海南万宁普通野生稻居群开花习性和生殖特性研究

对目前海南最大的普通野生稻居群——万宁普通野生稻居群的花期、花时、结实率和花粉育性进行了调查研究。结果发现,该普通野生稻居群内东部和西部群体花期相差15d;东部群体单穗平均结实率为8．67％,西部群体单穗平均结实率达62．1％,呈极显著差异;而东部和西部群体的花时基本相同,花粉育性与栽培稻均无显著差异。该居群东部群体与毗邻再生栽培稻的花期相遇,花时一致,满足基因漂移发生的部分必须条件。虽然目前尚无充分证据证明普通野生稻与其毗邻的栽培稻有基因漂移发生,但出于野生稻保护的需要,转基因水稻种植应设置安全距离,避开该野生稻分布区域。     

亚洲栽培稻与AA染色体组稻种的可交配性及F1杂种育性分析

从可交配性和F1杂种育性两方面对亚洲栽培稻与AA染色体组（以下简称AA组）其他7个稻种的系统关系进行了分析。结果表明：栽培稻籼、粳亚种与AA组不同稻种杂交均具有一定的结实率,可交配性不是影响亚洲栽培稻与其他AA组稻种间基因交流的主要生殖障碍。亚洲栽培稻与普通野生稻及尼瓦拉野生稻种间F1花粉育性和小穗育性有不同程度分化,与其他稻种的F1花粉育性和小穗育性均很低,F1杂种不育是AA组内基因交流的主要障碍。综合可交配性和F1小穗育性两方面的因素,初步得出：亚洲栽培稻与AA组稻种的亲缘关系由近及远依次是：普通野生稻、尼瓦拉野生稻、南方野生稻、展颖野生稻、非洲栽培稻、长雄蕊野生稻和短舌野生稻。其中普通野生稻和尼瓦拉野生稻是AA组中可直接利用于水稻育种的野生稻资源。     

Bph3在栽培稻和药用野生稻中的BAC-FISH比较物理定位

用栽培稻(Oryza sativa L.)遗传图第四连锁群中与抗褐稻虱基因Bph3紧密连锁的RFLP标记RZ69及筛选出来的BAC克隆38J9作探针,对药用野生稻(O.officinalis Well ex Watt)和栽培稻荧光原位杂交,供试标记RZ69及38J9均被定位于药用野生稻和栽培稻第4染色体的短臂上,药用野生稻杂交信号的百分距分别为22.12±3.44和20.00±5.40,而栽培稻均为0.在栽培稻中,信号检出率相应地为6.29%和56.10%,在药用野生稻中则为6.14%和50.00%.BAC克隆和RFLP标记探针杂交信号的百分距十分接近,说明在栽培稻和野生稻中RFLP标记RZ69都在同一BAC克隆的大插入片段中.由此推知,药用野生稻与抗性基因Bph3的同源顺序就在第4染色体信号出现的相应位置.在未封阻的情况下,药用野生稻的BAC杂交在多条染色体上具有信号,这表明它和栽培稻的Cot-1 DNA重复顺序也在一定程度上具有同源性.药用野生稻第4染色体是根据栽培稻与药用野生稻的比较遗传图选用与Gm-6连锁的RG214通过FISH确定的.讨论了栽培稻BAC克隆对药用野生稻比较原位杂交物理作图的可行性问题.     

Bph3在栽培稻和药用野生稻中的BAC-FISH比较物理定位(英)

用栽培稻 (OryzasativaL .)遗传图第四连锁群中与抗褐稻虱基因Bph3紧密连锁的RFLP标记RZ6 9及筛选出来的BAC克隆 38J9作探针 ,对药用野生稻 (O .officinalisWellexWatt)和栽培稻荧光原位杂交 ,供试标记RZ6 9及38J9均被定位于药用野生稻和栽培稻第 4染色体的短臂上 ,药用野生稻杂交信号的百分距分别为 2 2 .12± 3.4 4和2 0 .0 0± 5 .4 0 ,而栽培稻均为 0。在栽培稻中 ,信号检出率相应地为 6 .2 9%和 5 6 .10 % ,在药用野生稻中则为 6 .14 %和 5 0 .0 0 %。BAC克隆和RFLP标记探针杂交信号的百分距十分接近 ,说明在栽培稻和野生稻中RFLP标记RZ6 9都在同一BAC克隆的大插入片段中。由此推知 ,药用野生稻与抗性基因Bph3的同源顺序就在第 4染色体信号出现的相应位置。在未封阻的情况下 ,药用野生稻的BAC杂交在多条染色体上具有信号 ,这表明它和栽培稻的Cot_1DNA重复顺序也在一定程度上具有同源性。药用野生稻第 4染色体是根据栽培稻与药用野生稻的比较遗传图选用与Gm_6连锁的RG2 14通过FISH确定的。讨论了栽培稻BAC克隆对药用野生稻比较原位杂交物理作图的可行性问题。     

