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.     

Molecular phylogeography and evolutionary history of Picea likiangensis in the Qinghai-Tibetan Plateau inferred from mitochondrial and chloroplast DNA sequence variation

The aim of the present study was to examine the phylogeographic and evolutionary history of Picea likiangensis,a dominant species of the conifer forests in the eastern declivity of the Qinghai-Tibetan Plateau. We collected 422 individuals from 42 natural populations of three major varieties classified under this species.In conifers,mitochondrial(mt) DNA and chloroplast(cp) DNA dispersed by seeds or pollen experience very different levels of gene flow.To this end,we examined the sequence variation of two mtDNA fragments(nad5 intron 1 and nad1 intron b/c) and three cpDNA fragments(trnL-trnF,trnS-trnG and nadhK/C).We found that cpDNA probably introgressed from P.purpurea into remote populations of P.likiangensis through long-distance dispersal. Multiple refugia seem to have been maintained for P.likiangensis during the Last Glacial Maximum because the cpDNA and mtDNA haplotypes recovered were fixed in the different regions.Postglacial expansions were only detected at the distributional edges of this species where a single cpDNA or mtDNA haplotype was fixed in adjacent populations.However,genetic imprints of postglacial expansions from these two sets of markers were different in the western and southeastern regions,which may result from the long-distance dispersal of the cpDNA,as well as its fast lineage sorting during intraspecific divergences.Analysis of molecular variance further suggested that genetic differentiation between the three varieties is higher at cpDNA markers than at mtDNA markers,which supports the previous viewpoint that cpDNA markers with a high rate of gene flow may be more effective in delimitating closely related taxa.Together,the results of the present study highlight the evolutionary complexity of a widely distributed species owing to interactions among local and edge expansion,long-distance dispersal,and intraspecific divergences at two sets of DNA genomes with different rates of gene flow.     

Differentiation of a Miniature Inverted Transposable Element （MITE） System in Asian Rice Cultivars and Its Inference for a Diphyletic Origin of Two Subspecies of Asian Cultivated Rice

In the present study, we report a survey on a Miniature Inverted Transposable Element （MITE） system known as mPing in 102 varieties of Asian cultivated rice （Oryza sativa L.）. We found that mPing populations could be generalized Into two families, mPing-1 and mPing-2, according to their sequence structures. Further analysis showed that these two families of mPing had significant bias in their distribution pattern in two subspecies of rice, namely O. sativa ssp. japonica and indica. 0. sativa japonica has a higher proportion of mPing-1 as a general trait, whereas 0. sativa indica has a higher proportion of roPing-2. We also examined the mPing system In a doubled haploid （DH） cross-breeding population of jingxi 17 （japonica） and zhaiyeqing 8 （indica） varieties and observed that the mPing system was not tightly linked to major subspecies-determining genes. Furthermore, we checked the mPing system in 28 accessions of Asian common wild rice O. rufipogon and found the roPing system in 0. rufipogon. The distribution pattern of the roPing system in O. rufipogon indicated a diphyletlc origin of the Asian cultivated rice O. sativa species. We did not find the mPing system in another 20 Oryza species. These results substantiated a previous hypothesis that O. ruflpogon and O. nivara species were the closest relatives of O. sativa and that the two extant subspecies of O. sativa were evolved independently from corresponding ecotypes of O. ruflpogon.     

Identification of Chromosomes from Multiple Rice Genomes Using a Universal Molecular Cytogenetic Marker System

To develop reliable techniques for chromosome identification is critical for cytogenetic research, especially for genomes with a large number and smaller-sized chromosomes. An efficient approach using bacterial artificial chromosome （BAC） clones as molecular cytological markers has been developed for many organisms. Herein, we present a set of chromosomal arm-specific molecular cytological markers derived from the gene-enriched regions of the sequenced rice genome. All these markers are able to generate very strong signals on the pachytene chromosomes of Oryza sativa L. （AA genome） when used as fluorescence in situ hybridization （FISH） probes. We further probed those markers to the pachytene chromosomes of O. punctata （BB genome） and O. officinalis （CC genome） and also got very strong signals on the relevant pachytene chromosomes. The signal position of each marker on the related chromosomes from the three different rice genomes was pretty much stable, which enabled us to identify different chromosomes among various rice genomes. We also constructed the karyotype for both O. punctata and O. officinalis with the BB and CC genomes, respectively, by analysis of 10 pachytene cells anchored by these chromosomal arm-specific markers.     

