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我国大豆
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  chinese soybean
     There were great genetic diversity of the relativecontents of 11S,7S globulins and their subunits in 706 Chinese soybean germplasm.
     结果表明:706份我国大豆种质资源中7S、11S组分及其亚基相对含量具有丰富的遗传变异;
短句来源
     Molecular Characterization of a Chinese Soybean Mosaic Virus Isolate by RT_PCR, cDNA Sequence Analysis and Direct Expression of PCR Products in Bacteria 
     利用RT_PCR、DNA序列分析及原核基因表达对我国大豆花叶病毒进行分子鉴定(英文)
短句来源
     The seed protein extracts from 1,858 Chinese soybean cultivars wereanalyzed by polyacrylamide gel electrophoresis in order to determine thedistribution of the alleles of the Ti(Ti~a,Ti~b,and Ti~c)and Sp_1(Sp_1~b,Sp_1~a,and Sp_1~c)loci.
     本实验分析了1,858份我国大豆(G.max)的地方品种种子蛋白中的 Kunitz蛋白 Ti 位点和β-淀粉酶蛋白 S_(p_1)位点及其活性 Am 等各位点等位基因的分布频率。
短句来源
     This article empirically measures price discovery and lead-lag relationships in Chinese soybean and wheat's spot-futures markets with the information shares and volatility spillovers models.
     本文借助于信息共享模型与波动溢出效应模型对我国大豆和小麦的期、现货市场之间的价格发现进行了多层次的实证研究,定量描述了期、现货市场在价格发现中作用的大小,深入刻画了我国农产品期、现货市场之间的动态关系。
短句来源
     Analysis of Chinese Soybean Processing and Utilization
     我国大豆加工利用研究的综合分析
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  our soybean
     Undertaking the Task for Revitalization of Our Soybean Industry
     担起重振我国大豆产业的任务
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     Soybean is sylleptic crop of protein and fat.And the yield is always the restrict factor in the production of soybean. The hybrid soybean can evidently increase the yield (13-20%,and so much as higher). So heterosis is a main approach for the productionof our soybean.
     大豆是重要的蛋白脂肪兼用作物,产量一直是限制大豆生产的制约因素,杂种大豆可显著提高单产(13-20%,甚至更高)及抗逆性,因而,应用杂种优势是发展我国大豆生产的重要途径之一,目前最有希望用于杂种大豆生产的还是雄性不育三系。
短句来源
     China was the original place of soybean and contained abundant germplasm resource, digging choiceness gene in germplasm resource to improve our soybean breeding level were necessary.
     我国是大豆的发源地,拥有丰富的种质资源,发掘种质资源中的优良基因,提高我国大豆育种水平,是亟待深入研究的课题。
短句来源
     What's more, we analyse the reasons why we import so much soybean and the impact of the import on our soybean industry. Base on this analysis,we put forward some policy suggestion on how to develop our soybean industry.
     同时分析了我国大豆大量进口的原因以及进口对我国大豆产业产生的影响,在此基础上提出了我国大豆产业发展的政策建议。
短句来源
  china ' s soybean
     and these futures exist Co-intergration relationship. Therefore, related information can be conducted rapidly and these futures can run efficiently and effectively, implying China's soybean futures has become one part of the world futures market;
     (2)全球三大大豆期货市场之间存在着协整关系,表明各市场间市场整合程度很高,相关的信息在各市场之间能够快速地传递,全球大豆期货市场表现出很高的市场运行效率,我国大豆期货市场已经成为世界大豆期货市场体系重要的组成部分;
短句来源
     The gap between China's soybean production and the world was analyzed.
     系统地分析了我国大豆生产与世界大豆生产的差距;
短句来源
     The study shows that direct effect of circulation channel on the competitiveness of China's soybean is smaller, but a organization is urgently required to guide, standardize and restrict the behaviors of the principal part of China soybean's circulation.
     研究表明,流通渠道层面对我国大豆价格竞争力的直接影响不大,但急需有一组织来引导、规范、制约我国大豆流通主体的行为;
短句来源
     The present paper takes the soybean futures exchange in Dalian Commodity Exchange as an example, analyses the situation on the domestic and abroad soybean supply and demand and futures price variation, and produces the effective measures on developing China's soybean futures exchange.
     本文以大连商品交易所大豆期货交易为研究例证,分析国内外大豆供求情况及期货价格变动趋势,提出发展我国大豆期货交易的有效措施。
短句来源
     Though in these years, China' s soybean production has developed with planting area resuming slightly and total soybean output increasing steadily.
     虽然近年来,我国大豆生产有所发展,主要体现在大豆种植面积略有恢复,大豆总产量稳步提高。
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  “我国大豆”译为未确定词的双语例句
     Gene Expression without SBTI-A_2 in Soybean Lines of China
     不含 SBTI-A_2的基因导入我国大豆的遗传表达
短句来源
     STUDY ON 2S FRACTON OF SOYBEAN. SEED GLOBULIN: PROPERTIKS OF 2S GLOBULIN
     我国大豆种子球蛋白2S组分的研究——2S球蛋白的某些性质
短句来源
     Soybean cyst nematode (SCN, Heterodera glycine Ichinohe) is one of the most serious diseases in the growth of soybean.
     大豆孢囊线虫(Heterodera glycine Ichinohe)是大豆生长过程中最具破坏力的病害之一,我国大豆孢囊线虫以4号生理小种危害最为严重。
短句来源
     Mosaic virus is a serious disease of soybean in China,which is caused by the virus.
     由花叶病毒引起的大豆花叶病毒病(soybean mosaic virus,SMV)是我国大豆生产中的严重病害。
短句来源
     At the same time,soybean oil and meal output was highly postive relevant to soybean imports,and soybean oil and meal output increased by 1%,the soybean imports increased by 1.23%.
     大豆油与豆粕的产量与大豆进口量呈高度正相关,即大豆油与豆粕的产量每上升1%,我国大豆进口量将上升1.23%。 对如何扭转我国大豆进口量剧增的局面提出了政策建议。
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  chinese soybean
The effect of co-cultivation and selection parameters on Agrobacterium-mediated transformation of Chinese soybean varieties
      
