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400分求有关植物组织培养的英文文献资料

话费36JP8 2009-03-19 11:29:07 452  浏览
  • Z好是石蒜(其他也可以)组织培养的英文文献资料,没中文翻译也可以,字数在4000字左右的。谢谢了!找了很久没找到!找到了追加300分!... Z好是石蒜(其他也可以)组织培养的英文文献资料,没中文翻译也可以,字数在4000字左右的。 谢谢了! 找了很久没找到!找到了追加300分! 展开

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  • wyh415237 2009-03-21 00:00:00
    The Many Dimensions of Plant Tissue Culture Research R. Daniel Lineberger Professor of Horticulture Texas A&M University College Station, TX 77843 Webmaster of Aggie Horticulture (http://aggie-horticulture.tamu.edu/) INTRODUCTION The practice of plant tissue culture has changed the way some nurserymen approach plant propagation. In the recent past, the applicability of this technology to the propagation of trees and shrubs has been documented. Some firms have established tissue culture facilities and commercial scale operations are presently in operation for the mass propagation of apples, crabapples, rhododendrons, and a few other selected woody species. The intent of this research update is to briefly examine "what is being done" and to explore "what can be done" with regard to the tissue culture of ornamental plants. Such a consideration necessarily includes an overview of tissue culture as a propagation tool. The major impact of plant tissue culture will not be felt in the area of micropropagation, however, but in the area of controlled manipulations of plants at the cellular level in ways which have not been possible prior to the introduction of tissue culture techniques. THE ART AND SCIENCE OF MICROPROPAGATION Of all the terms which have been applied to the process, "micropropagation" is the term which best conveys the message of the tissue culture technique most widely in use today. The prefix "micro" generally refers to the small size of the tissue taken for propagation, but could equally refer to the size of the plants which are produced as a result. Micropropagation allows the production of large numbers of plants from small pieces of the stock plant in relatively short periods of time. Depending on the species in question, the original tissue piece may be taken from shoot tip, leaf, lateral bud, stem or root tissue (Fig. 1). In most cases, the original plant is not destroyed in the process -- a factor of considerable importance to the owner of a rare or unusual plant. Once the plant is placed in tissue culture, proliferation of lateral buds and adventitious shoots (Fig. 2) or the differentiation of shoots directly from callus (Fig. 3), results in tremendous increases in the number of shoots available for rooting. Rooted "microcuttings" or "plantlets" of many species have been established in production situations and have been successfully grown on either in containers or in field plantings. The two most important lessons learned from these trials are that this methodology is a means of accelerated asexual propagation and that plants produced by these techniques respond similarly to any own-rooted vegetatively propagated plant. Micropropagation offers several distinct advantages not possible with conventional propagation techniques. A single explant can be multiplied into several thousand plants in less than one year. With most species, the taking of the original tissue explant does not destroy the parent plant. Once established, actively dividing cultures are a continuous source of microcuttings which can result in plant production under greenhouse conditions without seasonal interruption. Using methods of micropropagation, the nurseryman can rapidly introduce selected superior clones of ornamental plants in sufficient quantities to have an impact on the landscape plant market. PLANT IMPROVEMENT THROUGH TISSUE CULTURE In introducing this research update, it was mentioned that the major impact of tissue culture technology would not be in the area of micropropagation, but rather in the area of controlled manipulations of plant germplasm at the cellular level. The ability to unorganize, rearrange, and reorganize the constituents of higher plants has been demonstrated with a few model systems to date, but such basic research is already being conducted on ornamental trees and shrubs with the intent of obtaining new and better landscape plants. SELECTION OF PLANTS WITH ENHANCED STRESS OR PEST RESISTANCE Perhaps the most heavily researched area of tissue culture today is the concept of selecting disease, insect, or stress resistant plants through tissue culture. Just as significant gains in the adaptability of many species have been obtained by selecting and propagating superior individuals, so the search for these superior individuals can be tremendously accelerated using in vitro systems. Such systems can attempt to exploit the natural variability known to occur in plants or variability can be induced by chemical or physical agents known to cause mutations. All who are familiar with bud sports, variegated foliage and other types of chimeras have an appreciation for the natural variability in the genetic makeup or expression in plants. Chimeras are the altered cellular expressions which are visible, but for each of these which are observed many more differences probably exist but are masked by the overall organization of the plant as a whole. For example, even in frost-tender species, certain cells or groups of cells may be frost hardy. However, because most of the organism is killed by frost, the tolerant cells eventually die because they are unable to support themselves without the remainder of the organized plant. Plant tissues grown in vitro can be released from the organization of the whole plant through callus formation. If these groups of cells are then subjected to a selection agent such as freezing, then those tolerant ones