Expression of Potato Virus Y Coat Protein Gene in Transgenic Potato

Potato virus Y (PVY) N coat protein (CP) coding sequence was cloned into a plant expression vector pMON316 under the CaMV 35S promoter. Leaf discs of potato (Solanum tuberosum) were used to Agrobacterium-mediated gene transfer. A large number of regenerated putative transgenic plants were obtained based on kanamycin resistance. Using total DNA purified from transgenic plants as templates and two oligonucleotides synthesized from 5' and 3' of the PVY coat protein gene as primers, the authors carried out polymerase chain reaction (PCR) to check the presence of this gene and obtained a 0. 8 kb specific DNA fragment after 35 cycles of amplification. Southern blot indicated that the PCR product was indeed PVY CP gene which had been integrated into the potato genome. Enzyme-linked immunosorbent assay (ELISA) of our transgenic plants showed that CP gene was expressed in at least some transgenic potato plants.     

Cloning and Characterization of the Human Lectin P35 Gene and Its Related Gene

We previously cloned a novel human lectin, designated P35, with both collagen-like and fibrinogen-like domains. P35 recognizes GlcNAc residues and is opsonic toward microorganisms. The overall structure of P35 closely resembles those of two pig ficolins that are putative TGF-β1-binding proteins. In this study, we analyzed the exon–intron structure and chromosomal location of the P35 gene as well as its structural relationship to splicing variants. In addition, we isolated another distinct genomic clone corresponding to the upstream region of a P35-related gene that has an exon organization closely resembling that of the P35 gene. The sequences of exons in the P35-related gene were identical to the cDNA sequence reported for “human ficolin.” Northern blotting revealed that the P35 gene is expressed mainly in liver, whereas the P35-related gene is expressed in lung and peripheral blood leukocytes, demonstrating tissue-specific expression of these two genes. Both genes were assigned to a closely related region of chromosome 9 at 9q34.     

Expression of recombinant trichosanthin,a ribosome-inactivating protein,in transgenic tobacco

Trichosanthin (TCS) is an antiviral plant defense protein, classified as a type-I ribosome-inactivating protein, found in the root tuber and leaves of the medicinal plant Trichosanthes kirilowii. It is processed from a larger precursor protein, containing a 23 amino acid amino (N)-terminal sequence (pre sequence) and a 19 amino acid carboxy (C)-terminal extension (pro sequence). Various constructs of the TCS gene were expressed in transgenic tobacco plants to determine the effects of the amino- and carboxy-coding gene sequences on TCS expression and host toxicity in plants. The maximum TCS expression levels of 2.7% of total soluble protein (0.05% of total dry weight) were obtained in transgenic tobacco plants carrying the complete prepro-TCS gene sequence under the Cauliflower mosaic virus 35S RNA promoter. The N-terminal sequence matched the native TCS sequence indicating that the T. kirilowii signal sequence was properly processed in tobacco and the protein translation inhibitory activity of purified rTCS was similar to native TCS. One hundred-fold lower expression levels and phenotypic aberrations were evident in plants expressing the gene constructs without the C-terminal coding sequence. Transgenic tobacco plants expressing recombinant TCS exhibited delayed symptoms of systemic infection following exposure to Cucumber mosaic virus and Tobacco mosaic virus (TMV). Local lesion assays using extracts from the infected transgenic plants indicated reduced levels of TMV compared with nontransgenic controls.     

The 35S promoter used in a selectable marker gene of a plant transformation vector affects the expression of the transgene

Positive selection of transgenic plants is essential during plant transformation. Thus, strong promoters are often used in selectable marker genes to ensure successful selection. Many plant transformation vectors, including pPZP family vectors, use the 35S promoter as a regulatory sequence for their selectable marker genes. We found that the 35S promoter used in a selectable marker gene affected the expression pattern of a transgene, possibly leading to a misinterpretation of the result obtained from transgenic plants. It is likely that the 35S enhancer sequence in the 35S promoter is responsible for the interference, as in the activation tagging screen. This affected expression mostly disappeared in transgenic plants generated using vectors without the 35S sequences within their T-DNA region. Therefore, we suggest that caution should be used in selecting a plant transformation vector and in the interpretation of the results obtained from transgenic approaches using vectors carrying the 35S promoter sequences within their T-DNA regions.     

CHB2, a member of the SWI3 gene family,is a global regulator in Arabidopsis

The SWI/SNF complex is an ATP-dependent chromatin remodeling complex that plays an important role in the regulation of eukaryotic gene expression. Very little is known about the function of SWI/SNF complex in plants compared with animals and yeast. SWI3 is one of the core components of the SWI/SNF chromatin remodeling complexes in yeast. We have identified a putative SWI3-like cDNA clone, CHB2 (AtSWI3B), from Arabidopsis thaliana by screening the expressed sequence tag database. CHB2 encodes a putative protein of 469 amino acids and shares 23% amino acid sequence identity and 64% similarity with the yeast SWI3. The Arabidopsis genome contains four SWI3-like genes, namely CHB1 (AtSWI3A), CHB2 (AtSWI3B), CHB3 (AtSWI3C) and CHB4 (AtSWI3D). The expression of CHB2, CHB3 and CHB4 mRNA was detected in all tissues analyzed by RT-PCR. The expression of CHB1 mRNA, however, could not be detected in the siliques, suggesting that there is differential expression among CHB genes in different Arabidopsis tissues. To investigate the role of CHB2 in plants, Arabidopsis plants were transformed with a gene construct comprising a CHB2 cDNA in the antisense orientation driven by the CaMV 35S promoter. Repression of CHB2 expression resulted in pleiotropic developmental abnormalities including abnormal seedling and leaf phenotypes, dwarfism, delayed flowering and no apical dominance, suggesting a global role for CHB2 in the regulation of gene expression. Our results indicate that CHB2 plays an essential role in plant growth and development.     

