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1. 云南可食的革菌属真菌的分类研究
周彤 任玮
Plant Diversity    1986, 8 (03): 1-3.  
摘要16044)      PDF (228KB)(2029)    收藏
“干巴菌”因别具清香的佳美食味而与竹荪、虫草、鸡、松茸等同属于云南珍贵的野生食用菌。每年夏秋,鲜干巴菌类在市场上深受欢迎。干巴菌分布于滇中的昆明、安宁、富民、禄丰等,滇西的丽江、保山、昌宁等地。常生于松林、油杉林等针叶松林下。 相关文章 | 多维度评价
2. 上海的主要自然植被类型及其分布
周秀佳
植物生态学报    1984, 8 (3): 189-198.  
摘要   ( 12429 )    PDF (605KB)(1660)    收藏
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被引次数: Baidu(71)
3. 稻属中一个高度保守和组成型表达酪氨酸丝氨酸-酸酸双特性蛋白激酶基因的克隆与分析
杨明挚1 , 黄兴奇2 , 张汉波1 , 陈善娜1 , 杨红玉3 , 程在全2
Plant Diversity    2009, 31 (05): 433-438.   DOI: 10.3724/SP.J.1143.2009.09096
摘要12408)      PDF (201KB)(1795)    收藏
从水稻中克隆了一个在稻属植物中高度保守和组成型表达的丝氨酸􊄯苏氨酸蛋白激酶基因(OsSTK)。该基因包含两个外显子和一个114 bp 的小内含子序列, 预测编码一个419 个氨基酸的蛋白质。该基因推导的氨基酸序列与其它已知序列的一致性均低于52%。利用从不同种和类型的野生稻克隆的部分该基因序列构建的系统树与野生稻的分类和进化关系相一致。OSPK N-端拥有一段富含丝氨酸、碱性氨基酸和带电荷氨基酸的特异性导肽序列, 其中包含“GDGDGDGDG”短重复序列。由于该基因蛋白激酶结构域中的VIb , VIII 和XI 亚结构域中同时具有酪氨酸蛋白激酶和丝氨酸􊄯苏氨酸蛋白激酶的特性, 推测该基因可能同时具有催化酪氨酸和丝氨酸、苏氨酸磷酸化的双重功能。 相关文章 | 多维度评价
4. 中国脊椎动物红色名录
蒋志刚, 江建平, 王跃招, 张鹗, 张雁云, 李立立, 谢锋, 蔡波, 曹亮, 郑光美, 董路, 张正旺, 丁平, 罗振华, 丁长青, 马志军, 汤宋华, 曹文宣, 李春旺, 胡慧建, 马勇, 吴毅, 王应祥, 周开亚, 刘少英, 陈跃英, 李家堂, 冯祚建, 王燕, 王斌, 李成, 宋雪琳, 蔡蕾, 臧春鑫, 曾岩, 孟智斌, 方红霞, 平晓鸽
生物多样性    2016, 24 (5): 500-551.   DOI: 10.17520/biods.2016076
摘要 ( 11439 ) HTML410)    PDF (1130KB)(10517)    英文版    收藏
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被引次数: Baidu(218) CSCD(181)
5. 群落构建的中性理论和生态位理论
牛克昌, 刘怿宁, 沈泽昊, 何芳良, 方精云
生物多样性    2009, 17 (6): 579-593.   DOI: 10.3724/SP.J.1003.2009.09142
摘要 ( 10791 ) HTML144)    PDF (439KB)(12940)    收藏
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被引次数: Baidu(179) CSCD(130)
6. 中国种子植物属的分布区类型
吴征镒
Plant Diversity    1991, 13 (S4): 1-3.  
摘要10058)      PDF (8147KB)(7600)    收藏
中国种子植物属的分布区类型的研究起始于1952年,当时由于全国植物学工作者的共同努力,已基本完成了中国种子植物属的检索表,而为本项研究提供了极其初步,却比较清晰的轮廓。其后,在中国科学家组成访苏代表团时,我又结合中国植物区系分区问题,初步分析了中国全境以及境内各自然植物区的特有科、属。 相关文章 | 多维度评价
7. Developmental Mechanism and Distribution Pattern of Stomatal Clusters in Begonia peltatifolia
TANG Min, HU Yu Xi, LIN Jin Xing, JIN Xiao Bai
J Integr Plant Biol    2002, 44 (4): 384-390.  
摘要9631)      PDF (3136KB)(293)    收藏

