8 7g L ,对葡萄糖的产率为 0 6 5 1g g。     

营养条件对光滑球拟酵母积累α-酮戊二酸的影响

以光滑拟球酵母为研究模型,研究α-酮戊二酸的浓度情况。通过单因素实验得到α-酮戊二酸积累最佳浓度的各单因素条件为：葡萄糖浓度140g／L,NH4Cl浓度5g／L。在碳源（30g/L葡萄糖初始浓度）匮乏条件下加入丙酮酸30g／L,在此条件下丙酮酸转化为α－酮戊二酸的转化率最高达53．7％。以30g／L丙酮酸为唯一碳源时在7L发酵罐中光滑拟球酵母可生成浓度为10．7g/Lα-酮戊二酸,外源丙酮酸的转化率可达66．9％。这一结果表明,T．glabrata具有将丙酮酸转化为α-KG的能力。     

光滑球拟酵母生产2,3-丁二酮的系统代谢工程策略

【目的】调控丙酮酸工业生产菌株光滑球拟酵母(Torulopsis glabrata)CCTCC M202019碳代谢流分布促进2,3-丁二酮积累。【方法】过量表达来源于枯草芽孢杆菌(Bacillus subtilis)的乙酰乳酸合成酶(ALS);在此基础上,借助T.glabrata全基因组规模代谢网络模型(GSMM)iNX804解析敲除基因ILV5的必要性;敲除基因BDH以阻断2,3-丁二酮的降解。【结果】过量表达ALS将ALS活性提高了4.6倍,发酵液中2,3-丁二酮浓度从0.01 g/L提高至0.57 g/L。敲除基因ILV5使2,3-丁二酮浓度提高28.1%。敲除基因BDH导致丁二酮还原酶和丁二醇脱氢酶活性分别降低74.4%、76.1%,同时2,3-丁二酮进一步代谢产物3-羟基丁酮和2,3-丁二醇浓度则分别降低52.2%和71.4%,2,3-丁二酮浓度为0.95 g/L。【结论】基于GSMM的系统代谢工程策略能够将碳代谢流从丙酮酸节点导向2,3-丁二酮,实现2,3-丁二酮的有效积累。     

臭味假单胞菌乙酰乙酰辅酶A硫解酶的提纯及性质研究

从臭味假单胞菌中提纯97倍的AcAcCoA硫解酶在聚丙烯酰胺凝胶电泳上是均一的一带。该酶分子量为170,000,每分子含有4个亚基,亚基分子量为42,000。该酶的等电点为pI6.7。它的N-末端为丙氨酸,N-末端是单一的。该酶催化反应的Km值为10.2μmol/L,最大反应速度为16.7μmol/min·mg。 臭味假单胞菌细胞粗提液透析后,经DEAE-纤维素(DE-52)柱色谱,从洗脱液中可同时得到四个酶的活力峰:乙酰乙酸琥珀酰辅酶A转移酶,AcAcCoA硫解酶,β-酮已二酸琥珀酰辅酶A转移酶和β-酮己二酸单酰辅酶A硫解酶。一般认为在细菌的芳径代谢中存在β-酮己二酸代谢途径,上述四个酶的活力峰同时存在说明除β-酮已二酸代谢途径外,还同时存在乙酰乙酸代谢途径。     

强化乙酰辅酶A供应对裂殖壶菌合成二十二碳六烯酸的影响

细胞液中乙酰辅酶A的持续供应是脂肪酸高效积累的必要条件。考虑到甲羟戊酸和脂肪酸合成途径共用相同的前体乙酰辅酶A,抑制甲羟戊酸途径可能促使更多的乙酰辅酶A流向脂肪酸合成。通过添加前体物质或/和甲羟戊酸途径酶的抑制剂以强化乙酰辅酶A的供应,即在裂殖壶菌发酵起始或/和后期添加乙酸、发酵起始添加甲羟戊酸途径酶的抑制剂辛伐他汀或柠檬酸、发酵起始同时添加乙酸和辛伐他汀或柠檬酸并考察其对裂殖壶菌合成二十二碳六烯酸 (DHA)的影响,结果发现发酵起始同时添加6mmol/L的乙酸和1μmol/L的辛伐他汀时,DHA产量最高,达到13.21g/L,比对照提高了46.61%。     

Manipulating the pyruvate dehydrogenase bypass of a multi-vitamin auxotrophic yeast Torulopsis glabrata enhanced pyruvate production

