节节麦细胞不同分裂时期和阶段的G—带核型及其变动性分析

采用改良的ASG法获得了中期和3个染色体凝缩程度不同的早中期阶段（分别称为早中期Ⅰ、Ⅱ、Ⅲ）染色体的G-带,并进行了G-带核型和变动性分析。所分析的分裂时期和阶段,每条染色体的全长显示出了密切邻近的多重的带纹,带纹细窄、大小较相近,带间区小,带纹分布较密集而均匀。随着有丝分裂进程推进,染色体的带纹数目减少,早中期Ⅰ、Ⅱ、Ⅲ于中期单倍染色体组的G-带带纹总数分别减少41%、36%、28%,而染色体组的绝对长度分别缩短43%、37%、27%,带数减少幅度与染色体长度缩短的幅度几乎相等。早中期Ⅰ至早中期Ⅱ、Ⅲ和早中期Ⅱ至早中期Ⅲ的带纹减少幅度与染色体长度缩短幅度也基本一致。染色体组中各染色体之间带纹减少和染色体缩短的比例不尽相同,有一定的变幅。早中期Ⅰ、Ⅱ、Ⅲ和中期染色体组中每单位绝对长度的带数（带/μm）分别为2.19、2.22、2.32和2.29,差异不大。对节节麦G-带的特性等问题进行了讨论。     

Characterisation of high- and low-molecular weight glutenin subunits associated to the D genome of Aegilops tauschii in a collection of synthetic hexaploid wheats

Synthetic hexaploid wheats (2n=6x=42, AABBDD) involving genomes from Triticum turgidum (2n= 4x=28, AABB) and Aegilops tauschii (2n=2x=14, DD) have been produced as a means for introducing desirable characteristics into bread wheat. In the present work we describe the genetic variability present at the Glu-D ^t 1 and Glu-D ^t 3 loci, encoding high- (HMW) and low-molecular-weight (LMW) glutenin subunits respectively, derived from Ae. tauschii, using electrophoretic and chromatographic methods, in a collection of synthetic hexaploid wheats. A wide variation both in mobility and surface hydrophobicity of HMW glutenin subunits was observed between different accessions of Ae. tauschii used in the production of the synthetic hexaploids. A combination of electrophoretic and chromatographic methods improves the identification of HMW glutenin subunits; in fact subunits with identical apparent mobility were revealed to have a different surface hydrophobicity by reversed-phase high performance liquid chromatography. None of the Dx5^t subunits present in Ae. tauschii showed the presence of the extra cysteine residue found in the HMW glutenin subunit Dx5 of Triticum aestivum, as revealed by selective amplification with polymerase chain reaction (PCR). The wide variability and the high number of subunits encoded by the Glu-D ^t 3 locus suggests that Ae. tauschii may be a rich source for enhancing the genetic variability of glutenin subunits in bread wheat and improving bread-making properties. Received: 3 March 2001 / Accepted: 23 March 2001     

粗山羊草(Aegilops tauschii)中Pinb基因的克隆和表达分析

puroindoline a(Pina)和puroindoline b(Pinb)是控制小麦籽粒硬度的主效基因。根据已报道的小麦Pinb基因的保守序列,设计合成了一对特异性引物,对粗山羊草Aegilops tauschii(DD)的基因组DNA进行Pinb基因扩增、克隆和序列分析,发现了一个新型Pinb等位基因。该基因长447 bp,编码148个氨基酸残基,具有麦类作物PinB蛋白所特有的WPTKWWK色氨酸结构域和10个半胱氨酸所形成的5个二硫键结构。与软粒小麦cv.Capitole的Pinb-D1a相比较,该基因含有14个氨基酸变异位点,其中包括一个紧邻色氨酸结构域的变异位点(Val66Phe),其核苷酸和氨基酸同源性分别为93.3%和90.5%。RT-PCR和Western Blot证实了Pinb基因在籽粒胚乳中的表达。Southern Blot分析结果表明,粗山羊草中Pinb基因为单拷贝。研究结果表明,粗山羊草中包含着与小麦差异较大的籽粒硬度控制基因,对此基因的进一步研究将加深对小麦籽粒硬度形成分子机制的了解。     

