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1.
长穗偃麦草基因组中与耐低磷营养胁迫有关的基因的染色体定位 总被引:11,自引:0,他引:11
以中国春-长穗偃麦草二体异附加系和二体异代换系为材料,对其耐低磷营养胁迫特性进行鉴定和遗传分析,结果表明(1)长穗偃麦草的4E一^ 色体携有耐低营养胁迫的基因,且其效应远远超过背景亲本中国春。 相似文献
2.
小麦叶锈病新抗源筛选 总被引:1,自引:0,他引:1
小麦叶锈病是小麦生产的主要病害之一,发病严重时往往导致大幅度减产。叶锈菌生理小种的变异易导致抗病基因抗性的丧失,因此不断获得新抗源对小麦抗病育种至关重要。小麦近缘植物中含有丰富的小麦育种所需的抗病基因。本研究从小麦-近缘植物双二倍体、附加系、代换系或易位系等创新种质中筛选出小麦叶锈病新抗源,为利用这些新抗源打下基础。苗期对116份供试材料人工接种美国堪萨斯州流行的小麦叶锈菌混合生理小种 (Lrcomp) ,其中部分材料人工接种09-9-1441-1等5个中国当前流行的叶锈菌生理小种进行抗性鉴定,筛选获得新抗源。116份种质中,31份免疫、近免疫或高抗Lrcomp。含有希尔斯山羊草、尾状山羊草、拟斯卑尔脱山羊草、两芒山羊草、卵穗山羊草、沙融山羊草、柱穗山羊草、顶芒山羊草、小伞山羊草、偏凸山羊草、中间偃麦草、茸毛偃麦草、长穗偃麦草、粗穗披碱草、栽培黑麦、非洲黑麦、提莫菲维染色质的部分种质免疫或高抗Lrcomp,而含二角山羊草、无芒山羊草、沙生冰草、多年生簇毛麦和一年生簇毛麦染色质的种质表现中感至高感Lrcomp。希尔斯山羊草4S染色体、尾状山羊草C#1和D#1染色体和两芒山羊草、顶芒山羊草中可能含有未被报道的抗Lrcomp的新基因,值得进一步向小麦转育。小麦-粗穗披碱草1HtS.1BL罗伯逊易位系对Lrcomp及 09-9-1441-1和09-9-1426-1等5个中国当前流行叶锈菌生理小种近免疫,值得利用染色体工程等方法获得小片段抗病易位系应用于我国小麦抗叶锈育种。 相似文献
3.
长穗偃麦草酸性磷酸酶与碱性磷酸酶编码基因的染色体定位 总被引:4,自引:0,他引:4
以一套中国春-长穗偃麦草二体异附加系与二体异代换系为材料,用等电聚焦(IEF)研究长穗偃麦草基因组中酸性磷酸酶(AcPh)与碱性磷酸酶(APH)编码基因的染色体定位。结果表明,AcPh大多聚焦于pH5~7范围内,其编码基因位于3E染色体,而APH编码基因则位于4E染色体。由于5E染色体的附加,AcPh活性带强度显著减弱。 相似文献
4.
以中国春3D单体和小麦-长穗偃麦草4E二体异附加系为材料,通过杂交、回交结合染色体鉴定等方法,培育出了一种具有蓝粒标记的小麦4E(3D)单体代换系.该小麦4E(3D)单体代换系籽粒为浅蓝色,能够正常生长,自交结实率为36.1%,其自交后代可分离出深蓝籽粒小麦4E(3D)二体代换系、浅蓝籽粒小麦4E(3D)单体代换系和白粒小麦3D缺体.结果表明,长穗偃麦草4E染色体对小麦3D染色体缺失有一定的补偿功能,对以染色体定向代换方式快速创制蓝粒标记小麦单体系统具有一定的参考价值. 相似文献
5.
