Microscopic Observation of Pyrenoids in Order Ulvales(Chlorophyta) Collected from Qingdao Coast

Pyrenoids found in green algae Order Ulvales have taxonomical significance.Their morphology,microstructure,and the location and number in the cells have been widely used as identification criteria. As these traits can be affected by environmental conditions,it is necessary to look for other different characteristics.Here pyrenoids in several algae species collected along the Qingdao coast were studied for such purpose. The morphology and distribution of pyrenoids in the cells,as well as their change in different parts of the frond and at different times were studied with light microscope.The results are as follows.Pyrenoids appeared to be spherical or oval in observed Ulvales'algae cells.They were embedded in chloroplasts with the number of 1-3 per cell on average.The number of pyrenoids for Ulva pertusa could change drastically with continuing culture and could reach up to 10-20 per cell in late-growth stages.Generally, the pyrenoids in the marginal part were more observable than those in the central part for Ulva pertusa. In addition, the basal part of frond had more distinct pyrenoids with an average diameter of 2.42 μm for Enteromorpha linza. For some species the pyrenoids were difficult to be observed while dark treatment made them more distinguishable.The apoptosis rate of pyrenoids in different species varied under continuing dark treatment, which could be used to identify different species. Pyrenoids disappeared faster in E. linza than those in E.intestinalis.

Effects of CO_2 Enrichment on Microstructure and Ultrastructure of Two Species of Freshwater Green Algae

order to investigate the morphological response of freshwater green algae to elevated CO2 concentration, Chlamydomonas reinhardtii Dang and Scenedesmus obliquus Kutz were cultured with enriched CO2, and their microstructure and ultrastructure were examined by microscopy and electron microscopy. The effect of CO2 enrichment to 186 mumol/L, was insignificant on the shape and size of C. reinhardtii, but significant in reducing the volume of S. obliquus. High-CO2 increased the amount of chloroplast. The pyrenoids occurred in low-CO2-grown cells but not in high-CO2-grown ones and more starch granules were observed in the former.

条浒苔蛋白核超微结构和Rubisco及其活化酶分子定位

研究了条浒苔蛋白核超微结构及其Rubisco和Rubisco活化酶金相免疫分子定位。超微结构显示,条浒苔细胞具有形态及组成相同的1～2个蛋白核,每个蛋白核被淀粉鞘所包围。蛋白核中央均有1条由1个类囊体构成的纵向孔道,并有时局部特别膨大。纵向孔道两端与叶绿体基质相连接。小球藻Rubisco抗体对条浒苔Rubisco的Western印迹图谱显示仅为1条带,其位置与SDS-PAGE电泳图谱上的主带相对应,分子量大约为55kD。金相免疫分子定位的结果显示,条浒苔Rubisco金标颗粒主要分布于叶绿体的蛋白核(71.86%)和淀粉鞘(27.94%)部位中,按面积密度计算二者总和占99.8%,极少分布在叶绿体类囊体和基质中(0.2%)。Rubisco活化酶分子定位也显示其主要分布于蛋白核和淀粉鞘中。这些结果均表明条浒苔蛋白核(及淀粉鞘)与单细胞绿藻的蛋白核相同,具有光合作用功能。条浒苔Rubisco初始活性和总活性的测定结果表明,其活化率较高,高达77.62%。

稀土元素对小球藻生长的影响

研究稀土元素镧（Ｌａ）、铈（Ｃｅ）、镨（Ｐｒ）、钕（Ｎｄ）及其混合物对蛋白核小球藻（Ｃｈｌｏｒｅｌｌａｐｙｒｅｎｏｉｄｅｓ）生长的影响。结果表明，低浓度（２ｍｇ／Ｌ）稀土元素对小球藻生长影响不大；随处理浓度的提高（１０—２００ｍｇ／Ｌ），稀土元素对小球藻生长产生明显的抑制作用。各元素对小球藻的毒性顺序（按ＥＣ（５０）计）依次为：Ｎｄ＞Ｃｅ＞Ｐｒ＞Ｌａ＞混合稀土，但毒性差异很小。

养殖污水中蛋白核小球藻的分离鉴定及其污水处理效果

利用BG-11培养基从养殖污水中分离和筛选到小球藻,采用相差显微镜对其外部形态进行观察、傅里叶红外光谱分析球藻组成、X-ray方法分析其晶体组成、凯氏定氮以及有机溶剂萃取方法分别测定其蛋白质以及脂质含量、丙酮萃取法测定其叶绿素a以及国标法测定其处理污水效果。结果表明:根据相差显微镜对球藻外部观察,初步判断该小球藻为蛋白核小球藻;红外光谱测定结果表明,在波数1 080和1 240 cm^(-1)处均有明显的吸收峰,证明了该研究分离的小球藻含有大量蛋白质以及糖类和脂类成分;X-衍射分析结果显示在32°和20°两处均有明显的吸收峰,证明了本研究分离的小球藻含有蛋白质和脂类成分;定量成分测定表明该蛋白核小球藻蛋白质量分数为45.6%,脂质质量分数为8.1%;污水处理结果为化学需氧量去除率为70.9%;总氮、总磷去除率分别为23%和34.7%。该研究对蛋白核小球藻蛋白含量、脂肪含量的测定以及提取进行了分析,证明了蛋白核小球藻对养殖场污水的处理具有很好的效果,为生物新资源的开发以及水环境治理提供了一定的参考。

