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.     

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     

海南黎族聚居区山栏稻的起源演化研究

以14份海南黎族聚居区的山栏稻为研究材料、以原产于中国的69份亚洲栽培稻和110份普通野生稻为对照组,分别对核中SSⅡ基因、ITS基因和Ehd1基因、叶绿体中ndhC-trnV基因以及线粒体中cox3基因等5段序列进行测序,分析基因序列多样性和单倍型,并揭示海南黎族聚居区山栏稻的起源地和驯化过程。结果表明,黎族聚居区山栏稻的基因多样性低于亚洲栽培稻,而亚洲栽培稻的基因多样性低于普通野生稻;85%左右的山栏稻为偏粳型;山栏稻与广东和湖南的普通野生稻亲缘关系较近,而与海南的普通野生稻的亲缘关系较远,推测黎族的山栏稻可能起源于广东和湖南的普通野生稻。     

基于叶绿体基因多样性的中国水稻起源进化研究

针对目前亚洲栽培稻起源地和进化途径学说众多、分歧巨大的现状,本研究选择原产中国的98份亚洲栽培稻和125份普通野生稻为材料,对叶绿体中atpA序列、rps16内含子序列、trnP-rpl33间隔区、trnG-trnfM序列、trnT-trnL间隔区序列的五段高突变序列进行测序,利用生物信息学方法进行比对分析,绘制Network网络图,构建系统发育树。结果表明,普通野生稻的Indel和SNP数目均比亚洲栽培稻多,序列多样性丰富;基于单倍型的Network网络图和系统发育树可将所有参试材料归为3个类群,类群I主要为粳稻与普通野生稻,类群II主要为籼稻,类群III主要为普通野生稻,而类群II和类群III亲缘关系较近,提示粳、籼两个亚种可能由偏粳、偏籼的普通野生稻分别进化而来,支持二次起源学说;所有与亚洲栽培稻亲缘关系较近的普通野生稻均来源于华南地区,支持华南地区为我国亚洲栽培稻起源中心的论点。     

水稻CMS相关基因在稻属AA基因组中的分布及其单核苷酸多态性

水稻线粒体基因组嵌合基因orf79 和 orfH79分别被认为与BT-型和HL-型水稻CMS有关, 两者具有98%的同源性, 并且其DNA序列只存在4核苷酸的差异。对于这两个嵌合基因, 前者来源于栽培稻(Oryza. sativa L.), 而后者则来源于普通野生稻(O. rufipogon Griff.)。这意味着orf79/ orfH79可能在广泛分布于稻属AA基因组中。为了调查orf79/ orfH79在稻属物种中的分布和变异, 190份栽培稻品系[包括156份亚洲栽培稻(O. sativa var. landrace)和34份非洲栽培稻(O. glaberrima)]以及104份稻属AA基因组野生稻品系(包括O. rufipogon、O.nivara、O. glumaepatula、O. barthii、O. longistaminata和O. meridionalis 6个种), 被用于PCR扩增检测。31份具有控制粤泰A和笹锦A的特异片段的稻属AA基因组水稻品系被检测出。所有特异片段均被回收并测序, 基于DNA 序列的聚类结果显示31份水稻材料被分成了两组, 分别代表为BT-型和HL-型水稻不育细胞质组群。结果也进一步表明: HL-型水稻CMS胞质主要分布于一年生的O. nivara中; BT-型水稻CMS胞质可能来源于栽培稻变种或多年生野生稻O. rufipogon。     

水稻长日抑制基因PhyB的多样性及区域适应性初探

Phy 是在长日照条件下抑制水稻开花的关键基因,但目前对水稻PhyB基因的遗传基础还不清楚,研究其分子遗传机制,对于培育光周期适应性广的品种以及扩大水稻种植区域具有重要意义。本研究选择78份亚洲栽培稻(34份籼稻和44份粳稻)及47份野生稻进行测序,对Phy B基因的核苷酸多态性、单倍型进行分析,计算籼稻、粳稻和野生稻的遗传多样性。结果表明,Phy B基因共有28个单倍型,其中有2个高频率的单倍型分别存在于2个栽培稻亚种中。从Network图可以看出栽培稻分为2组(A组和B组),A组栽培稻包括全部的籼稻和4个粳稻个体,B组栽培稻全是粳稻品种。亲缘地理学分析发现,A、B两组栽培稻具有明显不同的地理分布格局,且A组和B组开花时间差异显著,说明Phy B基因的2个高频率单倍型在2个栽培稻亚种中具有区域适应性,Phy B基因在栽培稻中具有明显的驯化信号,随着水稻种植区域的扩大,进化出适应不同地域特有的等位基因,导致开花时间对不同地区的区域适应性及多样性。     

