培养液NaCl浓度对杜氏盐藻3-磷酸甘油脱氢酶同工酶的影响

目的：探讨在不同NaCl浓度下,杜氏盐藻（Dunaliella salina）的3-磷酸甘油脱氢酶（Glycerol 3-phosphate dehydrogen-ase,GPDH）同工酶的活性与其渗透调节相关性。方法：采用聚丙烯酰胺凝胶电泳（polyacrylamide gel electrophoresis,PAGE）技术对在不同NaCl浓度生长的杜氏盐藻的GPDH进行同工酶电泳检测。结果：在0.5mol/LNaCl低盐的条件下,杜氏盐藻具有4种NAD＋-GPDH同工酶,分别为GPDH1、GPDH2、GPDH3、GPDH4。当NaCl逐渐分别增高为2.0、3.0、4.0、5.0mol/L时,只有1种NAD＋-GPDH同工酶即GPDH1。结论：GPDH1具有较高活性,这与高盐胁迫时细胞大量合成甘油进行渗透调节密切相关。     

C、N、P对杜氏盐藻突变藻株Zea1生长和积累玉米黄素的影响

通过UV辐照和NTG诱变处理杜氏盐藻野生型藻株得到一株杜氏盐藻高产玉米黄素突变株Zea1,以此突变藻株为实验材料,系统研究了光照强度、盐浓度、碳源、氮源、磷源等对Zea1生长和玉米黄素积累合成的影响。葡萄糖在10mmol/L时既适合Zea1生长,又有利于其玉米黄素的积累。KNO3浓度为1mmol/L时最适合突变株藻细胞生长,而(NH4)2SO4浓度为1mmol/L最有利于藻细胞内玉米黄素的积累。综合来看,1mmol/L(NH4)2SO4为最优氮源。KH2PO4浓度为0.1mmol/L时Zea1藻细胞积累玉米黄素含量最高,同时在此浓度下也最适宜藻细胞的生长。讨论了此结果的机理和意义,为利用杜氏盐藻大规模生产玉米黄素提供了理论依据。     

杜氏盐藻质膜ATPase在渗透调节中的可能作用

杜氏盐藻是一种以甘油为渗透调节物质的单细胞海藻,能够在0.08～5.0mol/L NaGl的培养液中生长。当外界NaGl浓度从0.5mol/L上升到4.0mol/L时,藻细胞内的Na~+和K~+含量变化不大,甘油含量则从6.20Pg/cell上升到51.50pg/cell。当藻细胞承受2.0mol/L到3.0mol/L NaCl的高渗胁迫时,能通过增加细胞内甘油含量来恢复原有形态;同时,藻细胞的H~+分泌增加,ATP含量下降;20μmol/L Na_3VO_4抑制了这些变化。KGN处理虽降低藻细胞内的ATP含量,却增加K~+外流和Na~+内渗。     

杜氏盐藻电击转化方法的系统优化

本研究系统分析了盐藻生长状态、电击条件、电击缓冲液成分和质粒浓度等条件对电击转化效率的影响。实验结果表明:正常接种后培养7d对数生长中期的盐藻细胞,在25μF、0.8kV的电击条件下加入终浓度为10μg/mL的质粒可使盐藻电击转化效率达到1.85‰;电击缓冲液中加入0.4mol/L的甘油可使转化效率显著提高至2.03‰(P<0.05)。在上述优化电击体系下,运用3种不同质粒分别转化盐藻细胞后获得的转化效率无显著差异。通过对电击转化中相关因素的优化,本研究建立了一种适用于杜氏盐藻的高效稳定的电击转化体系,为杜氏盐藻的转基因研究提供有效方法。     

甘油对杜氏盐藻电击转化的影响

通过在HEPES电击缓冲液中添加不同浓度的甘油,讨论了甘油对电转前细胞存活率的影响;通过在盐藻培养基中添加不同浓度的甘油,讨论了甘油对盐藻细胞生长的影响;使用含有不同浓度甘油的HEPES缓冲液介导质粒载体转入盐藻细胞,比较了甘油对于转化率的影响。实验结果表明,在电击缓冲液中添加0.5mol/L甘油能有效提高细胞存活率,促进转化细胞恢复生长,从而获得最佳转化效果。因此,0.5mol/L甘油可作为杜氏盐藻电击转化过程中一种良好的稳渗剂。     

