THINOPYRUM BESSARABICUM和THINOPYRUM ELONGATUM的基 …

对２个八倍体Ｃ．Ｓ－Ｔｈｉｎｏｐｙｒｕｍ ｂｅｓｓａｒａｂｉｃｕｍ（ＡＡＢＢＤＤＪＪ,２ｎ＝８ｘ＝５６）和Ｇｏｓｈａｗｋ（ＧＨＫ）－Ｔｈｉｎｏｐｙｒｕｍ ｅｌｏｎｇａｔｕｍ（ＡＡＢＢＤＤＥＥ,２ｎ＝８ｘ＝５６）的根尖细胞染色体进行Ｃ－分带,从中分检出Ｔｈ．ｂｅｓｓａｒａｂｉｃｕｍ和Ｔｈ．ｅｌｏｎｇａｔｕｍ的各自染色体进行核型分析,结果表明：Ｔｈ．ｂｅｓｓａｒａｂｉｃｕｍ和Ｔｈ．ｅｌｏｎｇａｔｕｍ的     

利用AABBDDDD八倍体培育小麦一簇毛麦二体附加系的研究

对普通小麦（Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｖｕｍ）－节节麦（Ａｅｇｉｌｏｐｓ ｓｑｕａｒｒｏｓａ）八倍体（２ｎ＝８ｘ＝５６,ＡＡＢＢＤＤＤＤ）与硬粒小麦（Ｔｒｉｔｉｃｕｍ ｄｕｒｕｍ）－簇毛麦９Ｈａｙｎａｌｄｉａ ｖｉｌｌｏｓａ）六倍体（２ｎ＝６ｘ＝４２,ＡＡＢＢＶＶ）杂交后,将所得七倍体杂种（ＡＡＢＢＤＤＶ）进行连续自交,在Ｆ４代中利用Ｃ－分带鉴定出可能的簇毛麦６Ｖ二体附加系９５－７和２Ｖ二体附加     

六倍体山羊草与普通小麦杂种F1细胞学研究

粗厚山羊草［Ａｅｇｉｌｏｐｓｃｒａｓｓａ Ｂｏｉｓｓ．（２ｎ＝ ６ｘ＝ ４２,ＤＤＤ２ Ｄ２ＭＣｒＭＣｒ）］、叙利亚山羊草［Ａｅ．ｖａｖｉｌｏｖｉｉ （Ｚｈｕｋ．）Ｃｈｅｎｎ．（２ｎ＝ ６ｘ＝ ４２, ＤＤ ＭＣｒＭＣｒＳＰ ＳＰ）］与普通小麦［Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｖｕｍ Ｌ．（２ｎ＝ ６ｘ＝ ４２, ＡＡＢＢＤＤ）］杂种Ｆ１ 植株形态大多偏向山羊草亲本。４ 个叙利亚山羊草×普通小麦和１ 个粗厚山羊草×普通小麦杂种Ｆ１ 自交结实,结实率在０．１％ —６．５％ 之间。这些种子胚乳很少,生活力较弱,播种后,只有少数种子出苗。杂种Ｆ１ ＰＭＣ减数分裂染色体配对水平较低,出现大量的单价体,二价体低于理论值,并且大多为棒形,说明两种山羊草的Ｄ组染色体已经过很大的修饰。在各杂种Ｆ１ 中还观察到少量的三价体,有些杂种还可见频率很低的四价体和五价体。以山羊草为母本的杂种Ｆ１ 染色体交叉频率优于反交。Ｆ１ 染色体分离极不正常,产生大量的多分孢子和微核。在叙利亚山羊草×冀麦３０ 号中还发现１ 株体细胞染色体为２１ 条的植株,其原因尚需进一步研究确定     

大赖草及近缘种染色体C—分带的研究

对Ｔｈｉｎｏｐｙｒｕｍｎｂｅｓａｒａｂｉｃｕｍ（Ｓａｖｕｌ．＆Ｒａｙｓ）Ａ．Ｌｖｅ、新麦草（Ｐｓａｔｈｙｒｏｓｔａｃｈｙｓｊｕｎｃｅａ（Ｆｉｓｃｈ．）Ｎｅｖｓｋｉ）和大赖草（Ｌｅｙｍｕｓｒａｃｅｍｏｓｕｓ（Ｌａｍ．）Ｔｚｖｅｌ．）染色体Ｃ分带的核型进行了比较研究。Ｔｈ．ｂｅｓａｒａｂｉｃｕｍ和新麦草的染色体在Ｃ分带带型上有明显的差异,显示了物种的特异性。３个物种的核型表明,Ｃ带带纹主要分布在染色体的末端,大部分染色体不显着丝粒带和中间带。在大赖草染色体上的末端带很明显。一些大赖草的染色体具有与Ｔｈ．ｂｅｓａｒａｂｉｃｕｍ和新麦草某些染色体相似的Ｃ带带型。对大赖草染色体组与Ｔｈ．ｂｅｓａｒａｂｉｃｕｍ和新麦草染色体组的关系进行了讨论。     

