普通野生稻（Oryza rufipogon）DNA导入栽培稻后代主要性状的遗传变异

通过花粉管通道法将普通野生稻(Oryza rufipogon)DNA导入宁夏水稻品种宁粳16号和宁粳23号中,获得外源DNA导入系(以D表示),选择的导入系经4次连续自交获得D4代材料.选择其中36个株系在北京种植,进行农艺性状调查和变异类型分析.结果表明,这些导入系分别在株型、生育期、分蘖力、株高、每穗粒数、每穗粒重、穗长、千粒重等性状上发生变异;一些导入系的每穗实粒数、每穗粒重、穗长、千粒重和分蘖数等明显高于受体,表现出高产潜力.本文着重阐述导入系的每穗实粒数、千粒重、分蘖数等与产量相关性状的遗传变异.     

DNA导入和系选大豆品种及其亲本遗传关系的SSR标记分析

利用现有品种的变异进行系选并培育新品种是一种重要的育种方法。利用SSR标记, 对系选大豆(Glycine max)新品种和其亲本的遗传组成进行分析, 明确二者的遗传关系, 为大豆系选育种提供依据。使用48对SSR引物对22个大豆品种及其亲本进行分析, 结果表明, 由外源DNA导入育成的3个品种与其亲本的一致性为35.42%–95.83%, 虽然供体相同, 但由于导入的外源DNA不同, 故育成的品种间差异很大。另外19个系选品种与其亲本的一致性为27.08%–89.58%, 其中有6个品种与亲本间的差异小于30%。聚类分析发现, 所有参试品种分为东北春大豆及黄淮和南方大豆2类, 其中有8个品种不能与其亲本聚在一起, 说明系选品种并不完全是由于亲本通过突变获得。此外, 农艺性状与分子标记分析结果差异较大, 说明利用有限的农艺性状评价品种间的遗传关系存在一定的局限性。通过比较系选品种和亲本之间的保守位点发现, 特定等位变异出现次数≥7的位点有14个, 分布在11个连锁群, 其中有7个位点与产量和抗病性等重要农艺性状有关, 说明DNA导入和系选品种在选择变异性状的同时, 使一些与重要农艺性状有关的等位变异得到了保留。     

DNA导入和系选大豆品种及其亲本遗传关系的SSR标记分析

利用现有品种的变异进行系选并培育新品种是一种重要的育种方法。利用SSR标记, 对系选大豆（Glycine max）新品种和其亲本的遗传组成进行分析, 明确二者的遗传关系, 为大豆系选育种提供依据。使用48对SSR引物对22个大豆品种及其亲本进行分析, 结果表明, 由外源DNA导入育成的3个品种与其亲本的一致性为35.42%–95.83%, 虽然供体相同, 但由于导入的外源DNA不同, 故育成的品种间差异很大。另外19个系选品种与其亲本的一致性为27.08%–89.58%, 其中有6个品种与亲本间的差异小于30%。聚类分析发现, 所有参试品种分为东北春大豆及黄淮和南方大豆2类, 其中有8个品种不能与其亲本聚在一起, 说明系选品种并不完全是由于亲本通过突变获得。此外, 农艺性状与分子标记分析结果差异较大, 说明利用有限的农艺性状评价品种间的遗传关系存在一定的局限性。通过比较系选品种和亲本之间的保守位点发现, 特定等位变异出现次数≥7的位点有14个, 分布在11个连锁群, 其中有7个位点与产量和抗病性等重要农艺性状有关, 说明DNA导入和系选品种在选择变异性状的同时, 使一些与重要农艺性状有关的等位变异得到了保留。     