中国野生稻及栽培稻核糖体DNA第一转录间隔区序列分析及其系统学意义

用 PCR技术从产于我国的 3种野生稻和亚洲栽培稻的 2个亚种中特异地扩增和测序了 r DNA的第一转录间隔区。普通野生稻 (Oryza rufipogon)、药用野生稻 (O.officinalis)、疣粒野生稻 (O.granu-lata)和栽培稻的两个亚种 (O.sativa ssp.indica,O.sativa ssp.japonica)的 ITS1序列为 1 93bp、1 94bp、2 1 8bp、1 94bp和 1 94bp,它们的 G/ C含量为 69.3%～ 72 .7% ,序列中位点趋异率为 1 .5%～ 1 0 .6%。序列的相似性比较和简约性分支分析的结果表明 ,普通野生稻与栽培稻的两个亚种之间的亲缘关系最为密切 ;药用野生稻与普通野生稻和与栽培稻的两个亚种的相似性都为 82 % ,说明它与 AA基因组有一定的亲缘关系 ;疣粒野生稻与普通野生稻、药用野生稻和栽培稻两个亚种的亲缘关系相对较远 ,它在稻属中可能是一个系统地位较独特的类群。以 ITS1序列构建的 3种野生稻和 2个栽培稻亚种的系统发育关系与前人用同工酶、叶绿体 DNA、线粒体 DNA和核 DNA资料重建的稻属的系统发育关系基本一致     

广东高州普通野生稻生殖特性的研究Ⅱ.胚囊育性、胚囊发育、胚胎发生和胚乳发育

利用整体染色激光扫描共聚焦显微镜术（WCLSM）,对采自广东省高州市6个地点共141个编号的高州普通野生稻的成熟胚囊育性和胚囊形成发育特点等进行研究。结果表明,供试的绝大多数高州普通野生稻材料成熟胚囊均存在不同程度的育性异常现象,包括雌性生殖单位退化、极核位置异常、极核数目异常、胚囊退化等。这些异常结构的胚囊由于没有正常的卵细胞,不能正常受精,影响子粒结实。141个编号平均异常胚囊频率为11．11％,最高异常率为67．86％。高州普通野生稻胚囊发育过程与正常栽培稻一致,属寥型。对一些结实率偏低材料的研究,发现在胚囊发育过程的不同时期存在一些异常现象,包括功能大孢子退化,二至八核胚囊发育异常等。对柱头上的花粉量调查,发现观察的69个编号中,多数编号柱头上花粉量偏少。研究表明,花粉量偏少影响受精是导致结实率偏低的最主要原因之一。本文对导致结实率偏低的综合因素进行了讨论。     

云南野生稻中Xa21基因外显子Ⅱ的分离及序列分析

Xa21是已经分离克隆的一个具有广谱抗性的水稻白叶枯病抗性基因,根据已克隆的白叶枯病抗性基因Xa21外显子Ⅱ序列设计特异性引物对云南3种野生稻及其他稻种进行PCR扩增.结果表明,只有普通野生稻(景洪普通野生稻和元江普通野生稻)及长雄野生稻中扩增到了长400bp的目的片段,而疣粒野生稻和药用野生稻及栽培稻中均没有扩增到目的片段.通过序列比较发现所克隆的序列同长雄野生稻的氨基酸序列变化是随机的.     

药用野生稻复合体ITS1和ITS2序列变异及其系统进化分析

通过PCR扩增并测序分析稻属药用野生稻复合体5个野生稻种基因组完整的ITS区及5.8S区,并与栽培稻ITS序列进行比较,构建分子系统进化树,探讨了稻属药用野生稻复合体内不同种间的亲缘关系和系统进化.结果表明,ITS1和ITS2均有较高的G/C含量,ITS1序列的长度多态性相对较高,ITS2序列的碱基突变频率较高.药用野生稻和高秆野生稻亲缘关系很近,而与栽培稻亲缘关系较远;短药野生稻、斑点野生稻、澳洲野生稻与药用野生稻亲缘关系渐近.处于进化的过渡阶段.     

