普通小麦与粗山羊草属间杂种的染色体构型及其后代的育性特征

利用３个推广品种（莱州９５３、山农辐６３、陕７８５９）分别与原产地不同的抗白粉病的６份粗山羊草［Ａｅｇｉｌｏｐｓｔａｕｓｃｈｉｉ（Ｃｏｓｓ．）Ｓｃｈｍａｌ．］杂交,得到６３个无胚乳的种子,将５６枚幼胚接种到Ｎ６＋０．５ｍｇ／ＬＩＢＡ＋０．２ｍｇ／ＬＮＡＡ的培养基上进行褓姆培养,得到３７个植株。其中莱州９５３与粗山羊草的杂交结实率和成苗率较高,分别平均为８．５８％和４．８２％。粗山羊草对白粉病的抗性     

普通小麦与粗山羊草属间杂种的染色体构型及其后代的育性特征

利用3个推广品种(莱州953、山农辐63、陕7859)分别与原产地不同的抗白粉病的6份粗山羊草[Aegilops tauschii(Coss.)Schmal.]杂交,得到63个无胚乳的种子,将56枚幼胚接种到N6 0.5mg/L IBA 0.2 mg/L NAA的培养基上进行褓姆培养,得到37个植株。其中莱州953与粗山羊草的杂交结实率和成苗率较高,分别平均为8.58%和4.82%。粗山羊草对白粉病的抗性基因在不同的杂交组合中受到不同程度的改变或抑制。以莱州953为父本,分别与不同组合的杂种F_1回交,大多数组合均得到回交种子,回交结实率平均为1.70%;以莱州953作母本,与莱州953/Y225 F _1回交得到2粒种子,说明普通小麦与粗山羊草的杂种F_1也能产生少量有授精能力的花粉。以山农辐63为父本与山农辐63/Y219 F_1回交亦得到回交种子。通过对普通小麦与粗山羊草6个杂交组合的杂种F_1PMCMI染色体构型的分析,一般多出现14个左右单价体和一定频率的多价体,并观察到可能为A、B组染色体形成的异形二价体;粗山羊草的D组染色体和普通小麦的D组染色体联会正常,可发生自由重组,从而为将粗山羊草的有益基因导入普通小麦提供了细胞学依据。     

普通小麦1BL—1RS K,V型雄性不育体系育性恢复的研究

对１ＢＬ－１ＲＳ Ｋ,Ｖ型雄性不育系及其保持素与中国春及其第一部分同源群染色体全部６个缺－四体杂种Ｆ１的育性恢复进行了研究。结果表明：Ｋ型杂种的育笥恢复主要受１ＢＳ上Ｒｆｖ１基因的控制;而Ｖ杂种则受Ｒｆｖ１的１Ｄ染色上育性恢复基因的共同控制;在保持１Ｄ正常剂量的情况下,使恢复系中载有Ｒｆｖ１的１Ｂ染色体（片段）加倍,如１Ａ缺体－１Ｂ四体能使Ｋ,Ｖ型杂种1Ｆ的育性完全恢复。     

普通小麦与祖山羊草杂种后代的细胞遗传学初步研究

粗山羊草(Aegilops tauschii(Coss.)Schmal.,DD,2n=14)是普通小麦(Triticumaestivum L.,AABBDD,2n=42)D染色体组的供体。粗山羊草中含有丰富的抗病,抗虫,抗逆,优质等优异基因,因此粗山羊草是改良普通小麦的宝贵遗传资源。但有关普通小麦与粗山羊草杂交的研究报道较少。本文试图通过对普通小麦与粗山羊草杂种后代的细胞遗传学和染色体分离规律的研究,探讨转移粗山羊草优异基因的方法和途径。     