Evolutionary Genomics of Weedy Rice in the USA

Red rice is an interfertiie, weedy form of cultivated rice (Oryza sativa L.) that competes aggressively with the cropin the southern US, reducing yields and contaminating harvests. No wild Oryza species occur In North America andthe weed has been proposed to have evolved through multiple mechanisms, including "de-domestication" of UScrop cultivars, accidental introduction of Asian weeds, and hybridization between US crops and Asian wild/weedyOryza strains. The phenotype of US red rice ranges from "crop mimics", which share some domestication traitswith the crop, to strains closely resembling Asian wild Oryza species. Assessments of genetic diversity haveindicated that many weed strains are closely related to Asian taxa (including indica and aus rice varieties, whichhave never been cultivated in the US, and the Asian crop progenitor O. rufipogon), whereas others show geneticsimilarity to the tropical japonica varieties cultivated in the southern US. Herein, we review what is known aboutthe evolutionary origins and genetic diversity of US red rice and describe an ongoing research project to furthercharacterize the evolutionary genomics of this aggressive weed.     

Correlations between the ages of Alnus host species and the genetic diversity of associated endosymbiotic Frankia strains from nodules

Nodule samples were collected from four alder species: Alnus nepalensis, A. si-birica, A. tinctoria and A. mandshurica growing in different environments on Gaoligong Mountains, Yunnan Province of Southwest China and on Changbai Mountains, Jilin Province of Northeast China. PCR-RFLP analysis of the IGS between nifD and nifK genes was directly applied to uncultured Frankia strains in the nodules. A total of 21 restriction patterns were obtained. The Frankia population in the nodules of A. nepalensis had the highest genetic diversity among all four Frankia populations; by contrast, the population in the nodules of A. mandshurica had the lowest degree of divergence; the ones in the nodules of A. sibirica and A. tinctoria were intermediate. A dendrogram, which was constructed based on the genetic distance between the restriction patterns, indicated that Frankia strains from A. sibirica and A. tinctoria had a close genetic relationship. Frankia strains from A. nepalensis might be the ancestor of Frankia strain     

Phylogeny of Chinese Allium (Liliaceae) using PCR-RFLP analysis

Eighteen representative species were selected from all the nine sections of Chinese Allium on the basis of the classification of morphology and cytotaxonomy. The trnK and rpL16 gene fragments of chloroplast DNA were amplified from 18 species by PCR method. The two cpDNA fragments were digested by 26 restriction enzymes, and 303 polymorphic restriction sites were found, of which 163 were informative. The restriction site data were analyzed with PAUP (version 3.1.1) and MEGA (version 1.01) as well as PHYLIP. As a result, the genus Allium could be classified into six subgenera. The recognition of Sect. Anguinum in the Flora of China is reasonable, Sect. Rhizirideum, Sect. Haplostemon and Sect. Cepa are not monophyletic. The infrageneric system of this genus was also discussed.     

Development of Oryza rufipogon and O. sativa Introgression Lines and Assessment for Yield-related Quantitative Trait Loci