四种风毛菊属植物的核型研究

本文首次报道产于我国华北地区风毛菊属（ＳａｕｓｓｕｒｅａＤＣ．）４种植物的染色体数目和核型。四个种的染色体数目均是２ｎ＝２６,都是２倍体。它们的核型是：糠风毛菊（Ｓ．Ｐａｌｅａｔａ）Ｚｎ＝２ｘ＝２６＝１８ｍ＋６ｓｍ＋２ｓｔ,属２Ｂ型,华北风毛菊（Ｓ．ｍｏｎｇｏｌｉｃａ）Ｚｎ＝２ｘ＝２６＝１４ｍ＋４ｓｍ＋８ｓｔ,属２Ｂ型;狭苞凤毛菊（Ｓ．ｄｉｅｌｓｉａｎａ）Ｚｎ＝２ｘ＝２６＝８ｍ＋１２ｓｍ＋６ｓｔ,属２Ｃ型;银背凤毛菊（Ｓ．ｎｉｖｅａ）２ｎ＝２ｘ＝２６＝１８ｍ＋６ｓｍ＋２ｓｔ,属２Ａ型。染色体中均未发现随体。     

普通小麦×东方旱麦草属间杂种的产生及无性系的建立

本研究以普通小麦（ＴｒｉｔｉｃｕｍａｅｓｔｉｖｕｍＬ．;２ｎ＝６ｘ＝４２,ＡＡＢＢＤＤ）为母本,以东方旱麦草（Ｅｒｅｍｏｐｙｒｕｍｏｒｉｅｎｔａｌｅ（Ｌ．）Ｊａｕｂ．ｅｔＳｐａｃｈ;２ｎ＝４ｘ＝２８）为父本,首次成功地获得了属间远缘杂种Ｆ１,其平均结实率为０．０８％。利用植物细胞工程技术,对杂种幼胚愈伤组织的诱导、胚性无性系的建立、植株再生、壮苗培养等,最终获得了生长正常的杂种Ｆ１植株。同时,通过对杂种幼胚愈伤组织、根尖细胞的细胞学观察,结果表明该杂种为真杂种,即２ｎ＝５ｘ＝３５（预期染色体数）的杂种细胞占主体;另外,因组培过程中发生了染色体数目的变异,故也有少量２ｎ＝２８－３４染色体数的细胞。以上杂种的获得为将旱麦草优异基因向小麦的转移奠定了基础。     

普通小麦与东方旱麦草属间杂种的形态和细胞遗传学研究

本文对普通小麦（ＴｒｉｔｉｃｕｍａｅｓｔｉｖｕｍＬ．ｅｖ．Ｆｕｋｕｈｏ,２ｎ＝６ｘ＝４２,ＡＡＢＢＤＤ）与东方旱麦草（Ｅｒｅｍｏｐｙｒｕｍｏｒｉｅｎｔａｌｅ（Ｌ．）Ｊａｕｂ．ｅｔＳｐａｃｈ,２ｎ＝４ｘ＝２８,Ｂ′Ｂ′Ｃ′Ｃ′）属间杂种Ｆ_１进行了形态和细胞遗传学方面的探讨。首先,在形态方面的研究表明：（１）杂种Ｆ_１植株生长旺盛,分蘖力强;（２）绝大部分性状如株高、穗长、芒长等介于双亲之间而呈中间型,少数性状如颖脊、颖壳茸毛可作为鉴别杂种的形态标记;（３）花粉粒空秕、无可染性,花粉高度不育,自交完全不结实。其次,从杂种Ｆ_１的细胞遗传学研究表明：（１）染色体平均构型为：２６．０９Ⅰ＋４．３６Ⅱ＋０．０９Ⅲ,二价体数目从０－７个均有分布,但大多数为棒状二价体;（２）每细胞平均交叉数为４．７８;（３）染色体臂平均配对频率（Ｃ值）为０．１７。由上可知,在普通小麦ＡＢＤ基因组与东方旱麦草Ｂ′Ｃ′基因组之间存在微弱的部分同源关系,或在东方旱麦草基因组中可能存在一种抑制普通小麦Ｐｈ基因作用的抑制因子（ｓｕｐｐｒｅｓｓｏｒ）。     

