晒晾烟重要农艺性状遗传分析

以8个优良的晒晾烟品种(系)为亲本,配置完全双列杂交,进而利用基于混合线性模型的统计学方法,对晾晒烟株高、叶数、节距、腰叶长、腰叶宽以及茎围6个主要农艺性状进行遗传分析。结果表明,在多数农艺性状遗传中加性效应和显性效应都起重要作用,但所占比例有所不同,腰叶长和叶数主要受加性效应影响,而株高、节距、腰叶宽和茎围性状显性效应起主要作用;6种重要农艺性状狭义遗传率由高到低分别为:腰叶长>叶数>株高>节距>腰叶宽>茎围,其中,腰叶长和叶数狭义遗传率较高,分别为0.35和0.33,适合进行早代选择。另外,估算了供试材料的遗传效应值,并对各亲本及组合的育种利用价值进行了评价。本研究为晒晾烟重要农艺性状遗传改良提供了一定的理论依据。     

羽衣甘蓝裂叶相关性状遗传分析

以羽衣甘蓝圆叶自交系‘0835’和裂叶自交系‘0819’为亲本,调查P1、P2、F1、F2群体莲座期4个裂叶相关性状表型数据,运用‘四世代主基因+多基因’遗传模型,对叶长、叶宽、叶形指数、叶缘缺刻数4个叶形相关性状进行遗传分析,探讨羽衣甘蓝裂叶相关性状的遗传规律,为羽衣甘蓝裂叶性状遗传、QTL定位及新品种选育奠定基础。结果表明:(1)4个性状均存在一定的杂种优势,其中叶缘缺刻数中亲优势达显著水平,4个性状均存在负向超亲优势。(2)叶长和叶宽均符合E-4模型,即由2对等加性主基因+加性-显性多基因共同控制;叶长主基因遗传率为83.80%,多基因遗传率为1.05%;叶宽主基因遗传率为22.28%,多基因遗传率为61.92%。(3)叶形指数和叶缘缺刻数均符合E-1模型,即由2对加性-显性-上位性主基因+加性-显性多基因控制;叶形指数主基因遗传率为93.73%,多基因遗传率为2.59%;叶缘缺刻数主基因决定了表型变异的91.18%。     

7个烤烟产量相关性状的QTL定位分析

以烤烟Y3和K326为亲本,采用单粒传法(SSD)获得一个包含262个F6株系的重组自交系群体(RILs)。基于该群体构建了一张含有24个连锁群、626个SSR标记,总长为1 120.45cM的遗传图谱。通过两年一点3次重复的随机区组田间试验,测定了株高、节距、叶数、茎围、茎叶角度、腰叶长和腰叶宽7个与产量相关农艺性状,采用混合线性模型的严格复合区间作图法(rMQM)在烟草全基因组范围内进行QTL扫描分析。结果显示:(1)烤烟7个目标性状在RILs群体内各株系间存在较大范围的连续变异,具有显著的双向超亲分离,且各性状的平均值很接近中亲值;7个农艺性状的平均广义遗传率为73.33%,其中株高和节距的广义遗传率在80%以上,而茎围和茎叶角度的广义遗传率则低于60%,表明7个与烤烟产量相关的农艺性状是既受微效多基因控制又受环境条件影响的数量性状。(2)共检测到30个QTLs分布在9条连锁群上,其中与株高、节距、叶数、腰叶长和腰叶宽相关的5个主效QTLs在连续两年中均可检测到,且具有较大的效应值,可解释大于10%的表型变异。(3)7个目标性状之间存在一定程度的相关性,与之对应在基因组中也存在一些较小区域,每个区域包含2个或2个以上紧密连锁的不同性状的QTLs。烟草产量相关农艺性状的QTL分析和主效QTLs的获得,为进一步利用分子标记辅助选择培育烟草高产新品种奠定了理论基础。     

烤烟叶数、叶面积的遗传分析

以叶数较少、叶面积较小的烤烟品种丸叶为母本(P1),以叶数较多、叶面积较大的烤烟品种Coker319为父本,构建了6个世代分离群体,利用植物数量性状主基因+多基因混合遗传模型的联合分离分析方法,分析烤烟杂交组合丸叶×Co-ker319叶数、叶面积的遗传效应。结果表明:烤烟的叶数和叶面积均受2对加性-显性-上位性主基因+加性-显性-上位性多基因(E0)控制,其中叶数遗传以加性效应及显性×显性上位性效应为主,叶面积几种遗传效应差不多,其上位性效应>加性效应>显性效应,叶数和叶面积在B1世代的主基因遗传率分别为36.91%和2.13%,多基因遗传率分别为31.00%和19.53%,B2世代的主基因遗传率分别为51.60%和50.92%,多基因遗传率分别为16.84%和13.26%,F2世代的主基因遗传率分别为42.63%和30.32%,多基因遗传率分别为42.08%和12.18%,叶数和叶面积的主基因遗传率较高,适合在早代选择。     