杜氏盐藻促生菌株的分离与鉴定

拟通过探究藻际微生物对微藻生长及代谢产物积累的影响,筛选出促进微藻生长的促生菌株。以杜氏盐藻(Dunaliella salina)Ds-SXYC-2为试材,分离鉴定盐藻藻际环境中的共生菌株,进一步构建藻菌(1∶1)共培养体系、测试盐藻生长及代谢产物积累等表型。结果显示,从杜氏盐藻藻际环境分离获得5株共生菌株,经16S rDNA分子鉴定,属于3个菌属。菌株B1与B2为涅斯捷连科氏菌(Nesterenkonia),菌株B3与B4为盐单胞菌(Halomonas),菌株B5为海杆菌(Marinobacter)。5株共生菌株对杜氏盐藻的生长均有促进作用,菌株B3能显著促进杜氏盐藻生长及代谢产物的积累。共培养15 d后,杜氏盐藻生物量达到2.3 g/L,比对照组增加了28.9%,叶绿素a的含量达到4.61 mg/L,比对照组增加了36.3%,β-胡萝卜素比对照组提高了56.4%。盐藻多糖、蛋白质、总脂含量分别比对照组增加了34.8%、71.2%和37.6%。菌株B3盐单胞菌可以作为促进杜氏盐藻生长及代谢产物累积的优势菌株,进一步构建共培养体系可应用于杜氏盐藻的商业生产。     

杜氏盐藻渗透调节过程中的甘油代谢途径

杜氏盐藻在适应外界盐浓度变化的过程中,甘油是其主要的渗透调节物质。低渗处理提高藻细胞的呼吸速率６０％以上;高渗处理对呼吸无明显影响,但大大刺激光合放氧速率。呼吸链的细胞色素电子传递链抑制剂ＫＣＮ和交替氧化酶抑制剂ＳＨＡＭ对杜氏藻渗透调节过程的呼吸,胞内甘油、ＡＴＰ、淀粉含量的变化有不同的抑制效果。低渗情况下,胞内甘油转化为淀粉,所需能量由正常呼吸链和交替氧化酶途径同时提供;高渗情况下,淀粉则降解为     

杜氏盐藻和亚心形扁藻在不同接种密度和氮浓度下的细胞群体生长

在氮浓度为1.4、14、和140 mg·L^-1下,对杜氏盐藻(Dunaliella salina)和亚心形扁藻(Platymonas subcordiformis)进行细胞接种比例为10:0、7:3、5:5、3:7和0:10的培养试验,研究不同海洋经济微藻种间混合培养的细胞群体生长效应。结果表明,杜氏盐藻与亚心形扁藻细胞群体的生长随着氮浓度的增加而提高;两种藻在氮浓度分别为14和140mg·L^-1时混合培养的细胞群体生长明显优于单独培养。中、高氮下杜氏盐藻与亚心形扁藻以7:3的接种比例混合时,微藻的细胞群体生物量和胞内物质含量相比单独培养和其他比例均有显著提高,如叶绿素a含量比单独培养分别提高1.17倍和7.77倍;蛋白质含量比单独培养分别提高19.1%和195.3%等。而低氮浓度下,藻的生长受到氮浓度的限制。     

葡萄糖和乙酸钠对湛江等鞭金藻兼养生长的影响

论文探讨了添加外源性有机碳葡萄糖和乙酸钠对湛江等鞭金藻(Isochrysis zhanjiangensis )生长及胞内总脂百分含量的影响.结果表明:随着葡萄糖和乙酸钠浓度的增加,湛江等鞕金藻的生长和产物积累均表现出先促进后抑制的现象.湛江等鞭金藻兼养利用葡萄糖和乙酸钠促进生长的浓度上限分别为50和30g·L^-1.葡萄糖浓度仅15g·L^-1时,对生物量具有显著促进作用,而乙酸钠浓度2.5～15g·L^-1时,对生物量均具有显著促进作用.葡萄糖对藻细胞内总脂百分含量的促进作用浓度范围是1.0～50g·L^-1,而乙酸钠仅在1.0～15g·L^-1时,表现出显著促进作用.葡萄糖浓度为15g·L^-1时,其生物量、总脂百分含量分别比对照增加了30%、30%.乙酸钠浓度为7.5g·L^-1时,其生物量、总脂百分含量分别比对照增加了30%、30%.添加适量的葡萄糖和乙酸钠能够显著促进湛江等鞭金藻生物量及胞内总脂百分含量,葡萄糖和乙酸钠的最适浓度分别是15g·L^-1和7.5g·L^-1.湛江等鞭金藻利用葡萄糖和乙酸钠进行兼养生长的能力是有限的.     

