Expression study of five genes involved in floral organ development in multiple seeded rice

Rice cultivar Jugal is a unique floral organ mutant from South Bengal and Odisa, the two sister states of Eastern India, carries more than one kernels in most of its spikelet. Most of the mature florets of this line possess more than one carpal which later developed into more than one kernels within a single grain on maturity. In order to study the role of floral organ development genes commonly involved, expression study of five selected floral organ developmental genes (OsMADS3, OsMADS13, OsMADS21, OsMADS58, and DL) were studied through real time based quantitative PCR for three consecutive flower organ developmental stages (Sp5, Sp6, and Sp7) with reference to a normal rice line (IR36). All the studied genes showed differential relative expression in respect to the reference gene both in mutant and normal rice lines for the studied genes and stages and individual distinct pattern except DL gene which was almost similar in both Jugal and IR36 at early stage of floral organ development viz Sp5 and Sp6 stage. However, after Sp6 stage the expression is reduced in the normal rice (IR36) but in case of the mutant rice (Jugal) the expression started to increase and at Sp7 the expression level was much higher in the mutant line. The information resulted from the investigation form the basic idea on regulatory aspects of floral organ development in rice.     

家蝇介导的水稻基因逃逸风险评估(英文)

【目的】对转基因作物进行生态风险评估是大面积种植前的一个必要步骤,水稻Oryza sativa访花昆虫有上百种,包括家蝇Musca domestica。本研究旨在明确访花昆虫家蝇介导转基因水稻外源基因逃逸的风险。【方法】2010年,我们使用转基因水稻B1, B6和G8-7作为父本(花粉供体),用同源非转基因水稻Jiazao 935和Wuyunjing 7作为母本（花粉受体）,并用家蝇作为授粉昆虫,在浙江大学华家池和长兴试验基地开展了田间种植试验,对收割的后代水稻种子进行室内种植培养,对种苗用潮霉素B和草甘膦处理进行转基因杂交种检测,对存活植株进行潮霉素和草甘膦抗性基因PCR检测,测试家蝇介导的转基因水稻外源基因逃逸频率。【结果】对浙江两个测试基地3个转基因水稻品种共计超过216 500粒后代水稻种子进行的检测及结果表明,在毗邻区域杂交种少,家蝇授粉区和无家蝇授粉区转基因水稻外源基因向非转基因水稻逃逸频率均较低(0~0.64%)。【结论】家蝇介导的转基因水稻外源基因逃逸频率较低,家蝇没有增加转基因水稻外源基因逃逸的风险。     

薇甘菊花芽分化前后内源激素及相关基因表达的研究

以云南省瑞丽市勐秀林场扦插种植的薇甘菊为试材,采用液相色谱串联质谱(LC-MS/MS)技术对花芽未分化期和花序原基分化期花芽中的生长素(IAA)、赤霉素(GA)、脱落酸(ABA)、反式玉米素(tZ)、异戊烯腺嘌呤(IP)、1-氨基环丙烷羧酸(ACC)、茉莉酸(JA)和水杨酸(SA)含量进行定量分析,同时基于转录组基因功能注释数据对内源激素合成、代谢及信号转导途径相关基因进行表达分析,以探讨不同内源激素对薇甘菊花芽形成的调控作用,以及内源激素合成和信号转导途径相关基因调控薇甘菊花芽分化的机制,为后期通过外源激素调控薇甘菊内源激素水平的方式来控制薇甘菊的有性繁殖提供理论和技术支持。结果表明：(1)薇甘菊未分化期花芽中GA₁₅、GA₁₉、GA₂₀、GA₂₄、IAA、ABA和ETH含量低于花序原基分化期,而未分化期花芽中两种细胞分裂素tZ和IP含量显著高于花序原基分化期。(2)基于RNA-seq测序结果,在薇甘菊两个花芽分化时期共获得7 116个差异表达基因(DEGs),其中上调3 907个,下调3 209个。(3)在内源激素合成方面,参与GA₁₅、GA₁₉、GA₂₀、GA₂₄、IAA、ABA和ACC合成的大量DEGs在花序原基分化期上调表达,这与它们在薇甘菊花序原基分化期的高含量趋势相一致;参与IAA合成的YUCCA基因家族和ACC合成的ACS基因在花序原基分化期的高表达也可能参与促进薇甘菊花芽分化。(4)在植物激素转导途径中,在花序原基分化期,生长素信号转导途径通过AUX/IAA(gene-E3N88_07743)的下调表达和ARF(gene-E3N88_41119)的上调表达,乙烯信号转导途径通过ERF(gene-E3N88_41547)的上调表达,赤霉素信号转导途径通过GID1(gene-E3N88_19448)基因的上调表达,细胞分裂素信号转导途径通过B-ARR(gene-E3N88_28086)和A-RRR(gene-E3N88_40764)基因的下调表达,脱落酸途径通过AREB(gene-E3N88_18558)基因的上调表达,茉莉酸信号转导途径通过JAZ(gene-E3N88_05628)的上调表达和MYC2(gene-E3N88_32405)的下调表达来调控薇甘菊花芽分化。研究发现,高水平的GA₁₅、GA₁₉、GA₂₀、GA₂₄、IAA、ABA和ACC有利于薇甘菊的花芽分化;薇甘菊在花芽分化过程中通过改变不同种类内源激素合成、代谢基因的表达来调控激素浓度,而激素又通过信号转导途径引起下游基因的表达,进而调控薇甘菊的花芽分化。     

