小麦—冰草异源附加系的创建：Ⅱ,异源染色质的检测与培育途径分析

为了建立一套小麦－冰草异源二体附加系,利用形态学、细胞学、同工酶和原位杂交方法,对普通小麦品种Fukuho×冰草Z559杂交组合所衍生的BC2到BC5世代的866株进行了细胞学分析和外源染色质的检测。结果表明,（1）形态学和细胞学检测是其他检测方法的基础;（2）在建立小麦－冰草异源二体附加系的研究中,异源单体和双单体附加系并非良好的基础材料;（3）从BC2到BC5,随着回交世代的提高产生异源二体附加系的频率提高（0→4．12％）;（4）从染色体结构呈22Ⅱ＋nⅠ的材料中不仅比较容易衍生出异源二体附加系而且是相异;（5）首次获得了11个在表型性状上有明显差异的小麦－冰草异源二体附加系。     

小麦-冰草异源附加系的创建 IF_3、F_2BC_1、BC_4和BC_3F_1世代的细胞学

为了进一步研究冰草属的Ｐ染色体组在小麦背景下的遗传效应和试图建立一套小麦－冰草属异源附加系,对来自普通小麦品种Ｆｕｋｕｈｏ×冰草Ｚ５５９杂种的Ｆ３、Ｆ２ＢＣ１、ＢＣ４和ＢＣ３Ｆ１世代的２２２株进行了减数分裂行为观察。结果表明：（１）２ｎ染色体的分布范围为３９～５４;（２）冰草Ｚ５５９的Ｐ染色体组存在抑制小麦Ｐｈ效应的遗传系统,而且该系统可能只涉及不多于３条Ｐ染色体,但其对Ｐｈ基因的抑制效应是微弱的;（３）Ｐ染色体组存在控制染色体在减数分裂后期分离的基因,该基因可能只涉及不多于２条Ｐ染色体;（４）抑制小麦ｐｈ效应的基因和控制染色体在后期分离的基因可能位于不同的Ｐ染色体上;（５）已获得５个可能的小麦－冰草异源附加系。     

不同筋力小麦品种在不同生态环境下籽粒淀粉糊化特性分析

以不同筋力小麦品种 强筋、中筋、弱筋 在河南省5个纬度点 32°N～36°N 种植为材料,利用快速粘度分析仪 RVA 研究了不同筋力品种的淀粉糊化特性,结果表明:弱筋小麦品种的淀粉糊化特性和强筋、中筋小麦品种有明显的差异;弱筋小麦品种更易受环境条件的影响;两个中筋小麦品种的表现不一致,其中豫麦70的环境变异程度大于豫麦49的变异程度;弱筋小麦品种、强筋小麦品种以及中筋品种豫70的峰值粘度、低谷粘度、最终粘度均随着纬度从北到南呈逐渐下降的趋势;所有品种的淀粉糊化指标均在信阳点表现为最低.     

河南省不同纬度生态环境对三种筋型小麦淀粉糊化特性的影响

选用 6个有代表性的强、中、弱筋冬小麦品种在河南省 5个纬度点 (32～ 36 0°N )种植 ,研究了 3种筋型小麦品种淀粉糊化特性在不同纬度生态环境条件下的变化。结果表明 :基因型和环境对糊化特性均有显著或极显著影响 ,其中生态环境的影响较大 ,而且峰值粘度、低谷粘度、稀懈值、最终粘度值均表现为随纬度升高而增加的趋势 ,而糊化时间的变化规律不明显。淀粉糊化特性指标的变异系数为低谷粘度 >峰值粘度 >最终粘度 >稀懈值 >糊化时间。 6个供试品种中 ,弱筋型小麦豫麦 5 0的淀粉糊化特性指标值最低 ,变异系数最大。播种至成熟期总积温、总日照时数与淀粉糊化特性指标均呈正相关 ,总降雨量与其均呈负相关。相关分析和逐步回归结果表明 ,5月份灌浆期不同阶段气象因子对淀粉品质性状的影响效应不同 ,其中上、下旬气象因子与淀粉糊化特性的关系更密切。据此对小麦淀粉品质改良、区域化种植和优质高效栽培提出了一些建议。     