The function of stomata in plants is controlling gas exchange and modulating water balance. The distribution pattern of stomata in most vascular plants follows a certain regulation with at least one normal epidermal cell between two stomata. However, some plants restricted in several genera of vascular plants have stomatal clusters in which more than one stoma is adjacently arranged with no epidermal cells among them. The developmental process of stomatal clusters in plants, especially in non mutant (wild type) vascular plants, has rarely been documented, and very few studies concerning the distribution pattern of stomatal clusters on leaf epidermis have been carried out. We reported the developmental mechanism and distribution pattern of stomatal clusters in Begonia peltatifolia Li native to China. The results indicated that the clustered arrangement of meristemoids at the juvenile stage of the leaf development contributed greatly to the pattern of stomatal clusters. Additionally, satellite meristemoids derived from subsidiary cells around the mature stomata also had an impact on the development as well as the pattern of stomatal clusters. Regarding stomatal cluster and singly occurring stoma both as a stomatal unit, we found that the stomatal unitdensity (i.e., number of stomatal unit per area) increased gradually from the middle part to the edge and the apex of the leaf, while stomatal unit size (i.e., number of stomata per stomatal unit) decreased. The possible reason of this pattern was discussed.

盾叶秋海棠叶表皮气孔簇的发育及分布格局

唐敏  胡玉熹  林金星  靳晓白*

(中国科学院植物研究所,北京,100093)

气孔是植物控制气体交换和调节水分散失的门户.大部分高等植物气孔的分布格局是相邻气孔之间被一至多个表皮细胞所间隔.而在有限分布的几个科属的植物种中发现气孔成簇分布的现象,即由2至多个紧密相邻的气孔器组成相对独立的单元,称为气孔簇(stoma tal cluster).以中国原产的盾叶秋海棠(Begonia peltatifolia Li)为研究对象,探讨了叶表皮气孔簇的发育机制及其分布格局.结果表明:气孔发育初期,气孔拟分生组织的成簇(相邻紧密)排列可能是气孔簇形成的主要机制;气孔副卫细胞恢复分裂形成的卫星拟分生组织也对气孔簇的形成起一定的作用.把气孔簇和单个气孔视为一个气孔单元发现,盾叶秋海棠气孔单元密度(单位面积中气孔单元数)和气孔单元大小(气孔单元所包含气孔数)在叶片上呈有规律的分布:前者由叶片中部向叶尖、叶缘逐圈增多,而后者逐圈减少.对这种分布格局的成因进行了讨论.

关键词 盾叶秋海棠 发育 分布格局 气孔簇

*通讯作者 Email: xbjin@gengenp.rug.ac.becn

 

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8. 蚯蚓在生态系统中的作用
张卫信, 陈迪马, 赵灿灿
生物多样性    2007, 15 (2): 142-153.   DOI: 10.1360/biodiv.060294
摘要 ( 9588 )    PDF (565KB)(5765)    收藏
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被引次数: Baidu(225) CSCD(52)
9. Contributions of Chinese Botanists to Plant Tissue Culture in the 20th Century
CHU Chih-Ching
J Integr Plant Biol    2002, 44 (9): 1075-1084.  
摘要9387)      PDF (4691KB)(137)    收藏

This paper looks back to the development of plant tissue culture in China in the last century. Since 1934, tissue culture studies in China has kept up with the international development in the fields. Progress has been made by Chinese in nea rly every branches of tissue culture, including in vitro organogenesis, shoot tip culture, anther culture, ovary culture, endosperm culture, protoplast culture as well as mass cell culture. On the basis of reviewing the articles written by Chinese on plant tissue culture, the internationally recognized contributions are specially mentioned. The applications of plant tissue culture to agriculture and industry in China are also introduced.

