Gene expression profiling in rice young panicle and vegetative organs and identification of panicle-specific genes through known gene functions

In rice, at the stage from pistil and stamen primordia formation to microsporocyte meiosis, the young panicle organs (YPO) make a great contribution to grain productivity. This period corresponds to the onset of meiosis and marks the transition from vegetative to reproductive stages. By comparing gene expression profiling of YPO with that of rice aerial vegetative organs (AVO), it is possible to gain further molecular insight into this period that is developmentally and functionally important. In this report, a total of 92,582 high-quality ESTs from 5′-end sequencing, including 44,247 from YPO and 48,335 from AVO, were obtained and classified. There were 12,884 (29.12%) ESTs from YPO and 16,304 (33.73%) ESTs from AVO matched to known genes, which generated 1,667 and 2,172 known genes, respectively, after integration of these ESTs. From the functions of known homologous genes, we identified some tissue- and developmental-stage-specified genes in YPO. The expression of these genes clearly reflected the unique functional characteristics of YPO. Furthermore, we estimated that there are about 10,000 mRNAs specifically expressed in rice YPO. Jiabin Tang and Hong’ai Xia contributed equally to this work     

药用野生稻叶中淀粉合成酶基因家族的序列分化和特异表达

淀粉不仅是植物自身和后代生长繁殖的重要营养与能量储备,而且是人类膳食中碳水化合物的主要来源。植物中淀粉合成主要发生在两个阶段,一是在形成临时淀粉的光合作用阶段,另一个则是在成为贮藏淀粉的营养积累阶段。相对于最后的淀粉贮藏阶段,临时淀粉的形成阶段在植物整个碳水化合物代谢过程中扮演着更为重要的角色,然而却一直少有关注。为深入研究初始淀粉合成过程中相关酶在植物中的进化模式,选取了药用野生稻(Oryza officinalis)为研究对象,通过对其全叶转录组的重测序,定性、定量地调查了淀粉合成酶基因家族在稻属野生物种光合器官中的基因类型和表达变化。共有8个淀粉合成酶基因的完整编码序列在药用野生稻的叶中首次被识别。系统发育分析表明,这8个基因分别隶属SSI、SSII、SSIII、SSIV、SSV和GBSSII基因家族。序列比较和相对表达定量分析显示,药用野生稻与栽培稻的淀粉合成酶基因家族的进化模式具有高度的一致性,两个物种的同源基因在m RNA水平的序列相似度达到95%–98%。基于非同义置换和同义置换比率的统计检验表明,8个基因在两个物种间均经历了严格的纯化选择。另外,3个在栽培稻胚乳中特异表达的基因在药用野生稻的叶转录组中未筛查出来,而4个在栽培稻叶中优势表达的基因在药用野生稻叶中同样呈现相对较高水平的表达。     

水稻MicroRNA的预测及实验验证

根据已报道水稻pre-miRNA的序列与结构信息,利用支持向量机（support vector machine, SVM）方法在miRNA前体上预测成熟区,产生一个模型——mature-SVM.它预测水稻成熟区的敏感性和特异性分别为86.7% 和100%;然后,用这个模型对从水稻基因组中筛选出的46.501条pre-miRNA进行成熟链预测,此外再根据miRNA的作用原理用blast程序所进一步的筛选,得到了127条pre-miRNA及成熟miRNA;除去其中已知的21条,最后得到106条候选的新的水稻miRNA. 从中随机挑取10条进行Northern验证,结果有4条miRNA得到确认.     