Identification of a UDP-glucosyltransferase conferring deoxynivalenol resistance in Aegilops tauschii and wheat

Aegilops tauschii is the diploid progenitor of the wheat D subgenome and a valuable resource for wheat breeding, yet, genetic analysis of resistance against Fusarium head blight (FHB) and the major Fusarium mycotoxin deoxynivalenol (DON) is lacking. We treated a panel of 147 Ae. tauschii accessions with either Fusarium graminearum spores or DON solution and recorded the associated disease spread or toxin-induced bleaching. A k-mer-based association mapping pipeline dissected the genetic basis of resistance and identified candidate genes. After DON infiltration nine accessions revealed severe bleaching symptoms concomitant with lower conversion rates of DON into the non-toxic DON-3-O-glucoside. We identified the gene AET5Gv20385300 on chromosome 5D encoding a uridine diphosphate (UDP)-glucosyltransferase (UGT) as the causal variant and the mutant allele resulting in a truncated protein was only found in the nine susceptible accessions. This UGT is also polymorphic in hexaploid wheat and when expressed in Saccharomyces cerevisiae only the full-length gene conferred resistance against DON. Analysing the D subgenome helped to elucidate the genetic control of FHB resistance and identified a UGT involved in DON detoxification in Ae. tauschii and hexaploid wheat. This resistance mechanism is highly conserved since the UGT is orthologous to the barley UGT HvUGT13248 indicating descent from a common ancestor of wheat and barley.     

节节麦的酯酶同工酶分析

对 30份不同来源的节节麦进行 4个时期的酯酶同工酶分析。结果表明 :不同来源节节麦的酯酶同工酶存在较大差异 ,共分成 1 5种基本类型。我国黄河流域的 1 0份节节麦被划分为 2个基本类型 ,但二者关系极为相近 ;新疆节节麦与之有一定差异 ,但在相似系数≤ 0 .82 0时可视为一类。所有材料在 4个时期之间没有出现一个完全相同的酶带类型 ,说明酯酶同工酶随发育时期而不断变化。     

节节麦和硬粒小麦-簇毛麦双二倍体间杂种的产生及其细胞遗传学研究

通过胚培养产生了节节麦和硬粒小麦-簇毛麦双二倍体间的杂种。结果表明节节麦和硬粒小麦-簇毛麦双二倍体杂交以节节麦作母本较易结实,3个组合的结实率分别为59.18%、67.72%和60.22%,胚培成苗率分别为39.13%、38.10%和50%。杂种F_1生活力旺盛,形态像父本硬粒小麦-簇毛麦双二倍体。杂种自交可孕,3个组合自交结实率平均为7.63%。杂种F_1(ABVD)的减数分裂平均构型为25.36个单价体,1.21个二价体和0.06个三价体,平均每个细胞交叉结频率为1.38,高于“中国春”单倍体的配对频率,推测V组和A、B、D组染色体间有部分同源关系。节节麦和硬粒小麦-簇毛麦双二倍体杂交可能是产生八倍体(AABBDDVV)的又一途径。     

远缘杂交不需幼胚培养的节节麦基因型

六倍体普通小麦（Triticum aestivum L.)是由四倍体小麦（T.turgidum L.)与二倍体节节麦（Aegilops tanschii Coss.)天然杂交然后通过染色体自然加倍形成的异源多倍体。这一起源过程是自然条件下天然发生的,它的发生需要具备一个条件：四倍体小麦与节节麦的天然杂交种子在自然条件（没有幼胚培养等）下能够正常发芽出苗。我们从22份节节麦中发现来自中东的节节麦AS60在不采用幼胚培养等人工辅助条件下,仍然很容易与四体小麦和普通小麦产生有生活力的杂种植株。AS60与四倍体小麦的杂交种子有50．0％（反交）及57．1％（正交）的种子,而AS60与六倍体普通小麦的杂交种子则有45．5％不需幼胚培养等措施能够正常发芽,生长。AS60的这一特征正是普通小麦起源过程需要的条件。最后探讨了这一发现对小麦遗传改良和对普通小麦起源演化研究的意义。     