小麦HMW-GS1Dx5基因的克隆及其特异性表达

显微切割了普通小麦钢８２－１２２（Ｔｒｉｔｉｃｕｍａｅｓｔｉｖｕｍ２ｎ＝４２）具有１Ｄｘ５＋１Ｄｙ１０亚基的１Ｄ染色体长臂端,利用ＰＣＲ扩增得到了ＨＭＷ－ＧＳ１Ｄｘ５亚基的５（端４００ｂｐ序列片段．以此作为探针从基因的组织特异性和特定发育阶段的表达两个方面研究了ＨＭＷ－ＧＳ１Ｄｘ５基因表达的规律．结果表明,干种子及萌发种子中存在此基因,而在发育的幼苗中此基因未表达．ＨＭＷ－ＧＳ１Ｄｘ５基因可能从开花初期开始表达．ＨＭＷ－ＧＳ１Ｄｘ５基因在籽粒成熟期表达,然而在营养器官如叶片中未表达,其表达存在组织特异性．ＨＭＷ－ＧＳ１Ｄｘ５基因在蜡熟期籽粒表达水平最高,其次是乳熟期籽粒．从开花１５ｄ至蜡熟期籽粒,表达趋于增加．开花１５ｄ其ｍＲＮＡ水平是蜡熟期籽粒ｍＲＮＡ的２８％,灌浆期为４０％、乳熟期为７２％、完熟期为５４％．这为进一步研究其表达调控和改善小麦品质打下基础     

Genetic analysis and molecular mapping of the avirulence gene PRE1, a gene for host-species specificity in the blast fungus Magnaporthe grisea.

We analyzed host-species specificity of Magnaporthe grisea on rice using 110 F1 progeny derived from a cross between the Oryza isolate CH87 (pathogenic to rice) and the Digitaria isolate 6023 (pathogenic to crabgrass). To elucidate the genetic mechanisms controlling species specificity in M. grisea, we performed a genetic analysis of species-specific avirulence on this rice population. Avirulent and virulent progeny segregated in a 1:1 ratio on the 2 rice cultivars 'Lijiangxintuanheigu' (LTH) and 'Shin2', suggesting that a single locus, designated PRE1, was involved in the specificity. In a combination between 'Kusabue' and 'Tsuyuake', the segregation of the 4 possible phenotypes of F1 progeny was significantly different from the expected 3:1:3:1 and instead fit a ratio of 2:0:1:1. This indicated that 2 loci, PRE1 and AVR2, were involved in specific parasitism on rice. These results suggest that the species specificity of M. grisea on rice is governed by species-dependent genetic mechanisms that are similar to the gene-for-gene interactions controlling cultivar specificity. Pathogenicity tests with various plant species revealed that the Digitaria isolate 6023 was exclusively parasitic on crabgrass. Genetic linkage analysis showed that PRE1 was mapped on chromosome 3 with respect to RAPD and SSR markers. RAPD marker S361 was linked to the avirulence gene at a distance of ~6.4 cM. Two SSR markers, m677-678 and m77-78, were linked to the PRE1 gene on M. grisea chromosome 3 at distances of 5.9 and 7.1 cM, respectively. Our results will facilitate positional cloning and functional studies of this gene.     