二角山羊草细胞质小麦雄性不育系的育性特异性分析

利用大量小麦亲本材料和优良品种(系)与具有粘果、易变、偏凸和二角山羊草细胞质的小麦雄性不育系杂交,并对其杂交F1过氧化物同工酶进行了分析,结果表明：(1)二角山羊草细胞质与小麦核内的遗传物质组成两个不同的核质互作不育系统,粘、易、偏型不育系育性基本表现一致,而二角型不育系除了与前三种不育系具有相同的1BL／1RS保持系以外,对某些小麦近缘植物的杂交后代材料还表现出育性特异性。(2)粘、易、偏和二角型同核异质不育系5-1及其与V9125杂交F1过氧化物同工酶分析表明,粘、易、偏和二角型不育系5-1过氧化物同工酶带型基本表现一致,粘、易、偏不育系5-1与V9125杂交F1过氧化物同工酶带型基本表现一致,而二角型不育系5-1杂交F1过氧化物同工酶则表现出酶带减少变弱。     

粗厚山羊草细胞质对普通小麦遗传效应的初步研究

研究了具有粗厚山羊草（Ａｅｇｉｌｏｐｓｃｒａｓｓａ６ｘ,２ｎ＝６ｘ＝４２,ＤＤＤ２Ｄ２ＭｅｒＭｅｒ）细胞质的普通小麦核质杂种的花粉育性、籽粒蛋白质含量、穗粒数等１０个主要性状的遗传变异,１９９２年～１９９５年连续４年的结果表明：Ａｅ．ｃｒａｓｓａ６ｘ细胞质对普通小麦的产量性状和籽粒蛋白质含量等存在较好的综合效应,对普通小麦的花粉育性、同工酶等性状的表达存在极显著的特异核质嵒プ餍вΑ＃粒澹悖颍幔螅螅幔叮赴试谄胀ㄐ÷蠛酥试又钟攀评煤托坌圆挥档呐嘤确矫婢哂辛肆即蟮那绷Α     

四倍体小麦—粗山羊草双二倍体抗病新种质的创制

通过四倍体小麦与粗山羊草杂交,利用幼胚拯救技术获得了ＰＳ５－Ｙ２８７双二倍体（ＡＡＢＢＤＤ）。该双二倍体ＰＭＣ ＭⅠ染色体构型基本稳定,对小麦白粉病表现免疫,对条锈、叶锈和秆锈病表现良好的田间抗性。并且该种质籽粒外观品质好,是一份有利用价值的小麦种质材料。     

粗厚山羊草（Ae.crassa）细胞质普通小麦核代换系在中国不同光温条件地点的雄性育性变异

5个普通小麦品系的粗厚山羊草4X,6X种细胞质的7个核代换系在中国昆明,元谋,杨陵,互助,依安5个不同纬度地点种植的自交结实率,结合各点光温条件的分析表明,粗厚山羊草细胞质普通小麦核代换系的雄性育性随日长增加而下降,6X种细胞质核代换系在日长≥14.28h开始出现完全雄性不育,4X种细胞质核代换系在日长≥15.38h开始出现完全雄性不育;该细胞质核代换系的雄性育性在日长因子主控下,对温度变化也表现一定敏感性。粗厚山羊草细胞质背景下不同核基因型对光,温条件的敏感性有显著差异。核质互作效应是这种敏感性的遗传方式,粗厚山羊草4X、6X种细胞质的光,温敏感性存在差异。6X种细胞质的光,温敏感性高于4X种细胞质。     

尾状山羊草与硬粒小麦,普通小麦的杂交及外源染色质检测

尾状山羊草（AegilopscaudataL．）具有丰富的抗病虫和高赖氨酸、高蛋白优良性状,是进行小麦（TriticumaestivumL．）遗传改良的重要遗传资源。合成了硬粒小麦（TriticumdurumDesf．）-尾状山羊草双二倍体、进行了普通小麦与双二倍体的杂交。并以作者克隆的尾状山羊草C基因组特异重复序列PAeca212为探针,对上述杂交后代的花粉母细胞进行了染色体原位杂交检测。证实了新合成的双二倍体中有7对C基因组染色体;在F2中检测到C基因组染色体的自发纯合易位,显示出从C基因组向小麦转移外源基因的光明前景。     

