chlamydomonas
chlamydomonas
1. LIGHT CONVERSION CHARACTERISTICS OF Chlamydomonas reinhardtii MUTANT DEFICIENT IN CPI
CPI大部分缺失影响莱茵衣藻光能转换特性的研究
2. Keywords DNA recombination;Chlamydomonas reinhardtii;wastewater treatment;
DNA重组;莱茵衣藻;废水处理;
3. Chlamydomonas asymmetrica
n. 不对称衣藻
4. Chlamydomonas intermedia
n. 中型衣藻
5. Chlamydomonas pseudogigantea
n. 伪巨大衣藻
6. Chlamydomonas klebsii
n. 凯氏衣藻
7. Chlamydomonas simplex
n. 单衣藻
8. Chlamydomonas ovalis
n. 卵形衣藻
9. Chlamydomonas eugametos
n. 卵配衣藻
10. Chlamydomonas mutabilis
n. 可变衣藻
11. Chlamydomonas acidophila
n. 嗜酸衣藻
12. Chlamydomonas noctigama
n. 夜配衣藻
13. Chlamydomonas paradoxa
n. 奇异衣藻
14. Chlamydomonas olifanii
n. 奥氏衣藻
15. Chlamydomonas conferta
n. 密集衣藻
16. Chlamydomonas microsphaella
n. 小球衣藻
17. Chlamydomonas minima
n. 小衣藻
18. Chlamydomonas acuta
n. 尖尾衣藻
19. Chlamydomonas branuii
n. 布朗衣藻
20. Chlamydomonas parallelistriata
n. 平纹衣藻
21. Chlamydomonas kuteinikovii
n. 库氏衣藻
22. Chlamydomonas mirabilis
n. 异常衣藻
23. Chlamydomonas minutissima
n. 微小衣藻
24. Chlamydomonas debaryana
n. 德巴衣藻
25. Chlamydomonas debaryana var. micropapillata
n. 德巴衣藻小乳突变种
26. Chlamydomonas snowiae
n. 斯诺衣藻
27. Chlamydomonas steinii
n. 施氏衣藻
28. Chlamydomonas stellata
n. 星芒衣藻
29. Chlamydomonas zebra
n. 条斑衣藻
30. Chlamydomonas striata
n. 条纹衣藻
31. Chlamydomonas atactogama
n. 椎鼻衣藻
32. Chlamydomonas elliptica
n. 椭圆衣藻
33. Chlamydomonas sphagnicola
n. 泥炭藓衣藻
34. Chlamydomonas pertusa
n. 洞孔衣藻
35. Chlamydomonas globosa
n. 球衣藻
36. Chlamydomonas similis
n. 相似衣藻
37. Chlamydomonas flosculariae
n. 簇轮衣藻
38. Chlamydomonas gracilis
n. 纤细衣藻
39. Chlamydomonas reticulata
n. 网状衣藻
40. Chlamydomonas gelatinosa
n. 胶衣藻
41. Chlamydomonas ehrenbergii
n. 艾氏衣藻
42. Chlamydomonas reinhardii
n. 莱哈衣藻
43. Chlamydomonas angulosa
n. 角衣藻
44. Chlamydomonas pisiformis
n. 豌豆形衣藻
45. Chlamydomonas komma
n. 逗点衣藻
46. Chlamydomonas epiphytica
n. 附生衣藻
47. Chlamydomonas nivalis
n. 雪衣藻
48. Chlamydomonas insignis
n. 非凡衣藻
49. Chlamydomonas proboscigera
n. 鼻突衣藻
50. <}0{> 1.4 Analytical Method: Nurture, preservation, cross, random analysis and tetrad analysis of Chlamydomonas proceeded according to E.
{0> 1.4 分析方法 莱茵衣藻品系的培养、保存、杂交、随机分析和四分子分析法按E.
51. Keywords Chlamydomonas reinhardtii;Euglena gracilis;Synechococcus leopoliensis;Triazophos;Biodegradation;Bioaccumulation;
三唑磷;莱因衣藻;纤细裸藻;聚球藻;降解;富集;
52. ;Expression of the metallothionein-like gene from Festuca rubra in Chlamydomonas reinhardtii[A];
中国藻类学会第十一次学术讨论会论文摘要集[C];
53. By searching for genetic sequences similar to regA in the burgeoning databases of genes that now exist, they found one in a unicellular alga called Chlamydomonas reinhardtii.
他们在现有的尚处于萌芽阶段的基因数据库中搜索与regA的基因序列相似的基因,并找到了一种属于单细胞藻类Chlamydomonasreinhardtii的基因。
54. For example, Chlamydomonas are the majority of species.
例如衣藻属中的大多数种类。
55. For example, in the unicellular chlamydomonas the vegetative cell is haploid, and the only diploid cells are the zygospores, which germinate to produce haploid zoospores.
