绿豆子叶线粒体发育过程中腺苷酸的变化及其对细胞能量代谢的影响

本文研究了绿豆子叶线粒体发育过程中腺苷酸能荷(AEC)的变化及其和细胞能量状态的关系。观察到吸胀2小时的绿豆子叶线粒体发育不完全,吸胀12小时线粒体内膜出现明显的内嵴。随着线粒体完整性的增加,H~ -ATPase 的活性明显增大,细胞的 ATP 水平也明显提高,AMP 水平下降,AEC 值剧增,但此时线粒体本身的腺苷酸水平及 AEC 值变化不大。经1×10~(-4)mol/1和5×10~(-4)mol/1 DNP 处理的子叶,细胞中 ATP 含量大大降低,AMP 增多,AEC 随之下降,而线粒体的腺苷酸及 AEC 仍然保持衡定,腺苷酸激酶(AK)的活性不但不受 DNP 的抑制,反比对照增加约50%。线粒体能量状态的维持可能受 AK 的调节。     

光合自养缺陷型小球藻的筛选及生物能源应用

小球藻Chlorella protothecoides(C.protothecoides)是潜在的、可用于工业生产生物柴油的高产油微藻.本研究通过体外诱变的手段,获得了一株完全不能进行光合自养生长的突变体Al64.利用尼罗红染色和叶绿素自发荧光分析和电子显微镜分析细胞的亚显微结构,结果显示该突变体中叶绿体严重退化,其中类囊体膜结构缺失,导致该突变体缺乏叶绿素,无法进行光合自养生长.在富糖富氮的培养条件下,该光合自养缺陷型突变体的细胞密度和油脂含量比野生型细胞分别高5.54%和6.76%,分析还发现,该突变体产油能力为0.158 g L?1 h?1,比野生型提高12.8%.本文通过缺失光合作用突变体的构建,在异养高氮条件下实现了生物量及细胞内油脂含量的同步提高,为进一步提高微藻生产生物柴油的产量提供了新的研究平台.     

葡萄糖对小球藻(Chloralla sp. HN08)光合作用和生长的影响

【目的】探讨葡萄糖作为外加碳源对热带海洋小球藻(Chloralla sp.HN08)生物质生产和脂、光合色素、碳水化合物及可溶性蛋白等细胞主要成份含量的影响。【方法】分析比较小球藻HN08在光合自养和兼养(添加10 g/L葡萄糖)2种营养方式下的生长速率、细胞密度、光合放氧速率、油脂相对含量,以及可溶性总糖、淀粉和可溶性蛋白的含量。【结果】结果表明,在光照条件下葡萄糖(10 g/L)能促进小球藻(Chloralla sp.HN08)生长,提高细胞终密度,而异养条件下藻细胞逐渐衰亡。兼养条件下,细胞相对生长速率及细胞终密度分别是自养条件下的6.8倍和1.3倍。兼养藻细胞中可溶性糖、淀粉、油脂含量显著高于(P0.05)光合自养细胞,然而可溶性蛋白质和光合色素含量显著低于(P0.05)光合自养细胞。添加葡萄糖的小球藻液的光饱和点和呼吸速率均高于光自养条件下的细胞,但2种培养条件下藻液的净光合速率无显著差异(P0.05)。【结论】光照条件下,添加葡萄糖可显著提高小球藻HN08相对生长速率和细胞终密度,促进油脂与淀粉的积累。     

一株氨氧化链霉菌的分类鉴定及其氨氧化特性的研究

从硝化反应器中分离获得一株链霉菌。根据其形态特征、培养特征、生理生化特性,（G+C）mol％含量以及16S rDNA序列和DNA杂交结果,将其归入链霉菌属中的比基尼链霉菌（Streptomycesbikiniensis）。该菌株既能在YD培养基上异养生长,也能在无机培养基上自养生长,异养生长速率(Vmax为0.39mg/L\5d)明显高于自养生长速率（Vmax为0.22mg/L.d）。异养生长时,氨氮主要用于合成细胞物质;自养生长时,部分氨氮用于合成细胞物质,部分氨氮转化成亚硝酸盐。在无机培养基上自养生长时,最适氨浓度为118mgN/L。最适生长pH值为9.36,最适氨氧化pH值为9.29。最适生长温度为31℃,最适氨氧化温度为40.6℃。提高溶解氧浓度有利于该菌株生长和氨氧化,菌体生长对溶解氧浓度的敏感性高于氨氧化。     