can survive while all those which are susceptible will be killed. This concept can be applied to many types of stress as well as resistance to fungal and bacterial pathogens and various types of phytotoxic chemical agents. The goal of selecting such resistant cell lines would be to reorganize whole plants from them which would retain the selected resistance (Fig. 4). Current research in this area extends across many interests including attempts to select salt tolerant lines of tomato, freezing resistant tobacco plants, herbicide resistant agronomic crops, and various species of plants with enhanced pathogen resistance. Imagine, if you will, the impact of a fireblight-resistant Bartlett pear, a clone of pin oak for alkaline soils, or a selection of southern magnolia hardy to zone 4! TISSUE CULTURE AND PATHOGEN FREE PLANTS Another purpose for which plant tissue culture is uniquely suited is in the obtaining, maintaining, and mass propagating of specific pathogen-free plants. The concept behind indexing plants free of pests is closely allied to the concept of using tissue culture as a selection system. Plant tissues known to be free of the pathogen under consideration (viral, bacterial, or fungal) are physically selected as the explant for tissue culture. In most cases, the apical domes of rapidly elongating shoot tips are chosen (Fig. 5). These are allowed to enlarge and proliferate under the sterile conditions of in vitro culture (Fig. 6) with the resulting plantlets tested for presence of the pathogen (a procedure called indexing). Cultures which reveal the presence of the pathogen are destroyed, while those which are indexed free of pathogen are maintained as a stock of pathogen-free material. Procedures similar to these have been used successfully to obtain virus-free plants of a number of species and bacteria-free plants of species known to have certain leaf spot diseases. The impact of obtaining pathogen-free nursery stock can only be speculative, since little research documenting viral, bacterial, or fungal diseases transmitted through propagation of woody ornamentals is available. SOMATIC HYBRIDIZATION The ability to fuse plant cells from species which may be incompatible as sexual crosses and the ability of plant cells to take up and incorporate foreign genetic codes extend the realm of plant modifications through tissue culture to the limits of the imagination. Most such manipulations are carried out using plant "protoplasts". Protoplasts are single cells which have been stripped of their cell walls by enzymatic treatment. A single leaf treated under these conditions may yield tens of millions of single cells, each theoretically capable of eventually producing a whole plant. This concept has fueled speculation as diverse as the possibilities of obtaining nitrogen-fixing corn plants on the one extreme to discovering a yellow-flowered African violet on the other extreme. The observation that has provided the impetus for most of this research is that when cells are stripped of their cell walls and brought into close contact, they tend to fuse with each other (Fig. 7). This "somatic hybridization" is not subject to the same incompatibility problems that limit traditional plant breeding strategies. It is conceivable then that one could hybridize a Juneberry with a crabapple or a plum, but the fundamental research required to demonstrate such an event has yet to be conducted. The potential use of somatic hybridization to bring about novel combinations of genetic material has been demonstrated in the genera Petunia and Nicotiana. Research funded in part by the Horticultural Research Institute at the University of Wisconsin is investigating the feasibility of using such techniques with woody species. Brent McGown and co-workers have succeeded in obtaining naked cells from tissue cultures of Betula and Rhododendron, but as of yet, they have neither obtained plants from single cells not achieved cellular fusion. However, further research in this area promises to have a tremendous impact on our concepts of woody plant diversity. Just as remarkable as the idea of fusing plant protoplasts is the idea of incorporating foreign genetic material into the genetic code of plant cells. Such transformations have been carried out in the so-called "gene-splicing" experiments where the information for making insulin was incorporated into bacteria. Not only is the desired information transmitted to succeeding generations of bacteria, but the bacterial cultures become synthesizers of insulin as well. Plant cells can be made to take up foreign genetic codes, but evidence that this can be transmitted into the daughter cells and serve the intended function is lacking. What if, for example, the genetic information for accumulating a very high sugar content is incorporated into a clone of sugar maples? One could think of enough what if誷 in this category to fill several volumes! SUMMARY Plant tissue culture research is multi-dimensional. While most nurserymen have been introduced to the techniques and advantages of micropropagation, few have ventured to use it as a propagation tool. The applicability of micropropagation for woody trees has been demonstrated as feasible since all aspects of the technology have confirmed the fact that trees produced by this method look like and grow like their counterparts produced by traditional methods of cloning. Other dimensions of tissue culture research have been less well publicized. The potential for selecting pathogen free plants, for selecting stress-tolerant and pathogen-resistant clones of plants, and the novel genetic combinations to be achieved through somatic hybridization are all lines of research which can have a profound impact on the nursery industry.