普通小麦与瓦维洛夫山羊草属间杂种的产生及其育性的细胞学 …

通过重复授粉和７５μｇ．ｇ＾－１ＧＡ３处理,成功地获得了普通小麦（Ｔ．ａｅｓｔｉｕｍ）与瓦维洛夫山羊草（Ａｅ．ｖａｖｉｌｏｖｉｉ）ＲＭ０２８６,ＲＭ０２９１ ２个组合属间杂种的产生及其育性,期间表现出较高的可酱性,杂匀结实率分别３９．８４％和４１．２２％,杂种Ｆ１植株具有双亲的形态特征,并表现出强的生活力。通过对Ｆ１植株小孢子发生和花粉发生和花粉发育的细胞学观察发现,花粉母细胞减数分裂过程异常紊乱     

Comparative analyses of RFLP diversity in landraces of Triticum aestivum and collections of T. tauschii from China and Southwest Asia

 Chinese accessions of Triticum tauschii and T. aestivum L. from the Sichuan white (SW), Yunnan hulled (YH), Tibetan weedrace (TW), and Xinjiang rice (XR) wheat groups were subjected to RFLP analysis. T. tauschii and landraces of T. aestivum from countries in Southwest Asia were also evaluated. For T. tauschii, a west to east gradient was apparent where the Chinese accessions exhibited less diversity than those from Southwest Asia. Compared to the Southwest Asian gene pool, the Chinese T. tauschii was highly homogeneous giving a low frequency of polymorphic bands (16%) and banding patterns (1.33 per probe) with 75 RFLP probe-HindIII combinations. Accessions of T. tauschii from Afghanistan and Pakistan were genetically more similar to the Chinese T. tauschii than those from Iran. Of 368 bands found for 39 Chinese hexaploid wheat accessions with 63 RFLP probe-HindIII combinations, 28.3% were polymorphic with an average of 2.6 banding patterns per probe and 5.0 bands per genotype. The individual Chinese landrace wheat groups revealed less variation than those from Afghanistan, Iran, and Turkey. When classified into country based groups, however, the diversity level over all Chinese landraces was greater than that of some Southwest Asian landraces, especially those from Afghanistan and Iran . The XR wheat group was genetically distinct from the other three Chinese landrace groups and was more related to the Southwest Asian landraces. The TW group was genetically similar to, but more diverse than, the SW and YH groups. The Chinese landraces had a higher degree of genetic relatedness to the Southwest Asian T. tauschii, particularly to accessions from Iran, rather than to the Chinese T. tauschii. ‘Chinese Spring’ was most related to ‘Chengdu-guang-tou’, a cultivar from the SW wheat group. Received: 13 May 1997 / Accepted: 19 September 1997     

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。     

基于穗形特征与分子标记进行中国节节麦核心种质的创建

节节麦是普通小麦D基因组供体,遗传多样性丰富,而我国节节麦资源是有别于中东节节麦资源的重要基因源。为了合理高效地管理、评价、保护和利用我国节节麦资源,本研究将野生采集的762份中国节节麦资源作为试验材料,基于SSR标记分组状况,利用小穗长、护颖长、护颖宽、外稃长、外稃宽、内稃长、内稃宽、穗宽、粒长和粒宽等10个穗形性状指标,在欧氏距离、马氏距离和4种取样比例下构建节节麦核心种质候选集。进而采用均值差异百分率、极差符合率、方差差异百分率及变异系数变化率4个指标对不同方法构建的核心种质候选集的可行性和有效性进行评价,并利用原种质和核心种质的主成分分析法进行验证,最终确定基于欧氏距离、10%取样比例下、采用最小距离逐步取样法构建的包含76个样品的节节麦核心种质能够以最小的资源份数、最大限度地代表我国节节麦的遗传多样性。     

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.