Co-suppression in transgenic Petunia hybrida expressing chalcone synthase A (chsA)

Chalcone synthase A is a key enzyme in the anthocyanin biosynthesis pathway. Expression of chsA gene in transgenic Petunia hybrida resulted in flower color alterations and co-suppression of transgenes and endogenous genes. We fused the β-glucuronidase (uidA) gene to the C-terminal of chsA gene, and transferred the fusion gene into Petunia hybrida via Agrobac-terium tumefaciens. GUS histochemical staining analysis showed that co-suppression occurred specifically during the development of flowers and co-suppression required the mutual interaction of endogenous genes and transgenes. RNA in situ hybridization analysis suggested that co-suppression occurred in the entire plant, and RNA degradation occurred in the cytoplasm.     

Agrobacterium-Mediated Multiple Gene Transformation in Rice Using a Single Vector

The homodimeric hemoglobin gene (VHb), the trans-zeatin synthetase gene (tzs), the modified 5-enolpyruvylshikimate-3-phosphate synthase gene (EPSPS), a selectable marker gene (hpt), and a reporter gene (gus), as linked expression cassettes, were stacked into the T-DNA region of a binary vector and introduced simultaneously into immature embryos of the rice (Oryza sativa L.) varieties Xiushui-11, Qiufeng,Youfeng, and Hanfeng by Agrobacterium tumefaciens. A total of 1 153 transgenic lines was obtained through selection for hygromycin B resistance. Approximately 90.2% of the transgenic lines harbored all the transgenes. Integration of multiple transgenes occurred at one to three genetic loci. Expression analysis revealed that the transgenes were coexpressed and inherited in a simple Mendelian fashion in transgenic plants and the frequency of coexpression was approximately 85%. On the basis of the cointegration and coexpression of the transgenes, most transgenic families were considered to be useful in a breeding program.     

T4转基因番木瓜遗传性和果实品质分析

对T 4代转基因番木瓜进行了分子生物学和果实品质分析,结果表明,筛选获得的转基因番木瓜均为转番木瓜环斑病毒(PRV)复制酶突变体基因(RP),且对PRV抗性达到了高抗或免疫,RP基因在转基因植物中能稳定遗传至后代并在RNA水平上表达。在田间种植时,转基因木瓜的生长状况普遍好于普通番木瓜,尤其在生长后期(10月以后),普通番木瓜100%发病(大规模种植时),而大部分(约91.8%)转基因植株生长良好,果实较多且表面光洁、基本上无环斑。与非转基因亲本相比,T 4代转基因番木瓜的果实长度增加2.6%~5%,果实直径变小0.6%~1.5%,果肉厚度增加了12%~15%,因而果实形状与亲本相近或更好,且信用价值更高。转基因番木瓜果实中水分、蛋白质、氮、脂肪、还原性糖、维生素A、维生素C和类胡萝卜素的含量与对照都无显著性差异,即转基因番木瓜与亲本具有实质等同性,这表明转入的外源基因对番木瓜果实品质没有不良影响。     

The human apoE7 and apoE4 transgenic mice models

To scrutinize the disorders caused by human mutant apoE7/apoE4, human apoE4 and E7 transgenic mice were established with microinjection technique to examine molecular genetic phenomena in vivo. The integration and expression of h-apoE mutant genes in transgenic mice were determined with Southern blot, Northern blot and ELISA. The current studies indicated that the transgenes and the phenotypes regarding expression of transgenes could be transmitted stably in transgenic lines. The levels of serum lipid in transgenic mice showed the characteristics of hyperlipidemia. Besides, behavior tests demonstrated the degeneration of learning and memory in transgenic mice. Short life span was observed in 2 transgenic lines. After fed with high lipid food high serum lipid was found both in normal and transgenic mice, but their mechanism regulating lipid metabolism was different. It was also verified that the human apoE mutants located at either N-terminal or C-terminal had the same pathogenesis regarding disorders of     

Characterization of transgene integration pattern in F4 hGH-transgenic common carp （Cyprinus carpio L.）

