高丹草杂种和亲本叶片基因差异表达研究

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。     

Ven、K型小麦雄性不育系春性F1杂种的优势表现及与叶绿素含量和同工酶谱的关系

利用Ven、K型小麦雄性不育系与北方春性普通小麦杂交,研究了Ven、K型春性F1杂种的优势表现及其与叶绿素含量、同工酶谱的关系.结果表明Ven型和K型杂种F1存在显著的个体杂种优势,在主要农艺性状中尤其以单株穗数、千粒重、单株生产力的杂种优势明显,其中单株穗数对单株生产力的贡献最大;相关分析表明单株生产力与单株穗数呈正相关,相关系数为0.7122;与每穗粒数和千粒重的相关系数分别为-0.1183和0.4941.灌浆期旗叶、倒二叶叶绿素含量与千粒重的相关性最大,呈正相关.杂种F1优势强的组合其种子和苗期的过氧化物同工酶和酯酶的酶谱一般呈双亲互补型或“杂种型”酶带,该特征可作为杂种优势预测的指标.     

Ven、K型小麦雄性不育系春性F1杂种的优势表现及与叶绿素含量和同工酶谱的关系

利用Ven、K型小麦雄性不育系与北方春性普通小麦杂交,研究了Ven、K型春性F1杂种的优势表现及其与叶绿素含量、同工酶谱的关系。结果表明：Ven型和K型杂种F1存在显著的个体杂种优质,在主要农艺性状中尤其以单株穗数、千粒重、单株生产力的杂种优势明显,其中单株穗数对单株生产力的贡献最大;相关分析表明：单株生产力与单株穗数呈正相关,相关系数为0.7122;与每穗粒数和千粒重的相关系数分别为－0.1183和0.4941。灌浆期旗叶、倒二叶叶绿素含量与千粒重的相关性最大,呈正相关。杂种F1优势强的组合其种子和苗期的过氧化物同工酶和酯酶的酶谱一般呈双亲互补型或“杂种型”酶带,该特征可作为杂种优势预测的指标。     

小麦杂种及其亲本苗期叶片家族基因差异表达及其与杂种优势关系的初步研究

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。     

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

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。     

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

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.     

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

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     

小麦与高冰草体细胞杂种F2代的性状和蛋白质组分

普通小麦（Triticum aestvum L.）“济南177”原生质体和经紫外线照射的高冰草（Agropyton elongatum(Host)Nevski）原生质体（供体）用PEG法诱导融合,形成外形偏像小麦的不对称体细胞杂种植株及后代,F2代株系可分为3种类型：1.株型松散、大穗大粒;2.株型直立紧凑、分蘖多、中穗型;3.大穗大粒直立型。蛋白质含量明显优于亲本小麦,株系之间也存在显差异;采用微IEF／SDS－PAGE双向电泳技术分析杂种F2代植株旗叶及幼胚蛋白质组分可见,杂种不仅含有双亲的蛋白质组,而且还产生了特异的新蛋白;不同杂种株系间蛋白质组分差异明显。     

小麦新型不育类型利用潜力分析

K、L、Sh、T、A型 5类小麦杂种 F1研究表明 :1 K、L、Sh、T4类细胞质对杂种 F1不育的恢复度和单株产量均存在不同程度的不良效应 ;2不育系易恢复性能为 K>L≥ Sh>T型 ;3 K型不育系恢复度高的一个重要原因在于小穗中部小花结实性好 ;4研究 K、L、Sh型恢复度时 ,利用国际法表示恢复度较为合理 ;5F1单株籽粒产量普遍存在优势 ,平均超双亲杂种优势为 8.57% ,具有 1 5%以上的杂种组合占总组合 2 3.33%。单株籽粒产量优势为 A>K>Sh>L>T;6产量构成因素超双亲优势为千粒重 >单株穗数 >单穗粒数 ,其中千粒重优势为 K、L、Sh≥ A>T,单穗粒数优势为 A>K>L>Sh>T,单株穗数优势为 A>L>K>Sh>T;7K、L、Sh比 T型细胞质不育类型具有更大利用潜力。     

多子房性状应用于杂种小麦的研究——Ⅱ．多子房小麦的杂种优势与利用

利用3个多子房小麦与8个普通小麦品种杂交后获得的24个杂种及其相应的亲本材料,对多子房小麦的杂种优势与利用进行了研究。结果表明,F1各性状的杂种优势依次为株高＞穗粒数＞单株产量＞千粒重。单株产量有较强的杂种优势,18个组合超双亲均值,平均均产32．71％,12个组合有超标正优势,幅度为3．41－42．84％。多子房小麦杂种优势的主要表现是穗粒数增多,其生产应用还应注意加强对子房小麦其它农艺性状的改良。     