几种藻类蛋白核的超微结构研究

应用电镜及免疫电镜技术对莱茵藻、小球藻、条浒苔和紫菜等藻类的叶绿体蛋白核的超微结构及主要组成成分进行了观察和研究。结果显示 :不同藻类的蛋白核结构不同 ,显示了藻类蛋白核的多样性。蛋白核为球形或椭圆形 ,由蛋白质组成。莱茵藻、小球藻和条浒苔的蛋白核外围被淀粉鞘所包围 ,而紫菜的蛋白核外围无淀粉鞘而直接被叶绿体的类囊体所包围。淀粉鞘由淀粉组成 ,淀粉鞘的厚薄与藻体藻龄及增养状态有关系。在蛋白核中央 ,一般都具有由类囊体形成的孔道 ,使蛋白核与外界联系 ,小球藻和条浒苔蛋白核具有 1条纵向孔道 ,而莱茵藻和紫菜为多条孔道。金相免疫技术检测结果显示Rubisco和Rubisco活化酶均在蛋白核及淀粉鞘区域中定位 。

灯心草抗菌活性成分的研究

以薄层色谱自显影生物技术指导分离,研究灯心草的抗菌活性成分.采用正相和反相硅胶柱色谱法和重结晶技术,从该植物的乙酸乙酯提取物中分离到两个化合物.化合物经1H NMR,13CNMR,ESIMS分别鉴定为2,7-二羟基-1,6-二甲基-芘(Ⅰ)和dehydroeffusol(Ⅱ).用滤纸扩散法测定dehydroeffusol的抗菌活性,结果显示:dehydroeffusol对所测试的4种革兰氏阳性菌和白色念珠菌显示一定的抗菌活性,对所测试的4种革兰氏阴性菌无明显抑制作用.

三十烷醇对3种单细胞藻类生长的影响

探讨了不同浓度的三十烷醇对蛋白核小球藻、斜生栅藻、菱形硅藻生长及生理活性的影响。结果表明,三十烷醇对这3种单细胞藻的细胞增殖、叶绿素a和光合放氧量均有明显促进作用,对小球藻、栅藻和硅藻的促生长最佳浓度分别为2 mg/L、5 mg/L和0.01 mg/L。

小球藻Rubisco在叶绿体中的免疫金标定位

应用免疫技术对Rubisco在中国小球藻(Chlorella spp.640909)叶绿体中进行了分子定位及Native-PAGE电泳、SDS-PAGE电泳及其Westen印迹分析,并对小球藻淀粉核(Pyrenoid)超微结构进行了观察。结果显示:Native-PAGE电泳图谱主要为一条主带,Westen印迹反应证明该条带即为Rubisco酶,SDS-PAGE电泳及其Western印迹图谱显示Rubisco大亚基分子量大约为55kD。中国小球藻淀粉核为椭圆形,被淀粉鞘所包围,中央有一条由2个类囊体组成的纵向通道,并在蛋白核内段处稍膨胀。淀粉核与叶绿体基质存在多处联系。免疫分子定位显示Rubisco大亚基和全酶分子主要分布于叶绿体的淀粉核上,且Rubisco在淀粉鞘部位也有少量分布,极少部分分布在叶绿体基质中,表明叶绿体淀粉核与光合作用关系密切。Rubisco聚集于淀粉核可能有利于藻类对CO_2固定。

CO_2浓度对条浒苔Rubisco酶聚集蛋白核的影响

以生长快速、细胞具多个蛋白核的大型海藻条浒苔作为材料研究CO_2浓度对条浒苔Rubisco酶在蛋白核和叶绿体基质之间迁移的影响。应用金标免疫电镜分子定位技术对Rubisco酶集中蛋白核程度进行数值化分析。电镜下可观察到标记Rubisco的金颗粒大部分集中分布在蛋白核中。根据Morita(1997)提出的方法,设定PR-ratio值(蛋白核内分布的Rubisco酶总量与蛋白核外类囊体基质中的Rubisco酶总量之比)作为衡量Rubisco集中蛋白核程度的分析指标。不同CO_2浓度对于Rubisco酶分布的长期影响和短期影响研究均显示CO_2浓度升高时,Rubisco倾向于向叶绿体基质中扩散;CO_2浓度较低或无CO_2培养时,Rubisco酶不断向蛋白核中集中。研究结果显示,蛋白核可能在光合作用和CCM机制中具有重要作用。

不同CO_2浓度下培养的蛋白核小球藻细胞结构的变化

Elevated CO2 concentration had insignificant effect on shape and size of Chlorella pyrenoidosa, but increased the amount of Chloroplast. Pyrenoids were found in low-CO2-grown cells, but not in high-CO2-grown cells. The chloroplast lamella of low-CO2-grown cells had higher electrical density than that of high-CO2-grown cells.