烤烟主要农艺性状的遗传与相关分析

利用包括基因型与环境互作的加性-显性遗传模型,对14个烤烟品种(系)及其配制的41个杂交组合在4个环境下的7个农艺性状表现进行遗传分析。结果表明,株高、节距、腰叶宽主要受加性效应控制,叶数、腰叶长受显性×环境互作效应影响最大,茎围以加性×环境互作效应、显性×环境互作效应为主,产量以加性效应、显性×环境互作效应为主。适应当地生态条件的品种（系）具有较高的正向加性效应。许多组合的显性主效应及在各试验点的显性×环境互作效应在方向上不尽一致,杂交组合的选配宜针对特定的生态环境进行。性状相关分析表明,大多数成对性状的各项相关系数为正值,且多以加性遗传相关为主,可利用株高对产量进行间接选择。
     

青花菜两类雄性不育系主要农艺性状的研究

通过对青花菜显性细胞核雄性不育系(DGMS)、改良的萝卜细胞质雄性不育系(Ogura CMS)和由其与相同父本配制的F1杂交种植株的主要农艺性状的生长趋势和花球相关性状的研究,明确两类雄性不育系的应用价值,为青花菜两类雄性不育系的选育和利用及新品种的选育提供理论依据。本研究以结球甘蓝中的显性细胞核雄性不育材料DGMS 79-399-3和改良的细胞质雄性不育材料Ogura CMSR3629为原始不育源,利用优良的青花菜自交系8554和93219为转育父本,通过回交和杂交的方法获得的青花菜高代(n≥9代)两类雄性不育系和由不育系与相同父本配制的F1为试材,采取定期观测整个生长期内植株主要农艺性状和绘制生长曲线相结合的方法,系统地研究了植株的主要农艺性状的生长趋势和花球相关性状。结果表明,相同遗传背景下,保持系、DGMS、Ogura CMS及由不育系与相同父本配制的F1在株幅、株高、外叶长和外叶数方面的生长趋势基本一致,其中株幅、株高、外叶长,总体上表现出前期增长速度较快,之后变慢,最后趋于平缓或略呈下降的趋势;外叶数均表现出先增加后减少的趋势;侧枝数目因年份和遗传背景不同而异。由相同保持系获得的两类不育系的显球时间、采收时间基本相同,由其配制的F1显球和采收时间相同,花球产量因遗传背景的不同而异,花球外观品质性状表现一致。由DGMS和改良的Ogura CMS两类不育源转育的青花菜雄性不育系表现优良,该两类雄性不育源在青花菜杂交育种中具有重要的应用价值。     

不同处理条件下小麦胚芽鞘长的遗传分析

以小麦双单倍体(DH)群体(旱选10号×鲁麦14)的150个株系及其亲本为材料,对不同处理条件下的胚芽鞘长、幼苗株高和幼苗生物学产量进行遗传分析,以探讨胚芽鞘长、幼苗株高及幼苗生物学产量的遗传基础及其相关性.结果表明:(1)随着播种深度的增加,胚芽鞘长、幼苗株高显著增加,16.1%PEG-6000处理条件下的幼苗株高显著低于对照,干旱胁迫条件下的幼苗生物学产量显著低于正常供水对照;(2)胚芽鞘长、幼苗株高、幼苗生物学产量的遗传力分别为92.5%、90.3%和78.1%;(3)胚芽鞘长、幼苗株高及幼苗生物学产量均受多基因控制,决定各性状的基因估计数目分别为7、8和14对;(4)根据对性状偏度和峰度系数的估算结果,控制这3个性状的多基因之间均有互补作用;胚芽鞘长与幼苗株高、生物学产量及成熟期株高之间呈显著正相关.     