漆酶同工酶基因在斑玉蕈生长发育过程中的表达分析

为了探明漆酶在斑玉蕈生长发育过程中的功能,对斑玉蕈转录测序预测的13个漆酶基因序列进行分析、鉴定和构建分子系统发育树;检测了不同生长发育时期漆酶的活性和漆酶基因表达水平。研究结果显示：13个基因片段中有10个是漆酶基因。不同的漆酶同工酶之间进化关系存在明显差异,大多数漆酶与木腐菌（金针菇Flammulina filiformis和侧耳属Pleurotus）进化关系较近。对斑玉蕈不同生长发育时期的酶活检测结果显示,从斑玉蕈的菌丝恢复期到钉头期,漆酶活性逐渐升高,而在子实体形成后期酶活逐渐降低。对培养40d、60d和80d的菌丝样品以及不同生长发育时期的样品进RT-qPCR检测,结果显示在菌丝营养生长时期,大多数漆酶基因在第40-60天表达量持续增加1-3倍,而在第60-80天时表达量出现降低的情况。而在生殖生长时期,大多数漆酶基因在转色期或者原基期相对表达量达到最大值,并在子实体期出现降低,这与漆酶活性的检测具有一致性。lcc3、lcc7、lcc8和lcc9在斑玉蕈生殖生长过程中相对表达量出现了10-100倍的上调。这说明从菌丝培养到菌丝扭结形成子实体和子实体发育的过程中,不同的漆酶可能发挥着不同的作用,表达量较高的漆酶基因可能对基质降解和子实体形成起主要作用。     

对水稻4号染色体一个编码S位点相关的受体样蛋白激酶基因簇的分析

通过对水稻 (OryzasativaL .) 4号染色体一段 32 3kb的序列测定和分析 ,在其中 10 8kb的区域内发现了一个由 14个编码S位点相关的受体样蛋白激酶 (SRK)基因组成的基因簇。RT_PCR实验证明了这 14个基因中有 9个基因表达 ,并且这 9个基因有不同的表达模式 :其中 2个基因主要在生殖器官中表达 ,而另外 7个基因在水稻的营养和生殖器官中均有表达。对这些基因的预测的氨基酸序列进行分析表明他们的细胞外受体部分均和甘蓝的SLG蛋白高度同源 ,而细胞内的激酶区都包含有丝氨酸 /苏氨酸激酶中特异的氨基酸。     

Evolution of Reproductive Organs in Land Plants

LEAFY gene is the positive regulator of the MADS-box genes in flower primordia. The number of MADS-box genes presumably increased by gene duplications before the divergence of ferns and seed plants. Most MADS-box genes in ferns are expressed similarly in both vegetative and reproductive organs, while in gymnosperms, some MADS-box genes are specifically expressed in reproductive organs. This suggests that (1) the increase in the number of MADS-box genes and (2) the subsequent recruitment of some MADS-box genes as homeotic selector genes were important for the evolution of complex reproductive organs. The phylogenetic tree including both angiosperm and gymnosperm MADS-box genes indicates the loss of the A-function genes in the gymnosperm lineage, which is presumably related to the absence of perianths in extant gymnosperms. Comparison of expression patterns of orthologous MADS-box genes in angiosperms, Gnetales, and conifers supports the sister relationship of Gnetales and conifers over that of Gnetales and angiosperms predicted by phylogenetic trees based on amino acid and nucleotide sequences. Received 30 July 1999/ Accepted in revised form 9 September 1999     

Differential gene expression of rice two-component signaling elements during reproductive development and regulation by abiotic stress

The two-component signaling elements have been implicated in diverse cellular processes in plants. Earlier, we reported the identification, characterization and expression analysis of type-A response regulators in rice. In this study, we have comprehensively analyzed the expression profile of all the two-component signaling elements identified in rice at various stages of vegetative and reproductive development by employing microarray analysis. Most of the components are expressed in all the developmental stages analyzed. A few of these were found to be specifically expressed during certain stages of seed development, suggesting their role in embryo and endosperm development. In addition, some of these components express differentially under various abiotic stress conditions, indicating their involvement at various levels of hierarchy in abiotic stress signaling. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