Maize (Zea mays L.) seedling leaf nuclear proteome and differentially expressed proteins between a hybrid and its parental lines

To better understand the underlying molecular basis of leaf development in maize, a reference map of nuclear proteins in basal region of seedling leaf was established using a combination of 2DE and MALDI‐TOF‐MS. In total, 441 reproducible protein spots in nuclear proteome of maize leaf basal region were detected with silver staining in a pH range of 3–10, among which 203 spots corresponding to 163 different proteins were identified. As expected, proteins implicated in RNA and protein‐associated functions were overrepresented in nuclear proteome. Remarkably, a high percentage (10%) of proteins was identified to be involved in cell division and growth. In addition, comparative nuclear proteomic analysis in leaf basal region of highly heterotic hybrid Mo17/B73 and its parental lines was also performed and 52 of 445 (11.69%) detected protein spots were differentially expressed between the hybrid and its parental lines, among which 16 protein spots displayed nonadditively expressed pattern. These results indicated that hybridization between two parental lines can cause changes in the expression of a variety of nuclear proteins, which may be responsible for the observed leaf size heterosis.     

胚和胚乳基因效应对水稻幼苗生物量的影响研究

本文利用和胚乳遗传模型[研究了水稻早期胚后生长生物量性状的遗传控制,结果表明：在两个时期水稻幼苗生物量性状中,除了第16天时根鲜重（RFW）主要受到胚乳显性效应控制外,叶鲜重（LFW）,叶干重（LDW）,根干重（RDW）主要受到胚基因显性效应和胚乳基因加性效应的控制,胚加性和乳乳加性效应占总遗传方差的40－54％,说明对生物量性状进行早期选择有效,各个性状都检测到显著的胚狭义遗传率和胚乳狭义遗传率,说明在早期世代即可估计选择进程,对亲本的遗传效应值的预测表明,对根部性状的选择在第8天进行比较合适,并以亲本P1,P3和P6较好,它们既可提高RFW又可提高RDW,而对地上部分性状的选择在第16天时进行比较合适,并以P4,P9和P10为最好。     

由不同细胞核背景引起的小麦细胞质雄性不育系(CMS)叶绿体蛋白质组的变化(简报)

叶绿体和线粒体是高等植物细胞内2种重要的细胞器。由于细胞质雄性不育(CMS)被认为是一种由线粒体基因编码的性状,因此,近10多年来,国内外研究者对线粒体基因组结构与功能、由线粒体基因编码的与CMS相关蛋白的研究积累了大量的资料。与线粒体相比,叶绿体与CMS关系的研究相对滞后。虽然一些研究者在核不育水稻中,观     

Nonadditive protein accumulation patterns in Maize (Zea mays L.) hybrids during embryo development

Heterosis describes the superior performance of heterozygous F(1)-hybrid plants compared to their homozygous parental inbred lines. In the present study, heterosis was detected for length, weight, and the time point of seminal root primordia initiation in maize (Zea mays L.) embryos of the reciprocal F(1)-hybrids UH005xUH250 and UH250xUH005. A two-dimensional gel electrophoresis (2-DE) proteome survey of the most abundant proteins of the reciprocal hybrids and their parental inbred lines 25 and 35 days after pollination revealed that 141 of 597 detected proteins (24%) exhibited nonadditive accumulation in at least one hybrid. Approximately 44% of all nonadditively accumulated proteins displayed an expression pattern that was not distinguishable from the low parent value. Electrospray ionization-tandem mass spectrometry (ESI-MS/MS) analyses and subsequent functional classification of the 141 proteins revealed that development, protein metabolism, redox-regulation, glycolysis, and amino acid metabolism were the most prominent functional classes among nonadditively accumulated proteins. In 35-day-old embryos of the hybrid UH250xUH005, a significant up-regulation of enzymes related to glucose metabolism which often exceeded the best parent values was observed. A comparison of nonadditive protein accumulation between rice and maize embryo data sets revealed a significant overlap of nonadditively accumulated proteins suggesting conserved organ- or tissue-specific regulatory mechanisms in monocots related to heterosis.     