Using the optimized system, we obtained 145 morphologically normal and fertile independent transgenic plants in five important Chinese soybean varieties.
      
Sufu (Chinese soybean cheese) is a cheese-like product originating in China in the fifth century.
      
Establishment of Chinese soybean Glycine max core collections with agronomic traits and SSR markers
      
In this study, different sampling methods and sample sizes were compared in order to optimize the strategies for building a rationally sized core collection of Chinese soybean (Glycine max).
      
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  our soybean
No PPFMs were detected in any soybean culture we have, and previous results describing the biochemical characteristics of ureide utilization by one of our soybean suspension cultures (27C) also indicates that PPFM bacteria were not present.
      
Of the 15 N taken up by toyields comparable to our soybean yields.
      
We are still developing our strategy to minimize the effects of soybean rust on our soybean crop, but these methods appear most promising.
      


Soybean mosaic, bud blight and dwarf are the three major viral diseases occurred in China. Soybean mosaic is caused by the soybean mosaic virus (SMV) . This virus, classified as a flexous rod, was isolated from varieties Jinghuang No.3, Kehuang No.2 and Tiefeng No.18. The virus particles were measured 661.2nm in average length and 13.9nm in width (Fig.5) . The mosaic disease reduced seed yield from 10% to 70%, and the seeds from SMV-infected soybean plant, in general, were mottled. The percentage of mottled...

Soybean mosaic, bud blight and dwarf are the three major viral diseases occurred in China. Soybean mosaic is caused by the soybean mosaic virus (SMV) . This virus, classified as a flexous rod, was isolated from varieties Jinghuang No.3, Kehuang No.2 and Tiefeng No.18. The virus particles were measured 661.2nm in average length and 13.9nm in width (Fig.5) . The mosaic disease reduced seed yield from 10% to 70%, and the seeds from SMV-infected soybean plant, in general, were mottled. The percentage of mottled seeds of resistant varieties to SMV is markedly lower than tha-of the susceptible (Table 1). On the basis of sumtomatology and the analy. tical reralts of relationship of seed coat mottling with SMV-infected plant, it was demonstrated that the mosaic disease may be caused by different strains of SMV, namely SMV-G and SMV-D. The SMV-G strain siolated from Jinghuang No.3 may affect the seed coat mottling and plant height which varies from normal height to slightly stunted plants with shorter internodes. The SMV-D strain isolated from Tiefeng No.18 can not affect the seed coat mottling, but the diseased plants become markedly stunted.Soybean bud blight is a dangerous viral disease and is caused by the tobacco ringspot virus (TRSV) . This virus was successfully isolated from the hybrids of Dandong Qingdou. The virus particle is a polyhedron 29.5nm in diameter (Fig.6) . The bud blight significantly reduced the seed yield of soybean from 50% to 100%.