辐照外源DNA导入番茄两种同工酶的研究

采用聚丙烯酰胺梯度凝胶电泳对辐照外源DNA导入番茄的受体后代进行过氧化物酶和细胞色素氧化酶同工酶研究,并对供体叶形在受体后代中的表达和后代株高进行分析。研究表明,多数受体后代与受体对照的两种同工酶图谱差异较大而与供体对照的两种同工酶图谱较为相似,这与它们在外观性状（叶形和株高）上的差异是吻合的。受体后代与体供在同工酶图谱上的相似性以及供体外观性状在受体后代的表达表明了外源DNA已经导入受体,并得到整合表达,说明辐照外源DNA导入技术是改良番茄品种,丰富育种材料的一条有效途径,在番茄选育新品种方面有良好的应用前景。     

西藏昌都农家春小麦品种开花习性的初步观察

一.试验经过西藏高原海拔较高,气候条件也较特殊,因此本地农家春小麦品种在生长发育特性的表现方面,和内地情况也不一致.为了对于本地春麦品种的生物学性状有比较深入的了解,以便将来在采用杂交选种改良本地春麦时,正确地掌握去雄和授粉,所以我们进行本地春麦开花习性的初步观察.     

导入外源DNA小麦变异类型的光合特性研究(简报)

花粉管通道法是我国学者周光宇等在调查远缘杂交时提出的一种外源基因导入方法。本实验系用花粉管通道技术将C_4植物高粱总DNA(2D)导入C_3作物小麦甘麦8号(G8)和陇春13号(L13),结果在其后代中出现了广泛变异,并从中选育到了丰产、抗逆性强的小麦新品系89144(G8×2D)和89122(L13×2D)。连续几年的大田试验结果表明,其株形、抗锈性及经济产量显著优于其小麦亲本品种。为了进一步阐明这两个变异系光合性状优于其亲本     

大豆DNA直接导入茄子引起变异

本文报道了利用花粉管通道技术,将大豆DNA直接导入茄子,引起茄子部分表型及蛋白质、赖氨酸含量的变异,并且这种变异可以遗传。结果表明,利用此项技术,在实现作物科间的遗传物质转移,在一定条件下是可能的。 自从周光宇先生提出了利用花粉管通道技术来直接导入外源DNA并实现了棉花抗病育种以来,这项技术被愈来愈多的科学工作者所采用,使我国农业分子育种首先进入了应用阶段。这一技术的采用也引起一些科学工作者在探索植物除种间以外的,如在属间甚至科间来实现遗传物质转移可能性的极大兴趣。 1989年我们利用花粉管通道技术进行大豆种间的DNA的导入的同时,进行了大豆DNA直接导入茄科的推广品种龙茄一号茄子中,旨在探索利用花粉管通道技术来实现超远缘物种间遗传物质转移的可行性,进而使高蛋白植物大豆的优良特性在其它作物上加以利用。     

黄淮麦区小麦品种(系)品质性状多样性分析

本文以黄淮麦区 100个小麦品种(系)为材料,对19个蛋白质品质和淀粉品质性状进行了多样性分析.结果表明,100个小麦品种(系)存在丰富的多样性.蛋白质性状的多样性指数(H′)为1.44～2.33,其中蛋白质含量性状(GMP含量、蛋白质含量、干和湿面筋含量)的H′均大于2;变异系数为10.18%～101.13%,其中粉质仪参数的变异系数均在70%以上.淀粉性状的多样性指数为0.86～2.96,其中直链淀粉含量、降落值、稀懈值的H′均大于2;变异系数为4.26%～25.28%,其中降落值、低谷粘度和稀懈值的变异系数超过20%.采用离差平方和聚类法,根据蛋白质性状和淀粉性状将100个品种(系)分别划分为具有不同特点的4个类别,为小麦品质改良提供了参考.     

玉米DNA导入水稻的RAPD分子验证

对高光效C4植物玉米DNA为供体、通过花粉管通道技术导入水稻所获得的水稻后代进行了RAPD分析.结果表明:从60个引物中找到12个引物检测出DNA的多态性,证明外源DNA导入受体后引起后代基因组的显著变异.     