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。     

云南普通野生稻遗传多样性和亲缘关系

野生稻（Oryza rufipogon）是稻属的重要组成部分,具有许多优良性状,是水稻遗传改良的天然基因库。本研究通过对形态学性状的观测,及ISSR和RAPDUPGMA聚类分析,将云南普通野生稻划分为4个类型,即元江类型、景洪紫杆直立型、景洪绿杆直立型和景洪匍匐型。在供试材料中筛选到具有多态性的ISSR和RAPD引物各11个,ISSR引物扩增出多态带113条,多态性条带比率（PPB）为82．26％,RAPD引物共扩增出多态性条带76条,PPB值为76．77％,两种分子标记的分析结果呈极显著正相关（r=0.951）。此外UPGMA聚类结果表明,云南普通野生稻不同类型与其它地区普通野生稻之间的遗传亲缘关系差异明显。     

利用RAPD对稻蝗属昆虫亲缘关系的研究

通过20个随机引物的PCR扩增,得到了日本主要稻蝗的随机扩增多态性DNA（RAPD）图谱,根据扩增结果,计算了种间相似系数和遗传距离,建立了UPGMA系统树。结果表明,分布没有重叠、种间容易交配、能产生杂种的中华稻蝗台湾亚种与小翅稻蝗的亲缘关系最近;分布重叠的日本稻蝗与中华稻蝗台湾亚种、日本稻蝗和小翅稻蝗的亲缘关系较近。小稻蝗与其它3种稻蝗的亲缘关系较远。     

广西普通野生稻(Oryza rufipogon Griff)表型性状和SSR多样性研究

以中国普通野生稻初级核心种质中广西普通野生稻部分中的 2 2 3份野生稻为材料 ,以平均分布于水稻 12条染色体上的 34对SSR引物和中国稻种资源目录中的表型性状分析广西普通野生稻SSR位点的等位变异、多样性的地理分布及不同生长习性间的多样性分布等。结果表明 ,每对引物检测到的多态性片段 7～ 4 8条 ,平均为 2 4 .91条 ,普通野生稻的等位变异数明显大于地方稻种 ,在所分析的SSR位点中杂合位点比例变化在 1.35 %～ 81.31%之间 ,平均为 32 .0 1% ,与自花授粉的栽培稻相比具有较高的杂合率 ;北纬 2 2°～ 2 3°和 2 3°～ 2 4°范围内的两个区域内(一个包括隆安、扶绥和邕宁三县 ,另一个包括象州、来宾、武宣、玉林和贵港五个县 )所包含的普通野生稻数量多 ,遗传多样性大 ,在DNA水平上是广西普通野生稻的遗传多样性中心 ,而表型性状多样性中心是在北纬 2 1°～ 2 2°和2 2°～ 2 3°,其多样性分布与DNA水平不完全一致。在 4种生长习性间 ,DNA水平上的遗传多样性大小依次为匍匐型 ,倾斜型 ,半直立型和直立型 ,表型水平的多样性与DNA水平的多样性基本一致。     