危害我国大豆的主要病毒病有三种,即花叶病、芽枯病和矮化病。应用差速离心法成功地从京黄3号、科黄2号和铁丰18号分离出花叶病的病毒;从丹东青豆的杂种中分离出芽枯病毒。花叶病毒颗粒为长而弯曲的线形,平均长度为661.2nm,宽度为13.9nm。芽枯病的病原为球形的烟草环斑病毒、平均直径为29.5nm。花叶病与籽粒褐斑的关系的研究结果证明,种子产生斑驳是由大豆花叶病毒引起的。抗病品种的褐斑率明显低于敏感品种。根据病毒病的鉴定结果,京黄3号等感染的花叶病,植株矮化不明显,种子容易生褐斑,称之为典型的普通花叶病(SMV—G);而铁丰18号感染的花叶病,植株矮化明显,籽粒不生褐斑,称之为矮缩型花叶病(SMV—D)。供试品种中抗花叶病最强的品种是科黄3号。丹东青豆的杂种以及日本的宫城白眉和大青豆则是烟草环斑病毒(TRSV)感染的芽枯病。这些品种严重染病,颗粒无收,利用价值不大。

This paper mainly presents the general situation of the plants of the genus Glycine in China. Firstly, the taxonomic status of the genus Glycine is briefly reviewed.We have recently made the surveys on the distribution of plants of genus Glycine grown in China. Four species of genus Glycine, namely Glycine tabacina, G. tomentella, G. soja and G. max had been found. The morphological Characters of these are discvibed.Finally, the taxonomic questions of G. gracilis and G. sojo are discussed. We are in favor of...

This paper mainly presents the general situation of the plants of the genus Glycine in China. Firstly, the taxonomic status of the genus Glycine is briefly reviewed.We have recently made the surveys on the distribution of plants of genus Glycine grown in China. Four species of genus Glycine, namely Glycine tabacina, G. tomentella, G. soja and G. max had been found. The morphological Characters of these are discvibed.Finally, the taxonomic questions of G. gracilis and G. sojo are discussed. We are in favor of professor Wang's (1958) opinion, i. e. G. gracilis should not be considered as a species in genus Glycine. Hence it is a semi-cultivated type of soybean belonging to species G. max. The taxonomic classification of G. soja needs to be further investigated and classified.

本文重点介绍我国大豆属Glycine植物的一般概况,本文首先简要的回顾了大豆属的分类情况。 近年来,我们进行了我国大豆属植物的考察,了解了大豆属植物的四个种,即烟豆 Glycine tabacina,多毛豆G.tomentella,野生大豆G.soja和栽培大豆G.max。本文对大豆属植物做了描述。 最后,讨论了细茎大豆G.gracilis.和野生大豆G.soja的分类问题。我们赞同王金陵(1958)的意见,即G.gracilis不应看做是Glycine属的一个种,它是半栽培型大豆,属于栽培大豆G.max种。G.soja的植物学分类需进一步进行研究,并予以分类。

The large and contineuous genetic variation of the agronomic characters of soybeans provides the possibility for selection by various environmental conditions to form enormous kinds of types and varieties. The wide range of climatic arid cultural conditions as well the diverse usage of soybeans in China causes Chinese soybean germplasms to be exceedingly prolific.Soybeans in the extreme north part of Heilonggiang Province(50°N.)are of extremely early maturing and day neutral type, while those of Guandong Province...

The large and contineuous genetic variation of the agronomic characters of soybeans provides the possibility for selection by various environmental conditions to form enormous kinds of types and varieties. The wide range of climatic arid cultural conditions as well the diverse usage of soybeans in China causes Chinese soybean germplasms to be exceedingly prolific.Soybeans in the extreme north part of Heilonggiang Province(50°N.)are of extremely early maturing and day neutral type, while those of Guandong Province (22.5N,) are of very late maturing and typical short day types. Between there there are the concecutive transitional forms. Soybeans in Yangtze River valley of 30-32°N. consisted of nearly day neufral, moderate short day, and typical short day types to meet the diverse kinds of cropping system. It is therefore we do believe that, soybean germplasms in Yangtze River Valley is the most pentiful in contrast to those of other regions.In the main soybean producing area of North East, the weight of 100 seeds is around 18-22g., while in the west part of North East, where the annual rainfall is only 400-500mm and soil is more or less alkaline the weight of 100 seeds is around 13-16g.. In the Loess Plateau area of the Shanxi and Shaanxi provinces, small black seeded soybean is the dominant type. In the area of Yangtze River Valley, size of soybean seeds varies greatly according to the usage and cropping systems encountered.Determinate soybeans are prevalent in areas of Yangtze River Valley where the farming condition is intensive. For the purpose of developing cultivars with tall and stiff stem, soybean with developed main stem, moderate branches, more nodes on main stem and adaptability to machine harvesting, were developed. Germplasms of indeterminate and emi-determinate soybeans in the main soybean producing area of North East is promising for using as crossing parents.Soybean germplasms in areas of Yangtze River Valley are valuable for their high protein content(over 45%).Soybean varieties collected from main soybean producing area of North East have higher oil content (20-23%) but moderate protein content (37-40%).Sources of genes of resistance to soybean diseases may be present in soybean germplasms grown in many places in China, but they can only be biscovered by screening. For hunting the genes of disease resistance we should collect soybean accessions from both the epidemic regions and the disease free regions.The Loess Plateau of north Shanxi and Shaanxi provinces is the most typical small-seeded black soybean region. In places where crop ultural level is high and soybeans are produced as conlmercial commodity, seed coat of soybeans are mostly yellow. In North East c of China, traditionally soybeans were produced as commercial commodity, therefore yellow soybeans with light hilum color were prefered for growing, The elimination of gene T which causes both heavy hilum color and tawny pubescence causes almost all the cultivars in the main producing area of North East are with grey pubescence.In area of Yangtze River Valley, soybeans with tawny pubescence and heavily colored hilum are dominant in preva-lence.