The integration pattern and adjacent host sequences of the inserted pMThGH-transgene in the F4 hGH-transgenic common carp were extensively studied. Here we show that each F4 transgenic fish contained about 200 copies of the pMThGH-transgene and the transgenes were integrated into the host genome generally with concatemers in a head-totail arrangement at 4-5 insertion sites. By using a method of plasmid rescue, four hundred copies of transgenes from two individuals of F4 transgenic fish, A and B, were recovered and clarified into 6 classes. All classes of recovered transgenes contained either complete or partial pMThGH sequences. The class I, which comprised 83% and 84.5% respectively of the recovered transgene copies from fish A and B, had maintained the original configuration, indicating that most transgenes were faithfully inherited during the four generations of reproduction. The other five classes were different from the original configuration in both molecular weight and restriction map, indicating that a few transgenes had undergone mutation, rearrangement or deletion during integration and germline transmission. In the five types of aberrant transgenes, three flanking sequences of the host genome were analyzed. These sequences were common carp β-actin gene, common carp DNA sequences homologous to mouse phosphoglycerate kinase-1 and human epidermal keratin 14, respectively.     

Transgenic mice designed to express human α-1,2-fucosyltransferase in combination of human DAF and CD59 to avoid xenograft rejection

The expression of human α-1,2-fucosyltransferase (HT) or complement regulatory proteins has been proved as an strategy to overcome hypercute rejection in discordant xenogeneic organ transplantation. In this study, we examined whether peripheral blood mononuclear cells (PBMCs) from polytransgenic mice expressing the human HT, and complement regulatory proteins (DAF and CD59), can provide more effective protection against xenograft rejection. Transgenic mice were produced by co-injection of gene constructs for human HT, DAF and/or CD59. Flow Cytometry (FCM) was used to screen the positive transgenic mice. PBMCs from transgenic mice were incubated with 15% human serum to evaluate natural antibody binding, complement activation and expression of adhesion molecules. Three transgenes were strongly expressed in PBMCs of transgenic mice, and HT expression signifi- cantly reduced expression of the major xenoepitope galactose-α-1,3-galactose (α-Gal). Functional studies with PBMCs showed that co-expression of HT and DAF or CD59 markedly increased their re- sistance to human serum-mediated cytolysis when compared with single transgenic PBMCs. Moreover, the combined expression of triple transgenes in PBMCs led to the greatest protection against human serum-mediated cytolysis, avoided hyperacute rejection and reduced expression of adhesion mole- cules. Strong co-expression of triple transgenes was completely protected from xenograft hyperacute rejection and partially inhibited acute vascular rejection. The studies suggest that engineering mice to express triple molecules represents an critical step toward prolonging xenograft survival and might be more suitable for xenotransplantation.     

Transgenic mice designed to express human α-1,2-fucosyltransferase in combination of human DAF and CD59 to avoid xenograft rejection

The expression of human α-1,2-fucosyltransferase (HT) or complement regulatory proteins has been proved as an strategy to overcome hypercute rejection in discordant xenogeneic organ transplantation. In this study, we examined whether peripheral blood mononuclear cells (PBMCs) from polytransgenic mice expressing the human HT, and complement regulatory proteins (DAF and CD59), can provide more effective protection against xenograft rejection. Transgenic mice were produced by co-injection of gene constructs for human HT, DAF and/or CD59. Flow Cytometry (FCM) was used to screen the positive transgenic mice. PBMCs from transgenic mice were incubated with 15% human serum to evaluate natural antibody binding, complement activation and expression of adhesion molecules. Three transgenes were strongly expressed in PBMCs of transgenic mice, and HT expression signifi-cantly reduced expression of the major xenoepitope galactose-α-1,3-galactose (α-Gal). Functional studies with PBMCs showed that co-expression of HT and DAF or CD59 markedly increased their re-sistance to human serum-mediated cytolysis when compared with single transgenic PBMCs. Moreover, the combined expression of triple transgenes in PBMCs led to the greatest protection against human serum-mediated cytolysis, avoided hyperacute rejection and reduced expression of adhesion mole-cules. Strong co-expression of triple transgenes was completely protected from xenograft hyperacute rejection and partially inhibited acute vascular rejection. The studies suggest that engineering mice to express triple molecules represents an critical step toward prolonging xenograft survival and might be more suitable for xenotransplantation.     

