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genetic
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    Genetic Diversity of Germplasm Resources on Phaseolus Vulgaris
    菜豆种质资源遗传多样性的研究
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    Establishment of High Efficient Pepper(Capsicum annuum L.)Plant Regeneration and Genetic Transformation System and Study on Transgene for Disease-Resistance in Pepper
    辣椒高效离体再生与遗传转化体系建立及抗病转基因研究
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    Construction of Genetic Linkage Map and Location of Main Agronomic Characters in Brassica Campestris L.
    白菜分子遗传图谱构建及其重要农艺性状的基因定位研究
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    Molecular Evaluation of Genetic Variation in Ziziphus Jujuba Mill.cv.Zanhuangdazao and Its Related Populations
    赞皇大枣及相关类群群体遗传变异的分子评价
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    Agrobacterium Tumefaciens-mediated Genetic Transformation of Litchi (Litchi Chinensis Sonn.) with LEAFY Gene
    农杆菌介导荔枝(Litchi chinensis Sonn.)遗传转化体系的建立及导入LEAFY基因研究
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    Improving the Resistance of Some Important Vegetables to Insects by Genetic Engineering
    基因工程改良几种重要蔬菜的抗虫性
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    Study on the Genetic Relation of the Germplasm of Corylus L.──Analysis of pollen morphology
    榛属种质亲缘关系的探讨──花粉形态分析
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    STUDY ON THE MANAGEMENT SYSTEM OF FRUIT GENETIC RESOURCES
    果树种质资源管理系统的研究
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    Analysis of Genetic Resources and Pedigree of Chinese Cabbage in Heilongjiang
    黑龙江省大白菜品种资源及系谱分析
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    Agronomic Character Analysis of Yardlong Bean Genetic Resources
    千份豇豆种质资源十大农艺性状的鉴定与分析
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  genetic
More particularly, Genetic Algorithms, Artificial Neural Networks and Fuzzy Logic methods seem to be the most promising tools to speed up and optimize the search for new leads and focused libraries.
      
Herein we describe the 3D QSAR study of 4-anilinoquinoline-3-carbonitrile by Genetic Function Approximation (GFA) and Comparative Molecular Field Analysis (CoMFA).
      
In this paper a hybrid algorithm which combines the pattern search method and the genetic algorithm for unconstrained optimization is presented.
      
The algorithm is a deterministic pattern search algorithm, but in the search step of pattern search algorithm, the trial points are produced by a way like the genetic algorithm.
      
Novel Quantum Genetic Algorithm and Its Applications
      
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The study of blooming hahit of peanut is an impottant proeedure to make crosses between varieties either for genetic studies or lor breeding purposes. More than seventeen thousand peanut flowers were studied in the autumn at the college experiment Stat on of Fukien Provincial College of Agriculture, Yungan, Fukien,China.The results obtained from the study may be summarized in the following points: 1.The object of this experiment is to find out the blooming habit of Arachis hypogea. 2.The experiment was...

The study of blooming hahit of peanut is an impottant proeedure to make crosses between varieties either for genetic studies or lor breeding purposes. More than seventeen thousand peanut flowers were studied in the autumn at the college experiment Stat on of Fukien Provincial College of Agriculture, Yungan, Fukien,China.The results obtained from the study may be summarized in the following points: 1.The object of this experiment is to find out the blooming habit of Arachis hypogea. 2.The experiment was carried out under both field and grean house.The materials used for study were varieties widelv grown in Yungan; namely Valay(1), YuLin(a-1), Ping-siang. 3.The average time required from seeding to the blooming of the first flower is 38.36±5.11 days, It is a little longer under the green house(40.53± 4.28) than that in the field (36.2±4.06). 4.They are blooming absolutely in the day time.Peanut blooms from 6-7 o'clock.The maximum blooming period is at 6.00 A.M.(53.8%).The blooming period varies with green house and field. 5.The optimum blooming temperature is 22-24℃.(87.35%).No flower blooms below 17℃.and above 32℃. 6.In the field, peanut blooms beet at the relative humidity of 86%-100%, being 97.56% of total flowers studied.The best humidity is 95%-100%, being 78.34% of total flowers, 7.When the interaction of temperature and humidity is considered, the temperature of 22-24.9℃.with the relative humidity of 95%-100% is usually fitted.(82.89% of total flowers studied). 8.The time required from starting to bloom to not blooming varies with environments.It is usually shorter in the field than it is in the green house. 9.The number of flowers which bloom differs greatly with environment for individual plant. 10.The order of blooming starts from low to top of the plant. 11.The blooming days are rather scattering, being between 36-96 days after the blooming of the first flowers (88.91% of total flowers).In these 60 days there is no much difference in the numler of flowers that bloom.The maximum blooming date falls on the 59th day which is only 2.85% and the minimum date on the 63rd day is 0.85%.Besults show that there is no tendency for the flower blooming at any concentrated period.