不同营养方式对普通小球藻生长代谢及生化组分的影响

摘要:【目的】系统研究自养、混养和异养3种营养方式对真核模式微藻———普通小球藻(Chlorella vulgaris)生长特性、细胞生化组分和碳代谢途径关键酶活性的影响。【方法】以C．vulgaris为研究对象,通过设置光合自养、混养和异养3 种营养方式,采用光谱学、色谱学方法,研究不同营养方式对C．vulgaris从生长特性、细胞组分合成和碳代谢等方面的影响。【结果】C．vulgaris依次经自养至混养和异养的培养方式转变中,藻细胞的可溶性糖和油脂含量显著提高,油脂中C16、C18不饱和脂肪酸的相对含量降低,而饱和脂肪酸的含量升高;蛋白质含量、光合色素含量显著下降,18种氨基酸的相对含量也呈下降趋势;葡萄糖的添加可抑制藻细胞吸收和积累除碳元素以外的其他测试元素。在添加葡萄糖的前提下,光照可促进藻细胞的生长量、不饱和脂肪酸和氨基酸,以及除碳元素以外的其他测试参数增加。对微藻胞外碳酸酐酶和核酮糖-1,5-二磷酸 羧化酶的活性分析结果表明,异养和混养直接影响C．vulgaris的碳代谢途径。【结论】光源和葡萄糖的供给与否直接影响C．vulgaris的生长代谢和生化组分合成,葡萄糖的添加在显著促进藻细胞生物量积累的同时,刺激碳素(糖类和油脂)生化成分的合成,而抑制氮素成分(蛋白质和光合色素)的合成;在光照条件下培养基质中葡萄糖的浓度和消耗水平直接决定藻细胞主营自养或异养生长。添加有机碳源葡萄糖的混养(光照)和异养(暗处理)培养可促进藻细胞的生长,异养和自养的生物量之和接近于混养,表明混养是最佳的藻细胞营养生长方式。     

集胞藻Synechocystissp.PCC6803利用葡萄糖生长与光合能量转化的关系

用PAM叶绿素荧光仪测定了饥饿细胞、光自养细胞和混合营养细胞的叶绿素荧光 ,并对 3种类型细胞的荧光参数 :PSⅡ实际光化学效率 φⅡ和还原型质醌Q-A 进行了比较。用双重转盘磷光机测定了光自养细胞和混合营养细胞的毫秒延迟发光。根据叶绿素荧光动力学分析和毫秒延迟发光的结果及光合电子传递抑制剂 3,4_二氯苯基二甲脲 (DCMU)、二溴百里香醌 (DBMIB)对集胞藻 6 80 3(Synechocystissp .PCC 6 80 3)混合营养生长影响进行了分析 ,集胞藻 6 80 3混合营养培养的生长速率显著高于光自养培养的原因可能在于一是外源葡萄糖没有抑制反而是促进了混合营养细胞的光自养生长 ,二是呼吸基质向质醌库提供电子 ,使光合机构的能量转化加强 ,从而促进了集胞藻6 80 3细胞的利用葡萄糖的合成代谢。     

不同营养方式对小球藻FACHB 484生长的影响及其非自养生长机理研究

系统研究了小球藻FACHB 484在含有葡萄糖的不同营养方式下的生长情况,并通过抑制试验探讨葡萄糖在小球藻FACHB 484光异养和兼养生长条件下所起的作用以及小球藻FACHB 484是否存在氧化呼吸系统的关键酶类。结果表明:小球藻FACHB 484可利用葡萄糖进行化能异养、光激活异养、光异养及兼养生长,其生长速率大小为:兼养光异养光激活异养化能异养光合自养。兼养培养的最大生物量和比生长速率分别是自养培养的8.6和3.4倍,其比生长速率接近于光合自养和光异养培养下的比生长速率之和。葡萄糖主要作为小球藻FACHB 484兼养和光异养培养的碳源,而能量主要源自光。小球藻FACHB 484存在氧化呼吸链代谢途径,其细胞中有琥珀酸脱氢酶和细胞色素氧化酶。       