复合氨基酸对小球藻的生长、叶绿素a含量及光合放氧量的影响

研究了液体和固体复合氨基酸对蛋白核小球藻(Chlorella pyrenoides)生长和生理活性的影响。结果表明,两种复合氨基酸对小球藻生长、叶绿素a含量和光合放氧量均有显著促进作用,液体复合氨基酸和固体复合氨基酸对小球藻促生长的最佳浓度分别为40 mg/L和11.12 mg/L。当液体复合氨基酸浓度为40 mg/L,相对生长率(RGR)较对照组增加了81.58%,平均倍增时间(G)缩短了45.08%,叶绿素a含量和光合放氧量比对照组分别增加了(72.25±1.69)%和(38.05±2.58)%;当固体复合氨基酸浓度为11.12 mg/L,相对生长率较对照组增加了17.31%,平均倍增时间缩短了14.48%,叶绿素a含量和光合放氧量比对照组分别增加了(119.03±4.72)%和(34.49±1.98)%。

宽礁膜生活史各阶段细胞的超微结构

大型海藻细胞超微结构的研究,对于海藻的基础理论及应用研究具有十分重要的作用,本文比较系统地对宽礁膜游孢子、配子体、配子、合子和游孢子囊进行了电镜观察。研究结果表明,淀粉粒在各阶段细胞中的数量变化、初期合子外的胶质膜对合子的固着作用、游孢子囊的厚壁与其对不良环境的抵抗能力等都表明各阶段形体的超微结构与其生理功能是一致的。蛋白核的超微结构特征可作为礁膜属种类的一个分类依据,它是对以形态、生活史等为主要分类依据的有力补充。宽礁膜各阶段细胞内均具1个较大的蛋白核,有2条(游孢子囊时有时为3条)类囊体片层穿过蛋白核髓部,外有3～4枚或更多的淀粉鞘包被,籍此可将宽礁膜与其它礁膜属种类相区别。

拟衣藻系统分类新证据

拟衣藻 (Chloromonas)与衣藻属 (Chlamydomonas)的亲缘关系及分类学位置在藻类学界一直没有定论。其重要原因是单细胞鞭毛类是否具有蛋白核这一特征在系统分类学上具有重要意义 ,而光镜形态与色素体上具 1到多个蛋白核的衣藻极其相似的拟衣藻 ,其不具蛋白核这一特征的稳定性受到许多学者的怀疑。本文观察并报道了中华拟衣藻 (ChloromonasSinica)的超微结构 ,通过对拟衣藻与衣藻超微结构的探究和比对 ,发现除了从孢子时期开始的整个生活史中 ,中华拟衣藻都不具蛋白核外 ,无论显微还是超微结构 ,拟衣藻与衣藻都显示出高度的相似性。从而提出在尚未获得更多资料之前 。

Taxonomy and ultrastructure of five species of Tetraselmis (Prasinophyceae) isolated from China seas

Comparative ultrastructural investigations on twenty-three isolates of Tetraselmis from the South China Sea, East China Sea and Huanghai Sea, have revealed that these isolates belong to:(1)Tetraselmis chui Butcher; (2)T. cordiformis (H. J. Carter) Stein; (3)T. helgolandica Kylin; (4)T. suecica (Kylin) Butcher; (5)T. guangdongensis sp. nov. Except T. helgolandica, the others are new records in China. T. guangdongensis sp. nov. is a new species. Its external and anatomical features closely resemble those of T. impellucida McLachlan et Parke. As in that species the pyrenoid is penetrated from many directions by cytoplasmic channels delimited by a double membrane. The protoplast withdraws from the apical portion of the theca, that portion which overlaid the trough inverts and pops out in the form of a teat. But unlike that species a starch sheath is present; pyrenoid matrix is surrounded by thylakoids which intervenes between the matrix and the starch sheath surrounding pyrenoid; the theca is stratified.