稻瘟菌侵染诱导水稻凝集素基因的表达

利用mRNA差异显示技术（DDRT-PCR）,从非亲和性稻瘟菌生理小种131侵染的水稻品种爱知旭（Oryza sati-vaL.cv.Aichi-asahi)叶片中分离了8个诱导差异表达的cDNA片段,对这8个差示片段进行了回收,重扩增和克隆,以其中一个长度为321碱基并与甘露糖结合水稻凝集素和水稻盐诱导蛋白基因高度同源的差示片段为探针。筛选水稻非亲和性cDNA文库,获得12个阳性克隆。序列测定和数据库查询表明该基因的cDNA与水稻凝集素基因的cDNA及盐诱导蛋白基因的cDNA核苷酸同源笥高达96%。推定的氨基酸序列与甘露糖结合水稻凝集素的氨基酸序列一致。与水稻盐诱导蛋白仅相差2个氨基酸。Southern杂交显示该基因在水稻基因组中有两个同源拷贝数。Northern杂交表明非亲和性稻瘟菌侵染可强烈诱导该基因表达。因此推则该基因参与了水稻对稻瘟菌侵染的防御反应。     

ABERRANT PANICLE ORGANIZATION 2/RFL, the rice ortholog of Arabidopsis LEAFY, suppresses the transition from inflorescence meristem to floral meristem through interaction with APO1

The temporal and spatial control of meristem identity is a key element in plant development. To better understand the molecular mechanisms that regulate inflorescence and flower architecture, we characterized the rice aberrant panicle organization 2 (apo2) mutant which exhibits small panicles with reduced number of primary branches due to the precocious formation of spikelet meristems. The apo2 mutants also display a shortened plastochron in the vegetative phase, late flowering, aberrant floral organ identities and loss of floral meristem determinacy. Map-based cloning revealed that APO2 is identical to previously reported RFL gene, the rice ortholog of the Arabidopsis LEAFY (LFY) gene. Further analysis indicated that APO2/RFL and APO1, the rice ortholog of Arabidopsis UNUSUAL FLORAL ORGANS, act cooperatively to control inflorescence and flower development. The present study revealed functional differences between APO2/RFL and LFY. In particular, APO2/RFL and LFY act oppositely on inflorescence development. Therefore, the genetic mechanisms for controlling inflorescence architecture have evolutionarily diverged between rice (monocots) and Arabidopsis (eudicots).     

水稻恢复系M630稻瘟病抗性改良及其代谢组研究

稻瘟病是水稻的主要病害之一,改良水稻稻瘟病抗性对水稻生产、推广具有重要意义.本研究以携带广谱抗稻瘟病基因Pi9材料9311-Pi9为供体,水稻优良恢复系M630为受体,将杂交、回交与分子标记辅助选择和背景筛选相结合,获得改良恢复系M630-Pi9.主要农艺性状和稻米品质分析显示改良后的M630-Pi9及其杂交组合徽两优...     

Identification and Gene Mapping of a Novel Mutant supernumerary Iodicules (snl) in Rice

In order to gain a better understanding of rice flower development, a rice flower mutant supernumerary lodicules (snl), which was identified from ethyl methane sulfonate (EMS)-treated Jinhui10 (Oryza sativa L. ssp. indica) was used in the present study. In the snl mutant, the palea obtained lemma identity, additional glume-like organs formed, lodicules increased and elongated, stamens decreased, and a few aberrant carpels formed. These phenotypes suggest that SNL is involved in the entire rice flower development. SNL was mapped between two simple sequence repeat markers RM3512 and RM1342 on chromosome 2, an approximate 800 kb region, and it co-segregated with SSR215. We conclude that SNL is a novel gene involved in flower development in rice. The present study will be useful for further cloning of the SNL gene, which will contribute to the elucidation of rice flower development.     