籼型杂交稻淀粉RVA谱特征值的杂种优势分析

以6个籼型三系不育系和5个籼型恢复系按不完全双列杂交设计配制的30个杂交稻组合及其亲本为材料,对其籽粒淀粉RVA谱各特征值进行了测定和分析。结果表明：（1）亲本间和杂交稻组合间的淀粉RVA谱各特征值均存在极显著的差异,其中变异最大的是消减值,最小的是糊化开始温度。（2）杂交稻组合淀粉RVA谱各特征值的变异系数均小于杂交稻亲本的变异系数;峰值粘度、崩解值、最低粘度和最终粘度的平均值杂交稻组合大于亲本,其他性状的平均值杂交稻组合小于亲本。（3）峰值粘度存在极显著的正向超亲优势;崩解值、最低粘度、最终粘度和回复值存在极显著的正向中亲优势;消减值和峰值时间存在极显著的负向中亲优势和正向低亲优势;糊化开始温度存在极显著的负向低亲优势;最终粘度、回复值和糊化开始温度表现为极显著的负向竞争优势,其他性状表现为正向竞争优势。（4）峰值粘度、崩解值、消减值和回复值等4个性状,各杂交稻组合与其母本、中亲值呈现极显著正相关,峰值时间与中亲值呈显著正相关。而与其父本的相关均未达显著水平。     

向普通小麦导入纤毛鹅观草抗黄矮病基因的研究──Ⅰ.F_1和BC_1的产生及其细胞遗传学

为了将纤毛鹅观草Z1010对黄矮病毒株系PAV和RPV的抗性基因转入普通小麦,通过幼胚拯救,获得了纤毛鹅观草Z1010×普通小麦品种莱州953的杂种F1,以及用5个普通小麦品种（系）回交的BC1衍生系。对杂种F1及BC1植株的细胞学分析表明,纤毛鹅观草Z1010不仅对Ph基因具有很强的抑制作用,而且能使杂种F1形成未减数配子,对细胞遗传学资料的进一步分析认为,通过部分同源染色体间的交换将纤毛鹅观草Z1010的抗黄矮病基因转入小麦是可能的。     

小麦-冰草衍生后代 3558-2 穗部相关性状的遗传分析和QTL定位

从普通小麦Fukuho与冰草(Agropyron cristatum,2n=4x=28,PPPP)Z559的衍生系中发现3558-2具有小穗数、小穗粒数和穗粒数多的优异性状.为了揭示衍生系3558-2优异性状的遗传特征,本研究对其与小麦品种京4841间的282个F2单株的穗长、小穗数、小穗粒数、穗粒数等穗部相关性状进行了遗传分析和QTL定位.主基因+多基因混合遗传模型分析结果显示小麦穗部相关性状都符合数量性状特征.利用单标记分析将穗部相关性状的QTL主要定位于小麦1 A染色体上,同时发现在小麦的2A、5B和5D染色体上也有QTL分布.通过加密标记重点构建了1 A染色体短臂的遗传连锁图,利用复合区间作图法解析了小麦1AS染色体上的穗部相关性状的QTL效应,发现在1A染色体上存在与穗长、小穗数、小穗粒数和穗粒数相关的重要QTL各1个,解释变异度分别为14.41%、5.15%、14.84%和10.87%.本研究发现在3558-2的1 AS染色体上成簇分布着涉及穗长、小穗教、小穗粒数和穗粒数重要性状的QTL,这一结果对指导进一步研究与利用3558-2具有重要意义.     

