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1.
为探讨小麦(Triticum aestivum L.)杂种优势形成的分子机理,选用普通小麦品种(系)3338、6554和2410TD及其强优势杂种A(3338×6654)和无优势杂种B(2410TD×6554),采用mRNA差异显示技术,对生长至三叶一心的根系(初生根)基因表达差异进行了比较研究.结果发现,小麦杂种一代苗期根系基因表达较亲本明显不同,表现为数量水平和质量水平上的差异,且差异表达基因的数目远高于我们以苗期叶片为材料的研究结果,表明小麦杂交种与其亲本间的基因差异表达与所研究的组织和器官有关.比较分析发现,在强优势杂种组合A中,超亲表达和偏高亲表达基因所占比例均明显高于无优势杂种组合B.以家族特异基因替代随机引物进行的差异显示结果表明,MADS-box家族基因在小麦杂交种和亲本苗期根系中存在着显著的表达差异,且差异表达类型以杂种特异表达和亲本基因在杂种一代沉默为主,说明MADS-box家族基因可能与小麦的杂种优势形成具有重要关系.对杂种和亲本基因表达差异与杂种优势的关系进行了分析和讨论.  相似文献   

2.
普通小麦不同优势杂交种及其亲本苗期根系基因的差异表达   总被引:16,自引:0,他引:16  
为探讨小麦 (TriticumaestivumL .)杂种优势形成的分子机理 ,选用普通小麦品种 (系 ) 3338、6 5 5 4和 2 410TD及其强优势杂种A(3338× 6 6 5 4)和无优势杂种B(2 410TD× 6 5 5 4) ,采用mRNA差异显示技术 ,对生长至三叶一心的根系 (初生根 )基因表达差异进行了比较研究。结果发现 ,小麦杂种一代苗期根系基因表达较亲本明显不同 ,表现为数量水平和质量水平上的差异 ,且差异表达基因的数目远高于我们以苗期叶片为材料的研究结果 ,表明小麦杂交种与其亲本间的基因差异表达与所研究的组织和器官有关。比较分析发现 ,在强优势杂种组合A中 ,超亲表达和偏高亲表达基因所占比例均明显高于无优势杂种组合B。以家族特异基因替代随机引物进行的差异显示结果表明 ,MADS_box家族基因在小麦杂交种和亲本苗期根系中存在着显著的表达差异 ,且差异表达类型以杂种特异表达和亲本基因在杂种一代沉默为主 ,说明MADS_box家族基因可能与小麦的杂种优势形成具有重要关系。对杂种和亲本基因表达差异与杂种优势的关系进行了分析和讨论  相似文献   

3.
杂种优势形成的表观遗传学研究进展   总被引:2,自引:0,他引:2  
杂种优势是一种复杂的生物学现象,在农业生产上得到了广泛的应用,但对其形成的遗传机理和分子基础尚不清楚。随着表观遗传学的深入研究,尤其是DNA甲基化、小分子RNA和组蛋白修饰等技术的发展,为杂种优势形成的分子基础提供了新的研究策略和技术手段。DNA甲基化、小分子RNA、组蛋白三者在杂交种中水平的改变与杂种优势有着一定关系,同时,三者之间相互作用调节基因表达影响杂种优势。本文简述了近年来表观遗传学在杂种优势形成中的作用和遗传机制等方面的研究进展,并且提出了目前存在的问题和下一步的研究方向。本综述将有助于从表观遗传学的角度认识杂种优势的形成机理,从而促进对杂种优势的表观遗传学基础的理解及其在植物杂交育种上的应用研究。  相似文献   

4.
玉米雌穗发育期基因差异表达与杂种优势的研究   总被引:6,自引:0,他引:6  
杂种优势在提高粮食作物特别是玉米的产量方面具有重要的作用。然而,杂种优势的原理却仍然是一个世界性的难题。用12个玉米自交系及其按不完全双列杂交组配的33个杂交种为材料,分4个不同发育时期取杂交种及其亲本的雌穗组织,利用差异显示技术,分析杂种与亲本的基因差异表达类型及其与7个主要农艺性状的杂种表现和杂种优势的相关关系。发现1):在5种表达类型中单态表达(基因在杂交种和双亲中同时表达的类型)的数量最大,这说明杂种优势的形成不仅与基因的表达与否相关,还与大量基因的上调或下调表达相关;2):在玉米雌幼穗的发育初期杂交种与双亲的基因表达差异最大,这可能与雌穗发育初期器官的形成和发育相关,因此这一时期差异表达(在质的方面)的基因对产量性状和杂种优势的形成具有密切关系;3):综合各种基因表达类型与产量性状和杂种优势的关系,发现某些基因在杂种中的沉默表达可以促进籽粒的发育和抑制幼穗中小花的发育。  相似文献   