例如,在单细胞的衣藻中营养细胞是单倍体,唯一的二倍体细胞是接合孢子(应为孢子,译者注),萌发后能产生单倍体的游动孢子。
56. Keywords Chlamydomonas sajao lewin,Chlorella vulgaris,Selenastrum minutum, Scenedesmus ohliquus,phosphorus removal capability,quantity of removing phosphorus a cell,Alkalescence Phosphorus;
关键词沙角衣藻;斜生栅藻;普通小球藻;小型月牙藻;除磷能力;碱性磷酸酶;单个细胞除磷量;
57. Keywords heavy metal ions;Chlamydomonas sajiao Lewin;growth;protein;chlorophyll;amylase;extract of alage;bacteria;fungi;inhibitory activity;
关键词沙角衣藻;重金属离子;蛋白质;叶绿素;多糖:提取物;细菌;真菌;抑制活性;
58. Keywords bioaccumulation;rate of photosynthesis;Chlamydomonas reinhardtii;
关键词生物积累;光合速率;莱茵衣藻;
59. Keywords Antarctic ice microalgae;Chlamydomonas sp. L4;Morphology;Ultrastructure;Adversity acclimation;Proteomics;Ice-active substances;
南极冰藻;绿藻L4;形态学;超微结构;逆境适应性;蛋白质组学;冰活性物质;
60. Study on the Adversity Acclimation of Antarctic Ice Microalga Chlamydomonas sp.L4 and Its Anti-Adversity Proteomics
南极冰藻Chlamydomonas sp.L4的逆境适应性及其抗逆蛋白质组学的研究
61. Study on Physiology and Biochemistry Characters of Antarctic Ice Microalgae Chlamydomonas sp. L4 Chloroplasts and Its Acclimation to Low Temperature;
南极衣藻L4)为材料,进行叶绿体生理生化特性及其低温环境适应性的研究,以期为南极冰藻抗逆机理的研究和应用开发提供科学依据。
62. The number per cell varies, e. g. one in Chlorella and Chlamydomonas and in most hornworts (Antherocyta), two in Zygnema, and about one hundred in palisade mesophyll cells of leaves.
叶绿体的数目因物种,细胞种类和生理状况而不同。例如大多数高等植物的叶肉细胞的栅栏组织中有100多个叶绿体,而藻类植物通常只有一个叶绿体。
63. Chlamydomonas reinharditii
叶绿体转化
64. Changes of Biomass and Total RNA Content in Chlamydomonas reinhardtii after Synchronized Culture
同步化培养后莱茵衣藻生物量和总RNA含量的变化
65. It was found that alkaline phosphatase activity was increased when Chlamydomonas sajao Lewin was transforming and availing the phosphate rocks.As a result, the concentration of the availabl...
在无任何磷源的体系中,有藻的培养基碱性磷酸酶仍呈上升趋势,表明在缺磷胁迫下,藻和水稻都能产生碱性磷酸酶分解矿石磷.
66. Among algae, the internode cells of stoneworts (Chara spp) reach lengths up to 80mm, while the individual independent cells of Chlamydomonas are only 0.092mm in diameter.
在藻类中,轮藻的节间细胞长度可达80mm,而衣藻独立的个体细胞的直径仅有0.092mm。
67. Analysis of Dominant-recessive Mutated Character of nfr Genes of Chlamydomonas reinhardtii and Its Mutual Interaction with the Chloroplastic psbA Gene
基因的显隐性突变性质及其与叶绿体psbA基因之间的相互作用分析
68. Such as Chlamydomonas are in the minority categories.
如衣藻属中的少数种类。
69. Although split genes occur in other systems (including Chlamydomonas, Euglena, Alveolata, plants, and Diptera), rarely are the scrambled pieces “sewn” back together to create a contiguous gene or RNA.
尽管断裂基因见于其他生物系统(包括衣滴虫目,裸藻属,Alveolata,植物和双翅目),但将杂乱的片段“缝合”在一起而创造出一个连续的基因或RNA则较为少见。
70. chlamydomonas reinhaidtii
微囊藻
71. We cannot be certain that Gonium, pandonina, Eudonna, and Pleodorina represent stages in the evolution of multicellular Volvox from unicellular chlamydomonas.
我们不能肯定盘藻、实球藻、空球藻和杂球藻代表从单细胞衣藻到多细胞因藻的各进化阶段。
72. Physiological Adaptability of Chlamydomonas nivalis under Ultraviolet Radiation
极地雪藻对紫外辐射的生理适应性研究
73. Research Progress on Chlamydomonas nivalis
极地雪衣藻的研究进展
74. Progress of Chlamydomonas as A Model Organism
模式生物衣藻及其研究进展
75. Chlamydomonas sajao Lewin
沙角衣藻
76. In this system Chlamydomonas is used as the experimental material, and its flagellum microtubules are the test targets.
测试了10种不同的抗肿瘤药物(细胞毒和非细胞毒的药物)对衣藻鞭毛重组的影响。
77. Zygote meiosis can be observed with fresh-water algae Chlamydomonas, Spirogyra, Chara for assistant materials.
淡水产衣藻属、水绵属及轮藻属可作为观察合子型减数分裂的辅助材料。
78. Nevertheless, it has recently been shown in experiments with Chlamydomonas algae that sex can remove the speed limit on evolution.
然而,最近以衣藻为材料的实验表明,有性生殖可以移除对进化的速度限制。
79. Various other forms exist in the algae, e. g. spiral in Spirogyra, stellate in Zygnema, and cup-shaped in Chlamydomonas.
特别是在藻类的叶绿体差异更大,例如在水绵Spirogyra中是螺旋状的,在双星藻属Zygnema中是星状的,在衣藻Chlamydomonas中是杯状的。
80. Study on several environmental factors'influence on the formation and degradation of a Chlamydomonas bloom
环境因子对衣藻水华消长影响的初步研究