我国地域辽阔,各地的自然条件,耕作栽培条件差异很大,对大豆的利用要求也十分不同,经过此等不同条件的长期选择,使我国的大豆品种资源丰富多彩,而且生态地理的分布规律也十分明显。在我国黑龙江省的北部,极早熟的中日性大豆方可适应,而在低纬度的广东地区,极迟熟的典型短日性品种,才是适应类型。这南北两地区之间的大豆,在生育期类型上,作连续性的过渡变化。在长江流域地区,于较长的无霜期期间,光照长短的变化较大,栽培制度复杂,因此大豆的生育期类型最为繁多,大豆的品种资源远较其它地区丰富。东北大豆主产区大豆的百粒重在18—22克左右,而东北西部干旱盐碱地区大豆的百粒重仅为13—16克左右。在陕晋黄土高原地区,小粒的黑豆是主要类型。在长江流域,由于大豆的用途多样化,因此大豆种粒的大小变化很大。在长江流域,由于自然条件较好,农业水平较高,大豆以有限结荚习性为主。在东北中北部大豆主产区,大豆主要为植株高大不倒伏、主茎发达而又有一定分枝的无限结荚习性及亚有限结荚习性。长江流域大豆蛋白质的含量显然较高,大都在45%以上。东北大豆主产区的大豆含油量较高(20—23%),但蛋白质的含量一般(37—40%)。中国各地区的大豆品种具有抗各种病害的...

我国地域辽阔,各地的自然条件,耕作栽培条件差异很大,对大豆的利用要求也十分不同,经过此等不同条件的长期选择,使我国的大豆品种资源丰富多彩,而且生态地理的分布规律也十分明显。在我国黑龙江省的北部,极早熟的中日性大豆方可适应,而在低纬度的广东地区,极迟熟的典型短日性品种,才是适应类型。这南北两地区之间的大豆,在生育期类型上,作连续性的过渡变化。在长江流域地区,于较长的无霜期期间,光照长短的变化较大,栽培制度复杂,因此大豆的生育期类型最为繁多,大豆的品种资源远较其它地区丰富。东北大豆主产区大豆的百粒重在18—22克左右,而东北西部干旱盐碱地区大豆的百粒重仅为13—16克左右。在陕晋黄土高原地区,小粒的黑豆是主要类型。在长江流域,由于大豆的用途多样化,因此大豆种粒的大小变化很大。在长江流域,由于自然条件较好,农业水平较高,大豆以有限结荚习性为主。在东北中北部大豆主产区,大豆主要为植株高大不倒伏、主茎发达而又有一定分枝的无限结荚习性及亚有限结荚习性。长江流域大豆蛋白质的含量显然较高,大都在45%以上。东北大豆主产区的大豆含油量较高(20—23%),但蛋白质的含量一般(37—40%)。中国各地区的大豆品种具有抗各种病害的遗传基因,但是生态地理分布规律不明显,抗病基因须经筛选才能发现。为了取得具有抗病基因的品种资源,既需要自疫区也需要自无病区搜集材料。东北大豆主产区是我国传统的商品大豆产区,因此大豆概为淡色脐黄豆。由于基因“T”既控制产生深色脐又控制产生棕毛,因此在东北大豆主产区由于强调种植淡色脐而将棕毛大豆几乎全部排除。在长江流域,大豆概为棕毛,脐色多褐至深褐色。

 
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