栅藻高温品系的培育及其生长繁殖规律

单细胞绿藻的最适生长温度,一般都在25℃上下,这给许多试验工作,特别是夏季露天浅层培养和室内高光强强化培养工作造成了大幅度降温的额外负担。而高温品系则可以减轻降温的困难,并且具有高产的特征。本文报道我们培育栅藻高温品系的结果。观察了在长期高温(暗期36℃,光照期42℃)培育后细胞形态上的变化,并着重研究了生长繁殖规律,获得了同步培养。细胞生长在光照下进行,细胞分裂在暗中进行,光照12小时后细胞成熟,光照停止后4小时内,出现孢子形成和子细胞释放的高峰。在2,400 lx 的弱光照条件下,生长率K 值仍可达到2.07(以每日log_e 单位计),每个母细胞平均可产生8.7个子细胞,显示了生长繁殖迅速的特点。     

不同氮源对异养小球藻生物量和油脂积累的影响

小球藻因其快速生长和易培养等特性可用于制备生物能源。与传统的光自养相比,异养小球藻可获得更多的生物量和更高的油脂含量。低成本的马铃薯淀粉水解液可作为小球藻的理想碳源,在氮饥饿条件下可诱导产生更多的油脂。为了探讨不同氮源对异养小球藻生物量和油脂积累的影响,并筛选出异养条件下的最适氮源,实验研究了不同浓度无机氮源NaNO3以及有机氮源丙氨酸和酪氨酸对异养小球藻生物量和油脂积累的影响。以马铃薯淀粉水解液为唯一碳源,在SE培养基中分别添加不同氮源培养小球藻。设定的NaNO3和丙氨酸浓度均为1.5 mmol/L、3.0 mmol/L、6.0 mmol/L,酪氨酸浓度为0.75 mmol/L、1.5 mmol/L和3.0mmol/L。所有小球藻培养实验均为暗培养并持续10 d时间。实验过程测定的指标为:小球藻的细胞数目、比生长速率、叶绿素含量、中性脂含量和总脂含量。实验结果表明:(1)在异养条件下以硝酸盐为无机氮源时,氮源促进叶绿素积累从而促进小球藻的生长,减少硝态氮可以使小球藻快速进入稳定期积累油脂。在NaNO3中氮含量为1.5 mmol/L时,生物量和油脂含量分别为2.65 g/L和51.21%,总油脂含量为1.36 g/L。(2)在不添加其他氮源的异养培养基中,丙氨酸可促进小球藻的生物量增加,在稳定期仍促进单位细胞的叶绿素含量,但总油脂含量普遍偏低。(3)酪氨酸可抑制小球藻生物量增加,使细胞膨大从而促进单位细胞内叶绿素和油脂合成,油脂含量高达38.78%—47.02%。这些结果表明小球藻可通过诱导氨基酸转运系统适应氮源的变化,其中酪氨酸所在的第三个转运系统在葡萄糖诱导条件下可促进油脂的合成。     

栅藻高温品系的培育及其生长繁殖规律

单细胞绿藻的最适生长温度,一般都在25℃上下,这给许多试验工作,特别是夏季露天浅层培养和室内高光强强化培养工作造成了大幅度降温的额外负担。而高温品系则可以减轻降温的困难,并且具有高产的特征。本文报道我们培育栅藻高温品系的结果。观察了在长期高温(暗期36℃,光照期42℃)培育后细胞形态上的变化,并着重研究了生长繁殖规律,获得了同步培养。细胞生长在光照下进行,细胞分裂在暗中进行,光照12小时后细胞成熟,光照停止后4小时内,出现孢子形成和子细胞释放的高峰。在2,400 1x的弱光照条件下,生长率K值仍可达到2．07(以每日log,单位计),每个母细胞平均可产生8．7个子细胞,显示了生长繁殖迅速的特点。     