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  • 准备回家了吧 2009-03-21 00:00:00
    以下是:"无性繁殖黄花石蒜的组织培养"的英文文献. Clonal multiplication of Lycoris aurea by tissue culture This article is not included in your organization's subscription. However, you may be able to access this article under your organization's agreement with Elsevier. Li-Chun Huanga and Din-Ming Liua aInstitute of Botany, Academia Sinica Nankang, Taipei, Taiwan Accepted 28 December 1988. Available online 14 October 2003. Abstract A method has been developed for clonal propagation of Lycoris by starting with explants composed of pairs of bulb-scale segments, each 4 × 5 mm, joined basally by a 1-mm strip of stem plate. They were induced to undergo organogenesis by placement in darkness on a medium supplemented with 30 mg l?1 each of NAA and BA for the first 3 months. The swollen explants were then transferred to a second medium with 3 mg l?1 NAA and 10 mg l?1 BA and given illumination for differentiation of adventitious buds and emergence of shoots. The shoots were multiplied by transferring groups of 3 or more to fresh medium at 4-week intervals. To obtain plants, individual shoots were rooted in another medium with 3 mg l?1 NAA. The method is projected to yield at least 30 000 plants per bulb the first year. Keywords: bulb-scale; flower; Lycoris aurea; micropropagation; shoot tip; spider lily

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  • 空中有牛 2009-03-20 00:00:00
    找错地方了 这种东西是要到专门学术网站上去下载的 而且基本都是付费的 万方应该是Z好的了 期刊,论文都有

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  • _少輕狂—— 2009-03-20 00:00:00
    要PDF的话找我,我正在帮你找,好辛苦,你也搞论文吗? Clonal multiplication of Lycoris aurea by tissue culture 无性繁殖黄花石蒜的组织培养 This article is not included in your organization's subscription. However, you may be able to access this article under your organization's agreement with Elsevier. Li-Chun Huanga and Din-Ming Liua aInstitute of Botany, Academia Sinica Nankang, Taipei, Taiwan Accepted 28 December 1988. Available online 14 October 2003. Abstract A method has been developed for clonal propagation of Lycoris by starting with explants composed of pairs of bulb-scale segments, each 4 × 5 mm, joined basally by a 1-mm strip of stem plate. They were induced to undergo organogenesis by placement in darkness on a medium supplemented with 30 mg l?1 each of NAA and BA for the first 3 months. The swollen explants were then transferred to a second medium with 3 mg l?1 NAA and 10 mg l?1 BA and given illumination for differentiation of adventitious buds and emergence of shoots. The shoots were multiplied by transferring groups of 3 or more to fresh medium at 4-week intervals. To obtain plants, individual shoots were rooted in another medium with 3 mg l?1 NAA. The method is projected to yield at least 30 000 plants per bulb the first year. Keywords: bulb-scale; flower; Lycoris aurea; micropropagation; shoot tip; spider lily