Introgression lines population was effectively used in mapping quantitative trait loci （QTLs）, identifying favorable genes, discovering hidden genetic variation, evaluating the action or interaction of QTLs in multiple conditions and providing the favorable experimental materials for plant breeding and genetic research. In this study, an advanced backcross and consecutive selfing strategy was used to develop introgression lines （ILs）, which derived from an accession of Oryza rufipogon Griff. collected from Yuanjiang County, Yunnan Province of China, as the donor, and an elite indica cultivar Teqing （O. sativa L.）, as the recipient. Introgression segments from O. rufipogon were screened using 179 polymorphic simple sequence repeats （SSR） markers in the genome of each IL. Introgressed segments carried by the introgression lines population contained 120 ILs covering the whole O. rufipogon genome. The mean number of homozygous O. rufipogon segments per introgression line was about 3.88. The average length of introgressed segments was approximate 25.5 cM, and about 20.8% of these segments had sizes less than 10 cM. The genome of each IL harbored the chromosomal fragments of O. rufipogon ranging from 0.54% to 23.7%, with an overall average of 5.79%. At each locus, the ratio of substitution of O. rufipogon alleles had a range of 1.67-9.33, with an average of 5.50. A wide range of alterations in morphological and yield-related traits were also found in the introgression lines population. Using single-point analysis, a total of 37 putative QTLs for yield and yield components were detected at two sites with 7%-20% explaining the phenotypic variance. Nineteen QTLs （51.4%） were detected at both sites, and the alleles from O. rufipogon at fifteen loci （40.5%） improved the yield and yield components in the Teqing background. These O. rufipogon-O, sativa introgression lines will serve as genetic materials for identifying and using favorable genes from common wild rice.     

Subspecies-specific intron length polymorphism markers reveal clear genetic differentiation in common wild rice （Oryza rufipogon L.） in relation to the domestication of cultivated rice （O. sativa L.）

It is generally accepted that Oryza rufipogon is the progenitor of Asian cultivated rice （O. sativa）. However, how the two subspecies of O. sativa （indica and japonica） were domesticated has long been debated. To investigate the genetic differentiation in O. rufipogon in relation to the domestication of O. sativa, we developed 57 subspecies-specific intron length polymorphism （SSILP） markers by comparison between 10 indica cultivars and 10 japonica cultivars and defined a standard indica rice and a standard japonica rice based on these SSILP markers. Using these SSILP markers to genotype 73 O. rufipogon accessions, we found that the indica alleles and japonica alleles of the SSILP markers were predominant in the O. rufipogon accessions, suggesting that SSILPs were highly conserved during the evolution of O. sativa. Cluster analysis based on these markers yielded a dendrogram consisting of two distinct groups： one group （Group I） comprises all the O. rufipogon accesions from tropical （South and Southeast） Asia as well as the standard indica rice; the other group （Group II） comprises all the O. rufipogon accessions from Southern China as well as the standard japonica rice. Further analysis showed that the two groups have significantly higher frequencies of indica alleles and japonica alleles, respectively. These results support the hypothesis that indica rice and japonica rice were domesticated from the O. rufipogon of tropical Asia and from that of Southern China, respectively, and suggest that the indica-japonica differentiation should have formed in O. rufipogon long before the beginning of domestication. Furthermore, with an O. glaberrima accession as an outgroup, it is suggested that the indica-japonica differentiation in O. ruffpogon might occur after its speciation from other AA-genome species.     

Structural and Expressional Variations of the Mitochondrial Genome Conferring the Wild Abortive Type of Cytoplasmic Male Sterility in Rice

The so-called ＂wild abortive＂ （WA） type of cytoplasmic male sterility （CMS） derived from a wild rice species Oryza rufipogon has been extensively used for hybrid rice breeding. However, extensive analysis of the structure of the related mitochondrial genome has not been reported, and the CMS-associated gene（s） remain unknown. In this study, we exploited a mitochondrial genome-wide strategy to examine the structural and expressional variations in the mitochondrial genome conferring the CMS. The entire mitochondriai genomes of a CMS-WA line and two normal fertile rice lines were amplified by Long-polymerase chain reaction into tilling fragments of up to 15.2 kb. Restriction and DNA blotting analyses of these fragments revealed that structural variations occurred in several regions in the WA mitochondrial genome, as compared to those of the fertile lines. All of the amplified fragments covering the entire mitochondrial genome were used as RNA blot probes to examine the mitochondriai expression profile among the CMS-WA and fertile lines. As a result, only two mRNAs were found to be differentially expressed between the CMS-WA and the fertile lines, which were detected by a probe containing the nad5 and orf153 genes and the other having the ribosomal protein gene rpl5, respectively. These mRNAs are proposed to be the candidates for further identification and functional studies of the CMS gene.     