厌氧条件下小球藻细胞的异养转化和乳酸发酵(简报)

某些藻类植物,如小球藻——一种单细胞绿藻,不但能利用无机碳源通过光合作用进行自养生长,还能利用有机碳源转化为异养生长,这种转化又是可逆的。迄今为止,对于人工控制下藻细胞向异养转化的代谢和调控机理尚不清楚。本文通过分析小球藻细胞异养转化过程对氧气的依赖性,进一步研究它们在厌氧条件下的生长和乳酸发酵特征,探讨可异养转化的单细胞藻类(作为特殊的实验生物系统)在发酵工程和细胞工程领域里应用的可能性。     

Compaitive Study on Liposoluble Compoands in Autotrophic and Heterotrophic Chlorella protothecoides

Both autotrophically and heterotrophically grown Chlorella protothecoides cells have been obtained in cell cultures. The content of liposoluble compounds in the cells of heterotrophic algae occupied 72% of the total cells in dry weight, which was more than 4 times as high as that in the autotrophic algal cells. There existed remarkbly different distribution patterns of the hydrocarbons in thesetwo kinds of cells. The hydrocarbons in autotrophic cells were characterised by the predominance of C17 normal alkanes, wheraes the heterotrophic cells were rich in normal alkanes of higher molecular weight or longer carbon chain with C25 as the dominant carbon. The structure of the compounds in benzene fraction is not quite clear, but the compounds in autotrophis sample may be related to the degeneration of the pigments. The compounds in heterotrophic sample probably come from lipid acids. The visible--ultraviolet absorption spectrum of the pigment compounds demonstrated the absorption peaks of the acetone extract from the autotrophic cells at 432.5, 451.5, 472.5 and 661.5 nm, reflecting the existence of chlorophyll and carotenoid, both with a rather high concentration. However, the acetone extract from the hetertrophic algal cells only showed absorption peaks at 427.4, 450.8 and 477.5 nm. The absorption peaks of the original green cells completely disappeared at 432.5 and 661.5 nm, reflecting the disappearance of chlorophyll in cells on the whole; the remaining absorption peaks only reflected the existence of carotenoid, but its concentration had already been greatly reduced. The resuls from comparative experiments were of essential significance on the study of physiological metabolism in heterotrophically grown C. protothecoides and on the exploration and application of the lipid compounds in this kind of algae.     

Isolation, culture and characterization of a new strain of Euglena gracilis

A new strain of Euglena gracilis Klebs has been isolated from a highly polluted river; it was named MAT. Strain growth in different culture media was evaluated under heterotrophic and autotrophic conditions. Total lipid, sugar, protein and chlorophyll a production were studied. Results obtained for MAT were compared with data obtained for a UTEX Culture Collection strain. Likewise, cells from both strains were bleached using streptomycin, and grown in the same media used for green samples. Both MAT and UTEX showed clear differences in their biochemical composition and growth rate depending on the media used. They also exhibited different growth patterns. E. gracilis medium proved to be the best culture environment for both strains either in autotrophic or heterotrophic conditions. Results show that basal contents of lipids, sugars, proteins and chlorophyll a vary depending on the strain, and thus values obtained for one strain do not apply to another. Moreover, strain origin may have an influence on the mechanisms of adaptation or defense developed by each sample.     

不同营养条件下原始小球藻对蒽的富集和降解研究

研究了自养与异养条件下原始小球藻对蒽的降解和富集能力 .结果表明 ,自养条件下 ,浓度为1 0mg·L-1的蒽有 48.18%被降解 ,其中 2 8.81%属于自然光降解 ,仅有 19.37%被原始小球藻降解 .而异养条件下的原始小球藻对浓度为 2 .5mg·L-1的蒽降解率达到 33.5 3%,说明异养原始小球藻不仅能耐受高浓度蒽 ,而且表现出比自养原始小球藻更强的蒽降解能力 .两种条件下 ,80 %以上残留的蒽都被富集到藻细胞中 .虽然自养条件下原始小球藻对蒽的生物富集系数达 90 6 4,远大于异养条件下的生物富集系数(1899) ,但异养条件下藻对蒽的绝对富集量 (2 0 2 .2 9μg)远远高于自养条件下的 6 9.6 87μg .     