Expression and suppression of resistance to greenbug (Homoptera: Aphididae) in synthetic hexaploid wheats derived from Triticum dicoccum x Aegilops tauschii crosses

Fifty-eight synthetic hexaploid wheats, developed by crossing Triticum dicoccum Schrank. and Aegilops tauschii (Coss.) Schmal., were evaluated at the seedling stage, together with their parents, for resistance to greenbug (Schizaphis graminum Rondani) under greenhouse conditions. Seedlings of different synthetic hexaploids showed large phenotypic differences for resistance. All the T. dicoccum parents were susceptible, while high levels of resistance were observed in some of the Ae. tauschii parents. Of the synthetic hexaploids derived from resistant Ae. tauschii parents, a high proportion (76%) showed levels of resistance to the greenbug biotype used that were comparable to those of the resistant parent. While there were clear indications of the presence of suppressor genes for greenbug resistance in the A and/or B genomes of T. dicoccum in some synthetics, positive epistatic interaction was also found in synthetic hexaploids with higher levels of resistance than that of either parent. Resistance from different Ae. tauschii accessions was expressed differently when crossed with the same T. dicoccum, indicating diversity among the resistance genes present in the test synthetic hexaploid wheats. Based on resistance reactions, the genes conferring greenbug resistance in these synthetic hexaploids are probably different from resistance genes previously transferred to wheat from Ae. tauschii.     

远缘杂交不需幼胚培养的节节麦基因型

六倍体普通小麦(Triticum aestivum L.)是由四倍体小麦(T.turgidum L.)与二倍体节节麦(Aegilops tanschii Coss.)天然杂交然后通过染色体自然加倍形成的异源多倍体.这一起源过程是自然条件下天然发生的,它的发生需要具备一个条件:四倍体小麦与节节麦的天然杂交种子在自然条件(没有幼胚培养等)下能够正常发芽出苗.我们从22份节节麦中发现来自中东的节节麦AS60在不采用幼胚培养等人工辅助条件下,仍然很容易与四倍体小麦和普通小麦产生有生活力的杂种植株.AS60与四倍体小麦的杂交种子有50.0%(反交)及57.1%(正交)的种子,而AS60与六倍体普通小麦的杂交种子则有45.5%不需幼胚培养等措施能够正常发芽、生长.AS60的这一特征正是普通小麦起源过程需要的条件.最后探讨了这一发现对小麦遗传改良和对普通小麦起源演化研究的意义.     

粗山羊草居群间遗传分化及多样性的SSR分析

选用分布在粗山羊草14条染色体上的32对SSR引物,对来自中国河南、陕西、新疆和中东地区共147份粗山羊草材料进行遗传分化及多样性分析,结果表明在26个多态性位点中,等位基因数平均为4.15,Ne i基因多样性指数(He)平均为0.243,多态性信息含量指数(PIC)平均为0.226;居群间遗传变异差异明显,中东粗山羊草居群具有丰富的遗传变异(He=0.607,PIC=0.551),而来自陕西和河南的粗山羊草资源遗传多样性较低(He=0.055,PIC=0.047)和(He=0.024,PIC=0.021)。AMOVA分子变异分析显示,居群间遗传变异占总变异的52%,达到显著水平;河南粗山羊草和陕西粗山羊草间发生了一定的遗传分化(Fst=0.210),为研究中国粗山羊草资源的起源与分化问题提供了有用的信息与证据。     

