共查询到20条相似文献,搜索用时 15 毫秒
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Kjell Stålberg Mats Ellerström Lars-Göran Josefsson Lars Rask 《Plant molecular biology》1993,23(4):671-683
The promoter and upstream region of the Brassica napus 2S storage protein napA gene were studied to identify cis-acting sequences involved in developmental seed-specific expression. Fragments generated by successive deletions of the 5 control region of the napA gene were fused to the reporter gene -glucuronidase (GUS). These constructs were used to transform tobacco leaf discs. Analyses of GUS activities in mature seeds from the transformed plants indicated that there were both negatively and positively acting sequences in the napin gene promoter. Deletion of sequences between –1101 and –309 resulted in increased GUS activity. In contrast, deletion of sequences between –309 and –211 decreased the expression. The minimum sequence required for seed-specific expression was a 196 bp fragment between –152 and +44. Further 5 deletion of the fragment to –126 abolished this activity. Sequence comparison showed that a G box-like sequence and two sequence motifs conserved between 2S storage protein genes are located between –148 to –120. Histochemical and fluorometric analysis of tobacco seeds showed that the spatial and developmental expression pattern was retained in the deletion fragments down to –152. However, the expression in tobacco seeds differed from the spatial and temporal expression in B. napus. In tobacco, the napA promoter directed GUS activity early in the endosperm before any visible activity could be seen in the heart-shaped embryo. Later, during the transition from heart to torpedo stages, the main expression of GUS was localized to the embryo. No significant GUS activity was found in either root or leaf. 相似文献
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Induced expression of a chimeric gene construct in transgenic lettuce plants using tobacco pathogenesis-related protein gene promoter region 总被引:3,自引:0,他引:3
The expression of a stress- and salicylic acidinducible protein gene from tobacco, PR1a protein gene, was determined after its Introduction to lettuce (Lactuca sativa L.) plants. The 5 flanking 2.4 Kb fragment from PR1a gene was joined to the bacterial -glucuronidase (GUS) gene (PR-GUS) and introduced into lettuce cotyledons by Agrobacterium-mediated gene transfer using a binary vector containing a kanamycin-resistance gene as a selectable marker. As a control with constitutive expression, the chimeric gene consisting of CaMV 35S RNA promoter and GUS gene (35S-GUS) was used. An improved method for shoot formation directly from lettuce cotyledons was used effectively for transformation, shortening the time for regeneration. In 70% or more of kanamycin-resistant regenerated lettuce plants, into which PR-GUS or 35S-GUS was introduced, high GUS activity and integration of the chimeric gene into the lettuce genome were detected. By treatment with salicylic acid, GUS activity increased 3- to 50-fold in PR-GUS transformants, however, no increase was detected in 35S-GUS plants. These results showed that the promoter of the stress-inducible tobacco PR1a protein gene was introduced into lettuce plants, and the introduced chimeric gene was expressed normally under the regulated control of the PRla promoter.Abbreviations BA
N6-benzyladenine
- GUS
-glucuronidase
- NAA
-naphthaleneacetic acid
- Km
kanamycin
- Kms
kanamycin resistant
- Km0
kanamycin sensitive
- NPT- II
neomycin phosphotransferase II
- PR
pathogenesis-related
- SA
salicylic acid
- MS
Murashige and Skoog medium
- NOS
nopaline synthase 相似文献
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Analysis of a maize α-tubulin gene promoter by transient expression and in transgenic tobacco plants 总被引:1,自引:0,他引:1
Joan Rigau Montserrat Capellades Lluis Montoliu Miguel Angel Torres Carme Romera José Antonio Martínez-Izquierdo Denis Tagu Pere Puigdomènech 《The Plant journal : for cell and molecular biology》1993,4(6):1043-1050
The pattern of expression directed by the promoter of the maize Tub α 1 gene was investigated by analysis of chloramphenicol acetyl transferase (CAT) and β-glucuronidase (GUS) activities in transient expression experiments of maize and tobacco protoplasts. The same promoter was also investigated by histochemical GUS analysis in transgenic tobacco plants containing promoter gene fusions. As determined by histochemical tests, the Tub α 1 promoter gene preferentially directs GUS expression in regenerating root tip meristems and pollen. This pattern corresponds to the distinctive features of natural expression of the gene in maize as determined by Northern analysis. However, no expression is observed in other meristematic tissues of the transgenic tobacco plants, as in shoot apex or in coleoptiles, which is weakly detected in maize. Analysis of the regulatory properties of 5' promoter deletions showed that the proximal region of the promoter, from positions −1410 or −449 to 15 bp upstream of the ATG, is sufficient to establish the qualitative pattern of expression in transgenic tobacco plants. Deletions to positions −352 or −117 abolished the expression in roots, but not in pollen, suggesting that upstream of these positions there are elements responsible for the pattern in root. Further deletions abolished all the promoter activity, suggesting that this promoter region contains the elements essential for expression in pollen. The different patterns and levels of transient and stable expression are discussed. 相似文献
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Summary A chimeric gene under the control of the hsp70 promoter of Drosophila is heat regulated in roots, stems and leaves, but not in pollen of transgenic tobacco plants. For these and other parameters, it behaves similarly to plant heat-shock genes. 相似文献
