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1.
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   

2.
为深入探讨小麦杂种优势形成的分子机理,选取3个冬小麦品种(系)为一组亲本,3个为另一组亲本,配制了正反交18个杂交组合,以授粉后6d的杂交和自交种子为材料,应用mRNA差异显示技术(DDRT—PCR)研究了小麦杂交当代种子与其亲本自交种子基因的表达差异,并与杂种优势进行相关分析。为降低DDRT—PCR技术假阳性的不利影响,对每个引物组合均作了两次PCR扩增,在处理数据时,仅统计能重复出现的条带。结果发现:杂交种和亲本之间的基因表达模式有8类共15种:(1)单亲沉默型(2种),(2)单亲一致型(2种),(3)正交或反交沉默型(2种),(4)正交或反交特异型(2种),(5)正交或反交单亲一致型(4种),(6)杂交种特异型(1种),(7)双亲共沉默型(1种),(8)表达一致型(1种)。分析发现,小麦杂交种和亲本间存在显著的表达差异。在差异表达类型中,杂交种特异型和双亲共沉默型比例最低。对上述15种表达模式与杂种优势进行相关分析,结果表明,表达一致型与各产量性状杂种优势之间的相关均不显著,说明杂种优势是由某些有表达差异的基因造成。9个产量性状均能检测到一种以上与其显著或极显著相关的基因表达模式,有些性状受正负相关效应的共同影响;沉默型(包括单亲沉默型、正交或反交沉默型和双亲共沉默型)和正交或反交单亲一致型在杂种优势形成中发挥重要作用。这些研究表明,在种子发育早期,基因的差异表达与杂种优势形成之间可能存在较为复杂的关系。  相似文献   

3.
采用DDRT-PCR技术,以棉花盛花期项尖叶片cDNA为材料,对上海生物工程公司合成的专用于基因差异显示分析的3个锚定引物和全套26个随机引物进行筛选,最后选择了15个扩增差异带丰富的随机引物。采用3个锚定引物和这15个随机引物组成的45对引物组合对24个抗虫棉杂交组合及其10亲本盛花期叶片cDNA进行扩增和差显,2次扩增重复率达70.1%,表明在扩增过程中存在较高的假阳性,通过重复PCR扩增,统计稳定扩增的条带,可减少假阳性干扰。根据基因表达方式,将其划分5种模式:MI为双亲表达沉默,双亲出现条带而杂种没有条带;M2为单亲表达沉默,带仅出现在亲本之一,包括仅母本有带而父本和杂种无带和仅父本有带而母本和杂种无带2种表达方式:M3为杂种特异表达,带仅出现在杂种,双亲无带;M4为单亲表达一致,带在双亲之一和杂种中出现,而在另一亲本中不出现,包括母本、杂种中有带而父本无带和父本、杂种中有带而母本无带2种方式;M5为基因表达一致,带在双亲和杂种中均出现。差显表达模式比例与产量性状和杂种优势分析表明:M4与所有产量性状均呈正相关,并且与单位面积铃数相关达显著水平,其他各种模式与杂种产量性状表型值均未达到显著水平;M2与单位面积铃数杂种优势呈显著负相关,M3与皮棉产量杂种优势呈显著正相关。上述结果表明,盛花期叶片中的基因显性表达和杂种特异表达有利于产量形成和杂种优势发挥。  相似文献   