AUTO-, HETERO-, AND MIXOTROPHIC GROWTH OF CHLAMYDOMONAS HUMICOLA (CMLOROIMIYCKAK) ON ACETATE1

Relative growth rate, isocitrate lyase activity, chlorophyll, protein, lipid, and soluble carbohydrate contents were investigated in Chlamydomonas humicola Lucksch during auto-, mixo-, and heterotrnphic growth. Mixotrophic cells have a relative growth rate of 1.66 d ^–1as compared to 0.78 d ^–1 and 0.21 d ^–1 for hetero- and autotrophic cells, respectively. Addition of acetate to autotrophic cells resulted in an increase in cell dry weight during the first day, followed by a rapid decrease and stabilization at 40 pg·cell ^–1. Cellular yield of mixotrophu cells, on a dry weight basis, was 6.6 times that of heterotrophic cells and 21.9 limes that of autotrophic ones. After 4 d, mixotrophic cells were characterized by higher chlorophyll (3.6% dry weight [d.w.]) and protein (58.6% d.w.) contents and lower lipid (4.8% d.w.) and soluble carbohydrate (1.3% d.w.) contents than those of autotrophic (2.6% d.w. chlorophyll, 31.0% d.w. protein, 10.2% d.w. lipid, and 6.5% d.w. soluble carbohydrate) and heterotrophic (1.5% d.w. chlorophyll, 36.9% d.w. protein, 5.6% d.w. lipid, and 6.0% d.w. soluble carbohydrate) cells. The ratio of chlorophyll a/b was highest in heterotrophic cells due to lower chlorophyll b content. Isocitrate lyase activity, a key enzyme in ecetate assimitation, could not be detected in autotrophic cells. Addition of 10 mM acetate to the culture medium of hetero- and mixotrophic cells resulted in increased isocitrate lyase activity with a maximum after 24 h, followed by a decline in activity over a 7-d period. After 7 d of growth, only 0.01 mM acetate was found in the culture medium of mixotrophic cells as compared to 3.2 mM in the medium of heterotrophic ones, from an initial concentration of 10 mM.     

High quality biodiesel production from a microalga Chlorella protothecoides by heterotrophic growth in fermenters

The aim of the study was to obtain high quality biodiesel production from a microalga Chlorella protothecoids through the technology of transesterification. The technique of metabolic controlling through heterotrophic growth of C. protothecoides was applied, and the heterotrophic C. protothecoides contained the crude lipid content of 55.2%. To increase the biomass and reduce the cost of alga, corn powder hydrolysate instead of glucose was used as organic carbon source in heterotrophic culture medium in fermenters. The result showed that cell density significantly increased under the heterotrophic condition, and the highest cell concentration reached 15.5 g L(-1). Large amount of microalgal oil was efficiently extracted from the heterotrophic cells by using n-hexane, and then transmuted into biodiesel by acidic transesterification. The biodiesel was characterized by a high heating value of 41 MJ kg(-1), a density of 0.864 kg L(-1), and a viscosity of 5.2 x 10(-4) Pa s (at 40 degrees C). The method has great potential in the industrial production of liquid fuel from microalga.     