一粒小麦-葡萄牙野燕麦远缘杂交后代衍生系GISH研究

以一粒小麦-葡萄牙野燕麦杂交后代一粒葡为实验材料,以地高辛标记的葡萄牙野燕麦基因组DNA为探针、一粒小麦基因组DNA为封阻对一粒葡及其衍生系根尖染色体进行基因组原位杂交(GISH)分析,探讨了影响一粒葡GISH效果的主要因素.建立并优化了一粒葡GISH分析的实验体系,即探针DNA与封阻DNA比例为1∶50时可有效分开双方染色体组.优化GISH分析显示,在一粒葡后代衍生系中均检测到燕麦染色质的存在,且不同选系间带有燕麦染色体的数目不同,进一步证明一粒葡是一粒小麦-葡萄牙野燕麦远缘杂交的后代.     

GluDy allele variations in Aegilops tauschii and Triticum aestivum: implications for the origins of hexaploid wheats

To investigate the evolution and geographical origins of hexaploid wheat, we examined a 284 bp sequence from the promoter region of the GluDy locus, coding for the y subunit of high-molecular-weight glutenin. Fourteen different alleles were found in 100 accessions of Aegilops tauschii and 169 of Triticum aestivum. Two alleles were present in both species; the other 7 alleles from Ae. tauschii and 5 from T. aestivum were unique to their respective species. The two shared alleles differed at only one nucleotide position within the region sequenced, but their apparent association with the common haplotypes GluD1a and GluD1d, which have substantial differences within their GluDy coding regions, makes it unlikely that the alleles evolved independently in Ae. tauschii and T. aestivum. The results therefore support previous studies which suggest that there were at least two Ae. tauschii sources that contributed germplasm to the D genome of T. aestivum. The number of alleles present in T. aestivum, and the nucleotide diversity of these alleles, indicates that this region of the D genome has undergone relatively rapid change since polyploidisation. Ae. tauschii from Syria and Turkey had relatively high nucleotide diversity and possessed all the major GluDy alleles, indicating that these populations are probably ancient and not the result of adventive spread. The presence in the Turkish population of both of the shared alleles suggests that hexaploid wheat is likely to have originated in southeast Turkey or northern Syria, within the Fertile Crescent and near to the farming villages at which archaeological remains of hexaploid wheats are first found. A second, more recent, hexaploidisation probably occurred in Iran.     

节节麦×硬粒小麦-簇毛麦双二倍体杂种F_1可孕配子形成途径的细胞学分析

对节节麦×硬粒小麦-簇毛麦双二倍体杂种F_1减数分裂的观察结果表明:该杂种F_1的可孕性是由于杂种F_1产生了大量的(近于)未减数配子的结果。在一些PMC中,单价体中期Ⅰ集结到赤道板上,后期Ⅰ染色单体均等分离产生二分体,二分体发育成有功能的花粉粒。由于染色(单)体的丢失或不分离可产生大量的不完整的重复、缺失未减数配子,完整未减数配子的频率很低。杂种F_1和普通小麦杂交一代及F_2代的细胞学分析结果和F_1配子形成途径分析结果一致。推测从大量的F_2代中可能筛选到自发八倍体(DDAABBVV)。     

Retroelement insertional polymorphisms, diversity and phylogeography within diploid, D-genome Aegilops tauschii (Triticeae, Poaceae) sub-taxa in Iran