1.本试验乃在前福建省立农学院农艺试验场举行,其目的为欲明了花生在永安环境下的开花习性。 2.试验分温室(无保温设备)与田间二环境,各植Valaya(-1),玉林(a-1) 及凭祥三品种都来自前闽省农事试验场。 3.在永安环境下,花生由播种至开花约需38.38±5.11日,由播种至开始开花所需日数的品种间、环境间都有显著的差异,在温室者(40.53±4.28)较在田间者(36.2±4.06)为长。 4.花生花的开放都在白天,大多数集中在六点七点,占总观察花数98.00%,尤以六时开放最多达总观察花数53.80%。 5.花生花在田间环境者以温度22°—24.9℃之间开放最多,占总观察花数87.35%,在17℃以下32℃以上时没有一花开。 6.花生花在田间环境者,花的开放大部集中在相对湿度86%至100%约占该环境观察花数的97.56%。 7.就温湿度二者相互作用言时,花生花以在温度22°—24.9℃湿度95%至100%时开花最多,占总观察花数的82.89%。 8.花生花的开花数目与温湿度没有显著的相关;温度与湿度相关显著为负相关。当相对湿度为常数时,温度与花生的开花数目有显著的正相关。温湿度与开花的複相关很显著...

1.本试验乃在前福建省立农学院农艺试验场举行,其目的为欲明了花生在永安环境下的开花习性。 2.试验分温室(无保温设备)与田间二环境,各植Valaya(-1),玉林(a-1) 及凭祥三品种都来自前闽省农事试验场。 3.在永安环境下,花生由播种至开花约需38.38±5.11日,由播种至开始开花所需日数的品种间、环境间都有显著的差异,在温室者(40.53±4.28)较在田间者(36.2±4.06)为长。 4.花生花的开放都在白天,大多数集中在六点七点,占总观察花数98.00%,尤以六时开放最多达总观察花数53.80%。 5.花生花在田间环境者以温度22°—24.9℃之间开放最多,占总观察花数87.35%,在17℃以下32℃以上时没有一花开。 6.花生花在田间环境者,花的开放大部集中在相对湿度86%至100%约占该环境观察花数的97.56%。 7.就温湿度二者相互作用言时,花生花以在温度22°—24.9℃湿度95%至100%时开花最多,占总观察花数的82.89%。 8.花生花的开花数目与温湿度没有显著的相关;温度与湿度相关显著为负相关。当相对湿度为常数时,温度与花生的开花数目有显著的正相关。温湿度与开花的複相关很显著。 9.花生每株由开始开花至不再开花,其间经过的时间,因环境的不同而有差异。 10.花生每株开花的数目,因环境的不同而有差异。 11.花生花以在开放之第三十六日至九十六日开放最多,占总开花数88.914%;此六十日内逐日开花数差异尚少;最多为第五十九日,占2.658%;最少为第六十三日,占0.658%;由此可知花生花的开放,没有集中的趋势。 12.花生植株花的开放顺序,系由下而上,下部最先开放,顺序而上顶端最后开放。

The study of blooming habit of peanut is an important proeedure to make orosses between varieties either for genetic studies or for breeding purposes. More than seventeen thousand peanut flowers were studied in the autumn at the college experiment Station o Fukien Provincial College of Agriculture, Yungan,Fukien,China.The results obtained from the study may be summarized in the following points. 1.The object of this experiment is to find out the blooming habit of Arachis hypogea. 2.The experiment was carried...

The study of blooming habit of peanut is an important proeedure to make orosses between varieties either for genetic studies or for breeding purposes. More than seventeen thousand peanut flowers were studied in the autumn at the college experiment Station o Fukien Provincial College of Agriculture, Yungan,Fukien,China.The results obtained from the study may be summarized in the following points. 1.The object of this experiment is to find out the blooming habit of Arachis hypogea. 2.The experiment was carried out under both field and green house.The materials used fór study were varieties widely grown in Yungan;namely Valay(1),YuLin(a-1),Ping-siang. 3.The average time required from seeding to the blooming of the first flower is 38.36±5.11 days,It is a little longer under the green house(40.53± 4.28)than that in the field(36.2±4.06). 4.They are blooming absolutely in the day time.Peanut blooms from 6-7 o'clock.The maximum blooming period is at 6.00 A.M.(53.8%).The blooming period varies with green house and field. 5.The optimum blooming temperature is 22-24℃.(87.35%).No flower blooms below 17℃.and above 32℃. 6.In the field,peanut blooms best at the relative humidity of 86%-100%, being 97.56% of total flowers studied.The best humidity is 95%-100%,being 78.34% of total flowers. 7.When the interaction of temperature and humidity is considered,the temperature of 22-24.9℃,with the relative humidity of 95%-100% is usually fitted.(82,89% of total flowers studied). 8.The time required from starting to bloom to not blooming varies with environments.It is usually shorter in the field than it is in the green house. 9.The number of flowers which bloom differs greatly with environment for individual plant. 10.The order of blooming starts from low to top of the plant. 11.The blooming days are rather scattering,being between 36-96 days after the blooming of the first flowers(88.91% of total flowers).In these 60 days there is no much difference in the number of flowers that bloom.The maximum blooming date falls on the 59th day which is only 2.85% and the minimum date on the 63rd day is 0.85%.Pesults show that there is no tendency for the flower blooming at any concentrated period.