不同地理居群角突臂尾轮虫遗传多样性的RAPD分析

随机扩增多态DNA(Random Amplified Polymorphic DAN,RAPD)技术具有检测快速、操作简便、灵敏度高、成本低等特点, 已被广泛应用于生物遗传多样性的检测, 也曾被用于轮虫种间关系研究, 然而将RAPD 技术应用于轮虫遗传多样性和不同地理居群轮虫间的系统关系研究尚未见报道。本文以各类水体中广泛分布的、且在水产养殖上有较大应用前景的角突臂尾轮虫为对象, 运用RAPD 技术对采自广州、芜湖和青岛等地的不同地理居群轮虫进行了基因组DNA 多态性研究, 旨在从DNA 水平上探讨其遗传多样性、遗传差异及系统进化关系。       

RAPD在三色堇（Viola wittrockiana）自交系遗传关系研究及杂种优势预测中的应用

用RAPD技术分析了18个三色堇(Viola wittrockiana)自交系的遗传多样性。21个随机引物扩增了167条带,其中127条具多态性,显示自交系间存在较大的遗传变异。用UPGMA法可将自交系聚为五大类,其分类结果与花径和材料来源地基本一致。以其中的5个自交系进行双列杂交试验,研究了RAPD遗传距离与三色堇杂交后代10个性状杂种优势的关系,实验结果表明:RAPD遗传距离仅与花数达到0.1的显著水平,而与其它8个性状杂种优势的相关性不显著;用RPAD遗传距离预测三色堇的花数杂种优势具有一定的可靠性,但用于对其它性状杂种优势的预测目前是不可行的。     

三个地理群体赤眼鳟遗传多样性的RAPD分析

利用RAPD技术对宿鸭湖、青龙湖和丹江口水库3个野生赤眼鳟群体的遗传多样性进行分析.9个RAPD引物共获得93个扩增位点,其中多态位点56个,多态位点比例为60.22%.3个群体的多态位点比例分别为53.01%、54.12%和57.95%,遗传距离分别为0.1548、0.1613和0.1764,Shannon信息指数分别为0.2249、0.2318和0.2437.群体间遗传距离以宿鸭湖和青龙湖群体最近(0.1257),青龙湖与丹江口水库群体最远(0.1416).结果表明3个赤眼鳟群体的遗传多样性均较丰富,但群体间地理遗传分化差异并不明显.     

内蒙古地区亚洲小车蝗不同地理种群的RAPD分析

采用随机扩增多态性DNA(RAPD)技术对内蒙古地区亚洲小车蝗Oedaleus asiaticus(B.-bienko)9个不同地理种群90个个体进行扩增,8条随机引物扩增共产生了78条带,多态性片段为62条。对Nei′s基因多样性指数和遗传距离进行分析,结果表明:种群间的遗传分化系数为0.2343,即23.43%的遗传变异存在于种群间,种群内的遗传分化系数为0.7657,即76.57%的遗传多样性存在于种群内,群体内遗传多样性大于群体间遗传多样性。用NJ法对这3个种群的Nei′s遗传距离作聚类分析,结果表明亚洲小车蝗不同种群的遗传分化程度与地理距离具有正相关关系。     

天然红松遗传多样性在时间尺度上变化的RAPD分析

应用RAPD技术对凉水国家自然保护区的天然红松(Pinus koraiensis)种群在时间尺度上的遗传多样性变化和遗传分化进行了分析。选择树龄为1~100 a的红松个体,每10 a为1个龄级,共采集样本245个。10个随机引物共检测到61个位点,其中多态位点50个,多态位点比率为81.97%。Shannon指数龄级间遗传多样性占总多样性的16.43%,Nei指数龄级间遗传分化为13.64%,两种指数都表明,红松在时间尺度上的遗传分化比空间尺度的低,红松的遗传变异主要存在于龄级内。本研究结果证实,凉水保护区内的红松遗传多样性在近100 a的时间内出现过大小两次波动,目前该地区的红松遗传多样性正处于上升时期;历史上小规模的采伐虽然暂时降低了红松的遗传多样性,但由于保护区的及时建立,红松的遗传多样性得到了有效的恢复。     