利用电离辐照创造小麦-冰草异源多粒新种质的初步研究

为了将冰草的多粒基因转入小麦,以具有多粒特性的小麦-冰草二体附加系4844．12为材料与小麦品种藁城8901杂交,对其杂种F1进行^60Co-1辐照处理。采用冰草P基因组特异SSR和SCAR标记对M2 236个单株进行鉴定,进而对部分含P染色质阳性植株进行基因组原位杂交（GISH）检测,初步分析发现有3株为小麦一冰草异源易位（渐渗）系;进一步的穗粒数分析表明,该3株材料具有多粒特性,可能成为小麦丰产育种的创新种质。     

Wx基因与SSⅢ-2基因互作对稻米蒸煮食味品质的影响

为了探究蜡质基因(Wx)与可溶性淀粉合成酶Ⅲ-2基因(SSⅢ-2)等位变异对稻米品质的影响,以籼型高直链淀粉恢复系CG133R和糯性‘爪哇稻22’为亲本杂交,在其F3群体选择仅在Wx和SSⅢ-2基因位点存在多态性的单株为材料,分析各基因型材料的理化指标和粘度速测仪谱特征值。结果表明:(1)SSⅢ-2基因为I型时,Wx基因第一内含子多态性对表观直链淀粉含量有极显著影响。SSⅢ-2基因为Ⅱ型时,Wx基因第一内含子多态性对表观直链淀粉含量和成糊温度有极显著影响。(2)Wxa背景下,SSⅢ-2基因对稻米品质无显著影响;Wxb背景下,SSⅢ-2基因对糊化温度和粘度速测仪谱中最高粘度、崩解值、成糊温度有极显著影响。(3)Wx和SSⅢ-2基因共同作用极显著影响水稻表观直链淀粉含量、糊化温度、最高粘度、崩解值和成糊温度,说明Wx和SSⅢ-2基因之间存在互作,且Wx基因对SSⅢ-2基因具有显性上位性,Wx基因大量表达会遮盖SSⅢ-2基因对稻米品质的效应。     

小麦-冰草衍生系3228主要产量性状的遗传分析

为了探讨小麦-冰草(Agropyron cristatum)衍生系3228的多粒(66～82粒/穗)特性在育种中的可利用性,本研究以3228与黄淮冬麦区5个主栽品种进行杂交,并将其杂种F_1分别种植于北京、陕西和四川,采用MINQUE(1)统计方法及AD模型对主要产量性状进行了遗传分析。在研究的6个产量性状中,均存在极显著的加性方差比率,普通广义遗传率在产量性状的遗传中所占比例较大,所有性状的遗传均存在加性和环境的互作。特别值得指出的是,3228在穗粒数方面具有极显著的加性和显性效应,在穗长、小穗数方面也具有极显著的加性效应,说明利用该种质对于提高小麦的穗粒数具有重要作用。     

普通小麦SSR和EST-SSR引物对冰草通用性的比较分析

选用定位于普通小麦7个部分同源群的534对SSR引物和351对EST-SSR引物分别对普通小麦品种‘Fukuho’和四倍体冰草‘Z559’的基因组DNA进行扩增,结果显示:有475对(89.0%)SSR引物和314对(89.5%)EST-SSR引物对‘Fukuho’能有效扩增,226对(42.3%)SSR和258对(73.5%)EST-SSR引物对‘Z559’能有效扩增,表明小麦EST-SSR对冰草的通用性明显高于SSR;扩增强带比率SSR和EST-SSR引物分别为76.1%、84.1%,说明小麦EST-SSR在冰草上扩增带的质量亦优于SSR。选择上述在‘Fukuho’和‘Z559’基因组DNA之间有多态性扩增且带谱清晰的SSR和EST-SSR引物各60对,对‘Fukuho’、‘中国春’、‘北京8号’和二、四、六倍体冰草‘Z804’、‘Z559’、‘Z1075’的基因组DNA再行PCR扩增,结果显示,40对(66.7%)SSR和22对(36.7%)EST-SSR引物在‘Fukuho’、‘中国春’和‘北京8号’间扩增产物表现多态性,且前者高于后者;50对(83.3%)SSR和52对(86.7%)EST-SSR引物在冰草‘Z804’、‘Z559’和‘Z1075’间扩增产物表现多态性,两者相当。通用性、多态性和扩增强带比率综合比较表明,普通小麦EST-SSR和SSR经筛选虽都能转用于冰草,但两者相比EST-SSR更优。     