1.本试验乃在前福建省立农学院农艺试验场举行,其目的为欲明瞭花生在永安环境下的开花习性。2.试验分温室(无保温设备)与田间二环境,各植 Valaya(—1),玉林(α—1) 及凭祥三品种都来自前闽省农事试验场。3.在永安环境下,花生由播种至开花约需38.38±5.11日,由播种至开始开花所需日数的品种间、环境间都有显著的差异,在温室者(40.53±4.28)较在田间者(36.2±4.06)为长。4.花生花的开放都在白天,大多数集中在六点七点,占总观察花数98.00%,尤以六时开放最多达总观察花数53.80%。5.花生花在田间环境者以温度22°—24.95°之间开放最多,占总观察花数87.35%,在17℃以下32℃以上时没有一花开。6.花生花在田间环境者,花的开放大部集中在相对湿度86%至100%约占该环境观察花数的97.56%。7.就温湿度二者相互作用言时,花生花以在温度22°—24.9℃湿度95%至100%时开花最多,占总观察花数的82.89%。8.花生花的开花数目与温湿度没有显著的相关;温度与湿度相关显著为负相关。当相对湿度为常数时,温度与花生的开花数目有显著的正相关。温湿度与开花的复相关很显著。9.花生...

1.本试验乃在前福建省立农学院农艺试验场举行,其目的为欲明瞭花生在永安环境下的开花习性。2.试验分温室(无保温设备)与田间二环境,各植 Valaya(—1),玉林(α—1) 及凭祥三品种都来自前闽省农事试验场。3.在永安环境下,花生由播种至开花约需38.38±5.11日,由播种至开始开花所需日数的品种间、环境间都有显著的差异,在温室者(40.53±4.28)较在田间者(36.2±4.06)为长。4.花生花的开放都在白天,大多数集中在六点七点,占总观察花数98.00%,尤以六时开放最多达总观察花数53.80%。5.花生花在田间环境者以温度22°—24.95°之间开放最多,占总观察花数87.35%,在17℃以下32℃以上时没有一花开。6.花生花在田间环境者,花的开放大部集中在相对湿度86%至100%约占该环境观察花数的97.56%。7.就温湿度二者相互作用言时,花生花以在温度22°—24.9℃湿度95%至100%时开花最多,占总观察花数的82.89%。8.花生花的开花数目与温湿度没有显著的相关;温度与湿度相关显著为负相关。当相对湿度为常数时,温度与花生的开花数目有显著的正相关。温湿度与开花的复相关很显著。9.花生每株由开始开花至不再开花,其间经过的时间,因环境的不同而有差异。10.花生每株开花的数目,因环境的不同而有差异。11.花生花以在开放之第三十六日至九十六日开放最多,占总开花数88.914%;此六十日内逐日开花数差异尚少;最多为第五十九日,占2.658%;最少为第六十三日,占0.658%;由此可知花生花的开放,没有集中的趋势。12.花生植株花的开放顺序,系由下而上,下部最先开放,顺序而上顶端最后开放。

The problem which is simple and effective technique of producing a lot of F_1seeds should be solved firstly.It is especially conducive to the utilization and po-pttlarization in a large area of hybrid vigor which exist generally in the chineseeabbage.“Ai jiao Huang”of male sterile AB Line NO.3 and NO.8had been bredout,the system of producing the F_1hybrid seeds by the AB Line was established andthe genetic type of male sterile was determined in our experiment. We have sol-ved the technique of producing...

The problem which is simple and effective technique of producing a lot of F_1seeds should be solved firstly.It is especially conducive to the utilization and po-pttlarization in a large area of hybrid vigor which exist generally in the chineseeabbage.“Ai jiao Huang”of male sterile AB Line NO.3 and NO.8had been bredout,the system of producing the F_1hybrid seeds by the AB Line was established andthe genetic type of male sterile was determined in our experiment. We have sol-ved the technique of producing the seeds of the better hybridized combination ofchinese cabbage“Dwarf Hybrid NO.1”.It was rapidly popularized in the country-side of Nanjing and other regions.This variety of chinese cabbage meets the re-quirment of short season in summer.At the same time,technique of producingF_1 seeds was promoted to a new level and experimetal evidences were posed forfurther studies of hybrid cabbage in our country.

为使普遍存在于白菜的杂种优势能够大面积利用推广,必须首先解决杂种一代的简易而有效的大量制种技术问题。本试验矮脚黄雄性不育两用系 AB 矮3与 AB 矮8的育成,利用两用系制种技术规程的制订以及核质型雄性不育遗传机制的确定。不但解决了我们育成的火白菜优良杂交组合“矮杂一号”的制种技术,使其在南京市郊区及其他地区得以迅速的大面积推广,并且在“堵伏缺”中发挥了重要的作用。同时,也把我国白菜的一代杂种制种技术提高到一个新的水平,为我国白菜杂优化工作的开展提供实验依据。

 
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