Overexpression of sweet pepper glycerol-3-phosphate acyltransferase gene enhanced thermotolerance of photosynthetic apparatus in transgenic tobacco

In order to investigate the relationship between the lipid composition in thylakoid membrane and thermostability of pho-tosynthetic apparatus, tobacco transformed with sweet pepper sense glycerol-3-phosphate acyltransferase (GPA T) gene were used to analyze the lipid composition in thylakoid membrane, the net photosynthetic rate and chlorophyll fluorescence parameters under high temperature stress. The results showed that the saturated extent of monogalactosyldiacylglycerol (MGDG), suifoquinovosyldiacylglycerol, digalactosyldiacylglycerol and phosphatidylglycerol in thylakoid membrane of transgenic tobacco T1 lines increased generally. Particularly, the saturated extent in MGDG increased obviously by 16.2% and 12.0% in T1-2 and T1-1, respectively. With stress temperature elevating, the maximum efficiency of photosystem Ⅱ the two lines and wild type tobacco plants decreased gradually, but those parameters decreased much less in transgenic plants. Even though the recovery process appeared differently in the donor and acceptor side of PSII in transgenic tobacco compared with wild-type plants, the entire capability of PSII recovered faster in transgenic tobacco, which was shown in Increase in saturated extent of thylakoid membrane Iipids in transgenic plants enhanced the stability of photosynthetic apparatus under high temperature stress.     

应用荧光原位杂交技术检测人βE珠蛋白基因在转基因小鼠染色体上的整合状态

为将荧光原位杂交技术应用于基因定位研究中,探讨一种能有效地检测转基因动物染色体上外源基因整合状态的实验方法,对小鼠腹腔注射秋水仙素后,取转基因小鼠骨髓制备中期染色体,将传统的FISH方法加以改进,检测外源基因在转基因小鼠染色体上的整合状态.检测结果表明,外源人βE珠蛋白基因已稳定地整合于小鼠染色体上.FISH能直观地反映外源基因在转基因动物染色体上的整合状态,该方法可对转基因动物及基因转移研究中的外源基因整合后进行染色体定位检测。 Abstract:To determine the integration site of human βE globin gene in the chromosomes of transgenic mice, transgenic mice carrying human βE globin gene were injected intraperitoneally with colchicines, then, bone marrow cells wereisolated and metaphase chromosomes were prepared, the traditional FISH method was improved to detect the integration site of humanβE globin gene in transgenic mice when combined with G-banding. Human t3E globin gene can bedetected in different position of different chromosomes in transgenic mice and FISH signals showed that two mice were heterozygous of human 13E globin gene and one was homozygous. Human t3E globin gene was integrated into thechromosomes of transgenic mice in a random pattern and the results demonstrated that FISH can be used to investigate the integration site of foreign genes in transgenic mice.     

应用荧光原位杂交技术检测人βE珠蛋白基因在转基因小鼠染色体上的整合状态

为将荧光原位杂交技术应用于基因定位研究中,探讨一种能有效地检测转基因动物染色体上外源基因整合状态的实验方法,对小鼠腹腔注射秋水仙素后,取转基因小鼠骨髓制备中期染色体,将传统的FISH方法加以改进,检测外源基因在转基因小鼠染色体上的整合状态.检测结果表明,外源人βE珠蛋白基因已稳定地整合于小鼠染色体上.FISH能直观地反映外源基因在转基因动物染色体上的整合状态,该方法可对转基因动物及基因转移研究中的外源基因整合后进行染色体定位检测。 Abstract:To determine the integration site of human βE globin gene in the chromosomes of transgenic mice, transgenic mice carrying human βE globin gene were injected intraperitoneally with colchicines, then, bone marrow cells wereisolated and metaphase chromosomes were prepared, the traditional FISH method was improved to detect the integration site of humanβE globin gene in transgenic mice when combined with G-banding. Human t3E globin gene can bedetected in different position of different chromosomes in transgenic mice and FISH signals showed that two mice were heterozygous of human 13E globin gene and one was homozygous. Human t3E globin gene was integrated into thechromosomes of transgenic mice in a random pattern and the results demonstrated that FISH can be used to investigate the integration site of foreign genes in transgenic mice.     