A fertile amphiploid between durum wheat (Triticum turgidum) and the x Agroticum amphiploid (Agropyron cristatum x T. tauschii)

Agropyron (Gaertn) is a genus of Triticeae which includes the crested wheatgrass complex, i.e. A. cristatum (L.) as representative species containing the P genome. This species is an important source for increase the genetic variability of both durum and bread wheat. Among the possible interesting features to be introgressed into wheat are resistance to wheat streak mosaic virus, rust diseases, and tolerance to drought, cold and moderate salinity. By crossing tetraploid wheat (Triticum turgidum conv durum, 2n = 4x = 28; AABB) with a fertile allotetraploid (2n = 4x = 28; DDPP) between diploid wheat (T. tauschii) and crested wheatgrass (A. cristatum L.), amphiploid plants were obtained. Fluorescence in situ hybridization (FISH) using both genomic DNA from A. cristatum and the repetitive probe pAs1, proved that the plants were true amphiploids with a chromosome number 2n = 8x = 56 and genomic constitution AABBDDPP. Using total genomic in situ hybridization (GISH) to study meiotic metaphase I, data on allosyndetic and autosyndetic chromosome pairing were obtained. The amphiploids were perennial like the male parent but their morphology was close to that of the wheat parent. They were resistant to wheat leaf rust and powdery mildew under field conditions.     

Attempts to induce homoeologous pairing between wheat and Agropyron cristatum genomes.

Agropyron cristatum (2n = 4x = 28, PPPP) possesses potentially valuable traits that could be used in wheat (Triticum aestivum) improvement through interspecific hybridization. Homoeologous pairing between wheat chromosomes and P chromosomes added to wheat in a set of wheat - A. cristatum addition lines was assessed. First, the Ph-suppressing effect of P chromosomes (except 7P) was analyzed. It was concluded that this system is polygenic with no major gene, and consequently, has no prospect in the transfer of alien genes from wild relatives. In a second step, the potential of the deletion ph1b of the Ph1 gene for inducing P-ABD pairing was evaluated. Allosyndetic associations between P and ABD genomes are very rare. This very low level of pairing is likely due to divergence in the repeated sequences between Agropyron and wheat genomes. Development of translocation lines using ionizing radiation seems to be a more suitable technique than homoeologous recombination to exploit the A. cristatum genome in wheat improvement.     

小麦新种质4844中外源P染色质的GISH与SSR分析

采用基因组原位杂交(GISH)检测和染色体组成分析方法,对大穗多花小麦新种质4844后代的15个株系进行遗传分析。结果发现,4844-12是1个稳定的异附加系,4844-2和4844-8是稳定的异代换系;对异代换系进行SSR分析表明,代换系中小麦的6D染色体被1对P染色体代换,说明这对冰草染色体与小麦6D染色体有部分同源关系,由此确定4844中的冰草染色体为6P;同时筛选出冰草6P染色体的4个SSR标记。     

高产淀粉型甘薯新品种徐薯27的选育及品质特性

高产淀粉型甘薯新品种徐薯27是以徐薯18为母本,选择遗传背景差异大的20个品种(系)为父本,放任授粉集团杂交后代中筛选。该品种2009年通过山东省农作物品种审定委员会审定。通过对徐薯27农艺性状特征、生产力、抗病性、品质特征性状以淀粉糊化特性等进行研究,结果表明:徐薯27萌芽性好,地上部长势平稳,耐贮藏;高抗根腐病,中抗茎线虫病;鲜薯和薯干产量对照徐薯18,最高增产分别达19.41%和19.21%,具有超高产潜力;徐薯27淀粉RVA谱为A型,不同肥料处理下RVA参数值差异明显,有机肥能明显降低其淀粉最高粘度值(PKV)、最低粘度值(HPV)和最终粘度值(CPV),糊化温度在较高的75～80℃范围。     