二十世纪我国植物学家对植物组织培养的贡献
朱至清
(中国科学院植物研究所,北京100093)


摘要: 回顾了上一世纪我国植物组织培养的发展。1934年以来,我国的植物组织培养研究一直与国际发展同步进行。我国学者在离体器官发生、茎尖培养、花药培养、子房培养、胚乳培养、原生质体培养和细胞大量培养等分支领域都取得重要进展。本文在引证我国研究者发表的植物组织培养论文的基础上,着重评述了那些被国际同行公认的研究成果。此外,还介绍了植物组织培养在我国农业和工业上应用的情况。
关键词: 植物组织培养;器官发生;茎尖培养;花药培养;子房培养;胚乳培养;原生质体培养;植物细胞大量培养

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10. 中国两栖、爬行动物更新名录
王剀,任金龙,陈宏满,吕植桐,郭宪光,蒋珂,陈进民,李家堂,郭鹏,王英永,车静
生物多样性    2020, 28 (2): 189-218.   DOI: 10.17520/biods.2019238
发布日期: 2020-03-27
摘要 ( 8994 ) HTML286)    PDF (4341KB)(6544)    收藏
11. The Distribution of Stomata and Photosynthetic Pathway in Leaves
Lin Zhi-fang, Li Shuang-shun and Lin Gui-zhu
J Integr Plant Biol    1986, 28 (4): null.  
摘要8942)      PDF (421KB)(97)    收藏
The stoma freguency and distribution on both epidermis of leaves of 65 species of C3 plants, 49 species of C4 plants and 16 species of CAM plants were studied by impres- sion method with colorless nail oil. The results indicated that distribution of stoma on both epidermis of leaves was in relation to the photosynthetic pathway and living type. The stoma ratio of upper/lower of C3 plants was 0.45 (sun herb) and 0.07 (shade herb), no stoma was found on upper epidermis of leaves of ferns, shrubs and trees. Plants with C4 photosynthetic pathway, except a few species, showed a higher stoma ratio of upper/lower 0.64 (Cyperaceae), 0.82 (dicot) and 0.94 (Oramineae). Much less stoma frequency was found in CAM plants than in C3 and C4 plant, but the stoma ratio of upper/lower was equal. In C3 crop plants, the species with shorter growth period and higher yield, such as sunflower, peanut and some leafy vegetables had higher stoma ratio of upper/lower. It is supposed that the stoma ratio of upper/lower might be used as an helpful index for identifing the C4 plants in monocot grass. It was also considered that the photosynthetic rate of amphistomatous leaves of C3 plants with same living type was related to the stoma ratio of upper/lower. 相关文章 | 多维度评价
12. 植物群落清查的主要内容、方法和技术规范
方精云, 王襄平, 沈泽昊, 唐志尧, 贺金生, 于丹, 江源, 王志恒, 郑成洋, 朱江玲, 郭兆迪
生物多样性    2009, 17 (6): 533-548.   DOI: 10.3724/SP.J.1003.2009.09253
摘要 ( 8907 ) HTML80)    PDF (661KB)(11544)    收藏
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被引次数: Baidu(772) CSCD(369)
13. 植物多样性与生态系统土壤保持功能关系及其生态学意义
王震洪, 段昌群, 侯永平, 杨建松
植物生态学报    2006, 30 (3): 392-403.   DOI: 10.17521/cjpe.2006.0053
摘要 ( 8049 ) HTML15)    PDF (518KB)(1841)    收藏
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被引次数: Baidu(74) CSCD(33)
14. 洞穴鱼类: 概念、多样性及研究进展
赵亚辉, 张春光
生物多样性    2006, 14 (5): 451-460.   DOI: 10.1360/biodiv.050226
摘要 ( 7949 )    PDF (534KB)(5276)    收藏
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被引次数: Baidu(38) CSCD(6)
15. 中国种子植物区系统计分析
李锡文
Plant Diversity    1996, 18 (04): 1-3.  
摘要7755)      PDF (1121KB)(2532)    收藏
中国种子植物初步统计有337科,3 200属,26 276~27 268种,其中裸子植物有川科,36属,191~195种,单子叶植物有 57科,679属,4 493~4 661种。本文对我国种子植物分别就科、属、种分布区类型,大小顺序排列,特有性等方面进行区系统计分析,并在种级水平上对各区系地区或具体区系进行对比,为中国种子植物区系深入研究提供基本素材。 相关文章 | 多维度评价
16. 植物中验证蛋白相互作用的Pull-down和Co-IP技术
徐重益
植物学报    2020, 55 (1): 62-68.   DOI: 10.11983/CBB19143
发布日期: 2019-09-24
摘要7540)   HTML326)    PDF (3878KB)(6876)    收藏