水稻种子发育期间特异锌指蛋白基因的筛选与分析

.锌指蛋白基因是植物基因组中最大最复杂的基因家族之一.大部分的锌指模体存在于转录因子中,它们在转录水平上参与植物生长发育及植物对生物和非生物胁迫的反应.为了解锌指蛋白基因在水稻种子发育中的作用,本研究通过多种数据库搜索获得了878个水稻锌指蛋白基因.从中选取311个利用RT-PCR技术分析它们在水稻成熟期根、茎、叶、花及不同发育阶段种子中的表达特征.结果发现,共有196个基因能在至少1个水稻器官中表达,其中10个为种子特异性表达基因.进一步分析发现,10个特异表达基因在水稻种子不同发育阶段中的表达具有种子阶段表达特异性.同时分析它们的基因及蛋白结构特点,结果显示它们的结构较简单,其中3个蛋白含有线粒体靶肽,5个蛋白含有CCCH锌指结构域.另外,分析种子特异性表达基因上游调控区的顺式作用元件,结果表明它们都含有TATA-box、CAAT-box和种子特异调控元件,除此之外还发现了光、激素和胁迫反应相关调控元件.这些结果为进一步研究它们在种子发育过程中的生物学功能提供了有用的线索.     

Annealing control primer system identifies differentially expressed genes in blastocyst-stage porcine parthenotes

There is very little information available on stage-specific gene expression during early embryo development, particularly in the pig. Here, we accurately identified the genes that are specifically or prominently expressed in parthenogenetic porcine blastocysts as compared with 2-cell stage embryos. We accomplished this by using a PCR technology regulated by annealing control primers (ACPs). By utilizing 120 ACPs, a total of 46 expressed sequence tags (ESTs) of genes that are differentially expressed in blastocysts as compared with 2-cell stage embryos were cloned and sequenced. The cloned genes or ESTs all exhibited significant sequence similarity with known genes or ESTs of other species. Of the known genes, six genes [renin-binding protein (RNBP), BMDP, solute carrier family 25 (SLC25A6), MTHFD1, TRK-fused gene (TFG), spermidine synthase (SRM)] were selected and their stage-specific expression levels in porcine parthenotes were determined by real-time quantitative polymerase chain reaction at the 1-, 2-, 4-cell, morula and blastocyst stages. While RNBP, BMDP, SLC25A6, MTGFD1 and SRM were highly expressed only at the blastocyst stage, TFG was highly expressed at the 1-cell stage, then declined after genomic activation, high levels of expression being again detected at the morula and blastocyst stages. This analysis suggests that the ACP system is an effective tool for use in the identification of stage-specific genes in small numbers of porcine parthenotes. Examination of the genes differentially expressed in the blastocyst, which we have identified here, will provide insight into the molecular basis of preimplantation development.     

Comprehensive transcriptome analysis of phytohormone biosynthesis and signaling genes in microspore/pollen and tapetum of rice

To investigate the involvement of phytohormones during rice microspore/pollen (MS/POL) development, endogenous levels of IAA, gibberellins (GAs), cytokinins (CKs) and abscisic acid (ABA) in the mature anther were analyzed. We also analyzed the global expression profiles of genes related to seven phytohormones, namely auxin, GAs, CKs, brassinosteroids, ethylene, ABA and jasmonic acids, in MS/POL and tapetum (TAP) using a 44K microarray combined with a laser microdissection technique (LM-array analysis). IAA and GA(4) accumulated in a much higher amount in the mature anther compared with the other tissues, while CKs and ABA did not. LM-array analysis revealed that sets of genes required for IAA and GA synthesis were coordinately expressed during the later stages of MS/POL development, suggesting that these genes are responsible for the massive accumulation of IAA and GA(4) in the mature anther. In contrast, genes for GA signaling were preferentially expressed during the early developmental stages of MS/POL and throughout TAP development, while their expression was down-regulated at the later stages of MS/POL development. In the case of auxin signaling genes, such mirror-imaged expression observed in GA synthesis and signaling genes was not observed. IAA receptor genes were mostly expressed during the late stages of MS/POL development, and various sets of AUX/IAA and ARF genes were expressed during the different stages of MS/POL or TAP development. Such cell type-specific expression profiles of phytohormone biosynthesis and signaling genes demonstrate the validity and importance of analyzing the expression of phytohormone-related genes in individual cell types independently of other cells/tissues.