普通小麦-百萨偃麦草(Thinopyrum bessarabicum)二体异附加系的选育与鉴定 总被引:10,自引:0,他引:10
为转移与利用百萨偃麦草耐盐、抗病等优良基因,用普通小麦中国春-百萨偃麦草双倍体与中国春杂交,通过染色体C-分带、分子原位杂交并结合减数分裂中期I的染色体配对分析,从回交后代中选育出一套小麦-百萨偃麦草二体异附加系。对这套异附加系进行的鉴定与分析表明,各附加系除添加了一对百萨偃麦草染色体外,小麦的21对染色体未见明显变化。各附加系所添加的百萨偃麦草染色体在减数分裂中期I配对基本正常,仅有少量单价体,其自交后代中外源染色体亦能正常传递。这说明所培育的这套二体异附加系在细胞学上已相对稳定,暂分别编号为DAJ1、DAJ2、DAJ3、DAJ4、DAJ5、DAJ6和DAJ7。各异附加系中百萨偃麦草染色体在小麦族中的部分同源群归属和百萨偃麦草耐盐抗病基因在染色体上的定位研究正在进行之中。 相似文献
6.
小麦与长穗偃麦草,中间偃麦草杂种及其衍生后代的细胞遗传学研究 总被引:10,自引:0,他引:10
十倍体长穗科草和六倍体中间偃麦草均含有一些基因促使部分同源的染色体之间发生配对,这些基因分布于不同的染色体组中,并具很强的传递力。小麦与长穗偃麦草杂种回交后代的部分植株在减少数分裂后期出现多条染色同时断裂现象,使不同染色体通过断口联结形成新的易位成为可能。上述二因素可能是造成小麦和偃麦草基因重组的主要原因之一。 相似文献
7.
《植物遗传资源学报》2020,(4)
小麦-近缘物种染色体附加系具有抗病抗逆等优良性状,是向小麦转移其优异基因的重要桥梁材料。当前,已有大量研究报道了近缘物种抗病抗逆基因向小麦的转移情况。然而,外源染色体导入对小麦主要农艺性状影响的研究却鲜有报道。因此,加强这方面的研究,对综合评价和利用这些小麦远缘杂交材料具有指导意义。本研究通过1年4地田间试验,对103份小麦-远缘物种染色体附加系的株高、穗长、旗叶长、旗叶宽、有效分蘖数、小穗数、单穗粒数和千粒重等农艺性状进行调查,研究了外源染色体导入对小麦主要农艺性状的影响。结果发现,与对照小麦相比,希尔斯山羊草4Ss#1、粗穗披碱草5Ht、纤毛披碱草3Sc、7Sc、5Yc和7Yc、簇毛麦2V#3、大麦4H、帝国黑麦4R、长穗偃麦草3E、5E和6E染色体导入可使小麦穗长显著变长;纤毛披碱草5Yc染色体导入使小麦旗叶显著变小;纤毛披碱草7Sc和7Yc染色体导入可使小麦千粒重显著增加。上述筛选出的这些小麦-近缘物种染色体附加系值得利用染色体工程或理化诱变对其进行诱导,获得近缘物种染色体结构变异体,定位相关农艺性状基因。 相似文献
8.
应用基因组原位杂交鉴定蓝粒小麦及其诱变后代 总被引:9,自引:0,他引:9
应用基因组原位杂交技术(GISH)对普通小麦(Triticum aestivumL.)和长穗偃麦草[Agropyron elongatum(Host)Beauv,2n=10x=70]杂交后选育出的蓝粒小麦蓝-58及其诱变后代的染色体组成进行了鉴定。结果表明,GISH可方便地检测到小麦遗传背景中的长穗偃麦草染色体或易位的片段。如前人报道,蓝-58(2n=42)是一个具有2条长穗偃麦草4E染色体的异代换系(4E/4D)。LW004可能是一个具有两对相互易位染色体的纯合系,其田间表现磷高效特性,LW43-3-4为41条染色体的蓝单体(40W 1’4E),种子颜色为浅蓝色,通过此法还检测出一些染色体结构发生很大变异的材料如4E的单端体(40W 1‘4E),种子颜色为浅蓝色,通过此法还检测出一些染色结构发生很大变异的材料如4E的单端体(40W 1‘t4E)以及组型为39W 1‘4E 1‘t4E的个体,此项研究结果更为直观地表明控制蓝粒体状的基因的确在来自长穗偃麦草的染色体上。同时说明有效的突变方法与灵活方便的检测手段的有机结合在染色体工程材料的创制和染色体工程育种中起着至关重要的作用。 相似文献
9.