AIMS: To investigate the relationship between the activity of pyruvate dehydrogenase (PDH) bypass and the production of pyruvate of a multi-vitamin auxotrophic yeast Torulopsis glabrata. METHODS AND RESULTS: Torulopsis glabrata CCTCC M202019, a multi-vitamin auxotrophic yeast that requires acetate for complete growth on glucose minimum medium, was selected after nitrosoguanidine mutagenesis of the parent strain T. glabrata WSH-IP303 screened in previous study [Li et al. (2001) Appl. Microbiol. Biotechnol. 55, 680-685]. Strain CCTCC M202019 produced 21% higher pyruvate than the parent strain and was genetically stable in flask cultures. The activities of the pyruvate metabolism-related enzymes in parent and mutant strains were measured. Compared with the parent strain, the activity of pyruvate decarboxylase (PDC) of the mutant strain CCTCC M202019 decreased by roughly 40%, while the activity of acetyl-CoA synthetase (ACS) of the mutant increased by 103.5 or 57.4%, respectively, in the presence or absence of acetate. Pyruvate production by the mutant strain CCTCC M202019 reached 68.7 g l(-1) at 62 h (yield on glucose of 0.651 g g(-1)) in a 7-l jar fermentor. CONCLUSIONS: The increased pyruvate yield in T. glabrata CCTCC M202019 was due to a balanced manipulation of the PDH bypass, where the shortage of cytoplasmic acetyl-CoA caused by the decreased activity of PDC was properly compensated by the increased activity of ACS. SIGNIFICANCE AND IMPACT OF THE STUDY: Manipulating the PDH bypass may provide an alternative approach to enhance the production of glycolysis-related metabolites.     

丙酮酸高产菌株的选育及中试研究

对T.glabrata WSH-IP12进行EMS诱变,挑选以NH4Cl为唯一氮源的平板上透明圈较大的菌株,经初筛和复筛后,发现T.glabrata WSH-IP303生产丙酮酸的能力强且稳定。以NH4Cl为唯一氮源摇瓶培养48h,其丙酮酸产量（35．1g/L）比出发菌株（21．4g/L)提高了64％。采用该菌株在300L罐上进行了4批发酵试验,丙酮酸产量最高可达58．4g/L,对葡萄糖产率0．562g/g。     

过量表达NADH氧化酶加速光滑球拟酵母合成丙酮酸

[目的]进一步提高光滑球拟酵母(Torulopsis glabrata)发酵生产丙酮酸的生产强度.[方法]将来源于乳酸乳球菌(Lactococcus lactis)中编码形成水的NADH氧化酶noxE基因过量表达于丙酮酸工业生产菌株T. glabrata CCTCC M202019中,获得了一株NADH氧化酶活性为34.8 U/mg蛋白的重组菌T. glabrata-PDnoxE.[结果]与出发菌株T. glabrata CCTCC M202019相比,细胞浓度、葡萄糖消耗速率和丙酮酸生产强度分别提高了168%、44.9%和12%,发酵进行到36 h葡萄糖消耗完毕.补加50 g/L葡萄糖继续发酵20 h,则使丙酮酸浓度提高到67.2 g/L.葡萄糖消耗速度和丙酮酸生产强度增加的原因在于形成水的NADH氧化酶过量表达,导致NADH和ATP含量分别降低了18.1%和15.8%.而NAD<' 增加了11.1%.[结论]增加细胞内NAD<' 含量能有效地提高酵母细胞葡萄糖的代谢速度及目标代谢产物的生产强度.     

Enhancement of pyruvate production by osmotic-tolerant mutant of Torulopsis glabrata

Pyruvate production by Torulopsis glabrata was used as a model to study the mechanism of product inhibition and the strategy for enhancing pyruvate production. It was found that the concentration of cell growth and pyruvate deceased with the increase of NaCl and sorbitol concentrations. To enhance the osmotic stress resistance of the strain, an NaCl-tolerant mutant RS23 was screened and selected through a pH-controlled continuous culture with 70 g/L NaCl as the selective criterion. Compared with the parent strain, mutant RS23 could grow well on the medium containing 70 g/L NaCl or 0.6 mol/L sorbitol. Pyruvate concentration by the mutant strain RS23 reached 94.3 g/L at 82 h (yield on glucose 0.635 g/g) in a 7-l fermentor with 150 g/L glucose as carbon source. Pyruvate concentration and yield of mutant RS23 were 41.1% and 11.1% higher than those of the parent strain, respectively. The strategy for enhancing pyruvate production by increasing osmotic stress resistance may provide an alternative approach to enhance organic acids production with yeast.     