5.
为探讨小麦杂种优势形成的分子机理,以一套双列杂交组合的苗期叶片为材料,利用mRNA差异显示技术分析了杂种及其亲本间MADS-box、G- box、Ser/Thr蛋白激酶、EIF-4A、ARF1基因家族共5类家族基因在杂交种和亲本之间的表达差异。并与杂种性状表现和杂种优势进行了相关分析。结果发现,除ARF1家族基因外,其余家族基因在杂种和亲本间存在显著的表达差异,差异表达类型可概括为4种:(1)双亲共沉默;(20单亲表达沉默;(3)杂种特异表达;(4)单亲表达一致。分析发现,MADS-box、G-box和EIF-4A家族基因在杂种和亲本间的差异表达模式相似,均以单亲特异表达和种特异表达类型所占比例最高。相关分析结果表明,以上所有家族基因的总体差异表达程度与所有性状的杂种表现均不相关,MADS-box家族基因中杂种特异表达类型与小穗数、单株产量和单穗产量杂种优势呈显著正相关,双亲共沉默类型与小穗数、千粒重和单穗产量杂种优势呈显著负相关,另外,EIF-4A家族基因中单亲表达一致型与单穗产量杂种优势呈显著正相,但双亲共沉默类型与小穗数和单穗产量杂种优势呈显著负相关,对于G-box基因家族而言,仅小穗数杂种优势和双亲共沉默类型成显著负相关,而蛋白激酶家族基因的各种差异类型与性状杂种优势的相关分析均不显著。这些研究表明,调控基因的差异表达与杂种优势形成有密切关系。  相似文献   

6.
水稻亚种间杂种优势利用曾使水稻单产有了很大的提高,但水稻种间与亚种间的杂种不育性仍然普遍存在,从而影响了杂种优势的进一步利用。本研究对水稻产生杂种不育的细胞学水平原因进行了分类分析,对产生杂种不育的遗传学机理进行了探讨,对各种杂种不育基因座位的定位以及已克隆获得的基因进行了全面总结,并对如何克服杂交不育与利用杂种优势提出了自己的观点。  相似文献   

7.
玉米杂种与亲本穗分化期功能叶基因差异表达与杂种优势   总被引:19,自引:0,他引:19  
田曾元  戴景瑞 《遗传学报》2003,30(2):154-162
为探讨玉米杂种优势的分子机理,以10个玉米自交系及其组配的38个杂交种为材料,利用cDNA-AFLP技术,分析杂种与亲本在玉米雌穗小穗分化期功能叶片的基因差异表达类型与主要农艺性状的杂种表现及杂种优势的关系。研究表明:(1)杂种的基因相对于其双亲,存在质和量的表达差异,其中质的差异表达类型包括:单亲沉默表达,双亲沉默表达,亲本显性表达和杂种特异表达等类型。(2)在雌穗小穗分化期,同一差异表达类型中不同杂交组合间差异很大;从总体平均看,杂种特异表达类型占25.22%,亲本显性表达类型占21.46%,双亲沉默表达类型占8.27%,单亲沉默表达类型占33.49%。(3)单亲沉默表达与株高的杂种表现呈显著正相关;双亲沉默表达与穗粗的杂种优势呈显著负相关,显性表达与行粒数和单株粒重的杂种优势呈显著负相关,其余表达类型与所有农艺性状杂种表现及杂种优势均不相关,并对结果进行了讨论。  相似文献   

8.
根据杂种优势值划分粳型水稻杂种优势生态型   总被引:4,自引:0,他引:4  
利用9个不同生态类型的50份水稻亲本材料,以生态型为单位进行双列杂交,配制杂交组合.研究杂种一代的对照优势和超亲优势.以杂种优势值作为划分优势生态型的依据.结果表明:西北粳、台湾粳、日本粳和韩国稻为优势生态类型.根据各生态型间的杂种优势值可以推测台湾粳、日本粳和韩国粳具有穗数上的优势基因,西北粳具有粒数上的优势基因,非洲IRAT粳具有粒重上的优势基因.最佳优势组配模式为韩国粳×日本粳、西北粳×美国粳和台湾粳×日本粳.杂种优势与亲本形态指数差异的相关分析表明,各生态型间形态指数差异与其F1杂种优势相关不显著.表明依据亲本形态差异不能预测杂种优势.  相似文献   

9.
本文是对水稻三系和杂种一代幼苗的核组蛋白的研究,并且与小牛胸腺、小麦和籼稻192进行比较。发现水稻5种组蛋白成分在聚丙烯酰胺凝胶中的泳动率与小麦的相同。不同来源的组蛋白H1表现出明显的种的特异性。三系水稻雄性不育系和保持系之间核组蛋白几乎完全相同。雄性不育系和它的恢复系的组蛋白比较也无显著差异。杂种一代H1的含量高于双亲H1的含量。这种超过双亲的现象可能与杂种优势性状的表现有关。  相似文献   