Background and Aims: The diploid goat grass Aegilops tauschii (2n = 2x = 14) is nativeto the Middle East and is the D-genome donor to hexaploid breadwheat. The aim of this study was to measure the diversity ofdifferent subspecies and varieties of wild Ae. tauschii collectedacross the major areas where it grows in Iran and to examinepatterns of diversity related to the taxa and geography. Methods: Inter-retroelement amplified polymorphism (IRAP) markers wereused to analyse the biodiversity of DNA from 57 accessions ofAe. tauschii from northern and central Iran, and two hexaploidwheats. Key Results: Eight IRAP primer combinations amplified a total of 171 distinctDNA fragments between 180 and 3200 bp long from the accessions,of which 169 were polymorphic. On average, about eight fragmentswere amplified with each primer combination, with more bandsbeing amplified from accessions from the north-west of the countrythan from other accessions. Conclusions: The IRAP markers showed high levels of genetic diversity. Analysisof all accessions together did not allow the allocation of individualsto taxa based on morphology, but showed a tendency to put accessionsfrom the north-west apart from others regions. It is speculatedthat this could be due to different activity of retroelementsin the different regions. Within the two taxa with most accessions,there was a range of IRAP genotypes that could be correlatedclosely with geographical origin. This supports suggestionsthat the centre of origin of the species is towards the south-eastof the Caspian Sea. IRAP is an appropriate marker system toevaluate genetic diversity and evolutionary relationships withinthe taxa, but it is too variable to define the taxa themselves,where more slowly evolving morphological, DNA sequence or chromosomalmakers may be more appropriate.     

Distribution and characterization of Aegilops and Triticum species from the Bulgarian Black Sea coast

A total of 158 Aegilops-Triticum samples representing six Aegilops species (one diploid, four tetraploid and one hexaploid) and one diploid Triticum were collected along the Bulgarian Black Sea coast, and their distribution on the 350 km long coastal line was reported. The region south of Kamchia river, accepted as the middle point of the coast, was characterized by the greatest diversity of these wild relatives of wheat. The most widely distributed species in this area was Ae. geniculata. Ae. cylindrica was distributed only in north (Durankulak), while Ae. biuncialis and Ae. triuncialis were collected both north and south of Kamchia river. All samples of Ae. neglecta were hexaploid. Natural hybrids of goatgrass and wheat were found in Ae. cylindrica populations. Triticum monococcum ssp. aegilopoides had limited distribution in the south region. Aegilops uniaristata was recorded as a new species for the Bulgarian flora. Most of the samples expressed resistance to powdery mildew in seedling and adult stage, but all of them were polymorphic regarding the resistance to leaf rust (cultures 73760 and 43763). The study revealed additional data for the distribution of Aegilops and Triticum species in Bulgaria and their potential value as genetic resources in wheat improvement.     

Uptake of zinc by rye,bread wheat and durum wheat cultivars differing in zinc efficiency

Effect of zinc (Zn) nutritional status on uptake of inorganic ⁶⁵Zn was studied in rye (Secale cereale, cv. Aslim), three bread wheat (Triticum aestivum, cvs. Dagdas, Bezostaja, BDME-10) and durum wheat (Triticum durum, cv. Kunduru-1149) cultivars grown for 13 days in nutrient solution under controlled environmental conditions. The cultivars were selected based on their response to Zn deficiency and to Zn fertilization in calcareous soils under field conditions. When grown in Zn-deficient calcareous soil in the field, the rye cultivar had the highest, and the durum wheat the lowest Zn efficiency. Among the bread wheats, BDME-10 showed higher susceptibility to Zn deficiency and Bezostaja and Dagdas were less affected by Zn deficiency. Similarly to field conditions, in nutrient solution visual Zn deficiency symptoms (i.e. necrotic lesions on leaf blade) appeared to be more severe in Kunduru-1149 and BDME-10 and less severe in rye cultivar Aslim. Under Zn deficiency, shoot concentrations of Zn were similar between all cultivars. Cultivars with adequate Zn supply did not differ in uptake and root-to-shoot translocation rate of ⁶⁵Zn, but under Zn deficiency there were distinct differences; rye showed the highest rate of Zn uptake and the durum wheat the lowest. In the case of bread wheat cultivars, ⁶⁵Zn uptake rate was about the same and not related to their differential Zn efficiency. Under Zn deficiency, rye had the highest rate of root-to-shoot translocation of ⁶⁵Zn, while all bread and durum wheat cultivars were similar in their capacity to translocate ⁶⁵Zn from roots to shoots. When Zn²⁺ activity in uptake solution ranged between 117 p M and 34550 pM, Zn-efficient and Zn-inefficient bread wheat genotypes were again similar in uptake and root-to-shoot translocation rate of ⁶⁵Zn. The results indicate that high Zn efficiency of rye can be attributed to its greater Zn uptake capacity from soils. The inability of the durum wheat cultivar Kunduru-1149 to have a high Zn uptake capacity seems to be an important reason for its Zn inefficiency. Differential Zn efficiency between the bread wheat cultivars used in this study is not related to their capacity to take up inorganic Zn. This revised version was published online in June 2006 with corrections to the Cover Date.     