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Variability of expression of introduced marker genes was analysed in a large number of tobacco regenerants from anAgrobacterium-mediated transformation. In spite of standardization of sampling, considerable variation of GUS and NPTII expression was observed between individual transformants at different times of analysis and in different parts of the same plant. Organ-specificity of root versus leaf expression conferred by the par promoter from the haemoglobin gene ofParasponia andersonii in front of thegus gene showed a continuous spectrum. GUS expression in roots was found in 128 out of 140 plants; expression in leaves was found in 46 plants, and was always lower than in the corresponding roots. NPTII expression regulated by the nos promoter also showed a continuous spectrum. Expression levels were generally higher in roots than in leaves. Plants with high GUS expression in leaves showed high NPTII activity as well. A positive correlation between the level of NPTII expression and the numbers of integrated gene copies was noted. Chromosomal position effects and physiological determination are suggested as triggers for the variations. The transformed regenerated tobacco plants were largely comparable to clonal variants. 相似文献
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Yan Zhao Ying Wang Qing Liu Ying Zhai Yang Zhao Meijuan Zhang Wei Sha 《Plant Cell, Tissue and Organ Culture》2017,130(2):379-391
LEA1 gene from Glycine max can be expressed in late-embryo stage of plants, and respond to salinity and dehydration stress. To elucidate the mechanism for stress tolerance and high expression in seeds, we isolated and characterized the promoter of LEA1 gene (EQ, 1997 bp) starting the 5′LEA1 coding region. A deletion mutant of EQ promoter (ED) and the full length promoter (EQ) were fused to GUS reporter gene and transformed into the tobacco leaf discs. The results indicated that expression of the reporter gene (GUS) could be regulated by EQ promoter, and was stronger than the mutant under the stress conditions. Also, the expression level of GUS gene driven by EQ promoter in transgenic tobacco seeds was significantly higher than that by the mutant promoter, which meant that it had a better tissue-specificity. Therefore, the active domain for the promoter was located between ?1997 and ?1000 bp. Additionally, the activity of EQ promoter was 2.1-, 3.3- and 0.4- times stronger than the activity of promoter CaMV35S under salt (24 h), drought (10 h) or ABA (24 h), respectively. Meanwhile, the GUS activity of EQ promoter in seeds was 1.8-fold stronger compared to the promoter CaMV35S. In summary, the new promoter (EQ) is bi-functional, stress-inducible and seed-specific. These findings provide a further understanding for the regulation of LEA1gene expression, and suggest a new way for improving seed quality under saline and alkaline land. 相似文献
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Kazuko Yamaguchi-Shinozaki Masanobu Mino John Mundy Nam-Hai Chua 《Plant molecular biology》1990,15(6):905-912
We have analyzed in transgenic tobacco the expression of a chimeric gene containing 5 sequences of the rice rab-16B gene fused to the -glucuronidase (GUS) reporter gene. This construct, a translational fusion (–482 to +184) including 14 amino acids of the RAB-16B protein, is expressed only in zygotic and pollen-derived embryos. In zygotic embryos, GUS activity begins to accumulate 10 days after flowering (daf), and increases until seed maturation at 25 daf. Immunological measurements of endogenous abscisic acid (ABA) accumulation in these seeds showed a close parallel between hormone levels and GUS activity. However, GUS activity could not be reproducibly induced by treatment of immature embryos with ABA (10 M). Neither GUS activity nor GUS mRNA could be detected in leaves of transgenic tobacco even after ABA treatment. In contrast, GUS activity could be induced to high levels in pollen-derived embryos by treatment with ABA. Our results show that 482 bp of 5 sequences of the rice rab-16B promoter can confer in transgenic tobacco developmentally regulated expression in embryos but not ABA-responsive expression in vegetative tissues. 相似文献
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《Plant Physiology and Biochemistry》1999,37(4):273-282
In this paper, we present the complete nucleotide sequence of the csp1 gene from Coffea arabica coding for the 11S-globulin seed storage protein. To investigate the sequences responsible for the regulated expression of this seed-specific coffee storage protein gene, about 1 kb of the 5'-upstream region from the csp1 gene was isolated using inverse polymerase chain reaction (IPCR) and then sequenced. Several DNA boxes were found in this coffee sequence that had similarity to those previously identified as being essential for grain (endosperm) specific expression in other plants. To study the ability of this sequence to direct grain-specific expression, the whole fragment, as well as a series of 5' deletions, was fused to the reporter gene β-glucuronidase (uidA) and analysed in transgenic Nicotiana tabacum plants. GUS measurements showed that all the deletions of the csp1 promoter directed the expression of the reporter gene in tobacco grain but not in the other tissues examined. GUS activities also revealed that the csp1 promoter constructs function as very strong promoters by comparison to the strength of the cauliflower mosaic virus (CaMV) 35S promoter. Therefore, this 11S promoter could represent a useful tool to change the expression of targeted genes in the grain of transgenic coffee plants. 相似文献
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