Enhancement of pyruvate productivity in Torulopsis glabrata: Increase of NAD+ availability

This study aimed at increasing the pyruvate productivity from a multi-vitamin auxotrophic yeast Torulopsis glabrata, by increasing the availability of NAD+. We examined two strategies for increasing availability of NAD+. To supplement nicotinic acid (NA), the precursor of NAD+; and to increase the activity of alcohol dehydrogenase integrating with addition acetaldehyde as exterior electron acceptor. The addition of 8 mg l(-1) NA to the fermentation medium resulted in a significant increase in the glucose consumption rate (48.4%) and the pyruvate concentration (29%). An ethanol-utilizing mutant WSH-13 was screened and selected after nitrosoguanidine mutagenesis of the parent strain T. glabrata CCTCC M202019. Compared with the parent strain, the alcohol dehydrogenase activity of the mutant WSH-13 increased about 110% and the mutant could utilize ethanol as the sole carbon source for growth (1.8 g l(-1) dry cell weight). When growing with glucose, the addition of 4 mg l(-1) acetaldehyde to the mutant WSH-13 culture broth led to a significant increase in the glucose consumption rate (26.3%) and pyruvate production (22.5%), but the ratio of NADH/NAD+ decreased to 0.22. Acetaldehyde did not affect the glucose and energy metabolism at high dissolved oxygen (DO) concentration. However, at lower DO concentration (20%), maintaining the acetaldehyde concentration in the mutant culture broth at 4 mg l(-1) caused an increased NAD+ concentration but a decreased NADH concentration. As a consequence, the pyruvate production rate, the pyruvate yield on glucose and the pyruvate concentration were 68, 44 and 45% higher, respectively, than the corresponding values of the control (without acetaldehyde). The strategy for increasing the glycolytic flux and the pyruvate productivity in T. glabrata by increasing the availability of NAD+ may provide an alternative approach to enhance the metabolites productivity in yeast.     

维生素在丙酮酸过量合成中的重要作用

研究了烟酸、硫胺素、吡哆醇、生物素和核黄素对一株光滑球拟酵母(\%Torulopsis glabrata\%) WSH\|IP303以葡萄糖为碳源、以氯化铵为唯一氮源生产丙酮酸的影响。利用正交试验方法,确证了硫胺素是影响WSH\|IP303生产丙酮酸的最重要因素。在硫胺素浓度一定(0.01～0.015mg/L)的前提下,提高烟酸浓度有助于加快耗糖速度。当烟酸、硫胺素、吡哆醇、生物素和核黄素的浓度分别为8、0.015、0.4、0.04和01mg/L时,摇瓶发酵48h,丙酮酸产量和产率可分别达到52.4g/L和0525g/g。采用优化的维生素组合方式,进行2.5L罐分批发酵,在初糖浓度120g/L的条件下发酵57.5h,丙酮酸产量和产率分别达到69.4g/L和0593g/g,分别比摇瓶培养的最好结果提高了32.%和13%。     

一株耐受低pH光滑球拟酵母RT-6的生理特性

摘要：【目的】 研究一株耐受pH 1.91的光滑球拟酵母 (Torulopsis glabrata) RT-6的生理特性。【方法】在不同的pH条件下,对比分析原菌CCTCC M202019和突变株RT-6胞内pH、胞内ATP水平、H+-ATPase酶活、膜脂肪酸组成和聚磷酸盐含量等生理学特性的差异。【结果】与原菌比较,突变株RT-6：(1)生物量和丙酮酸产量分别提高了60.6 %和85.4 % (56 h);(2) 在胞外pH5.0、4.5、4.0时,胞内pH极显著高于原菌;(3)胞内ATP、H+-ATP     

Efficient pyruvate production by a multi-vitamin auxotroph of Torulopsis glabrata: key role and optimization of vitamin levels

A multi-vitamin auxotroph, Torulopsis glabrata strain WSH-IP303, which can use ammonium chloride as a sole nitrogen source for pyruvate production, was selected. To optimize pyruvate yield and productivity, a simple but useful, orthogonal design method, was used to investigate the relationship between thiamine, nicotinic acid, pyridoxine, biotin, and riboflavin. Thiamine was confirmed to be the most important factor affecting pyruvate production. When the concentration of thiamine was 0.01 mg/l or 0.015 mg/l, glucose consumption was improved by increasing the nicotinic acid concentration. When the concentrations of nicotinic acid, thiamine, pyridoxine, biotin, and riboflavin were 8.0, 0.015, 0.4, 0.04, and 0.1 mg/l, respectively, pyruvate concentration and yield reached 52 g/l and 0.52 g/g, respectively, in a 48-h flask culture. By employing a combination of the optimum vitamin concentrations, a batch culture was conducted in a 2.5-l fermentor with an initial glucose concentration of 112 g/l; and the pyruvate concentration reached 69 g/l after 56 h (yielding 0.62 g/g).