山东10种植物的核型分析

对山东１０ 种植物进行了核型分析。茴茴蒜（ Ｒａｎｕｎｃｕｌｕｓｃｈｉｎｅｎｓｉｓ Ｂｇｅ－） 染色体数目２ｎ ＝１６ , 核型公式Ｋ（２ｎ） ＝ ２ｘ ＝ １６ ＝ ２ Ｍ ＋ ２ｍ ＋ ２ｓｍ ＋ １０ｓｔ, “３Ａ”类型; 五脉地椒（ Ｔｈｙｍｕｓｑｕｉｎｑｕｅｃｏｓｔａｔｕｓ Ｃｅｌａｋ－） 染色体数目２ｎ＝ ２６ , 核型公式Ｋ （２ｎ） ＝ ２ｘ＝ ２６ ＝ ８ Ｍ ＋ １８ｍ , “１Ａ”类型; 蛇床（ Ｃｎｉｄｉｕｍ ｍｏｎｎｉｅｒｉ（Ｌ－） Ｃｕｓｓ－） 染色体数目２ｎ＝ ２０ , 核型公式Ｋ （２ｎ） ＝ ２ｘ＝ ２０ ＝ ２Ｍ＋ １６ｍ ＋ ２ｓｍ , “２Ｂ”类型; 波斯菊（ Ｃｏｓｍｏｓ ｂｉｐｉｎｎａｔｕｓ Ｃａｖ－） 染色体数目２ｎ ＝ ２４ , 核型公式Ｋ（２ｎ） ＝ ２ｘ ＝ ２４ ＝ １６ｍ ＋ ２ｍ （ｓａｔ） ＋ ６ｓｍ , “２Ａ”类型; 白车轴草（ Ｔｒｉｆｏｌｉｕｍ ｒｅｐｅｎｓ Ｌ－） 染色体数目２ｎ＝ ３２ , 核型公式Ｋ （２ｎ） ＝ ４ｘ ＝ ３２ ＝ ３２ｍ , “１Ａ”类型; 铁苋菜（ Ａｃａｌｙｐｈａ ａｕｓｔｒａｌｉｓ Ｌ－）染色体数目２ｎ ＝ ３２ , 核型公式Ｋ （２ｎ） ＝ ２ｘ＝ ３２ ＝ ３２ｍ , “１Ｂ”类型; 地构叶（ Ｓｐｅｒａｎｓｋｉａ ｔ?     

应用荧光原位杂交和染色体配对研究八倍体小冰麦中2的染色体组构成及染色体特征

通过染色体配对分析和荧光原位杂交（ＦＩＳＨ）技术对八倍体小冰麦中２的染色体组构成进行分析,结果表明：八倍体小冰麦中２含有的冰草染色体是来自天蓝冰草（Ａｇｒｏｐｙｒｏｎ　ｉｎｔｅｒｍｅｄｉｕｍ（Ｈｏｓｔ）Ｐ．Ｂ．＝Ｅｌｙｔｒｉｇｉａ　ｉｎｔｅｒｍｅｄｉａ（Ｈｏｓｔ）Ｎｅｖｓｋｉ＝Ｔｈｉｎｏｐｙｒｕｍ　ｉｎｔｅｒｍｅｄｉｕｍ　（Ｈｏｓｔ）Ｂａｒｋｗｏｒｔｈ　ａｎｄ　Ｄｅｗｅｙ）具同亲关系的染色体组,但冰草的这种同亲关系的染色体组不同于二倍体长穗偃麦草（Ｔｈｉｎｏｐｙｒｕｍ　ｅｌｏｕｇａｔｕｍ　２Ｘ）的Ｅ组染色体。中２含有１２条冰草染色体,且有一对染色体为小麦（Ｔｒｉｔｉｃｕｍ　ａｅｓｔｉｖｕｍ　Ｌ．）染色体和冰草染色体之间易位所形成的。     