Contrasting leaf phenology of woody species of dry tropical forest

We studied selected leaf traits [leaf area (LA), leaf water content (LWC), leaf fresh weight (LFW), leaf dry weight (LDW), specific leaf area (SLA) and chlorophyll content] of eight woody species (Shorea robusta, Buchanania lanzan, Diospyros melanoxylon, Lagerstroemia parviflora, Lannea coromandelica, Terminalia tomentosa, Holarrhena antidysenterica and Lantana camara) dominant at four sites in a dry tropical deciduous forest over complete two annual cycles (2008–2010). Our results showed that leaf traits varied across species (1.7–11.5 fold), months (1.2–1.5 fold) and sites (1.1–1.3 fold). However, leaf traits showed smaller variation between sites than between species. Leaf lifespan varied from 7 months (L. coromandelica) to 12 months (S. robusta). On the same sites, species differed in the length of deciduous period. The maximum LA, LDW, LFW and LWC were recorded for the semi-evergreen species, SLA for long-deciduous species and chlorophyll content for short-deciduous species, respectively. The coefficient of variation was maximum for LDW and minimum for chlorophyll content. Among the eight woody species, T. tomentosa exhibited the greatest LA, LDW, LFW and LWC. LA, LWC, LFW, LDW, SLA, LD, SD, MD & SE confirm.     

超高产杂交稻不同生育期的光合色素含量、净光合速率和水分利用效率

 较为系统地研究了两个超高产杂交稻‘两优培九’、‘华安3号’和多年来大面积推广的常规杂交稻‘汕优63’不同生育期的光合色素含量、净光合速率和水分利用效率。结果表明,在苗期,3个杂交稻的单位叶面积的叶绿素（Chl）含量差别不大,类胡萝卜素（Car）的含量以‘汕优63’为最高。然而,随着发育阶段的推进,到分蘖期,尤其是抽穗期剑叶的单位叶面积Chl和Car含量,两个超高产杂交稻高于‘汕优63’。从苗期到抽穗期,超高产杂交稻‘两优培九’和‘华安3号’的净光合速率（Pn）都比‘汕优63’高,而在苗期的午间强光条件下和分蘖期的早晨以及抽穗期的早晚相对弱光条件下其Pn的差别尤为显著。在苗期,‘汕优63’的水分利用效率（WUE）略高于‘两优培九’和‘华安3号’;到分蘖期和抽穗期,在上午10时之前和下午14时以后的时间段,则是两个超高产杂交稻明显高于‘汕优63’。这些结果说明,超高产杂交稻‘两优培九’和‘华安3号’不仅有较高的Pn和较强的抗光抑制能力,而且还能充分利用早晨和傍晚较弱的光强进行光合作用,这些是它们之所以高产的重要生理基础。此外,超高产杂交稻在生长发育的中后期（分蘖期和抽穗期）具有较高的WUE,有利于节约农业用水。     

Comparative proteomic study reveals dynamic proteome changes between superhybrid rice LYP9 and its parents at different developmental stages

Heterosis is a common phenomenon in which the hybrids exhibit superior agronomic performance than either inbred parental lines. Although hybrid rice is one of the most successful apotheoses in crops utilizing heterosis, the molecular mechanisms underlying rice heterosis remain elusive. To gain a better understanding of the molecular mechanisms of rice heterosis, comparative leaf proteomic analysis between a superhybrid rice LYP9 and its parental cultivars 9311 and PA64s at tillering, flowering and grain-filling stages were carried out. A total of 384 differentially expressed proteins (DP) were detected and 297 DP were identified, corresponding to 222 unique proteins. As DP were divided into those between the parents (DP_PP) and between the hybrid and its parents (DP_HP), the comparative results demonstrate that proteins in the categories of photosynthesis, glycolysis, and disease/defense were mainly enriched in DP. Moreover, the number of identified DP_HP involved in photosynthesis, glycolysis, and disease/defense increased at flowering and grain-filling stages as compared to that at the tillering stage. Most of the up-regulated DP_HP involved in the three categories showed greater expression in LYP9 at flowering and grain-filling stages than at the tillering stage. In addition, CO₂ assimilation rate and apparent quantum yield of photosynthesis also showed a greater increase in LYP9 at flowering and grain-filling stages than at the tillering stage. These results suggest that the proteins involved in photosynthesis, glycolysis, and disease/defense as well as their dynamic regulation at different developmental stages may be responsible for heterosis in rice.     

两系杂交水稻杂种优势研究 Ⅱ.生理和生物学基础分析

本实验研究了籼粳交、籼爪交、籼籼交三种类型的两系杂交稻组合W6154s／02428、W6154s／轮回422、W6154s／Lemoney的某些生理和生物学特性。结果表明,三种类型的两系杂交水稻组合在分蘖能力、萌发种子的淀粉酶活性、秧苗期根的吸收能力均表现出亚种间的籼粳交组合＞亚亚种的籼爪交间组合＞品种间的籼籼交组合＞三系组合（对照）。种子萌发时两系组合的根的吸收能力表现出负向的平均优势和竞争优势,亚种间组合W6154s／02428的净光合速率在生育各期均较高,亚亚种间组合W6154s／轮回422在灌浆中期谷粒中过氧化物酶的活性较低。