60Co-γ辐射诱变小麦M3代品质性状的遗传变异分析

用300 Gy的60Co-γ射线辐射小麦品种涡9722的干种子,对M3代341个株行的蛋白质含量、湿面筋含量、沉降值和硬度4个品质性状进行了遗传变异分析和SSR分子鉴定.结果表明,以超过均值±2×标准差确定变异株行,在 M3代群体中,蛋白质含量有15个株行发生正向变异,8个株行发生负向变异;湿面筋含量有11个株行发生正向变异, 4个株行发生负向变异;沉降值有13个株行发生正向变异,15个株行发生负向变异;硬度有4个株行发生正向变异,14个株行发生负向变异.相关分析表明,M3群体4个品质性状间呈极显著正相关,表现出平行变异的趋势.初步筛选出蛋白质含量和湿面筋含量符合国家强筋小麦标准的株行15个,符合国家弱筋小麦标准的株行1个.经SSR分子标记检测,以上16个变异株行控制蛋白质的基因位点发生了变异.     

Identification of intergenomic translocations involving wheat,Hordeum vulgare and Hordeum chilense chromosomes by FISH

Intergenomic translocations between wheat, Hordeum chilense and Hordeum vulgare have been obtained in tritordeum background. Advanced lines from the crosses between three disomic chromosome addition lines for chromosome 2Hv, 3Hv, and 4Hv of barley (Hordeum vulgare) in Triticum aestivum cv. Chinese Spring (CS) and hexaploid tritordeum (2n = 6x = 42, AABBHchHch) were analyzed. Multicolor FISH using both genomic DNA from H. chilense and H. vulgare were used to establish the presence and numbers of H. vulgare introgressions into tritordeum. Interspecific H. vulgare/H. chilense and intergeneric wheat/H. vulgare and wheat/H. chilense translocations were identified. Frequencies of plants containing different kinds of intergenomic translocations between chromosome arms are presented. These lines can be useful for introgressing into tritordeum characters of interest from H. vulgare.     

Differential effects of cultivated and wild barley 5H chromosomes on heading characters in wheat-barley chromosome addition lines

Wheat (Triticum aestivum L.)-barley (Hordeum vulgare L.) chromosome addition lines are possible vehicles for transferring barley genes into wheat. The barley 5H chromosome has genetic effects on the heading characters in wheat-barley addition lines: accelerating narrow-sense earliness, decreasing vernalization requirement and/or increasing photoperiodic sensitivity. To elucidate the effects of different 5H chromosomes under an identical wheat genetic background, two wheat-barley addition lines, i.e. cultivated barley 'New Golden' 5H chromosome added to 'Shinchunaga' wheat (Shi-NG5H) and wild barley H. vulgare ssp. spontaneum 5H chromosome added to 'Shinchunaga' wheat (Shi-Spn5H), were examined for their heading characters. The addition line Shi-NG5H showed a significantly lower vernalization requirement in comparison with 'Shinchunaga' wheat, whereas Shi-Spn5H did not. Furthermore, both NG5H and Spn5H chromosomes shortened narrow-sense earliness and increased photoperiodic sensitivity in wheat, but the effects of Spn5H were weaker than those of NG5H. The fact that NG5H and Spn5H showed differential effects on heading characters in wheat demonstrated that the heading characters were altered by the function of the barley genes located on 5H chromosomes, not merely by the aneuploid effect alone.     

Introgression of <Emphasis Type="Italic">Aegilops mutica</Emphasis> genes into common wheat genome

Introgression of genetic material from wheat wild relatives into the common wheat genome remains important. This is a natural and inexhaustible source of enrichment of the wheat gene pool with genes that improve wheat’s adaptive potential. Hexaploid lines F₄–F₅ of wheat type were developed via hybridization of common wheat Aurora (AABBDD) and genome-substituted amphidiploid Aurotica (AABBTT). The hexaploid genome of the latter includes the diploid genome TT from wheat relative Aegilops mutica instead of subgenome DD of common wheat. F₁–F₃ hybrids had limited self-fertility, which had substantially increased for some derivatives in F₄–F₅. For all generations, development of the lines was accompanied by cytogenetic control of the chromosome numbers. The chromosome numbers varied in general from 33 to 46 depending upon generation. In most descendants, that number was 42 chromosomes in F₄ when plants with chromosome numbers 40–44 were selected in each generation. F₅ lines originate from nine selffertile F₂ plants, differ from Aurora according to some morphological characters, and have alien DNA in their genome as was demonstrated by DNA dot-blot hybridization with genomic DNA of Aegilops mutica as a probe.     