Sequential heterotrophic/autotrophic cultivation – An efficient method of producing Chlorella biomass for health food and animal feed

Sequential heterotrophic/autotrophic cultivation method was investigated for production of high concentration of Chlorella biomass with high cellular protein and chlorophyll contents. By using autotrophic growth medium, which contains glucose as organic carbon source, for heterotrophic culture, the protein and chlorophyll contents of the cells could be increased by simply illuminating the culture broth and aerating with CO₂-enriched air at the end of the heterotrophic culture. A system was then constructed for continuous sequential heterotrophic/autotrophic production of algal biomass. The system was composed of the conventional mini-jar fermentor for the heterotrophic phase and a tubular photobioreactor for the autotrophic phase. The exhaust gas from the heterotrophic phase was used for aeration of the autotrophic phase in order to reduce the CO₂ emission into the atmosphere. With this system, it was possible to produce high Chlorella biomass concentration (14 g L-¹) containing 60.1% protein and 3.6% chlorophyll continuously for more than 640 h. During the steady state, about 27% of the CO₂ produced in the heterotrophic phase was re-utilized in the autotrophic phase. When the tubular photobioreactor was replaced with a 3.5-L internally illuminated photobioreactor, the productivity increased from 2 g L-¹ d-¹ to 4 g L-¹ d-¹. However, the chlorophyll content of the cells was lower due to the lower light supply coefficient of the photobioreactor. This revised version was published online in August 2006 with corrections to the Cover Date.     

High yield of hydrocarbon gases resulting from pyrolysis of yellow heterotrophic and bacterially degradedChlorella protothecoides

Four kinds of cells ofChlorella protothecoides, green autotrophic cells, bacterially degraded green autotrophic cells, yellow heterotrophic cells and bacterially degraded yellow heterotrophic cells, were used to simulate thermal degradation and gas formation by heating without oxygen at 300°C for 100 h. The yield of pyrolysed hydrocarbon gases in yellow heterotrophic cells with bacterial degradation was 8.5 times higher than that of green autotrophic cells without bacterial degradation. The use of bacterially degraded yellow heterotrophic cells resulted in relatively more lipid and less protein. The results suggest that the hydrocarbon-producing potential of microplanktonic algae in nature may be greater than previously thought based on studies of green autotrophic cells.     

猕猴桃愈伤组织的生理差异与原生质体生长和分化的关系

美味猕猴桃和中华猕猴眺子叶愈伤组织系A_(16)N_1,A_(11)B_2和A_(14)N_7,A_(14)B_2的生理分析表明:愈伤组织系A_(16)N_1和A_(14)N_7的原生质体再生细胞能持续分裂。而愈伤组织系A_(11)B_2和A_(14)B_2的原生质体再生细胞不能持续分裂。前两个愈伤组织系的多胺含量高,酚酸含量低,超氧物歧化酶活性高。过氧化物酶活性低,可溶性蛋白质和氨基酸含量高,说明用于取得并分离原生质体的材料的生理状态对原生质体生长、分化有影响。     

Growth and carbohydrate metabolism of sulfobacilli]

The moderately thermophilic acidophilic bacteria Sulfobacillus thermosulfidooxidans, strain 1269, S. thermosulfidooxidans subsp. "asporogenes," strain 41, and the thermotolerant strain S. thermosulfidooxidans subsp. "thermotolerans" K1 prefer mixotrophic growth conditions (the concomitant presence of ferrous iron, thiosulfate, and organic compounds in the medium). In heterotrophic and autotrophic growth conditions, these sulfobacilli can grow over only a few culture transfers. In cell-free extracts of these sulfobacilli, key enzymes of the Embden-Meyerhof-Parnas, pentose-phosphate, and Entner-Doudoroff pathways were found. The role of a particular pathway depended on the cultivation conditions. All of the enzymes assayed were most active under mixotrophic conditions in the presence of Fe2+ and glucose, suggesting the operation of all of the three major pathways of carbohydrate metabolism under these conditions. However, the operation of the Entner-Doudoroff pathway in strain 41 was restricted under mixotrophic conditions. After the first culture transfer from mixotrophic to heterotrophic conditions, the utilization of glucose occurred only via the Embden-Meyerhof-Parnas and Entner-Doudoroff pathways. After the first culture transfer from mixotrophic to autotrophic conditions, the activity of carbohydrate metabolism enzymes decreased in all of the strains studied; in strain K1, only the glycolytic pathway remained operative. The high activity of fructose-bisphosphate aldolase, remaining in strain 41 cells under these conditions, suggests the involvement of this enzyme in the reactions of the Calvin cycle or of gluconeogenesis.