4.
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   

5.
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   

6.
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   

7.
以4份高粱不育系和5种类型苏丹草为亲本,按照NCⅡ设计配制成20个杂交组合,分析各组合及亲本的表型值和中亲及超亲优势并筛选出8个优势强的组合为试材,利用cDNA-AFLP技术,分析杂种与亲本苗期叶片基因差异表达类型与主要产量性状的杂种表现及杂种优势的关系。研究表明:(1)12对引物共扩增出315条TDFs,杂种与亲本间基因表达类型有:单亲表达一致一型(P1F1型)和二型(P2F1型)、杂种特异表达类型(F1型)、单亲表达沉默一型(P1型)和二型(P2型)、双亲共沉默类型(P1P2型)和杂种亲本表达一致型(P1F1P2型)7种。(2)在差异展示类型与产量构成因素的相关分析中,有效分蘖数与P1F1型(0.726**)呈极显著正相关,单株鲜重与P1P2型(0.659*)、叶长与P2型(0.647*)呈显著正相关,成株期叶片数与F1型(-0.81**)呈极显著负相关。在与中亲优势相关分析中发现,单株鲜重与P1(0.695*)、P2(0.637*)呈显著正相关,单株鲜重与P1F1P2型(0.743**)呈极显著正相关,叶宽与P1P2型(-0.619*)呈显著负相关。在与超亲优势进行相关分析后发现,穗长与P2F1型(0.732**)呈极显著正相关,叶宽与P2F1型(-0.731**)以及P1P2型(-0.731**)呈极显著负相关。(3)差异展示类型P1F1、P2F1、P1和P2是显性效应类型,共占总检测的91.4%。差异展示类型F1和P1P2表现超显性,共占总检测的4.8%,说明各个性状的杂种表现主要受到的是(超)显性效应影响。(4)对8个与高丹草杂种优势相关的TDFs进行回收及BLAST分析均得到同源核苷酸,并且找到7个同源蛋白,这些蛋白质在控制植物生长发育方面具有重要作用。(5)将克隆测序获得差异片段的核苷酸序列,采用半定量RT-PCR进行了验证。本研究为进一步揭示高丹草杂种优势的分子机制和提高高丹草强优势组合的筛选效率以及种质资源的创建提供依据。  相似文献   

8.
以白洛克肉鸡 (EE)、中国丝羽乌骨鸡 (CC)、农大褐 (DD)和白来航 (AA) 4个纯种鸡为材料 ,进行 4× 4完全双列杂交 ,共得到 16种杂交组合。应用mRNA差异显示技术 (DDRT PCR)检测了 8周龄纯种和杂种鸡之间肝脏组织基因的差异表达。结果表明 ,在纯种和杂种间共有 8种 15类基因差异表达模式 ,杂种和纯种之间基因表达存在明显的差异。对各种基因差异表达模式与 10个肉用性状的杂种优势率进行相关分析发现 ,表达一致型P8(t1111)与肉用性状的杂种优势率相关不显著 (P >0 0 5) ,这说明杂种优势的形成与某些基因的差异表达有关 ;正交或反交特异表达型P4(t0 10 0、t0 0 10 )与 8周龄个体重、腿肌重、半净膛重、全净膛重相关显著 (P <0 0 5) ,与胸肌重相关极显著 (P <0 0 1) ;单亲特异表达型P1(t10 0 0、t0 0 0 1)与腹脂重相关显著 (P <0 0 5) ,与体斜长相关极显著 (P <0 0 1) ;双亲特异表达型P7(t10 0 1)与腿肌重、翅重、半净膛重、肌间脂宽的杂种优势率相关显著 (P <0 0 5) ;正交或反交单亲表达一致型P2 (t110 0、t0 0 11、t10 10、t0 10 1)与肌间脂宽的杂种优势率相关显著 (P <0 0 5) ;单亲表达一致型P5(t1110、t0 111)胫骨长的杂种优势率相关显著 (P <0 0 5)。  相似文献   

9.
王翔  边银丙  肖扬  戴耀红 《菌物研究》2012,10(3):190-194
以香菇(Lentinula edodes)4个菌株为亲本组成3个杂交组合,采用单孢菌株配对获得杂交子,观察锁状联合鉴别出真正的杂交子,测定杂交子及其亲本的农艺性状。在每个杂交组合中分别各选取3个杂交子,研究杂交子和亲本在子实体发育阶段差异基因表达情况。结果表明:杂交子共有4种基因表达类型:双亲沉默型(W1型),单亲沉默型(W2型),杂交子特异表达型(W3型),单亲表达型(W4型)。香菇杂交子农艺性状与基因差异表达类型的相关性分析表明:菌盖厚与双亲沉默型(W1型)呈极显著负相关,而菌柄长与单亲沉默型(W2型)呈显著负相关。  相似文献   

10.
分别以苗期(分蘖)、拔节期、抽穗期叶片和花粉母细胞减数分裂期、小孢子双—三核期、花粉粒时期的花药为材料,对由小麦CMS与恢复系杂交F1杂种优势形成机理作了比较蛋白质组分析。结果表明,F1杂种中有超亲、亲二型和低亲三种蛋白质表达类型出现,出现频率为亲二型>低亲>超亲。对这三种类型共17个蛋白质斑点作了质谱分析,其功能涉及DNA和蛋白质合成、能量代谢、环境防御,基因转座及光合作用等。苗期生长特性如叶鲜重、叶干重、叶片数,F1杂种倾向于双亲,没有观察到杂种优势现象,这与F1叶片中蛋白质表达多数呈亲二型相吻合。但F1中分蘖数多于双亲,因此其总鲜重、干重、总叶片数明显呈现出杂种优势,然而这种杂种优势现象与蛋白质组的变化是否有关需进一步研究。  相似文献   