来自中国云南野生稻的抗稻瘟病遗传资源

与Pi-ta^＋等位基因相比,含有Pi-ta^＋等位基因的栽培稻具有抗稻瘟病特性。本研究用基因序列分析的方法检测了来自云南的不同栽培稻品种以及不同类型和来源的普通野生稻种和非洲长雄蕊野生稻种中的Pi-ta^＋基因,发现Pi-ta地基因在稻属植物中高度保守,但Pi-ta^＋等位基因的存在极其稀有。在所检测的栽培稻和野生稻中仅有来源于云南景洪的直立型普通野生稻中含有Pi-ta^＋等位基因。而与Pi-ta基因相比,另一个水稻抗稻瘟病基因Pib,经部分同源序列克隆及测序发现该基因在不同野生稻中的变异较大。在所克隆的不同野生稻Pib基因同源序列中,也只有来源于直立型普通野生稻的序列能按该基因的开放阅读框进行正常翻译。对不同类型普通野生稻的抗稻瘟病能力的初步鉴定结果表明,直立型普通野生稻对供试的本地稻瘟病生理小种具有较强抗性,其抗性可能源于所含的Pi=ta^＋等位基因及可能有功能的Pib基因。由于普通野生稻与栽培稻同属AA基因组型,因此,云南直立型普通野生稻可通过杂交育种或基因工程途径用于栽培稻的抗稻瘟病性能改良。     

云南野生稻叶茎根组织结构特性的比较研究

采用徒手切片法对云南3种野生稻和栽培稻的叶片、茎秆及根的组织结构进行比较研究,以明确野生稻的内部结构,为进一步揭示其结构与云南野生稻的生长势旺盛、营养吸收能力强、抗某些病虫害能力强的关系奠定基础。结果表明,(1)云南野生稻与栽培稻叶片主脉、茎秆及根的组织结构差异显著,其中景洪疣粒野生稻、景洪药用野生稻与栽培稻的差异最明显。(2)在叶主脉结构中,景洪疣粒野生稻无气腔结构,维管束数量少、面积小;景洪药用野生稻、3个普通野生稻材料存在多个维管束和气腔结构,维管束、束内导管直径及气腔面积较栽培稻大,而栽培稻中的气腔均为2个。(3)在茎秆结构方面,景洪疣粒野生稻茎秆最小,维管束数量最少,其茎壁内的维管束排列方式与栽培稻不同;景洪药用野生稻和普通野生稻茎秆及茎壁较栽培稻粗厚,维管束数量也较栽培稻多,普通野生稻的茎壁中有通气组织。(4)在根的组织结构中,3种野生稻的导管数量较多,导管直径及中柱面积较栽培稻大,外皮层出现了具有凯氏带功能的凯氏点等。     

Characterization of Interspecific Hybrids Between Oryza sativa L. and Three Wild Rice Species of China by Genomic In Situ Hybridization

In the genus Oryza, interspecific hybrids are useful bridges for transferring the desired genes from wild species to cultivated rice （Oryza sativa L.）. In the present study, hybrids between O. sativa （AA genome） and three Chinese wild rices, namely O. rufipogon （AA genome）, O. officinalis （CC genome）, and O. meyeriana （GG genome）, were produced. Agricultural traits of the F1 hybrids surveyed were intermediate between their parents and appreciably resembled wild rice parents. Except for the O. sativa × O. rufipogon hybrid, the other F1 hybrids were completely sterile. Genomic in situ hybridization （GISH） was used for hybrid verification. Wild rice genomic DNAs were used as probes and cultivated rice DNA was used as a block. With the exception of O. rufipogon chromosomes, this method distinguished the other two wild rice and cultivated rice chromosomes at the stage of mitotic metaphase with different blocking ratios. The results suggest that a more distant phylogenetic relationship exists between O. meyeriana and O. sativa and that O. rufipogon and O. sativa share a high degree of sequence homology. The average mitotic chromosome length of O. officinalis and O. meyeriana was 1.25- and 1.51-fold that of O. sativa, respectively. 4＇,6＇-Diamidino- 2-phenylindole staining showed that the chromosomes of O. officinalis and O. meyeriana harbored more heterochromatin, suggesting that the C and G genomes were amplified with repetitive sequences compared with the A genome. Although chromocenters formed by chromatin compaction were detected with wild rice-specific signals corresponding to the C and G genomes in discrete domains of the F1 hybrid interphase nuclei, the size and number of O. meyeriana chromocenters were bigger and greater than those of O. officinalis. The present results provide an important understanding of the genomic relationships and a tool for the transfer of useful genes from three native wild rice species in China to cultivars.     

