珍稀濒危植物--云南药用野生稻自然生态群的新发现及其特性

野生稻包括云南药用野生稻(Oryza officinalis Wall.ex Watt.,染色体组CC,染色体数2n=24)是宝贵的基因资源库,自然分布急剧减少。2001年,在云南耿马孟定遮甸新发现了1个药用野生稻分布点,该地药用野生稻植株高度可塑性大,可以根据密度和荫蔽情况自动大幅度调节株高;比其它生态群的结实率高;而其自然发病和人工接种鉴定发现抗稻瘟病能力中等偏上,抗白叶枯病害能力强,抗螟虫和稻飞虱能力也很强。品质分析结果表明该居群药用野生稻蛋白质含量比其它野生稻的高,而直链淀粉含量偏低,说明品质较好。本发现对采取有效措施进行药用野生稻原生地保护,以及试验结果对药用野生稻有利基因的发掘和利用都有重要参考价值。     

云南野生稻抗褐飞虱评价及其抗性基因鉴定

褐飞虱是水稻生产中最严重的害虫之一,从野生稻中发掘抗虫基因,有利于培育具有抗虫能力强的水稻新品种。该研究通过对云南野生稻进行温室和大田抗虫鉴定以及9个已知抗褐飞虱基因的PCR鉴定,发现云南野生稻对褐飞虱表现出不同程度的抗性,尤其疣粒野生稻和药用野生稻对褐飞虱表现出高抗,可作为抗虫基因发掘的优良抗源材料;不同褐飞虱抗性的云南野生稻中含有的抗褐飞虱基因差异很大,3种野生稻中均不含Bph1和Bph18(t)抗病基因,景洪普通野生稻和元江普通野生稻可能含bph2基因,东乡普通野生稻可能含bph2、Bph15和Bph27(t)基因,疣粒野生稻中可能含bph2和bph19(t)基因,药用野生稻和药用野生稻(宽叶型)中可能含bph2和Bph6基因,药用野生稻F1中可能含bph2、Bph14和bph20(t)基因,药用野生稻F2中可能含bph2和Bph27(t)基因或者其同源基因。该研究为快速发掘利用云南野生稻中的抗虫基因奠定了理论基础。     

野生稻细菌性条斑病抗性资源筛选及遗传分析

对1655份普通野生稻（Oryza rufipogon Griff．）和31份药用野生稻（0．officinalis Wall．ex Watt）进行了细菌性条斑病（Xanthomonas oryzae pv.oryzicola,简称细条病）抗性鉴定,结果发现在普通野生稻中有57份抗病材料,其中3级抗性有31份,占总数的1.87％;5级中抗有26份,占总数1.57％。在药用野生稻资源中,有15份抗病材料,占总数的48.4％。选取了8份普通野生稻抗性资源（分别命名为DP1、DP3、DP5、DP9、DP15、DP16、DP17和DP20）与9311杂交,再自交或与9311回交后,分别获得BC1、F1和F2后代。在接种鉴定中发现这些抗性资源的BC1或F1所有植株均对细条病表现感病,说明这8份材料的抗性属于隐性遗传。在DP3与9311杂交的F2群体中,抗感植株的分离比符合1：15的比例,说明DP3的抗性由2对隐性重叠作用基因控制。研究结果表明,在野生稻中可以获得一批具有较大利用价值的细条病抗性资源,其中药用野生稻资源中抗性材料所占的比例较大。     

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.     

野生稻细菌性条斑病抗性资源筛选及遗传分析

对1655份普通野生稻(Oryza rufipogon Griff.)和31份药用野生稻(O. officinalis Wall. ex Watt)进行了细菌性条斑病(Xanthomonas oryzae pv. oryzicola,简称细条病)抗性鉴定,结果发现在普通野生稻中有57份抗病材料,其中3级抗性有31份,占总数的1.87%;5级中抗有26份,占总数1.57%.在药用野生稻资源中,有15份抗病材料,占总数的48.4%.选取了8份普通野生稻抗性资源(分别命名为DP1、DP3、DP5、DP9、DP15、DP16、DP17和DP20)与9311杂交,再自交或与9311回交后,分别获得BC1、F1和F2后代.在接种鉴定中发现这些抗性资源的BC1或F1所有植株均对细条病表现感病,说明这8份材料的抗性属于隐性遗传.在DP3与9311杂交的F2群体中,抗感植株的分离比符合1∶ 15的比例,说明DP3的抗性由2对隐性重叠作用基因控制.研究结果表明,在野生稻中可以获得一批具有较大利用价值的细条病抗性资源,其中药用野生稻资源中抗性材料所占的比例较大.     