有机碳源和氮源对三角褐指藻生长的影响

研究了8种有机碳源和4种氮源对三角褐指藻(Phaeodactylum tricornutum)生长的影响.结果表明,三角褐指藻具有兼养生长的能力,碳浓度为5mmol/L和50mmol/L时,葡萄糖、果糖、乙酸钠和甘油对其生长有明显的促进作用,乳酸钠和乙醇抑制藻细胞生长,半乳糖和柠檬酸钠对其生长随有机碳浓度而异.甘油、葡萄糖和乙酸钠的适宜浓度范围分别为5 -800mmol/L、100 -400mmol/L和50 -300mmol/L.培养液中分别加入50mmol/L甘油、400mmol/L葡萄糖和150mmol/L乙酸钠,培养第14天,三角褐指藻的最大生物量分别为对照的1.45倍、1.25倍和1.11倍.甘油兼养生长的最优氮源是尿素,适宜浓度范围为0.88-8.8mmol/L.当尿素浓度为4.4mmol/L时,最高生物量可达1.31g/L.     

Cloning and characterization of a plastidic glycerol 3-phosphate dehydrogenase cDNA from Dunaliella salina

A cDNA encoding a nicotinamide adenine dinucleotide (NAD+) -dependent glycerol 3-phosphate dehydrogenase (GPDH) has been cloned by rapid amplification of cDNA ends from Dunaliella salina. The cDNA is 3032 base pairs long with an open reading frame encoding a polypeptide of 701 amino acids. The polypeptide shows high homology with published NAD+ -dependent GPDHs and has at its N-terminal a chloroplast targeting sequence. RNA gel blot analysis was performed to study GPDH gene expression under different conditions, and changes of the glycerol content were monitored. The results indicate that the cDNA may encode an osmoregulated isoform primarily involved in glycerol synthesis. The 701-amino-acid polypeptide is about 300 amino acids longer than previously reported plant NAD+ -dependent GPDHs. This 300-amino-acid fragment has a phosphoserine phosphatase domain. We suggest that the phosphoserine phosphatase domain functions as glycerol 3-phosphatase and that, consequently, NAD+ -dependent GPDH from D. salina can catalyze the step from dihydroxyacetone phosphate to glycerol directly. This is unique and a possible explanation for the fast glycerol synthesis found in D. salina.     

二羟丙酮还原酶在杜氏盐藻渗透调节过程中的特性

从杜氏盐藻分离得到的二羟丙酮还原酶能专一性地催化二羟丙酮和甘油之间的可逆反应。酶催化二羟丙酮还原及甘油氧化的最适 PH分别为7.5和9.0;藻细胞经高渗处理,其甘油含量增加,酶催化甘油合成的活性比处理前提高120％,且大于其催化甘油转化的活性;藻细胞经低渗处理,其甘油含量减少,酶催化甘油转化的速率比处理前提高32％,暗示二羟丙酮还原酶在杜氏盐藻渗透调节过程中是甘油合成或转化的一个关键酶。     

甘油及甲醇补料策略对毕赤酵母表达猪α-干扰素的影响

本文研究了甘油及甲醇补料策略对重组毕赤酵母细胞生长及猪α-干扰素(p IFN-α)表达的影响。结果表明,甘油采取不同的补料策略,以及甲醇浓度控制于不同水平时,细胞生长速度不同,p IFN-α抗病毒活性水平也明显不同。高密度发酵阶段,甘油采用指数方式流加控制时,相较于40 g/L/h、10 g/L/h,恒速流加组的细胞浓度最先达最高水平132 g/L,后一直保持稳定,且发酵液中几乎无残留甘油;与之相应的p IFN-α抗病毒活性水平最高。诱导表达阶段,甲醇浓度须控制并恒定于12 g/L时,p IFN-α抗病毒活性最高水平能达到5.95×106IU/m L,而当甲醇浓度稳定于3.5 g/L、16.0 g/L、或者浓度波动较大(10.2~13.8 g/L)时,p IFN-α抗病毒活性均远低于最高水平。     

The role of intracellular orthophosphate in triggering osmoregulation in the alga Dunaliella salina

A new hypothesis is presented for the mechanism of metabolic response during osmoregulation in the alga Dunaliella salina. We propose that the osmotic response is initiated by differential volume changes of the cytoplasm and the chloroplast (observed using the electron microscope) which alter the cytoplasmic orthophosphate concentration. This triggers a flow through the Pi/triose-phosphate shuttle, activating chloroplast enzymes in the direction of either starch or glycerol synthesis. The Pi-dependent response was investigated in vivo using NMR. The rates of glycerol synthesis or elimination following osmotic shocks were modulated by the intracellular Pi level as predicted by the hypothesis.     