小麦与高冰草体细胞杂种后代的核基因组和叶绿体基因组的遗传特征

以小麦(Triticum aestivum L.)与高冰草(Agropyron elongatum(Host)Nevski)体细胞杂种同一个克隆来源的F2-F6自交系Ⅱ-2、Ⅱ-Ⅰ-8以及由Ⅱ-Ⅰ-8 F2分离形成的8-1(F3-F6)为材料,利用小麦叶绿体基因组的微卫星(Microsatellite)特异引物及随机扩增多态性DNA(RAPD)引物进行分析.结果表明,杂种株系的叶绿体基因组组成一致,均以小麦叶绿体基因组为主,仅在rpl14和rpl16基因的间隔序列中检测到双亲的特征带,表明有高冰草的叶绿体DNA在杂种中存在,并稳定遗传至第六代.RAPD分析表明,不同杂种株系中存在不同的高冰草核DNA片段,核基因组在传代中基本稳定.     

离子束介导大豆DNA导入小麦后其蛋白质和酯酶同工酶分析

对由离子束介导大豆DNA导入豫麦52获得的第四代两个转化株系9004和9002中的可育株籽粒和矮秆不育株杂交籽粒以及受体豫麦52籽粒,进行酯酶和可溶性蛋白的聚丙烯酰胺凝胶电泳分析。结果表明,可育株籽粒可溶性蛋白电泳在谱带上与受体存在差异,矮秆不育株材料的酯酶和可溶性蛋白电泳图谱谱带差异更明显。由此推测,外源大豆DNA导入受体后某些片段有可能插入受体基因组,从而导致基因突变或受体基因表达发生改变。     

离子注入法将外源DNA直接导入小麦的研究

通过离子束介导法将外源GUS基因直接导入小麦成熟种子.组织化学染色结果表明GUS基因的瞬时表达率可以达到70%以上.当代(Ru)PCR分析结果表明,阳性植株的频率与离子注入剂量有关,适宜的注入剂量为7×106离子/cm2.PCR-Southern和Southern B1ot分析结果表明外源基因已整合到小麦基因组中,说明离子束介导外源DNA直接导入小麦是可行的.另外还探讨了用离子束介导创造小麦远缘分子杂种的可能性.     

二角型非1B/1R 小麦CMS不育恢复体系的建立

通过对具有二角山羊草细胞质的1B/1R型小麦雄性不育系m s(A e.bicorn is)-5-1回交置换,获得了新型二角山羊草细胞质小麦雄性不育系m s(A e.bicor)-V 9125和m s(A e.bicor)-M 853.利用染色体制片、分子标记、原位杂交和酸性聚丙烯酰胺凝胶电泳对其保持系V 9125和M 853进行分子细胞遗传学检测,并对其育性恢复性机理进行了初步研究.结果表明:(1)V 9125和M 853均为非1B/1R易位系.V 9125为小麦-簇毛麦易位系,m s(A e.bicor)-V 9125是二角山羊草细胞质与普通小麦核背景中簇毛麦外源染色体互作产生的一类新的核质互作不育系.(2)M 853为小麦-滨麦易位系,m s(A e.bicor)-M 853是二角山羊草细胞质与普通小麦核背景中滨麦外源染色体互作产生的一类新的核质互作不育系.(3)利用一些普通小麦品种(系)与这两个不育系杂交,m s(A e.bicor)-V 9125和m s(A e.bicor)-M 853仅与T 6-3杂交育性得到恢复,且恢复度较高,变异小,而与其它大部分普通小麦杂交F1表现雄性不育,且扬花期花药不外露.而m s(A e.bicor)-5-1与包括T 6-3在内的普通小麦品种(系)杂交F1育性得到不同程度的恢复.从而得出结论,二角山羊草细胞质与小麦细胞核的互作存在两个不同的不育-恢复系统.     