小粒野生稻导入系对稻飞虱的抗性鉴定与分析

稻飞虱是水稻生产最严重的害虫之一。野生稻拥有丰富的抗虫基因资源,导入系是鉴定和利用野生稻有利基因的有效途径。本研究通过对371份小粒野生稻导入系进行抗褐飞虱和白背飞虱接虫鉴定,分别筛选出了11份抗、72份中抗褐飞虱的材料和7份抗、45份中抗白背飞虱的材料,其中有5份材料兼抗褐飞虱和白背飞虱,这是从小粒野生稻中鉴定出抗白背飞虱材料的首次报道。通过对2份抗性导入系材料与感虫亲本杂交构建的F1和F2群体的抗虫鉴定和分析表明:K41对褐飞虱和白背飞虱的抗性受2对显性抗虫基因通过互补作用所控制;P114对褐飞虱和白背飞虱的抗性都是由1对主效的隐性基因控制。这些结果必将有利于小粒野生稻抗稻飞虱的基因定位和育种利用。     

中国疣粒野生稻的分布、濒危现状和保护前景

继1978-1982年全国野生稻普查后,又一次对中国疣粒野生稻（Oryza granulata (Nees et Arn.Ex Watt.））主要分布点的居群特征、濒危现状和破坏情况进行了野外生态学研究。由于行政区划的改变,目前疣粒野生稻在中国分布的市（县）达30个。它在群落盖度为90%-210%下生长良好,具有抗旱和适应中度干扰的能力。聚集参数分析表明在群落中居群以集群分布为主。该物种主要通过重力和动物传播种子,居群间的基因流有限,形成了典型的集合种群（metapoulation）结构。生境丧失对疣粒野生稻的生长造成非常严重的后果,巳有12.9%的疣粒野生稻居群灭绝,83.9%的居群处于中度和重度的干扰之下。由于各地区的破坏程度不平衡,目前疣粒野生稻的分布被压缩到海南省的西南部山区和云南省和澜沧江中下游、南汀河流域,面临热区开发的巨大威胁。研究中建立了中国疣粒野生稻的总DNA库,作为易位保护的手段之一和开展保护遗传学研究的基础;并讨论了居群遗传结构与居群分布格局之间的相互关系和保护中需注意的问题。     

稻属单拷贝核基因TPI序列分析及其在疣粒野生稻鉴定中的应用

通过对稻属(Oryza L.)及其近缘属等18个禾本科植物单拷贝核基因TPI序列进行扩增和测序,分析其系统进化关系及序列差异,并设计鉴定疣粒野生稻(O.granulata)特异的分子标记.序列分析表明,栽培稻间TPI基因序列碱基变异少,野生稻相对变异丰富,其中疣粒野生稻变异尤为明显,根据疣粒野生稻的TPI基因序列特异位点设计引物,利用这一分子标记对疣粒野生稻进行准确鉴定.     

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     

中国野生稻遗传资源的保护及其在育种中的利用

我国有三种野生稻,即普通野生稻(Oryza rufipogon)、药用野生稻(O.officinalis)和瘤粒野生稻(O.meyeriana)。这三种野生稻均被列为国家二级保护植物(渐危种)。调查结果表明,野生稻由于其自然群落大量丧失而濒危,濒危程度为普通野生稻>药用野生稻>瘤粒野生稻。造成濒危的主要原因是人为的破坏活动。人类的经济活动导致了野生稻生境丧失、生境质量不断恶化、栖息地越来越少;人类的活动也导致了外来种的入侵。目前,对野生稻的保护措施主要有就地保护(原地保护或原位保护)和迁地保护(易地保护或异位保护)。易地保护包括以种子保存的种质厍、以种茎保存的种质圃和以器官培养物作为材料的超低温保存。野生稻具有许多优良特性,如特强的耐寒性、高的抗病虫性、优质蛋白质含量高、功能叶片耐衰老的特异性、特强的再生性、良好的繁茂性及生长优势等等,这些优良特性已被广泛用于水稻常规育种和杂交育种中,并取得了巨大的社会效益和经济效益。有关野生稻生物技术方面的研究,如花药培养、原生质培养、体细胞杂交和基因工程等方面已取得了较大的进展。野生稻将在水稻育种中发挥越来越重要的作用。     