蛋白互作在细胞生命活动中发挥关键作用, 在不同时空层面上参与多种细胞学过程, 因此研究蛋白互作对理解分子调控网络至关重要。通常情况下, 利用酵母双杂交系统筛选植物蛋白互作必须通过体外和体内系统进行验证。Pull-down和Co-IP是验证植物蛋白互作的常用技术。Pull-down被广泛用于体外验证蛋白间的直接互作; 而在植物活体内, 利用本氏烟草(Nicotiana benthamiana)叶片瞬时表达蛋白, 继而通过Co-IP进行鉴定是目前验证蛋白互作最简单且最有效的方法之一。该文对GST Pull-down和烟草瞬时表达系统中Co-IP技术原理及实验方案进行详细描述, 以期为验证植物蛋白互作提供参考。

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被引次数: CSCD(2)
17. Plant terpenoids: Biosynthesis and ecological functions
Ai-Xia Cheng, Yong-Gen Lou, Ying-Bo Mao, Shan Lu, Ling-Jian Wang and Xiao-Ya Chen
J Integr Plant Biol    2007, 49 (2): 179-186.   DOI: 10.1111/j.1744-7909.2007.00395.x

预出版日期: 2007-02-05
摘要7347)      收藏
Among plant secondary metabolites terpenoids are a structurally most diverse group; they function as phytoalexins in plant direct defense, or as signals in indirect defense responses which involves herbivores and their natural enemies. In recent years, more and more attention has been paid to the investigation of the ecological role of plant terpenoids. The biosynthesis pathways of monoterpenes, sesquiterpenes, and diterpenes include the synthesis of C5 precursor isopentenyl diphosphate (IPP) and its allylic isomer dimethylallyl diphosphate (DMAPP), the synthesis of the immediate diphosphate precursors, and the formation of the diverse terpenoids. Terpene synthases (TPSs) play a key role in volatile terpene synthesis. By expression of the TPS genes, significant achievements have been made on metabolic engineering to increase terpenoid production. This review mainly summarizes the recent research progress in elucidating the ecological role of terpenoids and characterization of the enzymes involved in the terpenoid biosynthesis. Spatial and temporal regulations of terpenoids metabolism are also discussed 相关文章 | 多维度评价
18. 外来入侵种紫茎泽兰研究进展与展望
鲁萍, 桑卫国, 马克平
植物生态学报    2005, 29 (6): 1029-1037.   DOI: 10.17521/cjpe.2005.0128
摘要 ( 7347 ) HTML9)    PDF (897KB)(2033)    收藏
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被引次数: Baidu(391) CSCD(63)
19. 试论山地的生态特征及山地生态学的研究内容
方精云, 沈泽昊, 崔海亭
生物多样性    2004, 12 (1): 10-19.   DOI: 10.17520/biods.2004003
摘要 ( 7325 )    PDF (341KB)(5434)    收藏
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被引次数: Baidu(374) CSCD(117)
20. 杂交产生的遗传危害——以植物为例
王峥峰, 彭少麟
生物多样性    2003, 11 (4): 333-339.   DOI: 10.17520/biods.2003041
摘要 ( 7308 )    PDF (276KB)(3462)    收藏
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被引次数: Baidu(46) CSCD(8)
21. The plant vascular system: Evolution, development and functions
William J. Lucas, Andrew Groover, Raffael Lichtenberger, Kaori Furuta, Shri-Ram Yadav, Ykä Helariutta, Xin-Qiang He, Hiroo Fukuda, Julie Kang, Siobhan M. Brady, John W. Patrick, John Sperry, Akiko Yoshida, Ana-Flor López-Millón, Michael A. Grusak, and Pradeep Kachroo
J Integr Plant Biol    2013, 55 (4): 294-388.   DOI: 10.1111/jipb.12041
发布日期: 2013-04-10
摘要7225)      收藏