11.
Using differential display analysis, we assessed the patterns of differential gene expression in hybrids relative to their parents in a diallel cross involving 8 elite rice lines. The analysis revealed several patterns of differential expression including: (1) bands present in one parent and F1 but absent in the other parent, (2) bands observed in both parents but not in the F1, (3) bands occurring in only one parent but not in the F1 or the other parent, and, (4) bands detected only in the F1 but in neither of the parents. Relationships between differential gene expression and heterosis and marker heterozygosity were evaluated using data for RFLPs, SSRs and a number of agronomic characters. The analysis showed that there was very little correlation between patterns of differential expression and the F1 means for all six agronomic traits. Differentially expressed fragments that occurred only in one parent but not in the other parent or in F1 in each of the respective crosses were positively correlated with heterosis and heterozygosity. And conversely, fragments that were detected in F1s but in neither of the respective parents were negatively correlated with heterosis and heterozygosity. The remaining patterns of differential expression were not correlated with heterosis or heterozygosity. The relationships between the patterns of differential expression and heterosis observed in this study were not consistent with expectations based on dominance or overdominance hypotheses.  相似文献   

12.
cDNAs of leaves of 24 pest-resistant cotton (authorization) crosses and their parents in full opening flower stages were amplified and different bands were displayed by DDRT-PCR, with 45 primer combinations. The mean percentage of bands duplicated was 70.1%, which implied that there was a high proportion of pseudopositive fragments in the amplified cDNA. These pseudopositive bands can be reduced using duplicate PCR. Correlation analysis between differential gene expression and hybrid performance and heterosis showed that M4 (bands detected in one parent and F1) was positively correlated with all yield traits, and significantly correlated with boll number; M2 (bands observed in one parent but not in F1 and another parent) was negatively correlated with heterosis of boll number; and M3 (bands observed only in F1) was positively correlated with heterosis of lint yield. These results showed that genes that had dominant and specific expression in top leaves of full opening flower stages were beneficial to yield formation and heterosis occurrence.  相似文献   

13.
Sun D  Wang D  Zhang Y  Yu Y  Xu G  Li J 《Animal genetics》2005,36(3):210-215
Differential display of mRNA was used to analyse the differences of gene expression in liver between chicken hybrids and their parents in a 4 x 4 diallel crosses in order to study the molecular basis of heterosis in chickens. The results indicated that patterns of gene expression in hybrids differ significantly from their parents. Four patterns of differential gene expression were revealed, which included: (i) bands only detected in the hybrid F1s (UNF1); (ii) bands only absent in the hybrid F1s (ABF1); (iii) bands only detected in the parental P1 or P2 lines (UNP1 and UNP2) and (iv) bands absent in the parental P1 or P2 lines (ABP1 and ABP2). In addition, correlations between patterns of gene expression and heterosis percentages of nine carcass traits of 8-week-old chickens were evaluated. Statistical results showed that negative correlations between heterosis percentages and the percentage of F1-specific bands (UNF1) were significant at P < 0.01 for breast muscle yield, leg muscle yield, wing weight, eviscerated weight and eviscerated weight with giblet of 8-week-old chickens, and at P < 0.05 for intermuscular fat width. Heterosis percentage was negatively correlated with ABP (bands present in the hybrid F1s and one parental line but absent in the other parental line, ABP1 and ABP2) for breast muscle yield, leg muscle yield, wing weight, eviscerated weight and eviscerated weight with giblet of 8-week-old chickens (P < 0.01). Bands detected only in the hybrid F1s but not in either of the parental lines (UNF1) and bands absent in parental P1 or P2 lines (which includes ABP1 and ABP2) may play important roles in chicken heterosis.  相似文献   