广东普通野生稻调查、收集与保护建议

为了全面了解广东省普通野生稻自然生存现状,更好地为我国野生稻资源的长远保护提供决策依据,2005-2016年我们对广东普通野生稻自然生存状况进行了实地调查。结果查明,目前广东共有25个县(市)尚存普通野生稻,尚有分布点118个,其中103个有历史资料记载,15个为本次调查新发现。根据历史资料统计,广东省原有普通野生稻分布点1083个,但截至目前野生稻已全部消失的分布点有980个,分布点丧失率90.49%,呈现严重濒危的趋势。调查发现,造成野生稻大量消失的原因主要有垦荒造田、水利建设、城镇建设、养殖业发展、除草剂使用、环境污染和外来物种侵袭等。调查的同时,从118个点共收集了1371份种茎样本进行异位保存,为普通野生稻资源持续利用提供了更大的物质保障。此外,对广东普通野生稻的长远保护提出了建议。     

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。     

栽培稻与其野生近缘种的可交配性研究

通过人工授粉方法研究栽培稻与二倍体和四倍体野生稻之间的可交配性.以栽培稻为对照,用光学显微镜观察不同野生稻花粉在同一栽培种柱头上的萌发生长情况.结果表明,在栽培稻柱头上普通野生稻(AA)花粉萌发最好,与对照萌发情况相近.药用野生稻(CC)萌发差,表现为柱头上花粉附着量少,开始萌发时间迟,萌发量少,花粉管扭曲、缠绕、伸长慢等.四倍体野生稻未观察到有萌发现象.说明普通野生稻与栽培稻亲缘关系近,可交配性好;药用野生稻与栽培稻可交配性差;四倍体野生稻与栽培稻可交配性极差.由此推断,转基因水稻与普通野生稻通过花粉途径发生基因漂移的可能性很大,而与药用野生稻和其他基因组野生稻发生基因漂移的可能性很小.     

茶陵野生稻苗期耐冷性与抗氧化系统的关系

为探讨茶陵野生稻苗期耐冷的生理机制,以耐冷性强弱不同的栽培稻及东乡野生稻为对照,研究了茶陵野生稻苗期冷胁迫后抗氧化系统的变化.结果表明,茶陵野生稻经冷胁迫后,超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)活性以及抗坏血酸(AsA)、还原型谷胱甘肽(GSH)含量增加幅度大于冷敏感对照,而稍小于或相当于耐冷对照;超氧阴离子(O2)产生速率和丙二醛(MDA)含量低于冷敏感对照品种,而稍高于或相当于耐冷对照.说明茶陵野生稻苗期耐冷性与其抗氧化系统冷胁迫后的适应性变化密切相关.     

RFLP Analysis of Progeny from Hybrid of Oryza alta×O.sativa

Oryza alta Swallen is a species of allotetraploid wild rice (CCDD, 2n = 48) with high biomass production and resistant to several insects and diseases. The high polymorphism (RFLP) between O. alta and O. sativa L. (average 90%) reveals the long phylogenical distance between these two species which may impede the crossing. The chromosome constitutions of several progeny from O. alta × O. sativa were analyzed with 22 mapped rice RFLP markers. The results showed that almost all triploid sterile plants which had 36 chromosomes were, as expected, composed of the chromosomes from two parents. But the two partial fertile regenerated plants from 02428 (O. sativa) × WHS601-2 (O. alta) which had only 24 and 25 chromosomes respectively, in most cases, had RFLP patterns similiar to their O. sativa parent. Therefore the chromosomes constituted their genomes were mainly from O. sativa or have high homology with the chromosomes of O. sativa. It seems evident that chromosome elimination had occurred during the wide hybridization as O. alta RFLP patterns could be found in them. Furthermore, that the introgression of O. alta chromosome fragment into that of O. sativa in an F2 plant was indicative that some kind of recombination also occurred. Regarding the rare chromosome pairing in PMCs, the probability of the existence of a nonconventional mechanism for the wild rice chromosomes (chromosome fragments ) to introgressing into cultivated rice genomes in a relatively short time was discussed.     

The recognition of a new species of rice (Oryza) from Australia

The discovery is reported of a new endemic species of wild rice in series Sativae from northern Australia, Oryza meridionalis Ng. This species has previously been confused with O. rufipogon, O. nivara and O. saliva f. spontanea. Its geographical distribution is confined to northern Australia. It is also reproductively isolated from all other species of the series Sativae.     