Use of the signal peptide of Pisum vicilin to translocate beta-glucuronidase in Nicotiana tabacum.

A hybrid protein system was used for the study of protein transport in plant cells. A nucleotide sequence (vic) encoding a putative signal peptide of 15 amino acid residues, derived from the published aa sequence of one Pisum vicilin, was synthesized and fused in frame to the gus gene encoding a bacterial cytosolic beta-glucuronidase (GUS). When the hybrid vic::gus gene was expressed in tobacco cells using the cauliflower mosaic virus 35S promoter, the hybrid GUS protein was targeted to, and glycosylated inside the rough endoplasmic reticulum. Glycosylation could be blocked with the antibiotic tunicamycin. The study of transient expression in protoplasts showed that extracellular secretion efficiency was low, which may be due to the nature of the GUS protein.     

大肠杆菌海藻糖合成酶基因对提高烟草抗逆性能的研究

编码大肠杆菌海藻糖合成酶的otsA基因由农杆菌介导引入野生型烟草植株并在花椰菜花叶病毒启动子序列 (CaMV35S)控制下获得表达。蒸发光散射高效液相层析法测定海藻糖实验表明 ,转基因烟草能够合成海藻糖 ,合成量达 1 4μg g叶片湿重 ;转基因烟草表现为耐盐性生长、干燥失重缓慢等抗逆表型。说明海藻糖合成酶otsA基因的引入 ,改变了烟草的糖代谢途径 ,同时也提高了植物的耐盐碱、耐干旱特性。     

The function of the flowering time gene AGL20 is conserved in Crucifers

The MADS box gene, AGAMOUS-LIKE 20 (AGL20), integrates environmental and endogenous flowering signals in Arabidopsis thaliana. In order to determine if its role is conserved in other plants, we isolated AGL20 orthologs from Brassica campestris, Cardamine flexuosa and Draba nemorosa. The putative amino acid sequences of the orthologs were 94 to 97% identical. We analyzed the flowering phenotype and expression level of the AGL20 ortholog in C. flexuosa, a long day plant that does not respond to vernalization. CaAGL20 was more highly expressed in long days than short days and its expression did not change in response to vernalization, indicating that its expression is correlated with flowering time, as in Arabidopsis. When the Brassica AGL20 ortholog was constitutively expressed in sense and antisense orientations using the 35S cauliflower mosaic virus promoter, some of the sense transgenic plants flowered extremely early and some of the antisense plants exhibited delayed flowering. These results suggest that the role of AGL20 is conserved in Crucifers.     

毛白杨PtSEP2基因启动子克隆和瞬时表达特性分析

利用PCR技术从毛白杨基因组DNA中扩增获得花器官发育相关的SEPALLATA2类似基因PtSEP25′侧翼约2.3kb的一段序列,经PlantCARE序列分析表明,该序列中含有启动子特征的保守序列及多种光应答元件,初步推测其为PtSEP2基因启动子.进一步以GUS为报告基因,构建了pPtSEP2 promoter::...     

Strategies for development of functionally equivalent promoters with minimum sequence homology for transgene expression in plants: cis-elements in a novel DNA context versus domain swapping

The cauliflower mosaic virus 35S (35S) promoter has been extensively used for the constitutive expression of transgenes in dicotyledonous plants. The repetitive use of the same promoter is known to induce transgene inactivation due to promoter homology. As a way to circumvent this problem, we tested two different strategies for the development of synthetic promoters that are functionally equivalent but have a minimum sequence homology. Such promoters can be generated by (a) introducing known cis-elements in a novel or synthetic stretch of DNA or (b) "domain swapping," wherein domains of one promoter can be replaced with functionally equivalent domains from other heterologous promoters. We evaluated the two strategies for promoter modifications using domain A (consisting of minimal promoter and subdomain A1) of the 35S promoter as a model. A set of modified 35S promoters were developed whose strength was compared with the 35S promoter per se using beta-glucuronidase as the reporter gene. Analysis of the expression of the reporter gene in transient assay system showed that domain swapping led to a significant fall in promoter activity. In contrast, promoters developed by placing cis-elements in a novel DNA context showed levels of expression comparable with that of the 35S. Two promoter constructs Mod2A1T and Mod3A1T were then designed by placing the core sequences of minimal promoter and subdomain A1 in divergent DNA sequences. Transgenics developed in tobacco (Nicotiana tabacum) with the two constructs and with 35S as control were used to assess the promoter activity in different tissues of primary transformants. Mod2A1T and Mod3A1T were found to be active in all of the tissues tested, at levels comparable with that of 35S. Further, the expression of the Mod2A1T promoter in the seedlings of the T1 generation was also similar to that of the 35S promoter. The present strategy opens up the possibility of creating a set of synthetic promoters with minimum sequence homology and with expression levels comparable with the wild-type prototype by modifying sequences present between cis-elements for transgene expression in plants.