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排序方式: 共有108条查询结果,搜索用时 384 毫秒
1.
Nacyra Assad-García Neftali Ochoa-Alejo Enrique García-Hernández Luis Herrera-Estrella June Simpson 《Plant cell reports》1992,11(11):558-562
A protocol for the Agrobacterium-mediated transformation of tomatillo was developed. Up to 40 transgenic plants could be obtained in experiments using 60 cotyledon expiants. The transformed nature of the regenerated plants was confirmed by NPT II and Southern blot hybridization analysis. Using the b-glucuronidase system the tissue specific and developmental patterns of expression of the Cauliflower Mosaic Virus 35S promoter were determined in transgenic tomatillo plants. It was found that this promoter is developmentally regulated during fruit and seed formation. 相似文献
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3.
The restriction enzymes AluI, BamHI, BglII, EcoRI, HindIII, and SalI have been used to characterize and map a new cauliflower mosaic virus strain (Cabb-S). These fragments have been ordered by examining their overlapping regions after double enzymatic digestion. The single SalI cleavage site was chosen as the point of origin. We compare this strain with those already described. 相似文献
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A new cotton variant with reduced levels of terpenoid aldehydes (sesquiterpenoids and sesterterpenoids (heliocides)) was isolated from the progeny of hemizygous cotton (Gossypium hirsutum cv. Coker 312) transformed with antisense (+)-delta-cadinene synthase cDNA. Southern analysis of leaf DNA digested with HindIII, Pst or KpnI restriction endonucleases did not detect any antisense cdn1-C1 DNA in the genome of the variant. The gossypol content in the seed of the variant was markedly lower than in the seed of T1 antisense plants. Eighty-nine percent of the variant seed had a 71.1% reduction in gossypol and the foliage of the variant plants showed a 70% reduction in gossypol and a 31% reduction in heliocides. Compared to non-transformed plants there was no reduction in the number of lysigenous glands in the seed of the variant. The cotton variant shows uncoupling of terpenoid aldehyde synthesis and gland formation. The cotton variant may have resulted from somaclonal variation occurring in the callus tissue during the transformation-regeneration process. 相似文献
6.
Promoter strength and tissue specificity effects on growth of tomato plants transformed with maize sucrose-phosphate synthase 总被引:10,自引:0,他引:10
Laporte MM Galagan JA Prasch AL Vanderveer PJ Hanson DT Shewmaker CK Sharkey TD 《Planta》2001,212(5-6):817-822
When sucrose-phosphate synthase (SPS; EC 2.4.1.14) is expressed in tomato (Lycopersicon esculentum Mill.) from a ribulose-1,5-bisphosphate carboxylase-oxygenase (Rubisco) small subunit (rbcS) promoter, yields are often unchanged but when SPS is expressed from a Cauliflower Mosaic Virus 35S promoter, yield is enhanced
up to 80%. Two explanations for this phenomenon are (i) that expression of SPS in tissues other than leaves accounts for the
increased yield or (ii) that the lower level of expression directed by the 35S promoter is more beneficial than the high level
of expression directed by the rbcS promoter. To test the first hypothesis, we conducted a reciprocal graft experiment, which showed that root SPS activity did
not substantially affect growth. To test the second hypothesis, we conducted a field trial using a backcrossed, segregating,
population of SPS-transformed plants derived from 35S and rbcS lines. The optimal dose of SPS activity for growth was approximately twice that of the wild type regardless of which promoter
was used. The effect of SPS on growth was the result of a shift in partitioning of carbon among starch, sucrose, and ionic
compounds (primarily amino acids), rather than of an increase in net photosynthesis. Excessive SPS activity resulted in a
decreased rate of amino acid synthesis, which could explain the non-linear response of plant growth to the level of SPS expression.
Received: 23 May 2000 / Accepted: 24 July 2000 相似文献
7.
