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Jeon JS  Lee S  An G 《Molecules and cells》2008,26(5):474-480
OsMADS1 is a rice MADS box gene necessary for floral development. To identify the key cis-regulatory regions for its expression, we utilized transgenic rice plants expressing GUS fusion constructs. Histochemical analysis revealed that the 5.7-kb OsMADS1 intragenic sequences, encompassing exon 1, intron 1, and a part of exon 2, together with the 1.9-kb 5' upstream promoter region, are required for the GUS expression pattern that coincides with flower-preferential expression of OsMADS1. In contrast, the 5' upstream promoter sequence lacking this intragenic region caused ectopic expression of the reporter gene in both vegetative and reproductive tissues. Notably, incorporation of the intragenic region into the CaMV35S promoter directed the GUS expression pattern similar to that of the endogenous spatial expression of OsMADS1 in flowers. In addition, our transient gene expression assay revealed that the large first intron following the CaMV35S minimal promoter enhances flower-preferential expression of GUS. These results suggest that the OsMADS1 intragenic sequence, largely intron 1, contains a key regulatory region(s) essential for expression.  相似文献   

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Deyholos MK  Sieburth LE 《The Plant cell》2000,12(10):1799-1810
We analyzed the 4-kb intragenic control region of the AGAMOUS (AG) gene to gain insight into the mechanisms controlling its expression during early flower development. We identified three major expression patterns conferred by 19 AG::reporter gene constructs: the normal AG pattern, a stamen-specific pattern, and a predominantly carpel pattern. To determine whether these three expression patterns were under negative control by APETALA2 (AP2) or LEUNIG (LUG), we analyzed beta-glucuronidase staining patterns in Arabidopsis plants homozygous for strong ap2 and lug mutations. Our results indicated that the stamen-specific pattern was independent of AP2 but dependent on LUG; conversely, the carpel-specific pattern was independent of LUG but dependent on AP2. These results lead to a model of control of AG expression such that expression in each of the two inner whorls is under independent positive and negative control.  相似文献   

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G N Drews  J L Bowman  E M Meyerowitz 《Cell》1991,65(6):991-1002
We characterized the distribution of AGAMOUS (AG) RNA during early flower development in Arabidopsis. Mutations in this homeotic gene cause the transformation of stamens to petals in floral whorl 3 and of carpels to another ag flower in floral whorl 4. We found that AG RNA is present in the stamen and carpel primordia but is undetectable in sepal and petal primordia throughout early wild-type flower development, consistent with the mutant phenotype. We also analyzed the distribution of AG RNA in apetela2 (ap2) mutant flowers. AP2 is a floral homeotic gene that is necessary for the normal development of sepals and petals in floral whorls 1 and 2. In ap2 mutant flowers, AG RNA is present in the organ primordia of all floral whorls. These observations show that the expression patterns of the Arabidopsis floral homeotic genes are in part established by regulatory interactions between these genes.  相似文献   

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Aquaporins make water-selective channels in plants, facilitating the permeation of water through membranes and adjusting water fast transport during seed germination, cell elongation, stoma movement, fertilization and responses to environmental stresses. They belong to the MIP (major intrinsic protein) family with molecular weight of 2629 kD and are characterized by six membrane-spanning a-helixes connected by five loops and short N-terminal and C-terminal domains in the cytoplasm[13]. The p…  相似文献   

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Mutations in the AGAMOUS (AG) gene cause transformations in two adjacent whorls of the Arabidopsis flower. Petals develop in the third floral whorl rather than the normal stamens, and the cells that would normally develop into the fourth whorl gynoecium behave as if they constituted an ag flower primordium. Early in flower development, AG RNA is evenly distributed throughout third and fourth whorl organ primordia but is not present in the organ primordia of whorls one and two. In contrast to the early expression pattern, later in flower development, AG RNA is restricted to specific cell types within the stamens and carpels as cellular differentiation occurs in those organs. Ectopic AG expression patterns in flowers mutant for the floral homeotic gene APETELA2 (AP2), which regulates early AG expression, suggest that the late AG expression is not directly dependent on AP2 activity.  相似文献   