青藏高原毛茛科3种特有植物核型和进化研究

对青藏高原高山冰缘地区毛茛科３种特有植物的核型进行了分析。它们的核型公式（Ｋ）、染色体相对长度组成（Ｃ．Ｒ．Ｌ．）和核型不对称系数（Ａｓ．Ｋ％）分别为：青藏金莲花Ｔｒｏｌｉｕｓｐｕｍｉｌｕｓｖａｒ．ｔａｎｇｕｔｉｃｕｓ：Ｋ（２ｎ）＝６ｍ＋８ｓｍ（２ＳＡＴ）＋２ｓｔ,Ｃ．Ｒ．Ｌ．＝４Ｌ＋４Ｍ２＋４Ｍ１＋４Ｓ,Ａｓ．Ｋ％＝６３．５７,核型属２Ｂ型;甘青乌头Ａｃｏｎｉｔｕｍｔａｎｇｕｔｉｃｕｍ为Ｋ（２ｎ）＝６ｍ＋１０ｓｍ,Ｃ．Ｒ．Ｌ．＝４Ｌ＋８Ｍ１＋４Ｓ,Ａｓ．Ｋ％＝６２．５４,２Ｂ型;单花翠雀花Ｄｅｌｐｈｉｎｉｕｍｃａｎｄｅｌａｂｒｕｍｖａｒ．ｍｏｎａｎｔｈｕｍ为Ｋ（２ｎ）＝６ｍ＋８ｓｍ＋２ｓｔ,Ｃ．Ｒ．Ｌ．＝４Ｌ＋４Ｍ２＋４Ｍ１＋６Ｓ,Ａｓ．Ｋ％＝６４．３４,属３Ｂ型。经同相关近缘种核型资料比较,青藏金莲花核型不对称性和进化程度比金莲花Ｔ．ｃｈｉｎｅｎｓｉｓ低;甘青乌头的核型不对称性和进化程度在其近缘类群（乌头组Ｓｅｃｔ．Ａｃｏｎｉｔｕｍ）已报道的种之内最低;单花翠雀花核型不对称性和进化水平比翠雀组（Ｓｅｃｔ．Ｄｅｌｐｈｉｎａｓｔｒｕｍ）已报道的展毛翠雀花Ｄ．ｋａｍａｏｅｎｓｅｖａｒ．ｇｌａｂｒｅｓｃｅｎｓ、     

中间偃麦草的GISH分析

以染色体组为E^eE^e的二倍体长穗偃麦草（Thinopyrum elongatum,2n=2x=14)、染色体组为E^bE^b的二倍体比萨偃麦草（Th.bessarabicum,2n=2x=14）、染色体组为StStStSt的四倍体拟鹅冠草（Pseudoroegneiria strigosa,2n=4x=28)的总基因组DNA为探针,对中间偃麦草（Th.intermedium)进行GISH分析。结果表明,中间偃麦草是由2个亲缘关系较近的染色体组、1个亲缘关系较远的染色体组构成;中间偃麦草所含的亲缘关系较近的染色体组分别与二倍长穗偃麦草染色体组E^e、比萨偃麦草染色体组E^b、以及1个亲缘关系较远的染色体组与拟鹅冠草染色体组St基本相似,但不完全一样,因此,中间偃麦草的染色体组用E^etE^etE^btStSt表示。     

Thinopyrum distichum chromosome morphology and C-band distribution

Thinopyrum distichum is indigenous to the southern and south western coastal shores of South Africa. Like many of the Thinopyrum species it can be hybridized with wheat. The resulting progeny treated with colchicine produce fertile amphiploids. The need to distinguish the Th. Distichum chromosomes from one another and from those of wheat prompted the investigation of the C-band distribution. The chromosome pairs of Th. distichum were distiguishable from each other and from those of wheat using C-band patterns, morphology and size as identification criteria. The chromosomes ranged from heterobrachial to metacentric with interstitial and telomeric C-bands. The C-band patterns of Th. distichum were similar, but not identical, to those of other Thinopyrum species.     

