偃麦草

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  • couch grass;twitch grass
偃麦草偃麦草
  1. 从中间偃麦草2Ai-2染色体的微克隆文库鉴定特异性DNA序列

    The Specific DNA Sequence of Thinopyrum intermedium Isolated by Laser-Microdissection

  2. 长穗偃麦草DNA导入小麦后代变异系醇溶蛋白的研究

    Studies on gliadins of varieties of the wheat progentes obtained by introducing DNA of Agropyron elongatum

  3. 长穗偃麦草E组染色体特异PCR标记开发

    Development of E-chromosome Specific PCR Markers for Thinopyrum Elongatum

  4. (普通小麦/长穗偃麦草)F1小孢子发生和雄配子体发育的细胞学特点

    Cytological characteristic on Microsporogenesis and male gametophyte development of ( t.aestivum/e.elongata ) f 1

  5. 长穗偃麦草中E和E1基因组高分子量麦谷蛋白基因启动子部分序列的进化分析

    Evolution of Partial Promoter Region of HMW Glutenin Genes from E and E_1 Genome of Agropyron elongatum

  6. 中间偃麦草Z4抗条锈病基因导入春小麦的研究

    Study on Z_4 Gene of Resistance to Stripe Rust of Thinopyrum Intermedium Transferred into Spring Wheat

  7. 然后通过RAPD分子检测确定后代中含有天蓝偃麦草染色体组的DNA序列。

    Then , we used RAPD to detect all progenies , in which contained the DNA sequence of Thinopyrum intermedium .

  8. 长穗偃麦草Na~+/H~+反向转运蛋白基因的分离与功能分析

    Characterization and Functional Analysis of the Vacuolar Na ~ + / H ~ + Antiporter Gene in Agropyron Elongatum

  9. 低温预处理对中间偃麦草×普通小麦F1幼穗愈伤组织诱导和继代培养的影响

    The effects of cold pretreatment in initiation and maintenance of young spike calli of ( elytrigia intermedia × triticum aestivum ) f_1

  10. 四倍体长穗偃麦草(Agropyronelongatum4x)染色体组构成的生化和SSR标记分析

    Genome Constitution of Agropyron elongatum 4x by Biochemical and SSR Markers

  11. 基因组原位杂交(GISH)结果显示,011077为二体附加系,所附加的1对染色体是源于中间偃麦草的St染色体,这对St染色体已与普通小麦染色体发生了遗传重组。

    GISH ( genome in situ hybridization ) revealed that the pair of chromosome added to it originated from the St chromosome of Th . intermedium .

  12. 中间偃麦草与黑麦之间关系的GISH分析

    GISH Analysis of Thinopyrum intermedium and Secale cereal

  13. 本研究综合运用形态学、细胞遗传学、生化和RAPD分子标记对已育成的10个小麦&中间偃麦草双体异附加系进行了鉴定;

    In this study , 10 alien disomic addition lines obtained from common wheat v-Elytrigia intermedium were identified with morphological markers , cytological markers , biochemical markers and RAPD markers .

  14. 利用RT-PCR技术从长穗偃麦草胚乳总RNA中分离了5个基因序列,比对的结果表明与其中的5个基因组扩增来源的序列完全相同。

    Also , five genes were isolated from endosperm of A. elongatum via RT-PCR analysis , and the sequence alignment showed they were identical with five out of the seven via genomic amplification .

  15. 抗白粉病小麦&中间偃麦草异附加系的选育及GISH鉴定

    Development and GISH Analysis of Thinopyrum Intermedium-derived Wheat Alien Addition Lines Resistant to Powdery Mildew

  16. 中间偃麦草的GISH分析

    GISH analysis of Thinopyrum intermedium

  17. 抗BYDV小麦&中间偃麦草易位系α-淀粉酶2同工酶的研究

    Study of the α - Amylase 2 Isozymes of Wheat / Th . intermedium Translocation Lines with BYDV Resistance

  18. 长穗偃麦草4E染色体上的K/Na判别性状基因研究

    Investigation of gene of k / na discrimination character on 4E chromosome from Agropyron elongatum

  19. 中间偃麦草(Thinopyrumintermedium)18S-5.8S-26Srdna位点在染色体上的分布及对其核ITS序列异质性的分析(英文)

    Chromosomal Distribution of the 18S-5.8S-26S rDNA Loci and Heterogeneity of Nuclear ITS Regions in Thinopyrum intermedium ( Poaceae : Triticeae )

  20. 获得1个短片段易位(WJS易位)中的中间偃麦草染色质特有的SSR标记X-6。

    A molecular marker X-6 specific for alien Thinopyrum intermedium chromatin was also obtained from the small fragment translocation line .

  21. 最后进行基因组原位杂交,检测到后代中均含有天蓝偃麦草整条染色体,对其后代F3的稳定性、结实率、多年生习性等做出初步的预测。

    Finally , we identified the whole chromosome of Thinopyrum intermedium in progenies of hybrid by genomic in situ hybridization , and preliminarily estimated the stability of hybrid F3 , seed set , and perennial habit etc.

  22. 利用形态学、细胞学、A-PAGE和RAPD方法,对5个小麦-中间偃麦草(Thinopyrumintermedium)双体异附加系Line1、Line4、Line10、Line14和Line15进行了鉴定。

    Wheat-Thinopyrum intermedium alien disomic addition lines ( Line 1 , Line 4 , Line 10 , Line 14 and Line 15 ) were identified by using the methods of morphology , cytology , A-PAGE and RAPD analysis .

  23. 中间偃麦草具有抗病、抗逆等多种特性,小冰麦异附加系TAI-27附加一对中间偃麦草染色体,具有大麦黄矮病抗性,抗病基因位于异附加中间偃麦草染色体上。

    Wheat-Thinopyrum alien additional line TAI-27 created by hybridization between common wheat and Thinopyrum intermedium has a pair of chromosomes derived from Th . Intermedium .

  24. 对于转化成功的长穗偃麦草5E和7E染色体特异PCR标记,经多次验证重复性好,扩增稳定,操作便捷,花费低,尤其适合无相关基因组序列信息的情况下需要发展分子标记。

    Successful transformation 5E and 7E chromosome specific PCR markers were repeatable , stable , easy , quick and low cost after several tests . They were particularly suitable for development of molecular markers when there was no related genomic sequence information .

  25. 中间偃麦草及其在小麦遗传改良中的应用

    Review of Thinopyrum Intermedium and Its Use for Wheat Genetic Improvement

  26. 并就易位系中控制蓝粒性状的长穗偃麦草染色体片段的定位和蓝粒小麦易位系的应用进行了讨论。

    The location and application of blue _grained wheat translocation lines were discussed .

  27. 小麦&中间偃麦草抗锈病易位系的创制及分子生物学鉴定

    Creation and Molecular Biological Identification of Wheat-Thinopyrum Intermedium Translocation Line with Resistance to Wheat Rust

  28. 冬小麦与天蓝偃麦草远缘杂交的回交世代中几个主要性状的遗传表现

    Genetic Performance of Some Main Characters in Backcrossing Generations of Distant Cross between Winter Wheat and Agropyron

  29. 普通小麦背景中长穗偃麦草高分子量麦谷蛋白基因的表达、染色体定位与分子标记

    Expression , Chromosomal Location and Molecular Marker of High-Molecular-Weight Glutenin Subunit Gene of Thinopyrum elongatum in Wheat Background

  30. 一个多抗小麦-中间偃麦草新种质的选育和细胞分子生物学鉴定

    Breeding and Cytological and Molecular Identification of a New Germplasm with Multiple Disease Resistance from Triticum aestivum-Agropyron intermedium