The emergence of the tracheophyte-based vascular system of land plants had major impacts on the evolution of terrestrial biology, in general, through its role in facilitating the development of plants with increased stature, photosynthetic output, and ability to colonize a greatly expanded range of environmental habitats. Recently, considerable progress has been made in terms of our understanding of the developmental and physiological programs involved in the formation and function of the plant vascular system. In this review, we first examine the evolutionary events that gave rise to the tracheophytes, followed by analysis of the genetic and hormonal networks that cooperate to orchestrate vascular development in the gymnosperms and angiosperms. The two essential functions performed by the vascular system, namely the delivery of resources (water, essential mineral nutrients, sugars and amino acids) to the various plant organs and provision of mechanical support are next discussed. Here, we focus on critical questions relating to structural and physiological properties controlling the delivery of material through the xylem and phloem. Recent discoveries into the role of the vascular system as an effective long-distance communication system are next assessed in terms of the coordination of developmental, physiological and defense-related processes, at the whole-plant level. A concerted effort has been made to integrate all these new findings into a comprehensive picture of the state-of-the-art in the area of plant vascular biology. Finally, areas important for future research are highlighted in terms of their likely contribution both to basic knowledge and applications to primary industry.

Lucas WJ, Groover A, Lichtenberger R, Furuta K, Yadav SR, Helariutta Y, He XQ, Fukuda H, Kang J, Brady SM, Patrick JW, Sperry J, Yoshida A, L´ opez-Mill´an AF, Grusak MA, Kachroo P (2013) The plant vascular system: Evolution, development and functions. J. Integr. Plant Biol. 55(4), 294–388.

