拟衣藻属一新种——中华拟衣藻及其生活史的研究

报道了团藻目衣藻科拟衣藻属一新种。此种从中国科学院武汉植物研究所一浇园粪缸中采得,在分离室内单种培养过程中,对其形态学和生活史进行了研究。营养细胞具有多个盘状色素体,与拟衣藻属已知的种类有明显的差别。经培养观察,作者发现除细胞分裂、无性生殖外,还有同宗异配式有性生殖,在生活史各阶段该藻中绿体中均未见蛋白核,因此,拟衣藻作为分类单元是一个有效的属。     

超微结构在藻类系统分类中的作用

长期以来,人们就对种类繁多的藻类植物进行分门别类的研究,并企图建立一个科学的自然系统。由于藻类植物多数个体小,缺乏易于区分的外部形态特征,给研究工作造成一定困难。现代藻类分类系统的建立,主要依据化学资料和解剖学资料。近年来由于研究方法的不断改进,特别是电子显微镜的运用,解决了许多藻类分类学中的疑点,有力地推动了藻类学的发展。     

中国衣藻科(团藻目)新资料

报道了湖北省武汉市团藻目4个属的8个中国新记录。     

衣藻叶绿体分裂基因CrFtsZ1在E.coli中的表达

FtsZ蛋白在细菌的分裂中起着重要作用,能够在分裂位点形成一个环状结构而控制细菌的分裂过程。细胞内FtsZ蛋白浓度的明显降低或异常升高均可阻断正常的细胞分裂过程进而导致丝状菌体的产生。为了研究衣藻叶绿体分裂基因ftsZ的功能,构建了衣藻CrFtsZ1的原核表达重组质粒。试验结果表明,衣藻ftsZ的表达严重影响了大肠杆菌的分裂,初步证明衣藻FtsZ蛋白不仅与E．coli FtsZ蛋白在序列上相似,而且也有着相似的功能,同时这一结果也为真核细胞中质体的内共生起源提供了直接的证据。     

衣藻叶绿体表达系统的研究

真核藻类作为一种新型的蛋白表达系统,因其培养方法简单,成本低廉并且能大规模繁殖,最近几年成为人们关注的焦点.作为一种模式生物,单细胞的真核生物莱茵衣藻已经成为人们研究的重点.外源蛋白不仅能在衣藻核中进行表达而且也能在叶绿体中表达,但衣藻叶绿体的表达系统较之核表达有巨大的优越性.在到目前为止,已经有许多的药用蛋白在莱茵衣藻的叶绿体中成功表达的报道,证明了莱茵衣藻叶绿体作为生物反应器的能力.将对衣藻叶绿体的表达做详细的描述.     

莱茵衣藻叶绿体生物反应器研究进展

莱茵衣藻(Chlamydomonas reinharditi)是一种遗传机制已研究比较清楚的模式植物。近年来,生物反应器是当今世界上各国生物技术研究的一个热点,随着生物技术的发展,已成功实现衣藻作为生物反应器生产重组蛋白及抗体,生产的部分产品已经实现了商品化,与其他生物反应器相比,其在外源基因表达水平和转基因植物安全性等方面有明显的优势,尤其是在控制转基因沉默和遗传稳定性方面展示了极大的优越性。因此,莱茵衣藻是一种具有很好发展前景的生物反应器,必将在未来的药用蛋白生物技术领域发挥重要作用。主要对提高基因在莱茵衣藻叶绿体中表达的策略,转化技术的特点及其未来的发展前景等方面进行了简单评述。     

衣藻(Chlamydomonas sp)中间纤维及核纤层存在的证实(简报)

衣藻(Chlamydomonas sp)是属于绿藻门的最低等单细胞植物,为典型的真核生物。迄今以衣藻为材料所作的有关细胞骨架方面的研究多集中在微管蛋白(tubulin)。C.J.Miller等曾以衣藻(Chlamydomonas reinhardtii)全蛋白与几种中间纤维抗体进行免疫印迹实验有阳性反应,但是衣藻中是否存在中间纤维与核纤层是不清楚的问题。衣藻中间纤维与核纤层的形态研究更未见报道。目前认为中间纤维-核纤     