野生稻和栽培稻的随机多态DNA(RAPD)分析

应用 RAPD方法对药用野生稻、普通野生稻、粳稻和籼稻进行基因组多态性分析。 1 2个随机引物共扩增出 1 3 2条 RAPD带 ,片段大小在 3 0 0～ 3 5 0 0 bp之间 ,其中有 1 0 6条表现出多态性 ,占总扩增片段的86.4%。根据遗传距离分析 ,用 UPGMA法构建了聚类树状图 ,结果表明 ,普通野生稻的遗传特性比药用野生稻更接近于栽培稻。     

Development of Anther- defective Cytoplasmic Male Sterile Line from Interspecific Hybridization Between Dongxiang Wild Rice and Cultivated Rice and Preliminary Observations on Its Derivatives

Exploring novel source of cytoplasmic male sterility (CMS) is essential to stablize the productivity of hybrid rice. Dongxiang wild rice ( Oryza rufipogon Griff. ) has been recorded as the northest distributed wild rice in China that is resistant to several biotic or abiotic stresses. A male sterile line M01A defective of anther was identified in the F3 population from an interspecific cross between Dongxiang wild rice and cultivated rice ( Oryza sativa L. ssp. indica ). Crosses and successive backcrosses were made between M01A and a variety of breeding materials and 19 progeny families were obtained. Among the families, some were defective of anthers, and some have twisted and degenerated anthers without microsporogenesis or with a few typical aborted pollen. These resuits implicate that the male sterility of M01A was genetically regulated by the interaction between the nucleus and the cytoplasm. Only one cross produced male-fertile hybrid in which the paternal parent contains a part of the genome of Dongxiang wild rice, which implies that Dongxiang wild rice itself could be the source of the fertility restorer to M01A.     

A large-scale field study of transgene flow from cultivated rice (Oryza sativa) to common wild rice (O. rufipogon) and barnyard grass (Echinochloa crusgalli)

The introgression of transgenes into wild relatives or weeds through pollen-mediated gene flow is a major concern in environmental risk assessment of transgenic crops. A large-scale (1.3–1.8 ha) rice gene flow study was conducted using transgenic rice containing the bar gene as a pollen donor and Oryza rufipogon as a recipient. There was a high frequency of transgene flow (11%−18%) at 0–1 m, with a steep decline with increasing distance to a detection limit of 0.01% by 250 m. To our knowledge, this is the highest frequency and longest distance of gene flow from transgenic rice to O. rufipogon reported so far. On the basis of these data, an adequate isolation distance from both conventional and transgenic rice should be taken for in situ conservation of common wild rice. Meanwhile, there is no evidence of transgene introgression into barnyard grass, even when it has coexisted with transgenic rice containing the bar gene for five successive years. Thus, the environmental risk of gene flow to this weedy species is of little concern.     

湿地植物普通野生稻和慈姑之间的化感作用

普通野生稻（Oryzarufipogon）是现代水稻遗传育种的基础,已被列为濒危植物。本研究在实验室检测了普通野生稻与其常见伴生种慈姑（Sagittariatrifolia）之间的化感效应。研究发现普通野生稻和慈姑的根、茎、叶水浸出液对两物种的种子萌发和幼苗生长具有促进作用。普通野生稻种子经慈姑叶和普通野生稻根、茎和叶的水浸出液处理后,萌发率由对照的25%显著提高至39%~54%;慈姑种子经普通野生稻和慈姑各部分水浸出液处理后,萌发率由对照的不萌发提高至9%~81%。慈姑和普通野生稻各部分的水浸出液显著促进两者的幼苗伸长,但对根的生长表现出两种不同的效应：慈姑叶、叶柄和根的水浸出液以及普通野生稻叶的水浸出液对普通野生稻和慈姑根的生长具有抑制作用,而普通野生稻茎和根的浸出液促进慈姑根的生长。总体上,慈姑比普通野生稻对水浸出液更敏感。     

Fitness estimation through performance comparison of F1 hybrids with their parental species Oryza rufipogon and O. sativa

