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We developed a novel system for gene activation in plastids that uses the CRE/loxP site-specific recombination system to create a translatable reading frame by excision of a blocking sequence. To test the
system, we introduced an inactive gfp* gene into the tobacco plastid genome downstream of the selectable spectinomcyin resistance (aadA) marker gene. The aadA gene is the blocking sequence, and is flanked by directly oriented loxP sites for excision by the CRE. In the non-activated state, gfp* is transcribed from the aadA promoter, but the mRNA is not translated due to the lack of an AUG translation initiation codon. Green Fluorescent Protein
(GFP) expression is activated by excision of the aadA coding segment to link up the gfp* coding region with the translation initiation codon of aadA. Tobacco plants that carry the inactive gfp* gene do not contain detectable levels of GFP. However, activation of gfp* resulted in GFP accumulation, proving the utility of CRE-induced protein expression in tobacco chloroplasts. The gene activation
system described here will be useful to probe plastid gene function and for the production of recombinant proteins in chloroplasts. 相似文献
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Sithichoke Tangphatsornruang Maliwan Naconsie Chinae Thammarongtham Jarunya Narangajavana 《Plant Physiology and Biochemistry》2005,43(9):821-827
The roots of cassava plants (Manihot esculenta Crantz) accumulate starch as their major form of carbohydrate reserve. Starch accumulation and properties are determined by a balance between starch biosynthesis and degradation processes. Alpha-amylases (EC 3.2.1.1) are alpha-1,4 endoglycolytic enzymes, responsible for the mobilization of stored carbohydrate reserves by initiating the degradation process. Alpha-amylase genes have been shown to be differentially expressed at various developmental stages and environmental conditions through the action of plant hormones such as abscisic acid (ABA) and gibberellic acid (GA). In this study, we isolated an alpha-amylase gene from cassava tuberous roots (designated as MEamy2, GenBank accession number DQ011041). The deduced product of MEamy2 is 407 amino acid residues in length, with a calculated molecular mass of 46.7 kDa and an isoelectric point of 8.66. Southern blot analysis showed that the MEamy2 is present as a single copy in cassava genome. It shares the highest homology with AMY8 from apple fruit. The predicted structural model of MEamy2 contains three domains, active sites and starch-binding domain that are common with other plant alpha-amylases. RT-PCR analysis showed that the MEamy2 gene expression was induced in cassava roots within 2 hours after treatment with GA, but not ABA. 相似文献
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Prapapan Teerawanichpan Palika Krittanai Nopmanee Chauvatcharin Jarunya Narangajavana 《Plant Physiology and Biochemistry》2009,47(8):671-680
Epigenetic modification is essential for normal development and plays important roles in gene regulation in higher plants. Multiple factors interact to regulate the establishment and maintenance of DNA methylation in plant genome. We had previously cloned and characterized DNA methyltransferase (DNA MTase) gene homologues (OsMET1) from rice. In this present study, determination of DNA MTase activity in different cellular compartments showed that DNA MTase was enriched in nuclei and the activity was remarkably increased during imbibing dry seeds. We had optimized the purification technique for DNA MTase enzyme from shoots of 10-day-old rice seedlings using the three successive chromatographic columns. The Econo-Pac Q, the Hitrap-Heparin and the Superdex-200 columns yielded a protein fraction of a specific activity of 29, 298 and 800 purification folds, compared to the original nuclear extract, respectively. The purified protein preferred hemi-methylated DNA substrate, suggesting the maintenance activity of methylation. The native rice DNA MTase was approximately 160–170 kDa and exhibited a broad pH optimum in the range of 7.6 and 8.0. The enzyme kinetics and inhibitory effects by methyl donor analogs, base analogs, cations, and cationic amines on rice DNA MTase were examined. Global cytosine methylation status of rice genome during development and in various tissue culture systems were monitored and the results suggested that the cytosine methylation level is not directly correlated with the DNA MTase activity. The purification and characterization of rice DNA MTase enzyme are expected to enhance our understanding of this enzyme function and their possible contributions in Gramineae plant development. 相似文献