FITC示踪在优化小麦花粉管通道转化方法中的应用

利用FITC(fluorescein is othiocyanate,异硫氰酸荧光素)标记的外源DNA对小麦进行了花粉管通道法转化,在荧光显微镜下观察了外源DNA进入小麦胚囊的情况,并初步研究了转化时间及转化溶液组成对DNA进入胚囊效率的影响。结果表明,外源DNA沿着花粉管生长过程中形成的花粉管通道进入胚囊;授粉45 min和60min进行转化外源DNA进入胚囊的几率较大,因此在此段时间开始转化较为合适;相对于TE缓冲液,将0.05%Silwet L-77和5%蔗糖作为转化溶液可以缩短DNA进入胚囊的时间,但不能提高外源DNA进入胚囊的几率。研究表明,使用FITC标记观察外源DNA进入胚囊效率的方法,可简便有效地应用于花粉管通道法转化条件的初步优化。     

Plasmon analysis of Triticum (wheat) and Aegilops. 2. Characterization and classification of 47 plasmons based on their effects on common wheat phenotype

This article comprises our final remarks on the phenotypic effects of alien plasmons on common wheat. Twenty-one vegetative, reproductive, and seed characters of 551 alloplasmic lines of 12 common wheat genotypes with 46 alloplasmons, and as the control, their euplasmic lines were investigated. Effects of genotype, plasmon, and their interaction had high statistical significance for all the characters investigated, whereas phenotypic variations attributable to the alien plasmons were relatively small. Individual plasmon types are characterized by their primary effects on 21 characters. Genotype x plasmon effects on two representative characters, heading date and plant height, are described in detail. Cluster and principal component analyses of the phenotypic effects of the 47 plasmons yielded 22 groups. The relationships between these phenotype-based groups and those defined by molecular differences in organellar genomes were examined. A significant correlation was found with some explainable discrepancies. For efficient plasmon identification, use of six of the present 12 genotypes is proposed. The key for plasmon classification is provided. Our findings indicate that alien plasmons may be of limited value in future wheat breeding, but that the plasmon diversity that exists in Triticum and Aegilops species is of great significance for understanding the evolution of these genera.     

Synthetic hexaploid wheat enhances variation and adaptive evolution of bread wheat in breeding processes

Synthetic hexaploid wheat (SHW) that combines novel and elite genes from the tetraploid wheat Triticum turgidum L. and wild ancestor Aegilops tauschii Coss., has been used to genetically improve hexaploid common wheat. The abundant genetic diversity in SHW can effectively make breakthroughs in wheat genetic improvement through the inclusion of increased variation. In this paper, we reviewed the current advances in research and utilization of the primary SHW lines and SHW-derived wheat varieties that have enhanced evolution of modern wheat under conditions of natural and artificial selection in southwestern China. Using primary SHW lines, four high-yielding wheat varieties have been developed. In addition, using the SHW-derived varieties as breeding parents, 12 new wheat varieties were also developed. Results of genotype–phenotype and fingerprint analysis showed that the introgressed alleles from SHW lines have contributed a great number of elite characters to the new wheat varieties, and these elite characters include disease resistance, more spikes per plant, more grains per spike, larger grains, and higher grain-yield potential. We found that the primary SHW lines and SHW-derived varieties have identifiable effects to enhance genetic variation and adaptive evolution of modern hexaploid wheat, which significantly increased the grain yields of hexaploid wheat in recent years. These findings have significant implications in the breeding of high-yielding wheat varieties resistant to biotic and abiotic stresses using SHW as genetic resources.