悬钩子属植物的RAPD分析

用RAPD标记技术对13个黑莓（blackberry）、树莓（raspberry）品种和5个野生悬钩子种类（Rubus spp．）的26个居群的遗传多样性进行了分析。用15个寡聚核苷酸随机引物共扩增出条带131条,其中多态性条带118条,占扩增条带总数的90％,表明悬钩子属植物种间和品种间存在丰富的遗传多样性。通过聚类分析可将供试的26个居群分为4组,其中A组有粗叶悬钩子（R．alceaefolius Poir．）、山莓（R．corchorifolius L．）、插田泡（R．coreanus Miq．）、掌叶覆盆子（R．chingii Hu）、‘威廉姆特’、‘托拉咪’、‘泰勒’、‘金克维’、‘布里斯托’、‘宝森’7号、‘布莱兹’及其实生苗、‘基奥瓦’、‘萨尼’、‘黑布特’等15个居群;B组包括‘宝森’1号～‘宝森’6号和‘马林’、‘乔克多’等8个居群;C组包括‘赫尔’和‘切斯特’的2个居群;D组仅有蓬藁（R．hirsutus Thunb．）1种。这一聚类结果与传统形态学分类结果基本吻合。     

满天星试管苗与其玻璃化苗的RAPD指纹图谱分析

采用分离群体分组分析法(BSA),用100个随机引物对满天星的正常苗和玻璃化苗进行RAPD分析的结果表明,7个随机引物扩增出多态性差异条带。再用上述7个引物分别对试管苗及其玻璃化苗个体进行DNA的PCR扩增的结果显示,引物J20在2种苗中出现差异条带。     

中国狗牙根(Cynodon dactylon)优良选系的RAPD分析

对采自中国不同地区的6份狗牙根[Cynodon dactylon (L.) Pers.]优良选系进行了RAPD分子标记实验.选用15个引物共扩增出438条带,平均每个引物扩增出29条带,其中多态性带415条,多态性位点百分率达到59.02%～75.49%.各选系间遗传相似性系数差异较大(0.408～0.672),说明各选系间在DNA水平上存在着丰富的遗传多样性,与新品种C106(爬地青)相比,各选系还存在一定的改良空间.实验结果也表明,RAPD分子标记可成功地用于中国狗牙根优良选系遗传多样性的研究及品种鉴定.     

RAPD标记在山葡萄种质鉴定中的应用

采用修改后的CTAB 法获得了高质量的基因组DNA 。利用RAPD 标记技术对山葡萄7 份种质进行鉴定, 用4 个引物(从30 个引物中筛选)对试材进行PCR 扩增, 共扩增出30 条谱带, 平均每条引物产生7.5 条谱带, 其中21 条谱带为多态性谱带, 占总谱带数的70%。不同引物扩增的谱带数不同, 范围在6~9 条之间。利用4 个引物扩增出的多态性谱带可以将7 份山葡萄种质区分。     

短沟对虾两个野生群体遗传多样性的RAPD分析

利用RAPD标记技术检测了厦门和汕头沿海2个短沟对虾群体基因组DNA的多态性,并对其遗传多样性进行了分析。从40条随机引物中筛选出13个10bp引物。共扩增出65条清晰可重复的DNA片段,片断长度为100—2200bp,在2个群体间没有检测到特异的片段。厦门和汕头群体的多态片段比例分别为87．69％和89．23％,杂合度分别为0．212和0．218,遗传多样性指数分别为0．2847和0．2913,两群体间的遗传距离为0．018,FST值为0．004。可见两野生群体种质资源仍然维持在良好水平,遗传分化程度很低,可能是同一种群,具有进一步开发的潜力。