衣藻叶绿体表达重组蛋白及表达优化策略

近年来,转基因技术已日趋成熟,医学、工业上的应用也越来越广泛。以重组蛋白为基础的药物治疗是目前医药生产领域发展最快的一项技术。它们的高特异性和低副作用使得治疗效率十分突出。但是重组蛋白表达的复杂性也给生产带来了一定限制。为了促进重组蛋白的应用,人们对适宜其表达的系统和能促进其表达的策略进行了探索。研究发现,衣藻叶绿体作为重组蛋白的生物反应器,能实现重组蛋白快速、高效、低成本生产。同时,衣藻能在人工培养基和人为控制的条件下生长,降低了受污染的风险,与传统的生产系统比较具有不可比拟的优越性。因此,衣藻叶绿体作为医药重组蛋白生物反应器在未来的生物技术领域将发挥巨大作用。     

衣藻生物制氢的研究进展

综述了利用衣藻生产氢气作为再生能源的研究进展。分别介绍了衣藻产氢的代谢机理、培养条件、衣藻氢化酶的特性以及利用分子生物学手段、生物信息学手段和生物工程技术提高衣藻生物制氢效率的方法,包括氢化酶的氧耐受性的改造、外源氢化酶基因的表达、影响衣藻产氢的关键基因的筛选、利用缺硫培养基和固定化培养方法提高氢气产量等。最后,还对利用衣藻生物制氢的可行性和经济性进行了分析,对其发展方向提出自己的看法。     

THE OPTIMUM PH OF FOUR STRAINS OF ACIDOPHILIC SNOW ALGAE IN THE GENUS CHLOROMONAS (CHLOROPHYTA) AND POSSIBLE EFFECTS OF ACID PRECIPITATION1

Four axenic strains of snow algae were examined for optimum pH under laboratory conditions using M-1 growth medium. Growth was measured using cell counts, cell measurements and absorbance readings at 440 nm. Strains C204 and C479A of Chloromonas sp. from the Adirondack Mountains, New York, grew optimally at pH 4.0 to 5.0. Strains C381F and C381G, Chloromonas polyptera (Fritsch) Hoh., Mull. & Roem. from the White Mountains, Arizona, grew optimally at pH 4.5 to 5.0. Growth was significantly higher at pH 4.0 in the northeastern species (Chloromonas sp.), but no significant difference was observed in final growth at pH 4.5, 5.0 and 5.5 between species. It is postulated that the more acidic precipitation in the northeastern United States may be selecting for strains of snow algae with greater tolerance to acidity than in strains from the southwestern United States or that the different pH optima reported are simply species differences. New York strain C204 was also grown in heavily buffered AM medium where it had an optimum pH of 5.0, but cells became irregularly shaped and tended to clump at pH 6.0 to 7.0. Growth of C204 in AM medium was significantly lower than in M-1 medium for snow algae. These findings justify the use of M-1 medium for this type of experimentation.     

杜鹃属的系统发育与进化

本文以形态学为基础,结合一些新的有关资料,如解剖学、细胞学、化学等方面的证据讨论了杜鹃属的系统发育与进化问题,认为常绿杜鹃亚属在本属系统发育中处于原始地位,其中的云锦杜鹃亚组、耳叶杜鹃亚组、大叶杜鹃亚组和杯毛杜鹃亚组等4个亚组是原始类群,也即是其祖先的直接后裔。本属的原始祖先是具常绿习性,各部无毛(也无鳞片),花部不定数,具复合三叶隙构造的乔木,即类似现存原始类群的植物,它们生长于白垩纪至早第三纪古北大陆南缘,大约在我国西南部的热带山区森林环境中。随着地史的变迁,杜鹃属在漫长的进化过程中平行进化和发展为两个进化枝,一枝分化成各部被鳞片的热带附生类群或高山类群(包括4个亚属),另一枝演变为多少被毛的温带林下的半常绿至落叶类群(3个亚属),有鳞的髯花杜鹃组及落叶的日本马银组和落叶杜鹃组是两个进化枝演化上的高级类群。     