优良单株家系辣木叶的表型性状分析

为挖掘辣木(Moranga oleifera)优良种质资源,对30个优良单株家系的叶片表型性状进行研究。结果表明,除叶形外,辣木不同家系间的叶柄和叶片颜色、复叶数、复叶柄长度和直径、复叶间距、叶长、叶宽均存在不同程度的差异。复叶数与复叶柄长度和直径、复叶间距、叶长、叶宽呈极显著正相关;主成分分析表明,叶长、叶宽、复叶柄长度和直径、复叶间距、叶柄和叶片颜色是区分辣木不同家系最主要的叶片性状指标。聚类分析结果表明,30个辣木家系可分为3大类,叶片表型性状存在显著差异的家系的遗传距离较远。因此,叶柄和叶片颜色、复叶数、复叶柄长度和直径、复叶间距、叶长、叶宽将为直观区分辣木家系提供参考。     

石斛属植物倍性与形态学性状的相关性研究

采用根尖压片法对55份石斛属资源的倍性进行了鉴定,并测量它们的气孔长度、气孔密度、叶长、叶宽、叶厚、株高、茎粗、花朵直径和花瓣厚度9个形态学性状。结果显示:(1)55份供试石斛属资源材料中有:四倍体40份、占72.73%,三倍体11份、占20.00%,二倍体4份、占7.27%。(2)对石斛属倍性与9个形态学性状进行相关分析表明,气孔长度、叶长、叶宽、叶厚、茎粗、花朵直径和花瓣厚度7个性状与染色体倍性呈极显著正相关,气孔密度与染色体倍性呈极显著负相关,株高与染色体倍性相关性不显著。     

茎瘤芥主要数量性状遗传力和遗传进度的初步研究

以23个茎瘤芥地方品种为试材估算了15个性状遗传力、遗传进度及遗传变异系数。结果表明各性状遗传力从大到小顺序为营养生长期、瘤茎膨大期、茎／叶、菜皮百分率、瘤茎产量、叶宽、瘤茎横径、出苗至瘤茎膨大始期、株鲜重、瘤茎纵径、叶长、菜形指数、开展度、瘤茎空心率、株高。瘤茎空心率、茎／叶、菜皮百分率和瘤茎产量的遗传变异较大,具有较大的选择潜力。在5％的选择率下,可获得较大的遗传进展。综合试验结果认为,瘤茎膨大期、营养生长期、茎／叶宜在早代进行一次性单株选择,菜皮百分率、瘤茎产量、叶宽等性状可适当加强早代选择。     

Breeding maize as biogas substrate in Central Europe: I. Quantitative-genetic parameters for testcross performance

Biofuels have gained importance recently and the use of maize biomass as substrate in biogas plants for production of methane has increased tremendously in Germany. The objectives of our research were to (1) estimate variance components and heritability for different traits relevant to biogas production in testcrosses (TCs) of maize, (2) study correlations among traits, and (3) discuss strategies to breed maize as a substrate for biogas fermenters. We evaluated 570 TCs of 285 diverse dent maize lines crossed with two flint single-cross testers in six environments. Data were recorded on agronomic and quality traits, including dry matter yield (DMY), methane fermentation yield (MFY), and methane yield (MY), the product of DMY and MFY, as the main target trait. Estimates of variance components showed general combining ability (GCA) to be the major source of variation. Estimates of heritability exceeded 0.67 for all traits and were even much greater in most instances. Methane yield was perfectly correlated with DMY but not with MFY, indicating that variation in MY is primarily determined by DMY. Further, DMY had a larger heritability and coefficient of genetic variation than MFY. Hence, for improving MY, selection should primarily focus on DMY rather than MFY. Further, maize breeding for biogas production may diverge from that for forage production because in the former case, quality traits seem to be of much lower importance.     

白菜叶裂数性状主基因+多基因遗传分析

以叶片全缘的大白菜自交系(P1)和叶缘深裂的欧洲白菜型油菜自交系(P2)杂交所获得的6个基本世代(P1、P2、F1、B1、B2、F2)为材料,应用主基因+多基因混合遗传模型对白菜叶裂数进行遗传分析。结果表明,白菜的叶裂数受2对加性-显性-上位性主基因+加性-显性多基因的控制,第1对主基因加性效应为-1.154 7,显性效应为-1.516 8;第2对主基因的加性效应为-1.154 8,显性效应为1.034 9;多基因加性效应为0.591 9,显性效应为1.145 2,2对主基因间存在明显的交互作用。B1、B2和F2世代叶裂数的主基因遗传率分别为88.48%、90.40%、93.03%;多基因遗传率分别为4.114%、0、0。B1、B2、F2世代叶裂数表现出较高的主基因遗传率,受环境影响较小。在白菜叶裂数性状的改良中应以主基因为主,并适于早代选择。     