盐生杜氏藻3-磷酸甘油脱氢酶基因克隆及其蛋白质结构预测

本文通过对盐生杜氏藻（Dunaliella salina）cDNA文库进行大规模EST测序并结合RACE实验克隆了盐生杜氏藻3-磷酸甘油脱氢酶基因,并且通过Southern blotting实验确定了该基因在这个物种中拷贝数。通过生物信息学的方法,预测该基因所编码的蛋白质结构,验证了该蛋白质具有3-磷酸甘油脱氢酶完整的功能性结构域和磷酸水解酶类结构域。本实验为解释盐生杜氏藻在面临高渗胁迫下快速合成甘油的机制提供了帮助。     

盐生杜氏藻3-磷酸甘油脱氢酶基因克隆及其蛋白质结构预测

本文通过对盐生杜氏藻(Dunaliella salina) cDNA文库进行大规模EST测序并结合RACE实验克隆了盐生杜氏藻3-磷酸甘油脱氢酶基因, 并且通过Southern blotting实验确定了该基因在这个物种中拷贝数。通过生物信息学的方法, 预测该基因所编码的蛋白质结构, 验证了该蛋白质具有3-磷酸甘油脱氢酶完整的功能性结构域和磷酸水解酶类结构域。本实验为解释盐生杜氏藻在面临高渗胁迫下快速合成甘油的机制提供了帮助。     

A Salt-Induced 60-Kilodalton Plasma Membrane Protein Plays a Potential Role in the Extreme Halotolerance of the Alga Dunaliella

The halotolerant alga Dunaliella salina grows in saline conditions as varied as 0.5 and 5 M NaCl, maintaining throughout this range a low intracellular ion concentration. To discover factors potentially involved in ionic homeostasis, we grew cells in media with different salinities or osmolarities and compared their protein profiles. The comparisons indicated that the amount of a 60-kD protein, p60, greatly increased with an increase in salinity and was moderately enhanced when NaCl was substituted with iso-osmotic glycerol. Cells transferred from low to high NaCl or from high glycerol to iso-osmotic NaCl media transiently ceased to grow, and resumption of growth coincided approximately with an increase in p60. The protein, extracted from a plasma membrane fraction, was purified to homogeneity. Anti-p60 antibodies cross-reacted with a 60-kD protein in Dunaliella bardawil. Immunoelectron microscopy of D. salina cell sections indicated that p60 was exclusively located in the plasma membrane. Its induction by salt, the correlation between its accumulation and growth resumption in high concentrations of salt, and its plasma membrane localization suggest the possibility that p60 could play a role in ionic homeostasis in conditions of high salinity, although different types of function could also be considered.     

Regulation of Glycerol Phosphate Dehydrogenase and Lactate Dehydrogenase Activity by Forskolin and Dibutyryl Cyclic AMP in the C6 Glial Cells

We have compared the effects of norepinephrine, forskolin, and dibutyryl cyclic AMP (Bt2cAMP) on the regulation of the cytosolic enzyme glycerol phosphate dehydrogenase (GPDH) in the C6 rat glioma cell line. Forskolin and Bt2cAMP elicit a dose-dependent increase in the levels of the enzyme that was, however, unaffected by norepinephrine. The half-maximal effect of forskolin was obtained at 7-8 microM, and the effect was maximal at 30 microM. Dexamethasone at a 50 nM concentration produced a two- to sixfold induction of GPDH after 48 h. The combination of dexamethasone with forskolin or Bt2cAMP leads to an elevation in GPDH levels that is higher than that produced by one of the compounds alone. This potentiation is found when both agents are added together with or after the glucocorticoid. The increase in uninduced and dexamethasone-induced GPDH activity was blocked by cycloheximide and actinomycin D, indicating that de novo protein and RNA synthesis are required. The activity of cytosolic lactate dehydrogenase activity did not change after incubation with dexamethasone, but increased with forskolin or Bt2cAMP.     

重组巴氏毕赤酵母恒化培养动力学及代谢迁移特性研究

通过对甲醇营养型毕赤酵母基因工程菌以碳源甘油为限制性基质进行恒化培养动力学试验 ,结果认为 :(1 )细胞光密度与其干、湿重呈线性关系 ,当细胞光密度 (OD60 0 )为 1 0 0时细胞湿重 (WCW)为 1 2 8 3g L ,细胞干重 (WDW)则为 2 2 9g L ;(2 )基因工程菌P .pastoris的生长与限制性基质甘油残留浓度的关系符合Monod关系式 ,通过 1 μ对 1 S进行线性回归得 μmax=0 .366h- 1,Ks=0 .1 82 3g L ,经参数推导甘油最大菌体得率系数YG =0 .54g g ,菌体维持生长消耗底物系数m =0 .0 0 69g (g·h) ;氧最大菌体系数YX O2 =30 .96g moL ,菌体维持生长时消耗氧系数mO2 =0 .0 0 0 8mol (g·h) ,最适理论稀释速率Dm =0 .341h- 1;(3)从氨水的消耗速率和呼吸商 (RQ)的变化认为随着比生长速率 (μ)的增大 ,甘油代谢流从糖原异生和磷酸戊糖途径线性地向糖酵解和三羧酸循环途径进行代谢迁移 ,即糖酵解和三羧酸循环途径的代谢流量在线性地增大