14.
崔辉梅  曹家树  张明龙  姚祥坦  向殉 《遗传》2005,27(2):255-261
以甘蓝型油菜(Brassica napus L, AACC,2n=38)Ogura细胞质雄性不育材料为母本,以不同白菜(B campestris ssp. chinensis Makino, AA, 2n=20) 自交系‘新选一号’和‘矮脚黄’为父本进行杂交,获得了杂种F1、BC1、BC2代。利用cDNA-AFLP技术对两种材料的不同回交世代BC1、BC2代与其亲本在蕾期的基因表达进行分析。结果表明,两种白菜回交世代与其亲本的基因表达有明显差异,在质和量上都存在差异。基因表达模式有5类共7种:(1)单亲沉默型(2种),(2)单亲一致型(2种),(3)双亲共沉默型,(4)杂种特异型,(5)表达一致型。随着回交世代的增加,回交杂种和亲本的基因表达在单亲沉默型、双亲共沉默型呈增加趋势。而在母本一致型、父本一致型、杂交种特异型、表达一致型呈下降的趋势。两种白菜在F1、BC1、BC2 3个世代与回交亲本花蕾间的基因差异表达有15种类型,其中以在轮回亲本、F1、BC1、BC2中共同出现表达的带的比例最高。Abstract: Crosses between female parent of Ogura male sterility Brassica napus L. and male parents of B. campestris ssp. chinensis Makino were made and F1, BC1 and BC2 generations produced. Gene expression of two Chinese cabbage backcross hybrid BC1, BC2 and their parents at bud stage was analyzed by means of cDNA-AFLP technique. The results indicated that the patterns of gene expression differ significantly between BC1 and BC2 generations and their parents. There were many patterns of gene expression, including gene overexpression and gene silencing. Five patterns (seven kinds) of gene expression were observed, which include: (1) bands occurring in only one parent (two kinds); (2) bands observed in hybrids and one parent (two kinds); (3) bands occurring in only parents (one kind); (4) bands visualized in only hybrids (one kind); (5) bands observed in parents and hybrids (one kind). In accompany with the addition of backcross, the increase trend in backcross hybrids and their parents were described in the aspects of differential gene expression, bands expressed only in one parent and bands expressed only in both parents. The declined trend in backcross hybrids and their parents were observed in the aspects of bands expressed in both hybrids and one parent (two kinds), bands visualized in only hybrids and bands observed in parents and hybrid. Fifteen patterns of gene expression were observed in F1、BC1、BC2 and backcross parents. The percent of bands expressed in F1、BC1、BC2 and backcross was highest.  相似文献   

15.
The performance of hybrids relative to their parents is an important factor in speciation research. We measured the growth of 46 Saccharomyces yeast F1 interspecific and intraspecific hybrids, relative to the growth of each of their parents, in pairwise competition assays. We found that the growth of a hybrid relative to the average of its parents, a measure of mid‐parent heterosis, correlated with the difference in parental growth relative to their hybrid, a measure of phenotypic divergence, which is consistent with simple complementation of low fitness alleles in one parent by high fitness alleles in the other. Interspecific hybrids showed stronger heterosis than intraspecific hybrids. To manipulate parental phenotypic divergence independently of genotype, we also measured the competitive growth of a single interspecific hybrid relative to its parents in 12 different environments. In these assays, we not only identified a strong relationship between parental phenotypic divergence and mid‐parent heterosis as before, but, more tentatively, a weak relationship between phenotypic divergence and best‐parent heterosis, suggesting that complementation of deleterious mutations was not the sole cause of interspecific heterosis. Our results show that mating between different species can be beneficial, and demonstrate that competition assays between parents and offspring are a useful way to study the evolutionary consequences of hybridization.  相似文献   

16.
水稻杂种一代与亲本幼苗基因表达差异的分析   总被引:48,自引:0,他引:48  
杂种优势是一种普遍存在的生物学现象,其形成的原因十分复杂。本世纪初,Bruce和Shull相继提出的杂种优势形成的显性互补假设和超亲优势假设至今仍作为一种理论模型而缺乏实验证实。水稻杂种优势的利用自70年代三系配套技术建立得到了广泛的应用,但水稻杂种优势形成的遗传学基础目前还知之甚少。在水稻杂种优势形成机理研究中,分别从生理生化代谢、同工酶分析、DNA限制性片段多态性和DNA含量差异进行了分析,但杂种优势形成的分子机理仍未得到阐明。杂种优势的形成是与异质化相关的过程,它涉及到两个遗传背景不同的体系的相互作用。因此,在相互作用过程中,亲本基因的表达与调控就决定了杂种一代的基因表达类型和特性。因此,我们从分析基因表达与调控入手,运用mRNA差异展示技术分析了玉米杂种一代与亲本基因表达的差异,揭示了不少有意义的现象。本研究以水稻籼型杂交组合(汕优63:珍汕97A×明恢63)为材料,探讨水稻杂种一代与亲本基因表达的差异,揭示了杂种优势形成过程中的一些重要现象。  相似文献   

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