Quantitative trait loci for water-use efficiency in barley (Hordeum vulgare L.) measured by carbon isotope discrimination under rain-fed conditions on the Canadian Prairies

Barley (Hordeum vulgare L.) yield is commonly limited by low rainfall and high temperature during the growing season on the Canadian Prairies. Empirical knowledge suggests that carbon isotope discrimination (Δ(13)C), through its negative relationship with water-use efficiency (WUE), is a good index for selecting stable yielding crops in some rain-fed environments. Identification of quantitative trait loci (QTL) and linked markers for Δ(13)C will enhance its use efficiency in breeding programs. In the present study, two barley populations (W89001002003?×?I60049 or W?×?I, six-row type, and Merit?×?H93174006 or M?×?H, two-row type), containing 200 and 127 recombinant inbred lines (RILs), were phenotyped for leaf Δ(13)C and agronomic traits under rain-fed environments in Alberta, Canada. A transgressive segregation pattern for leaf Δ(13)C was observed among RILs. The broad-sense heritability (H (2)) of leaf Δ(13)C was 0.8, and there was no significant interaction between genotype and environment for leaf Δ(13)C in the W?×?I RILs. A total of 12 QTL for leaf Δ(13)C were detected in the W?×?I RILs and 5 QTL in the M?×?H RILs. For the W?×?I RILs, a major QTL located on chromosome 3H near marker Bmag606 (9.3, 9.4 and 10.7?cM interval) was identified. This major QTL overlapped with several agronomic traits, with W89001002003 alleles favoring lower leaf Δ(13)C, increased plant height, and reduced leaf area index, grain yield, harvest index and days to maturity at this locus or loci. This major QTL and its associated marker, when validated, maybe useful in breeding programs aimed at improving WUE and yield stability of barley on the Canadian Prairies.     

辣椒果实性状主基因+多基因遗传分析

以果实性状差异较大的一年生辣椒材料C.annuum B9431(P1)和灌木辣椒材料C.frutescens H108(P2)为亲本,构建4世代群体(P1、P2、F1、F2),应用数量性状主基因+多基因混合遗传模型方法对辣椒6个果实性状进行遗传分析,为辣椒果实性状QTL定位及分子标记辅助育种研究奠定理论基础。结果表明:6个果实性状均符合2对主基因+多基因遗传模型。其中,单果重量、果实纵径、果实横径、果形指数和果肉厚度5个性状均符合E-0模型,即2对加性-显性-上位性主基因+加性-显性-上位性多基因混合遗传模型;果柄长度最佳遗传模型为E-5,即2对完全显性主基因+加性-显性多基因模型。单果重量、果实纵径、果实横径、果形指数、果肉厚度和果柄长度主基因遗传率分别为87.64%、37.67%、82.46%、94.82%、83.33%和40.00%,多基因遗传率分别为7.50%、54.56%、10.53%、0.27%、12.96%和37.78%。     

Transgenic ryegrasses (Lolium spp.) with down-regulation of main pollen allergens

Ryegrass pollen (Lolium species) is a widespread source of air-borne allergens and is a major cause of hayfever and seasonal allergic asthma, which affect approximately 25% of the population in cool temperate climates. The main allergens of ryegrass pollen are the proteins Lol p 1 and Lol p 2. These proteins belong to two major classes of grass pollen allergens to which over 90% of pollen-allergic patients are sensitive. The functional role in planta of these pollen allergen proteins remains largely unknown. Here we describe the generation and analysis of transgenic plants with reduced levels of the main ryegrass pollen allergens, Lol p 1 and Lol p 2 in the most important worldwide cultivated ryegrass species, L. perenne and L. multiflorum. These transgenic plants will allow the study of the functional role in planta of these pollen proteins and the determination of potential for development of hypo-allergenic ryegrass cultivars.     

内蒙古野生马蔺种质农艺性状遗传多样性研究

以收集自内蒙古11个盟市的20个野生马蔺种质材料为研究对象,通过对其13个农艺性状指标进行主成分分析、相关性分析和聚类分析,探讨不同种质间的亲缘关系、遗传变异特性及其原因,为马蔺的开发利用、资源保护和育种应用提供理论依据。结果表明:(1)不同来源的马蔺种质农艺性状表现出不同程度的变异性,变异系数范围为9.72%~300.00%,变异系数较大的性状是千粒重、胚长和发芽率,变异系数较小的性状是株高和叶宽。(2)千粒重、发芽率、吸水率、胚长、胚乳长、种子长、生殖枝数、营养枝数、叶宽、株高10个主要性状是引起不同来源马蔺种质农艺性状分化的主要指标。(3)各农艺性状间存在不同程度的相关性,经度、纬度、海拔高度是引起马蔺种质变异的主要因素,胚长、千粒重、吸水率易受生态环境因子的影响。(4)来源不同的20个马蔺种质聚为4类,绝大多数种质材料表现出明显的地域性,经、纬度相近或小生境相似的种质聚为一类。     