野生稻Oryza nivara和O. rufipogon DNA甲基化多样性

本文调查研究了野生稻群体内及群体间的DNA甲基化多样性。选取与亚洲栽培稻近缘的两个野生种Oryza nivara和O. rufipogon作为研究对象, 采用改进的MSAP (methylation-sensitive amplification polymorphism)技术对其基因组CCGG位点的甲基化多样性进行了分析。结果表明: 在同一个IRGC(the International Rice Germplasm Center)编号群体内的不同个体间, 基因组甲基化条带高度一致; 而在不同编号群体间, 甲基化条带表现为多态。其中后者又可以分为两类: 条带模式高度一致的Class I和条带模式呈多态性的Class II。将上述两类甲基化片段的编码基因与栽培稻粳稻(O. sativaL. subsp. japonica)和籼稻(O. sativa L. subsp. indica)两个亚种的同源基因进行序列比对发现, 在进化趋势上Class I表现得比较保守, 而Class II较为活跃。DNA甲基化多样性作为标志遗传多样性的一种信息来源, 其在群体分化及物种进化过程中的作用还需要进一步探讨。     

Chloroplast genome sequence confirms distinctness of Australian and Asian wild rice

Cultivated rice (Oryza sativa) is an AA genome Oryza species that was most likely domesticated from wild populations of O. rufipogon in Asia. O. rufipogon and O. meridionalis are the only AA genome species found within Australia and occur as widespread populations across northern Australia. The chloroplast genome sequence of O. rufipogon from Asia and Australia and O. meridionalis and O. australiensis (an Australian member of the genus very distant from O. sativa) was obtained by massively parallel sequencing and compared with the chloroplast genome sequence of domesticated O. sativa. Oryza australiensis differed in more than 850 sites single nucleotide polymorphism or indel from each of the other samples. The other wild rice species had only around 100 differences relative to cultivated rice. The chloroplast genomes of Australian O. rufipogon and O. meridionalis were closely related with only 32 differences. The Asian O. rufipogon chloroplast genome (with only 68 differences) was closer to O. sativa than the Australian taxa (both with more than 100 differences). The chloroplast sequences emphasize the genetic distinctness of the Australian populations and their potential as a source of novel rice germplasm. The Australian O. rufipogon may be a perennial form of O. meridionalis.     

Simple sequence repeat analyses of interspecific hybrids and MAALs of <Emphasis Type="Italic">Oryza </Emphasis><Emphasis Type="Italic">officinalis</Emphasis> and <Emphasis Type="Italic">Oryza sativa</Emphasis>

Wild rice is a valuable resource for the genetic improvement of cultivated rice (Oryza sativa L., AA genome). Molecular markers are important tools for monitoring gene introgression from wild rice into cultivated rice. In this study, Simple sequence repeat (SSR) markers were used to analyze interspecific hybrids of O. sativa-O. officinalis (CC genome), the backcrossing progenies and the parent plants. Results showed that most of the SSR primers (335 out of 396, 84.6%) developed in cultivated rice successfully amplified products from DNA samples of wild rice O. officinalis. The polymorphism ratio of SSR bands between O. sativa and O. officinalis was as high as 93.9%, indicating differences between the two species with respect to SSRs. When the SSR markers were applied in the interspecific hybrids, only a portion of SSR primers amplified O. officinalis-specific bands in the F(1) hybrid (52.5%), BC(1) (52.5%), and MAALs (37.0%); a number of the bands disappeared. Of the 124 SSR loci that detected officinalis-specific bands in MAAL plants, 96 (77.4%) showed synteny between the A and C-genomes, and 20 (16.1%) showed duplication in the C-genome. Sequencing analysis revealed that indels, substitution and duplication contribute to the diversity of SSR loci between the genomes of O. sativa and O. officinalis.     

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.     

ITS1 Sequences of Nuclear Ribosomal DNA in Wild Rices and Cultivated Rices of China and Their Phylogenetic Implications

he first internal transcribed spacer (ITS1) of nuclear ribosomal DNA of three wild rice species and two subspecies of cultivated rice, which are distributed in China, was amplified using PCR technique and sequenced with automated fluorescent sequencing. The sequences of ITS1 ranged from 193 bp to 218 bp in size and G/C content varied from 69.3%to 72.7%. In pairwise comparison among the five taxa, sequence site divergence ranged from 1.5 % to 10.6%. Phylogenetic analysis of ITS1 sequences using Wagner parsimony generated a single well-resolved tree, which revealed that Oryza rufipogon was much more closely related to cultivated rice species than to the other two wild species. Oryza granulata was less closely related to either cultivated rice species or the other two wild species, and might be a unique and isolated taxon in the genus Oryza. The phylogenetic relationships of the three wild rice species and two cultivated rice subspecies inferred from ITS1 sequences is highly concordant with those based on the molecular evidence from isozyme, chloroplast DNA (cpDNA), mitochondrial DNA (mtDNA) and nuclear DNA (nDNA) of the genus Oryza.     