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Thagun C Srisala J Sritunyalucksana K Narangajavana J Sojikul P 《Journal of biotechnology》2012,161(1):60-67
White spot syndrome virus is currently the leading cause of production losses in the shrimp industry. Penaeus monodon Rab7 protein has been recognized as a viral-binding protein with an efficient protective effect against white spot syndrome infection. Plant-derived recombinant PmRab7 might serve as an alternative source for in-feed vaccination, considering the remarkable abilities of plant expression systems. PmRab7 was introduced into the Arabidopsis thaliana T87 genome. Arabidopsis-derived recombinant PmRab7 showed high binding activity against white spot syndrome virus and a viral envelope, VP28. The growth profile of Arabidopsis suspension culture expressing PmRab7 (ECR21# 35) resembled that of its counterpart. PmRab7 expression in ECR21# 35 reached its maximum level at 5 mg g(-1) dry weight in 12 days, which was higher than those previously reported in Escherichia coli and in Pichia. Co-injection of white spot syndrome virus and Arabidopsis crude extract containing PmRab7 in Litopenaeus vannamei showed an 87% increase in shrimp survival rate at 5 day after injection. In this study, we propose an alternative PmRab7 source with higher production yield, and cheaper culture media costs, that might serve the industry's need for an in-feed supplement against white spot syndrome infection. 相似文献
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Evaluation of a morphological marker selection and excision system to generate marker-free transgenic cassava plants 总被引:1,自引:0,他引:1
Laddawan Saelim Salak Phansiri Malinee Suksangpanomrung Supatcharee Netrphan Jarunya Narangajavana 《Plant cell reports》2009,28(3):445-455
The efficacy of the ipt-type Multi-Auto-Transformation (MAT) vector system to transform the extensively grown cassava cultivar “KU50” was evaluated.
This system utilizes the isopentenyltransferase (ipt) gene as morphological marker for visual selection of transgenic lines. The extreme shooty phenotype (ESP) of transgenic
lines is lost due to the removal of ipt gene mediated by the yeast Rint/RS system. As a result, phenotypically normal shoots, considered marker-free transgenic plants,
could be obtained. When transforming KU50 cassava cultivar with two different ipt-type MAT vectors, transformation frequency at 19–21% was observed. Among the total number of ESP explants, 32–38% regained
normal extended shoot phenotype and 88–96% of which were confirmed to represent the marker-free transgenic plants. This is
the first demonstration of the efficacy of Rint/RS system in promoting excision of ipt marker gene in cassava specie, with the consequent rapid production of marker-free transgenic plants. The high efficiency
of this system should facilitate pyramiding a number of transgenes by repeated transformation without having to undergo through
laborious, expensive and time-consuming processes of sexual crossing and seed production. The generation of marker-free, thus
environmentally safe, genetically modified cassava clones should also ease the public concerns regarding the use of transgenic
cassava in both food and nonfood industries. 相似文献
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Yokthongwattana C Mahong B Roytrakul S Phaonaklop N Narangajavana J Yokthongwattana K 《Planta》2012,235(3):649-659
Salinity stress is one of the most common abiotic stresses that hamper plant productivity worldwide. Successful plant adaptations
to salt stress require substantial changes in cellular protein expression. In this work, we present a 2-DE-based proteomic
analysis of a model unicellular green alga, Chlamydomonas reinhardtii, subjected to 300 mM NaCl for 2 h. Results showed that, in addition to the protein spots that showed partial up- or down-regulation
patterns, a number of proteins were exclusively present in the proteome of the control cells, but were absent from the salinity-stressed
samples. Conversely, a large number of proteins exclusively appeared in the proteome of the salinity-stressed samples. Of
those exclusive proteins, we could successfully identify, via LC–MS/MS, 18 spots uniquely present in the control cells and
99 spots specific to NaCl-treated cells. Interestingly, among the salt-exclusive protein spots, we identified several important
housekeeping proteins like molecular chaperones and proteins of the translation machinery, suggesting that they may originate
from post-translational modifications rather than from de novo biosynthesis. The possible role and the salt-specific modification
of these proteins by salinity stress are discussed. 相似文献