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被引次数: Baidu(198)
22. 生态学多元数据排序分析软件Canoco 5介绍
赖江山
生物多样性    2013, 21 (6): 765-768.   DOI: 10.3724/SP.J.1003.2013.04133
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被引次数: Baidu(41) CSCD(44)
23. Beta多样性分解: 方法、应用与展望
斯幸峰, 赵郁豪, 陈传武, 任鹏, 曾頔, 吴玲兵, 丁平
生物多样性    2017, 25 (5): 464-480.   DOI: 10.17520/biods.2017024
摘要 ( 7176 ) HTML215)    PDF (1371KB)(5947)    收藏
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被引次数: Baidu(13) CSCD(17)
24. 生态位模型的基本原理及其在生物多样性保护中的应用
朱耿平, 刘国卿, 卜文俊, 高玉葆
生物多样性    2013, 21 (1): 90-98.   DOI: 10.3724/SP.J.1003.2013.09106
摘要 ( 7156 ) HTML110)    PDF (308KB)(6811)    收藏
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被引次数: Baidu(202) CSCD(139)
25. 土壤微生物学特性对土壤健康的指示作用
周丽霞, 丁明懋
生物多样性    2007, 15 (2): 162-171.   DOI: 10.1360/biodiv.060290
摘要 ( 7075 )    PDF (357KB)(8914)    收藏
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被引次数: Baidu(644) CSCD(141)
26. 生物多样性的经济价值
郭中伟, 李典谟
生物多样性    1998, 06 (3): 180-185.   DOI: 10.17520/biods.1998027
摘要 ( 6958 )    PDF (96KB)(4437)    收藏
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被引次数: Baidu(128) CSCD(9)
27. 《中国植被志》的植被分类系统、植被类型划分及编排体系
方精云, 郭柯, 王国宏, 唐志尧, 谢宗强, 沈泽昊, 王仁卿, 强胜, 梁存柱, 达良俊, 于丹
植物生态学报    2020, 44 (2): 96-110.   DOI: 10.17521/cjpe.2019.0259
发布日期: 2020-04-08
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28. Rice Research: Past, Present and Future
Hong Ma, Kang Chong and Xing-Wang Deng
J Integr Plant Biol    2007, 49 (6): 729-730.   DOI: 10.1111/j.1744-7909.2007.00515.x
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Rice Research: Past, Present and Future Rice (Oryza sativa L.) is a major crop in the world and provides the staple food for over half of the world抯 population. From thousands of years of cultivation and breeding to recent genomics, rice has been the focus of agriculture and plant research. China is the home of both the high-yielding hybrid rice and the largest number of rice consumers. The Chinese government has strongly supported rice breeding and research, with anticipated further enhancement of such support in the near future. In this special issue of JIPB on rice research, a total of twenty-two articles discuss recent advances covering a variety of topics, from domestication and breeding to population genetics, from genomics to proteomics, from hormonal signaling to stress responses, and from evolutionary studies to functional analysis of gene families. Rice domestication, breeding and genetics have laid a great foundation for modern rice research. Sang and Ge discuss the current understanding of rice domestication, including the questions that still remain, and Tang and Shi provide a look at rice domestication from the perspective of population genetics. Jiang et al. report the great progress in rice genetics that has been made in recent years in China, including the molecular identification of genes that are important for key traits, such as male sterility, disease resistance, and tillering. Moreover, Li et al. review the analyses of a number of male sterile and restorer lines and their use in the generation of hybrid rice varieties, which have greatly increased rice production. Also, Cheng et al. describe the accomplishments of breeding super hybrid rice using DNA markers, resulting in greater biomass and yield, and discuss possible future challenges and gains in this technology. In addition, Tan et al. summarize the efforts being made in the development of rice lines by introgression from the wild rice Oryza rufipogon into the cultivated rice O. sativa, with the aim of QTLs (quantitative trait loci) affecting yields. These articles both provide historical overviews and highlight current efforts in rice breeding. Successful rice cultivation is intimately linked with hormonal signaling and appropriate responses to biotic and abiotic stresses, including bacterial and fungal disease, and salt and drought stresses. Fan et al. review the advances in the understanding of signal transduction for the hormone gibberellin (GA), which controls plant height and seed germination; both important traits in agriculture. Specifically, recent molecular analyses have resulted in the identification of a GA receptor as a key regulator of ubiquitin-dependent proteolysis, as well as other mediators of GA signaling as components or targets of the ubiquitination pathway. In addition, Gao et al. present a summary of the current understanding of mechanisms conferring tolerance to abiotic stresses, whereas Xu et al. report molecular and biochemical analyses of members of the Xa3/Xa26 gene family conferring disease resistance to bacterial blight and/or fungal blast diseases in rice. Moreover, Hong et al. describe expression results suggesting that the BWMK1 gene is responsive to both stress and hormone signaling, potentially acting to integrate multiple signals. Kong et al. report the molecular analyses of a newly identified rice receptor-like cytoplasmic protein kinase that is specifically expressed in the pollen. If rice breeding and genetic endeavors have generated genetic materials that paved the way for recent advances in studying specific genes that are important for many developmental and physiological traits, then the sequencing of the rice genome and the subsequent functional genomics and proteomics efforts have yielded great volumes of global molecular and biochemical information on many thousands of genes and proteins. Such information has already greatly benefited rice research and allows researchers to investigate specific processes or pathways with a global perspective of the genome and great comprehensiveness hitherto not possible. This will undoubtedly propel rice to become an ever more popular model organism for plant research. In this issue, several articles showcase the varying approaches investigators have taken to characterize rice genomes and proteome. Tang et al. describe a method to use BAC clones, a resource made available by the rice genome projects, as probes to identify rice chromosomes using fluorescence in situ hybridization. Also, Fan et al. demonstrate the power of a microarray-based method to uncover potentially new genes, using Arabidopsis and rice as examples, again using a functional genomics resource to address the fundamental evolutionary problem of gene origins. Weedy rice is a pest in the USA and Olsen et al. provide a brief overview of an ongoing effort to use evolutionary genomics to determine the origin of the weedy red rice and its relationship to other cultivated and wild varieties. The well-known hybrid rice requires male sterile lines, which are altered in their mitochondrial genomes. Liu et al. present a molecular analysis of fertile and sterile mitochondrial genomes and the identification of regions of structural and expression differences, allowing future functional studies of these regions as potential sterility genes. Furthermore, Chen et al. show a proteomic study of plasma membrane-associated proteins induced by the treatment of chitooligosaccharide elicitors that are relevant to disease responses and the identification of the polyprotein-like protein. The rice genome project indicated that many genes are members of gene families, as is the case in Arabidopsis. The available information on gene families presents both opportunities and challenges. To facilitate functional studies of gene family members, it is important to understand the evolutionary relationships between, and the expression patterns among the members. MADS-box genes play critical roles in plant development. Xu and Kong report phylogenetic analyses of floral MADS-box genes in rice and other grasses and provide evidence for the origin of novel regulatory genes by duplication and divergence. Another family important for plant development is the TCP family, controlling cell division, floral organ symmetry and branch formation. Yao et al. present a genome-wide phylogenetic analysis of the TCP genes in Arabidopsis and rice and describe their expression patterns, providing clues to functional relationships among family members. The WRKY gene family encoding transcription factors contains members that are implicated in stress responses. Ross et al. carried out an extensive study of members of the WRKY family in rice and present their genome-wide results, as well as an overview of their functions in stress and hormonal responses. An area of exciting and rapid progress is the regulation of gene expression by small RNAs, as reviewed by Sunkar and Zhu for rice and other plants. In addition, Sun et al. report an analysis of a family of F-box proteins with Kelch repeats, including phylogeny, genome organization and expression. They showed that while some of the subfamilies remained quite stable during the evolution of flowering plants, one subfamily has greatly expanded in the Brassicaseae since they diverged from poplar. Finally, Rohila and Yang reviewed recent progress in the studies of rice genes encoding mitogen activating protein (MAP) kinases, particularly their functions in mediating stress responses. This selection of articles covers a wide range of topics and is indicative of the rapid advances in many areas of rice research in recent years. Undoubtedly, the future of rice research is very exciting, promising to reveal many more secretes about plant biology to promote agriculture and to ultimately benefit human society. 相关文章 | 多维度评价
被引次数: Baidu(9)
29. 群落生态学的中性理论
周淑荣, 张大勇
植物生态学报    2006, 30 (5): 868-877.   DOI: 10.17521/cjpe.2006.0110
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被引次数: Baidu(109) CSCD(36)
30. 小型哺乳类食果动物可能对蛇菰科葛菌种子散布的初次报道
CONRAN John G1, 李捷2
Plant Diversity    2012, 34 (5): 466-470.   DOI: 10.3724/SP.J.1143.2012.12039
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初次报道了哺乳类食果动物可能对蛇菰科葛菌(Balanophora harlandii)的种子散布,葛菌具有酷似蘑菇且醒目显著的肉质佛焰状果序,食菌的啮齿类动物很可能由于对其进行取食而起到种子散布的作用,本文对此现象进行了初步探讨。