Developmental and tissue-specific expression of CaMV 35S promoter in cotton as revealed by GFP 总被引:16,自引:0,他引:16
The CaMV 35S promoter is the most commonly used promoter for driving transgene expression in plants. Though it is presumed to be a constitutive promoter, some reports suggest that it is not expressed in all cell types. In addition, the information available on its expression profile in all possible cell and tissue types and during early stages of development is incomplete. We present here a detailed expression profile of this promoter investigated using the green fluorescent protein (GFP) gene as a reporter system in cotton during embryo development, and in all the vegetative and floral cell and tissue types. GFP expression was not detected during the early stages of embryogenesis. The first perceptible GFP expression was observed in a small area at the junction of hypocotyl and cotyledons in embryos at around 13 days after anthesis. The GFP fluorescence progressively became stronger and expanded throughout the cotyledon and hypocotyl as embryo development advanced. After germination, varying levels of promoter activity were observed in all cell and tissue types in the hypocotyl, cotyledon, stem, leaf, petiole, and root. The promoter was also expressed in all floral parts. Although cotton pollen exhibited a low level of greenish autofluorescence, it was possible to discern GFP-dependent fluorescence in some of the pollen from all the T0 plants examined. Developing cotton fibers also exhibited GFP fluorescence suggesting that the 35S promoter was active in these specialized epidermal cells. Thus, we show that the expression of the 35S promoter was developmentally regulated during embryogenesis and that beyond a certain stage during embryogenesis, the promoter was expressed in most cell and tissue types in cotton albeit at different levels. 相似文献
8.
P. Arokiaraj H. Yeet Yeang K. Fong Cheong S. Hamzah H. Jones S. Coomber B. V. Charlwood 《Plant cell reports》1998,17(8):621-625
Hevea brasiliensis anther calli were genetically transformed using Agrobacterium GV2260 (p35SGUSINT) that harboured the β-glucuronidase (gus) and neomycin phosphotransferase (nptII) genes. β-Glucuronidase protein (GUS) was expressed in the leaves of kanamycin-resistant plants that were regnerated, and the presence
of the gene was confirmed by Southern analysis. GUS was also observed to be expressed in the latex and more importantly in
the serum fraction. Transverse sections of the leaf petiole from a transformed plant revealed GUS expression to be especially
enhanced in the phloem and laticifers. GUS expression was subsequently detected in every one of 194 plants representing three
successive vegetative cycles propagated from the original transformant. Transgenic Hevea could thus facilitate the continual production of foreign proteins expressed in the latex.
Received: 14 February 1997 / Revision received: 16 August 1997 / Accepted: 20 July 1997 相似文献
9.
Oppenheimer DG 《Current opinion in plant biology》1998,1(6):520-524
Plant cells have a variety of shapes crucial for their functions, yet the mechanisms that generate these shapes are poorly understood. Genetic dissection of the trichome (plant hair) branching pathway in Arabidopsis, has uncovered mechanisms and identified genes that control plant cell morphogenesis. The recent identification of one of these genes, ZWICHEL (ZWI), as a novel member of the kinesin superfamily of microtubule motors provides a starting point for the analysis of the plant cytoskeleton's role in a specific morphogenetic event. 相似文献
10.
Functional analysis of cauliflower mosaic virus 35S promoter: re-evaluation of the role of subdomains B5, B4 and B2 in promoter activity 总被引:3,自引:0,他引:3
Bhullar S Datta S Advani S Chakravarthy S Gautam T Pental D Burma PK 《Plant biotechnology journal》2007,5(6):696-708
The cauliflower mosaic virus 35S (35S) promoter is used extensively for transgene expression in plants. The promoter has been delineated into different subdomains based on deletion analysis and gain-of-function studies. However, cis -elements important for promoter activity have been identified only in the domains B1 ( as-2 element), A1 ( as-1 element) and minimal promoter (TATA box). No cis -elements have been described in subdomains B2–B5, although these are reported to be important for the overall activity of the 35S promoter. We have re-evaluated the contribution of three of these subdomains, namely B5, B4 and B2, to 35S promoter activity by developing several modified promoters. The analysis of β-glucuronidase gene expression driven by the modified promoters in different tissues of primary transgenic tobacco lines, as well as in seedlings of the T1 generation, revealed new facets about the functional organization of the 35S promoter. This study suggests that: (i) the 35S promoter truncated up to –301 functions in a similar manner to the –343 (full-length) 35S promoter; (ii) the Dof core and I-box core observed in the subdomain B4 are important for 35S promoter activity; and (iii) the subdomain B2 is essential for maintaining an appropriate distance between the proximal and distal regions of the 35S promoter. These observations will aid in the development of functional synthetic 35S promoters with decreased sequence homology. Such promoters can be used to drive multiple transgenes without evoking promoter homology-based gene silencing when attempting gene stacking. 相似文献