PHYLOGENYOF CHLOROMONAS (CHLOROPHYCEAE): A STUDY OF 185 RIBOSOMAL RNA GENE SEQUENCES1

The unicellular, biflagellate genus Chloromonas differs from its ally, Chlamydomonas, primarily by the absence of pyrenoids in the vegetative stage of the former. As with most green flagellate genera, little is known about phylogenetic affinities within and among Chloromonas species. Phylogenetic analyses of nuclear-encoded small-subunit ribosomal RNA gene sequences demonstrate that a sampling of five Chloromonas taxa, obtained from major culture collections, do not form a monophyletic group. However, only three of these isolates, Chloromonas clathrata, Chloromonas serbinowi, and Chloromonas rosae, are diagnosable morphologically as Chloromonas species by the absence of a pyrenoid in the vegetative stage. The three diagnosable Chloromonas taxa form an alliance with two pyrenoid-bearing chlamydomonads, Chlamydomonas augustae and Chlamydomonas macrostellata. With the exception of Chloromonas serbinowi, which represents the basal lineage within the clade, each of the diagnosable Chloromonas taxa and their pyrenoidbearing Chlamydomonas allies were isolated originally from mountain soils, snow, or cold peat. These observations suggest that habitat, independent of pyrenoid status, may be most closely linked to the natural history of this clade of chlamydomonad flagellates.     

PHYLOGENY OF THE GENUS ROSTANGA (NUDIBRANCHIA), WITH DESCRIPTIONS OF THREE NEW SPECIES FROM SOUTH AFRICA

Rostanga elandsia sp. nov., Rostanga aureamala sp. nov. andRostanga phepha sp. nov. are characterized by having the radulawith slender innermost lateral teeth, which lack denticles onthe inner side of the cusp and have a single denticle on theouter side. The outermost lateral teeth of these three speciesare elongate, but shorter than in other species of the genus.In addition, R. aureamala is the only species of the genus withrachidian teeth and R. phepha is unique within the genus Rostanga byvirtue of its white coloration with dark spots. A phylogenetic analysis shows that the three new species fromSouth Africa and Rostanga setidens (Odhner, 1939) are the sistergroup of the rest of the genus. The species from Japan and MarshallIslands (North Pacific Ocean) are basal in the sister cladecontaining the other species of Rostanga Bergh, 1879. The tropicalIndo-Pacific species of Rostanga are not monophyletic. The Atlanticand Eastern Pacific species form a monophyletic, derived clade,being the sister group of Rostanga australis Rudman & Avern,1989, which has a narrow range restricted to south eastern Australia.The widespread Indo-Pacific species Rostanga bifurcata Rudman& Avern, 1989, is the sister group of Rostanga dentacus Rudman& Avern, 1989, also widesprad in the tropical western Pacific. This phylogeny suggest s a viariant origin of the Sourth African, Atlantic-EasternPacific, and probably North Pacific species, whereas in thetropical Indo-Pacific most sister speceis are sympatric. (Received 16 May 1999; accepted 31 July 2000)     

仰鼻猴属(RHINOPITHECUS)的系统分类地位

自Milne-Edwards(1868-1974)将四川宝兴标本另立新属--仰鼻猴属(Rhinopithecus,1872=Semnopithecus,1870)以来,其属名一直被分类学家、形态学家和灵长类学家等所承认和采用(Elliot,1913; Hill,1936; Allen,1938;Simpson、1945;Buettner-Janusch,1963;Napier等,1967,等)。     

CLASSIFICATION,DISTRIBUTION AND PHYLOGENY OF THE GENUS ENKIANTHUS

The genus Enkianthus is one of the genera of Ericaceae, It contains 13 species, distributing in eastern Asia. Many studies of the genus Enkianthus made by predecessors did not have divide the infrageneric taxa and discuss evOlutionary trend of the genus. The present author divides the genus into 3 sections(Sect.Ⅰ. Enkianthus, Sect. Ⅱ.Racemuss and Sect. Ⅲ. Monanthus)and also discusses the evolutionary trend of the genus. In this paper 1 new specios has been discribed, with the figure of the type specimen.     

SPERM WHALE PHYLOGENY REVISITED: ANALYSIS OF THE MORPHOLOGICAL EVIDENCE

Some recent analyses of three mitochondrial DNA regions suggest that sperm whales are the sister group to baleen whales and, therefore, the suborder Odontoceti (toothed whales) constitutes a paraphyletic group. I cladistically analyzed the available morphological data, including that from relevant fossil taxa, for all families of extant cetaceans to test this hypothesis. The results of this analysis unambiguously support a monophyletic Odontoceti including the sperm whales. All synapomorphies that support the Odontoceti node are decisive, not related to the evolution of highly correlated characters, and provide the same result regardless of what order of mammals is used as an outgroup. These numerous, anatomically diverse, and unambiguous characters make this clade one of the best-supported higher-level groupings among mammals. In addition, the fossil evidence refutes a sperm whale/baleen whale clade. Both the molecular and morphological data produce the same unrooted tree. The improper rooting of the molecular tree appears to be producing these seemingly incongruent phylogenies.