BACKGROUND AND AIMS: Introgression of crop genes into populations of wild relatives has important implications for germplasm conservation as well as for the persistence of novel transgenes in wild populations. Studies of hybrid fitness can be used to evaluate the potential for introgression to occur following episodes of interspecific hybridization. METHODS: This study estimated relative fitness of interspecific hybrids through performance comparison of F(1) hybrids with their parental species, a cultivated rice (Oryza sativa) Minghui-63 and perennial common wild rice (O. rufipogon) under the cultivation conditions. KEY RESULTS: Compared with their parents, the hybrids had the lowest values of seedling survival ability, pollen viability and seed production; intermediate values of seed germination, spikelet production and flag leaf areas; and the highest values of plant height, number of tillers and panicles. The hybrids performed poorly at the stage of sexual reproduction, although they had a slightly higher hybrid vigour at the vegetative growth stage and better tillering ability than their wild parent. There were no significant differences in composite fitness across the whole life-history between the hybrids and their wild parental species. CONCLUSIONS: Rice genes, including transgenes, might persist in wild rice populations through vegetative and sexual reproduction. Further studies are needed to examine whether the extent of gene flow from rice is sufficiently significant to influence genetic diversity in wild populations of O. rufipogon, a species that has become endangered in some regions of south-east Asia.     

Genetic control of a transition from black to straw-white seed hull in rice domestication

The genetic mechanism involved in a transition from the black-colored seed hull of the ancestral wild rice (Oryza rufipogon and Oryza nivara) to the straw-white seed hull of cultivated rice (Oryza sativa) during grain ripening remains unknown. We report that the black hull of O. rufipogon was controlled by the Black hull4 (Bh4) gene, which was fine-mapped to an 8.8-kb region on rice chromosome 4 using a cross between O. rufipogon W1943 (black hull) and O. sativa indica cv Guangluai 4 (straw-white hull). Bh4 encodes an amino acid transporter. A 22-bp deletion within exon 3 of the bh4 variant disrupted the Bh4 function, leading to the straw-white hull in cultivated rice. Transgenic study indicated that Bh4 could restore the black pigment on hulls in cv Guangluai 4 and Kasalath. Bh4 sequence alignment of all taxa with the outgroup Oryza barthii showed that the wild rice maintained comparable levels of nucleotide diversity that were about 70 times higher than those in the cultivated rice. The results from the maximum likelihood Hudson-Kreitman-Aguade test suggested that the significant reduction in nucleotide diversity in rice cultivars could be caused by artificial selection. We propose that the straw-white hull was selected as an important visual phenotype of nonshattered grains during rice domestication.     

东乡野生稻耐冷渐渗系的细胞学观察及SSR分析

以前期鉴定筛选的2个东乡野生稻强耐冷渐渗系(IL5243和IL5335)为试材,研究其减数分裂时期的染色体行为特征及外源基因的渗入分子证据。结果表明:(1)IL5243和IL5335中正常减数分裂的花粉母细胞分别达89.93%和90.22%,最终形成正常的成熟花粉粒,花粉离体萌发率分别为(83.03±2.82)%和(81.96±1.73)%,与受体亲本无显著性差异。(2)在减数分裂I中,2个耐冷渐渗系均观察到低频率异常染色体行为,如单价体、"8"字型二价体、多价体,以及后期I有少数花粉母细胞(3.95%～5.15%)存在落后染色体等,表明其染色体组之间发生了交换和重组;在粗线期,2个强耐冷渐渗系均观察到较高频率(IL5243和IL5335分别为27.0%和38.9%)的双核仁,而其双亲都是单核仁。(3)SSR标记和Structure分析进一步证实了栽培稻和野生稻染色体组间发生了交换重组,东乡野生稻部分DNA片段已渗入到强耐冷渐渗系中,这为水稻耐冷基因的挖掘与利用奠定了重要基础。     

Origins and population genetics of weedy red rice in the USA

Weedy red rice (Oryza sativa spontonea) is a persistent and problematic weed of rice culture worldwide. A major hypothesis for the mechanism of production of this weed in South and Southeast Asia is hybridization between cultivated rice (Oryza sativa) and wild rice (Oryza rufipogon). However, weedy red rice can often be found outside the range of O. rufipogon leaving questions on the origin and process behind weedy rice infestations. In the USA, weedy red rice was first documented as early as 1846 and has continued to affect rice production areas. In this study, we attempt to identify the origin and population structure of weedy red rice sampled from the USA using both DNA sequence data from a neutral nuclear locus as well as microsatellite genotype data. Results suggest that two major accessions of weedy rice exist, strawhull and blackhull, and these forms may both hybridize with the cultivated rice of the USA, O. sativa japonica. Using population assignment of multilocus genotype signatures with principal component analysis and structure, an Asian origin is supported for US weedy rice. Additionally, hybridization between strawhull and blackhull varieties was inferred and may present the opportunity for the production of new weedy forms in the future.