水稻花器官突变体apl (abnormal palea and lodicules) 的表型分析与基因初定位

水稻(Oryza sativa)是重要的粮食作物, 其花器官的正常起始及形态建成直接影响水稻的产量。为了深入分析水稻小花发育的调控机理, 从已构建的水稻EMS诱变突变体库中筛选获得了一个花器官异常发育的突变体apl (abnormal palea and lodicules)。与野生型相比, apl突变体小花的内稃膨大, 浆片伸长或转换成稃状结构, 雄蕊数目减少, 表明APL基因可能参与调控水稻内稃、浆片和雄蕊等多轮花器官属性的建成。遗传学分析表明, 该突变体性状受1个隐性单基因控制。通过图位克隆, 将APL基因初步定位于1号染色体上。该工作为深入研究APL基因在水稻花器官形态建成中的作用机制奠定了基础。     

水稻花器官突变体apl（abnormal palea and Iodicules）的表型分析与基因初定位

水稻（Oryzasafiva）是重要的粮食作物,其花器官的正常起始及形态建成直接影响水稻的产量。为了深入分析水稻小花发育的调控机理,从已构建的水稻EMS诱变突变体库中筛选获得了一个花器官异常发育的突变体apl（abnormal palea and Iodicules）。与野生型相比,apl变体小花的内稃膨大,浆片伸长或转换成稃状结构,雄蕊数目减少,表明APL基因可能参与调控水稻内稃、浆片和雄蕊等多轮花器官属性的建成。遗传学分析表明,该突变体性状受1个隐性单基因控制。通过图位克隆,将APL基因初步定位于1号染色体上。该工作为深入研究APL基因在水稻花器官形态建成中的作用机制奠定了基础。     

Identification of rice Allene Oxide Cyclase mutants and the function of jasmonate for defence against Magnaporthe oryzae

Two photomorphogenic mutants of rice, coleoptile photomorphogenesis 2 (cpm2) and hebiba, were found to be defective in the gene encoding allene oxide cyclase (OsAOC) by map‐based cloning and complementation assays. Examination of the enzymatic activity of recombinant GST–OsAOC indicated that OsAOC is a functional enzyme that is involved in the biosynthesis of jasmonic acid and related compounds. The level of jasmonate was extremely low in both mutants, in agreement with the fact that rice has only one gene encoding allene oxide cyclase. Several flower‐related mutant phenotypes were observed, including morphological abnormalities of the flower and early flowering. We used these mutants to investigate the function of jasmonate in the defence response to the blast fungus Magnaporthe oryzae. Inoculation assays with fungal spores revealed that both mutants are more susceptible than wild‐type to an incompatible strain of M. oryzae, in such a way that hyphal growth was enhanced in mutant tissues. The level of jasmonate isoleucine, a bioactive form of jasmonate, increased in response to blast infection. Furthermore, blast‐induced accumulation of phytoalexins, especially that of the flavonoid sakuranetin, was found to be severely impaired in cpm2 and hebiba. Together, the present study demonstrates that, in rice, jasmonate mediates the defence response against blast fungus.     

T20N点突变对水稻OsRacD蛋白GTP酶活性的影响

OsRacD是水稻小GTP结合蛋白Rho家族成员,其功能之一是作为“分子开关”,通过控制花粉管的延伸生长,参与光敏核不育水稻光周期的育性转换。在序列同源性比对和蛋白保守结构域分析的基础上,采用重叠延伸PCR方法在水稻OsRacD基因的第一个高度保守的基序G1区引入T20N点突变,模拟GDP结合形式的OsRacD。进一步构建了与组氨酸标签融合的原核表达载体,原核表达和纯化了野生型和突变型OsRacD蛋白,并通过Western blot证实了融合蛋白表达和纯化的正确性。纯化蛋白的GTP酶活性检测结果显示,突变后的OsRacD蛋白GTP水解活性显著降低,提示OsRacD在T20N突变前后具有不同的生化特性。