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A 1.6 kb upstream regulatory sequence (GenBank accession no. AF472487) of plasma membrane aquaporinBnPIP1 gene fromBrassica napus was obtained by genomic walking based on ligation-mediated PCR method. Sequence analysis indicated that this fragment contained seed germination specific and vascular specific sequences. The 1.6 kb upstream sequence and various 5′ end deleted sequences were fused withuidA gene and constructed into plant expression vectors which were used for tobacco transformation. GUS histochemical assay showed that the 1.6 kb fragment had high levels of promoter activity and the GUS staining was mainly distributed in vascular systems and tissues with rapid expanding and proliferating cells. Promoter deletion analysis showed that the deletion of -1610 — -1030 bp resulted in a dramatic reduction in GUS activity. It was assumed that there might be cis-acting element(s) existing in this region. Whereas, the region located at -1030 — -902 bp strongly inhibited the expression ofgus and probably contained negative regulatory element(s). The fragment of -902 — -19 bp could also directgus expression at high level.  相似文献   

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启动子位于转录起始位点上游并能特异性地结合RNA聚合酶,其作为调控序列驱动外源基因在异源植物中表达,从而实现转基因的高效性,具有时空表达特异性的启动子对获得有效转基因植物及产物具有重要意义。为了解种皮特异启动子的表达模式,该研究基于前期报道的序列,通过同源克隆的方法分别从大麦和油菜中克隆获得Gerb和Bntt两个种皮特异性启动子,并对其进行生物信息学分析,构建了Gerb::GUS和Bntt::GUS植物表达载体并转化拟南芥,通过组织化学染色观察了GUS的表达情况。结果表明:两种启动子序列中都含有多拷贝种皮特异表达启动子元件以及多种胁迫诱导响应元件;转基因拟南芥幼苗期,大麦Gerb种皮特异启动子驱动GUS全株表达且子叶和下胚轴较真叶和根中表达量高;油菜Bntt种皮特异启动子表达较弱;成株期,Gerb在不同组织(叶片、茎、花序和角果)中均有表达,未显示组织特异性;Bntt仅在叶片及角果维管束中有微弱表达。在各种非生物胁迫下,Gerb表达模式未发生显著变化,而Bntt仅在盐胁迫下显示很强的角果和种子特异性表达,其他胁迫未见明显表达。以上结果显示,大麦种皮特异性启动子Gerb和油菜种皮特异性启动子Bntt在时间和空间表达模式上存在差异,这对今后选择种皮特异启动子具有参考作用,但其具体机制仍需进一步研究验证。  相似文献   

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细胞分裂素对拟南芥(Arab idopsis thal iana)花分生组织细胞的分裂和分化具有重要作用。本研究利用APETALA1(AP1)特异启动子在花分生组织和第1、2轮花器官中表达细胞分裂素合成酶(isopentyl trans ferase, IPT)基因IPT4, 研究细胞分裂素对花和花器官发育的影响。在pAP1::IPT4转基因植株中出现了花密集和花器官数目增多等现象。原位杂交和GUS组织染色结果发现, 在pAP1::IPT4转基因植株中, 花分生组织特征决定基因LEAFY (LFY)与花器官特征决定基因AP1、PISTILLATA (PI )和AGAMOUS (AG)的表达量均有不同程度的提高。研究结果表明在拟南芥中表达pAP1::IPT4影响其花和花器官的正常发育。  相似文献   

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Several members of the MADS-box gene family have been shown to be important regulators of flower development, controlling such well-studied early events as the formation of the floral meristem and the specification of floral organ identity. Other floral-specific MADS-box genes, of as yet unknown function, have been isolated by homology and are proposed to be part of a regulatory hierarchy controlling flower development. Some of these genes might regulate later aspects of flower development, such as development of individual floral organs, which is less well studied at the molecular level. This paper presents a detailed analysis of the expression pattern of one such gene from Arabidopsis , AGL1 , using RNA in situ hybridization. It is found that AGL1 is specifically expressed in particular regions of the gynoecium and ovule, only during and after floral development stage 7. AGL1 expression at the tip of the growing carpel primordia, along the margins of the ovary valves in developing and mature gynoecia and in specific regions of developing and mature ovules provides important insights into the possible roles of AGL1 . It is proposed that AGL1 may have regulatory functions in the structural definition and/or function of the valve margins, in axis maintenance during ovule development, in nutritional supply to the growing ovule and embryo sac, and in pollen tube guidance. In the floral homeotic mutants ag-1 , ap3-3 and ap2-2 , AGL1 mRNA is expressed in an organ-dependent manner, suggesting that AGL1 is a carpel-specific gene and as such ultimately depends upon the carpel identity gene AG for proper gene expression.  相似文献   

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