A high-density genetic linkage map of Aegilops tauschii, the D-genome progenitor of bread wheat

 Aegilops tauschii is the diploid D-genome progenitor of bread wheat (Triticum aestivum L. em Thell, 2n=6x=42, AABBDD). A genetic linkage map of the Ae. tauschii genome was constructed, composed of 546 loci. One hundred and thirty two loci (24%) gave distorted segregation ratios. Sixty nine probes (13%) detected multiple copies in the genome. One hundred and twenty three of the 157 markers shared between the Ae. tauschii genetic and T. aestivum physical maps were colinear. The discrepancy in the order of five markers on the Ae. tauschii 3DS genetic map versus the T. aestivum 3D physical map indicated a possible inversion. Further work is needed to verify the discrepancies in the order of markers on the 4D, 5D and 7D Ae. tauschii genetic maps versus the physical and genetic maps of T. aestivum. Using common markers, 164 agronomically important genes were assigned to specific regions on Ae. tauschii linkage, and T. aestivum physical, maps. This information may be useful for map-based cloning and marker-assisted plant breeding. Received: 23 March 1998 / Accepted: 27 October 1998     

粗山羊草CCT基因家族进化及节律表达分析

CCT家族基因广泛参与植物花期的调控过程,粗山羊草(Aegilops tauschii Coss.)作为小麦D基因组供体,给小麦带来新的花期及适应性相关基因。研究粗山羊草CCT家族基因不仅可为小麦进化、驯化和演变规律提供参考,还有助于认识粗山羊草作为杂草的生态适应性。粗山羊草基因组中26个CCT基因进化分析后发现Group A、Group C、GroupH和Group G中的13个Aet CCT成员出现了快速进化;Group A中有42.1%的位点存在正选择效应,表明快速进化提高了粗山羊草的适应性。基因结构分析表明CCT结构域在Aet CCT家族中保守性很高,但不同基因内含子和外显子的排布差异较大,特异Motif可能是不同亚家族基因间功能差异的重要原因。Aet CCT4、Aet CCT7、Aet CCT8、Aet CCT11、Aet CCT12、Aet CCT16、Aet CCT17、Aet CCT19、Aet CCT21和Aet CCT22的表达具有明显的"生物钟效应",呈现出24 h的节律性表达,且基本都处于快速进化的Group A、Group C、GroupH和Group I。研究结果表明,这些成员可能参与花期调控等生长发育过程,在粗山羊草的适应性形成过程中发挥了作用。     

粗山羊草抗条锈病新基因YrY206遗传分析和微卫星 标记

从小麦野生近缘属——粗山羊草中挖掘小麦条锈病抗病基因, 拓展小麦抗病性的遗传基础。利用抗小麦条锈病与感小麦条锈病的粗山羊草间杂交, 从粗山羊草[Aegilops tauschii (Coss.) Schmal] Y206中鉴定出1个显性抗小麦条锈病基因, 暂定名为YrY206。应用分离群体分组法(Bulked segregant analysis, BSA)筛选到Wmc11a、Xgwm71c、Xgwm161和Xgwm183标记, 与该基因之间的遗传距离分别为4.0、3.3、1.5和9.3 cM。根据连锁标记所在小麦微卫星图谱的位置, YrY206被定位在3DS染色体上。分析基因所在染色体的位置、抗病性特征, 认为YrY206是一个新的抗小麦条锈病基因。