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32. 跳虫在土壤生态系统中的作用
陈建秀, 麻智春, 严海娟, 张峰
生物多样性    2007, 15 (2): 154-161.   DOI: 10.1360/biodiv.060288
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被引次数: Baidu(132) CSCD(61)
33. 中域效应假说: 模型、证据和局限性
王襄平, 方精云, 唐志尧
生物多样性    2009, 17 (6): 568-578.   DOI: 10.3724/SP.J.1003.2009.09140
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被引次数: Baidu(41) CSCD(18)
34. “中国山地植物物种多样性调查计划”及若干技术规范
方精云, 沈泽昊, 唐志尧, 王志恒
生物多样性    2004, 12 (1): 5-9.   DOI: 10.17520/biods.2004002
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被引次数: Baidu(236)
35. 物种多样性地理格局的能量假说
王志恒, 唐志尧, 方精云
生物多样性    2009, 17 (6): 613-624.   DOI: 10.3724/SP.J.1003.2009.09161
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被引次数: Baidu(38) CSCD(33)
36. 互花米草与海三棱藨草的生长特征和相对竞争能力
陈中义, 李博, 陈家宽
生物多样性    2005, 13 (2): 130-136.   DOI: 10.1360/biodiv.040122
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被引次数: Baidu(166)
37. 从线粒体控制区全序列变异看短颌鲚和湖鲚的物种有效性
唐文乔, 胡雪莲, 杨金权
生物多样性    2007, 15 (3): 224-231.   DOI: 10.1360/biodiv.060263
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被引次数: Baidu(129) CSCD(57)
38. 中国外来入侵生物的危害与管理对策
万方浩, 郭建英, 王德辉
生物多样性    2002, 10 (1): 119-125.   DOI: 10.17520/biods.2002014
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被引次数: Baidu(607) CSCD(157)
39. 云南省南部山地7种主要入侵植物沿公路两侧的扩散格局
赵金丽, 马友鑫, 朱华, 李红梅, 刘文俊, 李增加
生物多样性    2008, 16 (4): 369-380.   DOI: 10.3724/SP.J.1003.2008.08001
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被引次数: Baidu(42) CSCD(12)
40. 植物群落物种共存机制: 负密度制约假说
祝燕, 米湘成, 马克平
生物多样性    2009, 17 (6): 594-604.   DOI: 10.3724/SP.J.1003.2009.09183
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被引次数: Baidu(126) CSCD(54)