低磷营养胁迫条件下小麦RNA酶与酸性磷酸酶活性的变化 总被引:8,自引:0,他引:8
低磷营养胁迫条件下,长穗偃麦草一中国春二体异附加系的RNA酶活性显著提高,RNase的IEF研究结果表明,对照条件下只有极微弱的活性带,而磷饥饿状态下则诱导出明显的特异活性带,但诱导的活性带无基因型间的差异,长穗偃麦草-中国春和灯芯偃麦草-中国春两套二体异附加系系分泌的酸性磷酸酶活性不同程度的显著提高。IEF结果表明,低磷胁迫诱导出低PH范围内的特异活性带,且活性带无基因型间的差异。 相似文献
10.
为探讨长穗偃麦草E染色体在硬粒小麦背景中的传递特点,利用染色体特异分子标记、基因组原位杂交(GISH)、非变性荧光原位杂交(ND FISH)等方法,对小偃麦8801(AABBEE)与硬粒小麦(AABB)杂交后代中选育的株系Du_No.2和Du_No.4进行了分析。结果表明:(1)分子标记检测株系Du_No.2及Du_No.4分别能扩增出长穗偃麦草2E、4E染色体特异条带。(2)GISH和ND FISH分析显示,株系Du_No.2和Du_No.4分别附加了1条2E和4E染色体,表明株系Du_No.2 和Du_No.4分别为硬粒小麦 长穗偃麦草2E和4E单体附加系。(3)2个株系的减数分裂过程观察发现,后期Ⅰ、Ⅱ和末期Ⅱ都有E染色体分离异常现象,且株系Du_No.2和 Du_No.4的异常率分别为22.24%和36.18%。(4)2个株系分别与硬粒小麦进行正反杂交的后代PCR分析表明, 2E和4E染色体经雄配子的传递率分别为4.41%和2.17%,而通过雌配子的传递率都为零,表明2E和4E染色体在硬粒小麦背景中能通过雄配子传递,但不通过雌配子的传递。该研究为创建全套硬粒小麦 长穗偃麦草双体附加系及代换系提供基础。 相似文献
11.
通过染色体原位杂交、RFLP分析和染色体重双端体分析,对在小麦遗传育种研究中具有重要理论和应用价值的VE161小麦不育异代换系及其附加系进行了染色体鉴定。结果表明,VE161小麦代换的或附加的外源染色体为来自长穗偃麦草的4E染色体,被代换的小麦染色体为4B。过去曾鉴定为7B,可能是由于VE161早代染色体易位较多所致。同时发现,VE161小麦在5B,7B和1D所在的3个部分同源群中仍有染色体相互易 相似文献
12.
Most pericentromeric regions of eukaryotic chromosomes are heterochromatic and are the most rapidly evolving regions of complex genomes. The closely related genomes within hexaploid wheat (Triticum aestivum L., 2n=6x=42, AABBDD), as well as in the related Triticeae taxa, share large conserved chromosome segments and provide a good model for the study of the evolution of pericentromeric regions. Here we report on the comparative analysis of pericentric inversions in the Triticeae, including Triticum aestivum, Aegilops speltoides, Ae. longissima, Ae. searsii, Hordeum vulgare, Secale cereale, and Agropyron elongatum. Previously, 4 pericentric inversions were identified in the hexaploid wheat cultivar 'Chinese Spring' ('CS') involving chromosomes 2B, 4A, 4B, and 5A. In the present study, 2 additional pericentric inversions were detected in chromosomes 3B and 6B of 'CS' wheat. Only the 3B inversion pre-existed in chromosome 3S, 3Sl, and 3Ss of Aegilops species of the Sitopsis section, the remaining inversions occurring after wheat polyploidization. The translocation T2BS/6BS previously reported in 'CS' was detected in the hexaploid variety 'Wichita' but not in other species of the Triticeae. It appears that the B genome is more prone to genome rearrangements than are the A and D genomes. Five different pericentric inversions were detected in rye chromosomes 3R and 4R, 4Sl of Ae. longissima, 4H of barley, and 6E of Ag. elongatum. This indicates that pericentric regions in the Triticeae, especially those of group 4 chromosomes, are undergoing rapid and recurrent rearrangements. 相似文献
13.
在150mmol/LNaCl胁迫下,长穗偃麦草(Agropyronelongatum,2n=70)4E染色体代换普通小麦4D染色体后能显著降低胁迫下植株上部的Na离子含量而维持较高水平的K离子含量。 相似文献
14.