Identification of wild and cultivated Hordeum species using two-primer RAPD fragments

Random amplified polymorphic DNAs (RAPD) analysis has been adapted to assess the degree of RAPD polymorphism within the genus Hordeum to determine if this approach can distinguish wild and cultivated species. Nineteen wild and seven cultivated accessions were evaluated using 4 random 10-mer primers. The potential of the RAPD assay was further increased by combining two primers in a single polymerase chain reaction (PCR). RAPD fragments generated by two pairs of arbitrary 10-mer primers discriminated six wild species and one cultivated species by banding profiles. The size of the amplified DNA fragments ranged from 150 to 2300 base pairs. 33 %percent of the fragments were common to both wild and cultivated species; 67% were specific to either wild or cultivated species. The average difference in fragments was less within the species than among the species. By comparing RAPD fingerprints of wild and cultivated barley, markers were identified among the set of amplified DNA fragments which could be used to distinguish wild and cultivated Hordeum species. This revised version was published online in July 2006 with corrections to the Cover Date.     

Evolutionary relationships among rice species with AA genome based on SINE insertion analysis

Previous studies based on morphological and molecular markers indicated that there are two cultivated and five wild rice species within the Oryza genus with the AA genome. In the cultivated rice species, Oryza sativa, a retroposon named p-SINE1 has been identified. Some of the p-SINE1 members characterized previously showed interspecific insertion polymorphisms in the species with the AA genome. In this study, we identified new p-SINE1 members showing interspecific insertion polymorphisms from representative strains of four wild rice species with the AA genome: O. barthii, O. glumaepatula, O. longistaminata, and O. meridionalis. Some of these members were present only in strains of one species, whereas the others were present in strains of two or more species. The p-SINE1 insertion patterns in the strains of the Asian and African cultivated rice species O. sativa and O. glaberrima were very similar to those of the Asian and African wild rice species O. rufipogon and O. barthii, respectively. This is consistent with the previous hypothesis that O. sativa and O. glaberrima are derived from specific wild rice species. Phylogenetic analysis based on the p-SINE1 insertion patterns showed that the strains of each of the five wild rice species formed a cluster. The strains of O. longistaminata appear to be distantly related to those of O. meridionalis. The strains of these two species appear to be distantly related to those of three other species, O. rufipogon, O. barthii and O. glumaepatula. The latter three species are closely related to one another with O. barthii and O. glumaepatula being most closely related. A phylogenetic tree including a hypothetical ancestor with all loci empty for p-SINE1 insertion showed that the strains of O. longistaminata are related most closely to the hypothetical ancestor. This indicates that O. longistaminata and O. meridionalis diverged early on, whereas the other species diverged relatively recently, and suggests that the Oryza genus with AA genome might have originated in Africa, rather than in Asia.     

利用RAPD分子标记对三组三系杂交水稻及亲本的遗传分析和鉴定

利用RAPD技术,从248个随机寡聚核苷酸（10bp）中筛选出13个引物能在供试的三组三系杂交水稻及亲本间扩增出43条稳定性较好的多态性片段,其中6个引物能在供试材料间扩增出20个强的多态性标记。利用这些标记能有效地区分各组合中不育系、保持系、恢复系和F1,并能看出各组合中不育系与保持系、不育系与恢复系、F1与亲本间的遗传关系。 Abstract:A total of 248 arbitrary 10-mer oligonucleotide primers were screened using RAPD (random amplified polymorphic DNA) techniques with the genome DNA of three groups of three-line hybrid rice and their parents.Thirteen primers produced 43 polymorphism fragments.Six primers of them produced 20 obviously repeatable polymorphic markers among rice lines tested.Using this RAPD markers,the hybrid rice combinations (sterile-line,maintainer-line,restorer-line and F1)can be effectively identified,and the genetic relationship among them can be shown.