Identification of QTL for flag leaf length in common wheat and their pleiotropic effects

Leaf size is an important factor contributing to the photosynthetic capability of wheat plants. It also significantly affects various agronomic traits. In particular, the flag leaves contribute significantly to grain yield in wheat. A recombinant inbred line (RIL) population developed between varieties with significant differences in flag leaf traits was used to map quantitative trait loci (QTL) of flag leaf length (FLL) and to evaluate its pleiotropic effects on five yield-related traits, including spike length (SL), spikelet number per spike (SPN), kernel number per spike (KN), kernel length (KL), and thousand-kernel weight (TKW). Two additional RIL populations were used to validate the detected QTL and reveal the relationships in different genetic backgrounds. Using the diversity arrays technology (DArT) genetic linkage map, three major QTL for FLL were detected, with single QTL in different environments explaining 8.6–23.3% of the phenotypic variation. All the QTL were detected in at least four environments, and validated in two related populations based on the designed primers. These QTL and the newly developed primers are expected to be valuable for fine mapping and marker-assisted selection in wheat breeding programs.     

Genetic analyses of agronomic and seed quality traits of synthetic oilseedBrassica napus produced from interspecific hybridization ofB. campestris andB. oleracea

The heritability, the number of segregating genes and the type of gene interaction of nine agronomic traits were analysed based on F₂ populations of synthetic oilseedBrassica napus produced from interspecific hybridization ofB. campestris andB. oleracea through ovary culture. The nine traits—plant height, stem width, number of branches, length of main raceme, number of pods per plant, number of seeds per pod, length of pod, seed weight per plant and 1000-seed weight—had heritabilities of 0.927, 0.215, 0.172, 0.381, 0.360, 0.972, 0.952, 0.516 and 0.987 respectively, while the mean numbers of controlling genes for these characters were 7.4, 10.4, 9.9, 12.9, 11.5, 21.7, 20.5, 19.8 and 6.4 respectively. According to estimated coefficients of skewness and kurtosis of the traits tested, no significant gene interaction was found for plant height, stem width, number of branches, length of main raceme, number of seeds per pod and 1000-seed weight. Seed yield per plant is an important target for oilseed production. In partial correlation analysis, number of pods per plant, number of seeds per pod and 1000-seed weight were positively correlated with seed yield per plant. On the other hand, length of pod was negatively correlated (r = -0.69) with seed yield per plant. Other agronomic characters had no significant correlation to seed yield per plant. In this experiment, the linear regressions of seed yield per plant and other agronomic traits were also analysed. The linear regression equation wasy = 0.074x₈ + 1.819x₉ + 6.72x₁₂ -60.78 (R ² = 0.993), wherex ₈, x₉ and x₁₂ represent number of pods per plant, number of seeds per pod and 1000-seed weight respectively. The experiment also showed that erucic acid and oil contents of seeds from F₂ plants were lower than those of their maternal parents. However, glucosinolate content was higher than that of the maternal plants. As for protein content, similar results were found in the F₂ plants and their maternal parents. It was shown that the four quality traits, i.e. erucic acid, glucosinolate, oil content, and protein content, had heritability values of 0.614, 0.405, 0.153 and 0.680 respectively.     

地方果蔗品种种质资源形态与农艺性状的多样性分析

为开发利用地方果蔗(Saccharum officinarum)的种质资源, 对42 份地方果蔗种质资源18 个质量性状的遗传多样性进行研究, 并对其农艺性状进行了聚类分析。结果表明, 各质量性状的遗传多样性指数均较大, 以曝光后节间颜色(2.074)和芽形状(2.011)的最高, 其次是叶鞘毛群、芽位、曝光前节间颜色、节间形状, 多样性指数为1.428~1.6153;再次为叶姿、蜡粉带、内叶耳形状, 多样性指数为1.1918~1.2869, 最小的为茎形、脱叶性和外叶耳, 皆为0.3712。聚类分析可将42 份地方果蔗种质资源划分为高杆密生型、中径中高型、中大径高杆型、矮杆稀疏型4 类。这为果蔗品种选育提供了科学依据。