Multilocus analysis of nucleotide variation of Oryza sativa and its wild relatives: severe bottleneck during domestication of rice

Varying degrees of reduction of genetic diversity in crops relative to their wild progenitors occurred during the process of domestication. Such information, however, has not been available for the Asian cultivated rice (Oryza sativa) despite its importance as a staple food and a model organism. To reveal levels and patterns of nucleotide diversity and to elucidate the genetic relationship and demographic history of O. sativa and its close relatives (Oryza rufipogon and Oryza nivara), we investigated nucleotide diversity data from 10 unlinked nuclear loci in species-wide samples of these species. The results indicated that O. rufipogon and O. nivara possessed comparable levels of nucleotide variation ((sil) = 0.0077 approximately 0.0095) compared with the relatives of other crops. In contrast, nucleotide diversity of O. sativa was as low as (sil) = 0.0024 and even lower ((sil) = 0.0021 for indica and 0.0011 for japonica), if we consider the 2 subspecies separately. Overall, only 20-10% of the diversity in the wild species was retained in 2 subspecies of the cultivated rice (indica and japonica), respectively. Because statistic tests did not reject the assumption of neutrality for all 10 loci, we further used coalescent to simulate bottlenecks under various lengths and population sizes to better understand the domestication process. Consistent with the dramatic reduction in nucleotide diversity, we detected a severe domestication bottleneck and demonstrated that the sequence diversity currently found in the rice genome could be explained by a founding population of 1,500 individuals if the initial domestication event occurred over a 3,000-year period. Phylogenetic analyses revealed close genetic relationships and ambiguous species boundary of O. rufipogon and O. nivara, providing additional evidence to treat them as 2 ecotypes of a single species. Lowest linkage disequilibrium (LD) was found in the perennial O. rufipogon where the r(2) value dropped to a negligible level within 400 bp, and the highest in the japonica rice where LD extended to the entirely sequenced region ( approximately 900 bp), implying that LD mapping by genome scans may not be feasible in wild rice due to the high density of markers needed.     

Evidences of introgression from cultivated rice to Oryza rufipogon (Poaceae) populations based on SSR fingerprinting: implications for wild rice differentiation and conservation

Crop-to-wild introgression may play an important role in evolution of wild species. Asian cultivated rice (Oryza sativa L.) is of a particular concern because of its cross-compatibility with the wild ancestor, O. rufipogon Griff. The distribution of cultivated rice and O. rufipogon populations is extensively sympatric, particularly in Asia where many wild populations are surrounded by rice fields. Consequently, gene flow from cultivated rice may have a potential to alter genetic composition of wild rice populations in close proximity. In this study, we estimated introgression of cultivated rice with O. rufipogon based on analyses of 139 rice varieties (86 indica and 53 japonica ecotypes) and 336 wild individuals from 11 O. rufipogon populations in China. DNA fingerprinting based on 17 selected rice simple sequence repeat (SSR) primer pairs was adopted to measure allelic frequencies in rice varieties and O. rufipogon samples, and to estimate genetic associations between wild and cultivated rice through cluster analysis. We detected consanguinity of cultivated rice in O. rufipogon populations according to the admixture model of the STRUCTURE program. The analyses showedz that four wild rice populations, DX-P1, DX-P2, GZ-P2, and HL-P, contained some rare alleles that were commonly found in the rice varieties examined. In addition, the four wild rice populations that scattered among the rice varieties in the cluster analysis showed a closer affinity to the cultivars than the other wild populations. This finding supports the contention of substantial gene flow from crop to wild species when these species occur close to each other. The introgressive populations had slightly higher genetic diversity than those that were isolated from rice. Crop-to-wild introgression may have accumulative impacts on genetic variations in wild populations, leading to significant differentiation in wild species. Therefore, effective measure should be taken to avoid considerable introgression from cultivated rice, which may influence the effective in-situ conservation of wild rice species.     

Morphological studies of Asian rice and its related wild species and the recognition of a new Australian taxon

In order to clarify the taxonomy and the interrelationships among Asiatic cultivated rice, Oryza sativa , and its related wild species ( O. rufipogon, O. nivara and O . barthii ), 41 morphological characters were examined. Numerical taxonomic methods were used to analyse the data and to illustrate species relationships.
Distinctive differences among the materials studied suggest the retention of O. rufipogoon, O. nivara and O . sativa as three distinct species. The origin of O. sativa from O. nivara through domestication is discussed. An annual wild taxon from Australia, which had been classified as a form of O. nivara , is shown to be distinct from typical O. nivnra and is raised to specific rank. This species has been named O. meridionalis Ng.