Genetic diversity in wild Spanish populations of Thinopyrum junceum and Thinopyrum junceiforme using endosperm proteins and PCR-based markers

The genetic variation of sixteen wild, Spanish populations of Thinopyrum junceum and Thinopyrumjunceiforme and their interspecific relationships were analyzed. The relationships between these species and the diploids T. bessarabicum and T. elongatum were also investigated. The number of phenotypes and the composition of bands yielded by the electrophoretic separation of endosperm proteins were used to estimate intra- and interpopulational variability. DNA polymorphism generated by 24 arbitrary 10-mer primers and 14 specific 20-mer primers was used to determine interpopulational variability and interspecific relationships. Jaccard's coefficient of similarity was used to analyze presence and absence data in the DNA polymorphism and endosperm protein determinations of individual plants. Pearson's product-moment correlation coefficient was used to analyse interpopulational variation using endosperm protein band frequency data. Dendrograms were constructed using an unweighted pair group method with arithmetical average (UPGMA). The high level of intrapopulational variability found in T. junceum and T. junceiforme was inconsistent with the traditional classification of these species as self-pollinating. The level of interpopulational variation varied according to the degree of polymorphism of the corresponding markers. The endosperm proteins and random amplified polymorphic DNAs (RAPDs) proved to be the most polymorphic markers to those used although only the former were able to distinguish between the different populations. Interspecific relationships were consistently confirmed by all the PCR-based markers, and were also in agreement with the results of other authors.     

Introduction of Thinopyrum intermedium ssp. trichophorum chromosomes to wheat by trigeneric hybridization involving Triticum,Secale and Thinopyrum genera

Main conclusion

Fluorescence in situ hybridization and molecular markers have confirmed that several chromosomes from Thinopyrum intermedium ssp. trichophorum have been added to a wheat background, which originated from a cross between a wheat– Thinopyrum partial amphiploid and triticale. The lines displayed blue grains and resistance to wheat stripe rust.

Thinopyrum intermedium has been used as a valuable resource for improving the disease resistance and yield potential of wheat. With the aim to transfer novel genetic variation from Th. intermedium species for sustainable wheat breeding, a new trigeneric hybrid was produced by crossing an octoploid wheat–Th. intermedium ssp. trichophorum partial amphiploid with hexaploid triticale. Fluorescence in situ hybridization (FISH) revealed that Thinopyrum chromosomes were transmitted preferably and the number of rye chromosomes tended to decrease gradually in the selfed derivatives of the trigeneric hybrids. Four stable wheat–Th. intermedium chromosome substitution, addition and translocation lines were selected, and a 2J^S addition line, two substitution lines of 4J^S(4B) and 4J(4B), and a small 4J.4B translocation line were identified by FISH and molecular markers. It was revealed that the gene(s) responsible for blue grains may located on the FL0.60–1.00 of long arm of Th. intermedium-derived 4J chromosome. Disease resistance screenings indicated that chromosomes 4J^S and 2J^S appear to enhance the resistance to stripe rust in the adult plant stage. The new germplasm with Th. intermedium introgression shows promise for utilization of Thinopyrum chromosome segments in future wheat improvement.

     

长穗薄冰草（Thinopyrum ponticum）对盐碱胁迫的生理响应

实验采用不同浓度（以干土重0.3%、0.5%、0.7%和0.9%计）Na2SO4、NaCl、NaHCO3、Na2CO3,Na2SO4：NaCl=1：1、NaHCO3：Na2CO3=1：1和Na2SO4：NaCl：NaHCO3：Na2CO3=1：1：1：1对长穗薄冰草进行胁迫,研究长穗薄冰草对盐碱胁迫的生理响应.结果表明：根系活力、SOD活性随盐碱浓度的增加逐渐下降,脯氨酸含量呈上升趋势,叶绿素含量除Na2SO4处理组外,呈先上升后下降的趋势.其中碱性盐（NaHCO3、Na2CO3、NaHCO3：Na2CO3=1：1、Na2SO4：NaCl：NaHCO3：Na2CO3=1：1：1：1）对长穗薄冰草的胁变效应较中性盐（Na2SO4、NaCl、Na2SO4：NaCl=1：1）大,以Na2SO4处理组对长穗薄冰草的影响最小,0.7% Na2CO3是长穗薄冰草正常生长的临界浓度.     