A novel intergeneric hybrid in the Triticeae: Triticum aestivum x Psathyrost achys juncea

Summary Two hybrid embryos of intergeneric origin between Triticum aestivum cv Fukuho (2n=6x=42, AABBDD) and Psathyrostachys juncea (2n=2x=14, NN) were successfully rescued. One hybrid plant had the expected chromosome number of 28 (ABDN), whereas the second plant had 35 chromosomes. The average meiotic chromosome pairing in the 35-chromosome hybrid was 21.87 univalents + 6.38 bivalents + 0.11 trivalents + 0.009 quadrivalents, which indicates that two copies of the N genome were present. Chromosome pairing in the 28-chromosome hybrid was low (1.35 bivalents), and pointed out the lack of homology between the wheat genomes and the P. juncea genome. These new hybrids showed some necrosis and chlorosis, which caused severe floral abortion in the plant that had 35 chromosomes. These problems became gradually less severe after 18 months.Contrib. no. 372     

Production,morphology, and cytogenetic analysis of Elymus caninus (Agropyron caninum) x Triticum aestivum F1 hybrids and backcross-1 derivatives

Summary Intergeneric hybrids were produced between common wheat, Triticum aestivum (2n=6x=42, AABBDD) and wheatgrass, Etymus caninus (Agropyron caninum) (2n=4x=28, SSHH) — the first successful report of this cross. Reciprocal crosses and genotypes differed for percent seed set, seed development and F₁ hybrid plant production. With E. caninus as the pollen parent, there was no hybrid seed set. In the reciprocal cross, seed set was 23.1–25.4% depending upon wheat genotype used. Hybrid plants were produced only by rescuing embryos 12–13 days post pollination with cv Chinese Spring as the wheat parent. Kinetin in the medium facilitated embryo germination but inhibited root development and seedling growth. The hybrids were vigorous, self sterile, and intermediate between parents. These had expected chromosome number (2n=5x=35, ABDSH), very little chromosome pairing (0.51 II, 0.04 III) and some secondary associations. The hybrids were successfully backcrossed with wheat. Chromosome number in the BC₁ derivatives varied 54–58 with 56 as the modal class. The BC₁ derivatives showed unusually high number of rod bivalents or reduced pairing of wheat homologues. These were sterile and BC₂ seed was produced using wheat pollen.     

Chromosomal Localization of Genes Conferring Desirable Agronomic Traits from Wheat-Agropyron cristatum Disomic Addition Line 5113

Creation of wheat-alien disomic addition lines and localization of desirable genes on alien chromosomes are important for utilization of these genes in genetic improvement of common wheat. In this study, wheat-Agropyron cristatum derivative line 5113 was characterized by genomic in situ hybridization (GISH) and specific-locus amplified fragment sequencing (SLAF-seq), and was demonstrated to be a novel wheat-A. cristatum disomic 6P addition line. Compared with its parent Fukuhokomugi (Fukuho), 5113 displayed multiple elite agronomic traits, including higher uppermost internode/plant height ratio, larger flag leaf, longer spike length, elevated grain number per spike and spikelet number per spike, more kernel number in the middle spikelet, more fertile tiller number per plant, and enhanced resistance to powdery mildew and leaf rust. Genes conferring these elite traits were localized on the A. cristatum 6P chromosome by using SLAF-seq markers and biparental populations (F₁, BC₁F₁ and BC₁F₂ populations) produced from the crosses between Fukuho and 5113. Taken together, chromosomal localization of these desirable genes will facilitate transferring of high-yield and high-resistance genes from A. cristatum into common wheat, and serve as the foundation for the utilization of 5113 in wheat breeding.