10.
本文以水稻4个杂交组合一代及其相应的亲本为材料,观察了杂交一代及其亲本的硝酸还原酶活力之间的关系。结果表明,杂交一代硝酸还原酶活力高低与其亲本硝酸还原酶活力高低有密切相关。即,亲本酶活力低与高或中与高的杂交一代酶活力同高亲,而中与中或低与中的杂交一代酶活力高于双亲,表现一定的杂种优势。  相似文献   

11.
A triploid (2n = 3x = 36) rice plant was obtained by screening a twin seedling population in which each seed germinated to two or three sprouts that were then crossed with diploid plants. One diploid plant was chosen among the various F(1) progenies and developed into an F (2) population via self-pollination. Compared with the control variety Shanyou 63, this F (2) population had a stable agronomical performance in field trials, as confirmed by the F-test. The stability of the F (2) population was further substantiated by molecular analysis with simple sequence repeat markers. Specifically, of 160 markers assayed, 37 (covering all 12 chromosomes) were polymorphic between the parental lines. Testing the F (1) hybrid individually with these markers showed that each PCR product had only a single band instead of two bands from each parent. The bands were identical to either maternal (23 markers) or paternal (eight markers) bands or distinct from both parents (six markers). The amplified bands of all 60 randomly selected F (2) plants were uniform and identical to those of the F (1) hybrid. These results suggest that the F (1) plant is a non-segregating hybrid and that a stable F (2) population was obtained. This novel system provides an efficient means for shortening the cycle of hybrid rice seed production.  相似文献   

12.
Li C  Huang L  Xu C  Zhao Y  Zhou DX 《PloS one》2011,6(7):e21789
Hybrids between different inbred varieties display novel patterns of gene expression resulted from parental variation in allelic nucleotide sequences. To study the function of chromatin regulators in hybrid gene expression, the histone deacetylase gene OsHDT1 whose expression displayed a circadian rhythm was over-expressed or inactivated by RNAi in an elite rice parent. Increased OsHDT1 expression did not affect plant growth in the parent but led to early flowering in the hybrid. Nonadditive up-regulation of key flowering time genes was found to be related to flowering time of the hybrid. Over-expression of OsHDT1 repressed the nonadditive expression of the key flowering repressors in the hybrid (i.e. OsGI and Hd1) inducing early flowering. Analysis of histone acetylation suggested that OsHDT1 over-expression might promote deacetylation on OsGI and Hd1 chromatin during the peak expression phase. High throughput differential gene expression analysis revealed that altered OsHDT1 levels affected nonadditive expression of many genes in the hybrid. These data demonstrate that nonadditive gene expression was involved in flowering time control in the hybrid rice and that OsHDT1 level was important for nonadditive or differential expression of many genes including the flowering time genes, suggesting that OsHDT1 may be involved in epigenetic control of parental genome interaction for differential gene expression.  相似文献   

13.
Stupar RM  Springer NM 《Genetics》2006,173(4):2199-2210
Microarray analysis of gene expression patterns in immature ear, seedling, and embryo tissues from the maize inbred lines B73 and Mo17 identified numerous genes with variable expression. Some genes had detectable expression in only one of the two inbreds; most of these genes were detected in the genomic DNA of both inbreds, indicating that the expression differences are likely caused by differential regulation rather than by differences in gene content. Gene expression was also monitored in the reciprocal F1 hybrids B73xMo17 and Mo17xB73. The reciprocal F1 hybrid lines did not display parental effects on gene expression levels. Approximately 80% of the differentially expressed genes displayed additive expression patterns in the hybrids relative to the inbred parents. The approximately 20% of genes that display nonadditive expression patterns tend to be expressed at levels within the parental range, with minimal evidence for novel expression levels greater than the high parent or less than the low parent. Analysis of allele-specific expression patterns in the hybrid suggested that intraspecific variation in gene expression levels is largely attributable to cis-regulatory variation in maize. Collectively, our data suggest that allelic cis-regulatory variation between B73 and Mo17 dictates maintenance of inbred allelic expression levels in the F1 hybrid, resulting in additive expression patterns.  相似文献   