Aluminate-Induced Changes in Morphology and Ultrastructure of Thinopyrum Roots

The effects of aluminate [Al(OH)_4$$$] on the morphology andultrastructure of root cells were studied in the salt-tolerantgrasses Thinopyrum bessarabicum (Savul. and Rayss) A. Lve (2) and Thinopyrum junceum (L.) A. Lve (6) by light and transmissionelectron microscopy. Seedlings were grown in nutrient solutioncontaining 1 mol m^–3 [Al] and 5 mol m^–3 Na₂CO₃ atpH 100. Light microscopy revealed that root tips of [Al]-treated plantsdisplayed bending. Many cells of the cortex in the elongatingregion contained a fibrillar/granular material which renderedthem densely staining. Radial (anticlinal) walls of the epidermalcells were either cleft apart of unusually thickened. Amyloplastsof the central root cap cells contained fewer starch grains,while their distribution was disturbed. Electron microscopy showed that the most serious effects of[Al] toxicity occurred at the cell walls of the epidermal androot cap cells, as they lost their fibrillar fine structureand contained an amorphous electron-dense material distributedall over the wall section. Electron-opaque droplets were encounteredat the plasma membrane region of epidermal cells, while theelectron-dense material observed in the vacuoles of cortex cellscould be aluminate which had accumulated there. Thus, despitethe presence of a barrier to aluminate uptake, some [Al] doesenter the symplast. However, the cytoplasm of many epidermalcells displayed a normal fine structure and contained the usualsubcellular components. Dictyosomes, in particular, were abundantand surrounded by many vesicles denoting an active state. Theseobservations stress the role of cell walls as the major [Al]pool and of the plasma membrane as the ultimate barrier thatprotects the cytoplasm. Results are further discussed in relation to the findings inother plant species and it is concluded that, although aluminateis less toxic than Al³⁺, it causes morphological, structuraland, presumably, functional damage-to the roots of the speciesinvestigated. Key words: Thinopyrum, aluminate toxicity, cell walls, root bending     

Detection of alien chromatin introgression from Thinopyrum into wheat using S genomic DNA as a probe--a landmark approach for Thinopyrum genome research

The introduction of alien genetic variation from the genus Thinopyrum through chromosome engineering into wheat is a valuable and proven technique for wheat improvement. A number of economically important traits have been transferred into wheat as single genes, chromosome arms or entire chromosomes. Successful transfers can be greatly assisted by the precise identification of alien chromatin in the recipient progenies. Chromosome identification and characterization are useful for genetic manipulation and transfer in wheat breeding following chromosome engineering. Genomic in situ hybridization (GISH) using an S genomic DNA probe from the diploid species Pseudoroegneria has proven to be a powerful diagnostic cytogenetic tool for monitoring the transfer of many promising agronomic traits from Thinopyrum. This specific S genomic probe not only allows the direct determination of the chromosome composition in wheat-Thinopyrum hybrids, but also can separate the Th. intermedium chromosomes into the J, J(S) and S genomes. The J(S) genome, which consists of a modified J genome chromosome distinguished by S genomic sequences of Pseudoroegneria near the centromere and telomere, carries many disease and mite resistance genes. Utilization of this S genomic probe leads to a better understanding of genomic affinities between Thinopyrum and wheat, and provides a molecular cytogenetic marker for monitoring the transfer of alien Thinopyrum agronomic traits into wheat recipient lines.     

Nucleolar activity in Triticum x Thinopyrum hybrids with different ploidy level

The activity of nucleolar organizer regions (NORs) and the presence of ribosomal DNA (rDNA) zones were studied in two Triticum x Thinopyrum hybrids: a hexaploid hybrid with 2n = 42 chromosomes, named trigopiro SH16 INTA, and a decaploid hybrid with 2n = 56 chromosomes, named trigopiro Don Noé INTA. The use of the pTa71 probe revealed the presence of 10 rDNA signals in both hybrids, whereas the Ag-NORs technique showed 10 signals in SH16 and 8 in Don Noé. We concluded that all trigopiro SH16 INTA NORs are active and that the activity of one NOR pair of trigopiro Don Noé INTA is suppressed. Therefore, the amphiplasty phenomenon is present in trigopiro Don Noé INTA but not in trigopiro SH16 INTA.     

Utilization of blue-grained character in wheat breeding derived from Thinopyrum poticum

The blue grain trait in common wheat （Triticum aestivum L., 2n = 6x = 42, AABBDD）, which is caused by blue pigments in the aleurone layer, was originally derived from the tall wheatgrass （Thinopyrum ponticum Liu ＆ Wang = Agropyron elongatum, 2n = 10x = 70, StStStStEeEeEbEbEXEx） during chromosome engineering research. Over the last few decades, there have been continued interests in the genetic mechanism of this blue coloration and the practical utilization of the blue aleurone character as a phenotypic marker. This article reviews the research history and the recent progress of the studies on blue-grained wheat, with emphases on genetic and biochemical analysis and practical applications of blue-grained wheat.