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400分求有关植物组织培养的英文文献资料
Z好是石蒜(其他也可以)组织培养的英文文献资料,没中文翻译也可以,字数在4000字左右的。谢谢了!找了很久没找到!找到了追加300分!... Z好是石蒜(其他也可以)组织培养的英文文献资料,没中文翻译也可以,字数在4000字左右的。 谢谢了! 找了很久没找到!找到了追加300分! 展开
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2014-12-28 15:14:51 493 1
求翻译成英文,非常感谢!
防尘测试:在砂尘<75μm砂尘箱中,灰尘浓度为:5g/m3,空气流速为10m/s, 试验持续8小时。机器内部无砂尘进入。防水测试:样品被放置在淋雨试验箱转台上内。向其喷洒温度20℃的水。每... 防尘测试:在砂尘<75μm砂尘箱中,灰尘浓度为:5g/m3,空气流速为10m/s, 试验持续8小时。机器内部无砂尘进入。 防水测试:样品被放置在淋雨试验箱转台上内。向其喷洒温度20℃的水。每个面喷洒10min。机器正常工作。 跌落测试:机器6个面分别150cm高度跌落在水泥地面。4个循环无故障。 液晶屏耐磨:推拉力计垂直按压于屏表面,压力2.4N,在3cm直线距离来回摩 擦10000次。手写输入,触笔沿摩擦处划直线,歪斜率不超过15%。 按键寿命:下压重量为400-500g,按压100万次按键无破损现象,按键功能正常。 振动测试:扫频耐久试验、定频耐久试验、高频扫频耐久试验、高频定频耐久试验以后机器无故障。 温度测试:工作温度为-10℃,55℃、贮存温度为-20℃,60℃、恒定湿热试验 环境温度55℃,相对湿度93%、温度变化试验机器无故障。 移动终端事业部致力于研发、生产和销售民族品牌的嵌入式信息终端,经过多年不懈地努力,自有品牌手持终端产品大批量销往国内、国际市场。 金融与通信事业部致力于研发、生产和销售金融类产品,产品占据了国内相当大分额的市场。 SOC事业部致力于研发、设计集成电路产品,实现具有自己知识产权的集成电路。 说明:以上组合为Z大兼容,只能裁减,不能增加;竖排并列为可以二选一。 售前服务 提供快速、详细、周到的技术咨询,技术开发支持。 具备完善的软件开发工具、硬件开发手册、文档说明和培训支持。 售后服务 提供快速优质的升级、维护、维修服务,一般不超过三个工作日,并且可以提供及时的备机服务,特殊约定的除外。 提供更长的保修服务,并且定期的回访和维护服务。 本地化服务价格优势维修费用低。 实时对装备进行“体验”、准确及时地保障工作,确保了装备保障工作人员全面、实时、直观地了解装备的技术状况、消耗态势和故障情况,并据此部署维护保养力量,排查安全隐患. 立体仓库,数据采集比较困难,工作强度高 解决方案:零部件及包装箱贴上条码标签,使用AUTOID产品,读取条码,利用高级WIFI传输到管理系统 好处:提高工作效率,形成快速、GX的物流环节 节约纸张成本 数据可靠性强,出错率近乎为零 实现科学出入库,提高综合管理水平 展开
2011-02-28 05:16:20 596 1
求英文论文一篇
要5000词左右,注明出处(杂志名,多少期,Z好可查),不要从书中摘录的。关于网络方面的。(软件。。不要硬件的)。。有翻译更好,没有也行。谢谢大家帮帮忙。
2009-04-12 18:26:09 231 1
有关植物组织培养过程中愈伤组织的问题
在植物组织培养形成愈伤组织的过程中,好像要进行光照,请问这是为什么,愈伤组织可以进行光合作用吗?另外请给出详细的植物组织培养的培养基的成分,谢谢。... 在植物组织培养形成愈伤组织的过程中,好像要进行光照,请问这是为什么,愈伤组织可以进行光合作用吗?另外请给出详细的植物组织培养的培养基的成分,谢谢。 展开
2009-02-15 03:51:07 580 6

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