光照因素封Rubisco酶在蛋白核内外分布的影响

制备了条浒苔Rubisco酶及其抗体，并应用于研究光照因素对Rubisco酶在蛋白核内外分布的影响。应用生化技术分离纯化了条浒苔Rubisco酶，并免疫注射入兔体制备了Rubisco抗体，经鉴定Rubisco大小亚基分子量分别约为50kD和16kD，全酶的分子量在500kD左右。应用金标免疫电镜分子定位技术封Rubisco酶集中蛋白核程度进行数值化分析。发现在光强变化长期影响实验中，当藻体转入较高光强时，Rubisco明显由叶绿体基质向蛋白核中聚集，从而更好地完成其光合作用功能。在完全黑暗处理和光合作用阻断剂DCMU处理短期影响中，并未观察到PR-ratio的明显降低，但PR-ratio在24小时中的波动被提前，这可能是由于正常生物节律的破坏和藻类对不良环境的反应机制造成。此外，结果显示条浒苔封光强的微小变化并不敏感。

衣藻淀粉核中存在类角蛋白中间纤维网架

采用选择性抽提结合 ＤＧＤ（ｄｉｅｔｈｙｌｅｎｅ ｇｌｙｃｏｌ ｄｉｓｔｅａｒａｔｅ） 包埋电镜技术在衣藻（Ｃｈｌａｍｙｄｏｍ ｏｎｓａ ｓｐ．）淀粉核中观察到直径１０ ｎｍ 的纤维网架，以哺乳动物角蛋白抗体进行免疫胶体金标记，在淀粉核区域有很强的特异性结合，间接免疫荧光染色得到相似结果。

Neglectella glomerata sp.nov.,a new species and implications for the systematics of the genus Neglectella(Oocystaceae,Trebouxiophyceae,Chlorophyta)

The genus Neglectella Vodenicarov&Benderliev has a morphology similar to the well-known genus Oocystis,except for the numerous chloroplasts stacked in the surface layer of the cell.Neglectella subsequently experienced complex taxonomy changes with members being transferred in and out,and five species are now accepted.In this study,a new alga with morphology corresponding to this genus was collected in China and successfully cultured in laboratory.Morphological observations in light microscopy and transmission electronic microscopy(TEM)and phylogenetic analyses revealed that it is a new species,described here as Neglectella glomerata sp.nov.It differed from other Neglectella species due to a morphological difference in its unique mucilaginous colony with a large number of cells,multiple pyrenoids in each chloroplast,smaller cell size,and more elongated cell shape.Phylogenetic analyses placed this alga in the subfamily Eremosphaeroideae of the family Oocystaceae and showed its close relationship with Neglectella peisonis.Further morphological comparisons combined with phylogenetic results revealed three different morphological types in Neglectella.The new type represented by our new species may represent a transitional morphology in intermediate taxonomic position between the other two types.The diversity of morphological types in Neglectella suggests that further unknown species of this genus are likely to be discovered in the future.More collections and DNA sequence data will be needed in the future for this genus.

光和暗条件培养的眼虫藻(Euglena gracilis)内RuBP羧化酶的免疫定位

应用免疫金标记技术证明,在眼虫藻和其它藻类中RuBP羧化酶主要分布在蛋白核部位,这与高等植物中RuBP羧化酶分布不同,在眼虫藻叶绿体间质中有少量RuBP羧化酶存在,这与高等植物中RuBP羧化酶的分布也有相似之处。 暗中培养的眼虫藻不能形成类囊体,无RuBP羧化酶,无光合能力,只能进行异养代谢。

云南石蕊共生藻形态及分子系统学研究

该研究以2016年采自云南凤凰山的云南石蕊(Cladonia yunnan)为材料,在无菌条件下,采用微量微管吸法和直接法分离纯化培养云南石蕊共生藻,利用光学显微镜观察共生藻细胞的形态结构特征,并对该共生藻进行分子系统学分析。结果表明:(1)从云南石蕊中仅分离到1种共生藻,该藻细胞大小约2.5~6μm,球形或椭球形,单细胞,不运动,色素体片状,无性繁殖,含有中央蛋白核和淀粉粒,且3~5个细胞包裹在粘液状的胶壳中,细胞核不可见。(2)该共生藻主要形态学特征与自由生活的胶球藻高度相似,根据采集地及形态特征将其命名为云南胶球藻(Coccomyxa sp.YN)。(3)基于对云南石蕊分子数据(rbcL,ITS)构建的云南石蕊共生藻的系统发育关系显示,云南胶球藻与胶球藻聚为一枝;ITS2 rRNA二级结构分析发现,云南胶球藻与胶球藻具有几乎一致的ITS2 rRNA二级结构。该研究首次揭示了胶球藻属(Coccomyxa)藻细胞与石蕊科地衣共生,且云南胶球藻与胶球藻具有高度一致的亲缘关系,而“地衣化”使两者细胞形态特征有明显差异,推测共生藻细胞可能是由自由生活的藻细胞进化而来。