14.
15.
Plant endosperm cells have a nuclear ratio of two maternal genomes to one paternal genome. This 2 to 1 dosage relationship provides a unique system for studying the additivity of gene expression levels in reciprocal hybrids. A combination of microarray profiling and allele-specific expression analysis was performed using RNA isolated from endosperm tissues of maize (Zea mays) inbred lines B73 and Mo17 and their reciprocal hybrids at two developmental stages, 13 and 19 d after pollination. The majority of genes exhibited additive expression in reciprocal hybrids based on microarray analyses. However, a substantial number of genes exhibited nonadditive expression patterns, including maternal like, paternal like, high parent like, low parent like, and expression patterns outside the range of the parental inbreds. The frequency of hybrid expression patterns outside of the parental range in maize endosperm tissue is much higher than that observed for vegetative tissues. For a set of 90 genes, allele-specific expression assays were employed to monitor allelic bias and regulatory variation. Eight of these genes exhibited evidence for maternally or paternally biased expression at multiple stages of endosperm development and are potential examples of differential imprinting. Our data indicate that parental effects on gene expression are much stronger in endosperm than in vegetative tissues.  相似文献   

16.
A 505 bp cDNA was cloned from the leaves of rice (Oryza sativaL.) Shanyou 63 combination. DNA sequence analysis showed that it is a part of rice chloroplast genome. Its homology comparison with those known in GenBank found that it encodes 38 amino acid peptide deduced from psbL gene and 40 amino acid peptide deduced from psbJ gene in rice chloroplast PSⅡ. Northern hybridization showed that the cDNA was differentially displayed in hybrid F1 and its parental lines.  相似文献   

17.
采用cDNA-AFLP技术分离克隆了水稻杂种与亲本间差异表达基因片段.S600,Northern杂交结果表明:在分蘖期和始穗期,S600在杂种和父本中表达丰度均较高,而在母本中表达丰度相对较低。S600在分蘖期和始穗期表达量不同,暗示了该基因的表达还受到发育时期的调节。同源搜索结果表明S600片段是水稻SBPase的部分编码序列。为了获得完整编码序列,以S600序列检索梗稻日本晴cDNA数据库,获得了两个高度同源(99%)且功能未知的全长cDNA克隆(AK062089和AK065773)。序列分析表明它们均包含一个相同的1179bp的开放阅读框,编码392个氨基酸组成的水稻SBPase前体,其中包含有与底物结合、氧化还原调节有关的保守氨基酸残基。检索发现该基因在水稻日本晴基因组中只有单个座位。  相似文献   

18.
运用DDRT-PCR对红莲型杂交稻组合红莲优6号及其亲本、保持系(粤泰A、粤泰B、9311)的一叶期、三叶期叶片基因表达状况进行分析。结果表明:杂种与亲本之间在同一发育时期基因表达既有质量上又有数量上的差异,但差异表达基因所占比较较小;而对于同一材料,一叶期、三叶期的叶片cDNA扩增带型相似,没有发现基因质上的差异表达,说明一叶期与三叶期幼苗叶片基因表达差异很小。实验也证明DDRT-PCR技术结合银染方法是一种简单快速分析差异表达基因的有效方法。  相似文献   

19.
Stem borer resistant transgenic parental lines, involved in hybrid rice, were produced by Agrobacterium-mediated gene transfer method. Two pSB111 super-binary vectors containing modified cry1Ab/cry1Ac genes driven by maize ubiquitin promoter, and herbicide resistance gene bar driven by cauliflower mosaic virus 35S promoter were, used in this study. Embryogenic calli after co-cultivation with Agrobacterium were selected on the medium containing phosphinothricin. Southern blot analyses of primary transformants revealed the stable integration of bar, cry1Ab and cry1Ac coding sequences into the genomes of three parental lines with a predominant single copy integration and without any rearrangement of T-DNA. T1 progeny plants disclosed a monogenic pattern (3:1) of transgene segregation as confirmed by molecular analyses. Furthermore, the co-segregation of bar and cry genes in T1 progenies suggested that the transgenes are integrated at a single site in the rice genome. In different primary transformants with alien inbuilt resistance, the levels of cry proteins varied between 0.03 and 0.13% of total soluble proteins. These transgenic lines expressing insecticidal proteins afforded substantial resistance against stem borers. This is the first report of its kind dealing with the introduction of Bacillus thuringiensis (Bt) cry genes into the elite parental lines involved in the development of hybrid rice.  相似文献   

20.
红莲型杂交稻(红莲2号)及其骨干亲本的RAPD分析与鉴定   总被引:4,自引:0,他引:4  
利用RAPD技术,从248个随机寡核苷酸引物(10-mer)中筛出18个引物对红莲型杂交稻组合红莲2号及其亲本(T-07A、T-07B、YD6-05),另6个红莲型胞质不育系的骨干恢复和汕优63及其亲本共14份水稻材料进行分析。共检测到173个多态性标记。聚类分析结果表明:不育系与保持系间因核背景相似,遗传差异很小;杂种(F1)的基因型更倾向于恢复系;恢复系与保持系间遗传距离的相对较大,但各恢复系之间的遗传距离较小。利用这些标记能有效地地区交组合中不育系,保持系、恢复系和杂种(F1)。  相似文献   

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