Alien chromosome addition lines are useful genetic material for studying the effect of an individual chromosome in the same genetic background. However, addition lines are sometimes unstable and tend to lose the alien chromosome in subsequent generations. In this study, we report preferential removal of chromosome 1D rather than the alien chromosome from homoeologous group-1 addition lines. The Agropyron intermedium chromosome 1Agi (1E) addition line, created in the background of 'Vilmorin 27', showed loss of a part of chromosome 1D, thereby losing its HMW glutenin locus. Even in the case of Aegilops longissima and Ae. peregrina, the genomes of which are closer to the B genome than D genome, chromosome 1D was lost from chromosome 1Sl and 1Sv addition lines in cv. 'Chinese Spring' rather than chromosome 1B during transfer from one generation to another. A similar observation was also observed in the case of a chromosome 1E disomic addition line of Ag. elongatum and alloplasmic common wheat line with Ag. intermedium ssp. trichophorum cytoplasm. The reason for this strange observation is thought to lie in the history of wheat evolution, the size of chromosome 1D compared to 1A and 1B, or differing pollen competition abilities. 相似文献
15.
小麦VE161雄性不育异代换系的染色体分析 总被引:7,自引:2,他引:5
VE161是一个具有一对长穗偃麦草(Agropyron elongatum)染色体的小麦雄性不育异代换系。由于不能用做父本,采用一般单体分析法确定其被代换的染色体比较困难。因此用一套中国春缺-四体和重双端体对其进行了分析,并以F_1花粉母细胞MI单价体的N-显带技术进行了验证。结果表明,VE161代换系所代换的染色体为7B,该方法对确定雄性不育代换系所代换的染色体是一个简单易行的方法。染色体行为观察说明,该代换系的一对长穗偃麦草染色体可能与小麦的染色体7B没有部分同源关系,除了引起雄性不育以外,有时与小麦染色体分裂不同步而表现落后,并有抑制Ph基因的作用,能强烈促进小麦部分同源染色体的联会配对,致使在中期Ⅰ出现很高频率的各种多价体。 相似文献
16.
A FISH karyotype to study chromosome polymorphisms for the Elytrigia elongata E genome 总被引:1,自引:0,他引:1
Elytrigia elongata (Host) Nevski(= Agropyron elongatum, Thinopyrum elongatum, 2n = 2x = 14, EE) has long been used as a source of various types of resistance for wheat improvement, and numerous transfers have been made. However, despite heavy use, no high-resolution karyotype exists. We characterized the E. elongata karyotype of several accessions applying highly repetitive DNA sequences as mcFISH probes for chromosome identification. The complete E. elongata disomic chromosome addition series and 11 ditelosomic addition lines in Chinese Spring wheat were exposed to sequential GISH-mcFISH. Based on the mcFISH results, each complete chromosome and each telocentric studied was unambiguously identified. The validation of the karyotype in 4 E. elongata accessions with different geographical origins showed extensive variations in the probe hybridization patterns, but this did not prevent chromosome identification. The established karyotype will be useful for the rapid identification of potential donor chromosomes in wheat improvement programs, allowing appropriate alien transfer. 相似文献
17.
A number of Triticeae species were tested for tiller production, shoot dry matter production, and root penetration in waterlogged soil, and Thinopyrum elongatum and Elytrigia repens were shown to have better tolerance than wheat using these criteria. Tests of a number of wheat-alien amphiploids showed that there was at least partial expression of this exotic genetic variation in a wheat genetic background. The presence of chromosomes 2E and 4E of Th. elongatum was associated with a positive effect on root growth in waterlogged conditions. The positive effect of the 4E chromosome addition was mimicked by tetrasomic lines carrying extra doses of wheat homoeologues 4B and 4D, and it was concluded that the beneficial effect contributed by the presence of 4E was probably due to an increased dosage of group 4 chromosomes. However, the positive effect of adding chromosome 2E to wheat could not be reproduced by added doses of chromosomes 2A, 2B, or 2D, suggesting that this alien chromosome carries gene(s) for tolerance not present on its wheat homoeologues. This gene(s) was further located to the long arm of chromosome 2E by testing ditelosomic addition lines. 相似文献