Transgenic papaya plants from Agrobacterium-mediated transformation of somatic embryos

Summary Transgenic papaya (Carica papaya L.) plants were regenerated from embryogenic cultures that were cocultivated with a disarmed C58 strain of Agrobacterium tumefaciens containing one of the following binary cosmid vectors: pGA482GG or pGA482GG/cpPRV-4. The T-DNA region of both binary vectors includes the chimeric genes for neomycin phosphotransferase II (NPTII) and ß-glucuronidase (GUS). In addition, the plant expressible coat protein (cp) gene of papaya ringspot virus (PRV) is flanked by the NPTII and GUS genes in pGA482GG/cpPRV-4. Putative transformed embryogenic papaya tissues were obtained by selection on 150 g·ml^–1 kanamycin. Four putative transgenic plant lines were obtained from the cp gene^– vector and two from the cp gene⁺ vector. GUS and NPTII expression were detected in leaves of all putative transformed plants tested, while PRV coat protein expression was detected in leaves of the PRV cp gene⁺ plant. The transformed status of these papaya plants was analyzed using both polymerase chain reaction amplification and genomic blot hybridization of the NPTII and PRV cp genes. Integration of these genes into the papaya genome was demonstrated by genomic blot hybridizations. Thus, like numerous other dicotyledonous plant species, papayas can be transformed with A. tumefaciens and regenerated into phenotypically normal-appearing plants that express foreign genes.Journal Series no. 3757 of the Hawaii Institute of Tropical Agriculture and Human Resources     

Cloning and Sequencing of Coat Protein Gene of Papaya Ringspot Virus and Sequence Comparison of Strains of PRV-P and PRV-YS

Papaya rinspot virus (PRV) was isolated and purified from infected papaya (Carica papaya L. )leaves in Hainan Island. The first strand of cDNA was synthesized with Olig(dT)as a primer. The coat protein gene of PRV was obtained by PCR techniques with primers synthesized accoding to the DNA sequence of PRV-P. Full length of cDNA clone encoding coat protein of PRV was sequenced and analysed. The result shows that the strain of PRV we isolated contains 881 nucleotides with 287 amino acids. Sequences among several strains of PRV were compared and it indicates an over 90% homology in DNA sequence of PRV-G the strain we isolated with PRV-P and PRV-YS. Highly convered sequence was located in carboxyl end and interestingly highly variable region was in N-terminal.     

Integration and inheritance of transgenes in crop plants and trees

Transgene integration and inheritance have been investigated in a number of crop plants and few tree species. Transgene integration is predominantly a random process, whether mediated by Agrobacterium or particle bombardment. Depending on the genomic position of the integrated transgene and structure of the integration site as well as copy number of the transgene in the genome, its expression may be stable or variable. Therefore, integration patterns would affect the mode of transgene inheritance in plants, regardless of the method of gene transfer. So far, both Mendelian and non-Mendelian inheritance of transgenes has been reported across several generations (T1–T3) of crop plants. In few tree species (apple, poplar, plum, and American chestnut), mostly Mendelian inheritance of the transgenes has been observed in the T1 or BC1 generations. However, detailed studies in the transgenic papaya trees showed Mendelian segregation of the transgene in the T1 generation but non-Mendelian inheritance in the T2 generation. Variation in transgene inheritance was also detected in transgenic apple and plum trees. Long generation cycles in many economically important tree species preclude investigation of inheritance of transgenes in the tree progeny. Production of early flowering trees, either by genetic modification or by environmental modulation, would facilitate the study of transgene inheritance across generations of transgenic trees. In order to overcome problems of randomness of transgene integration, targeted transgene insertions by homologous or site-specific recombination or by designer recombinases or nucleases offer prospects for stable integration of transgenes in predetermined locations in the plant genome. And perhaps, that might provide a platform for stable expression and Mendelian inheritance of transgenes in plants.     

番木瓜叶片愈伤组织形成、分化及再生植株移栽

研究了番木瓜的叶片愈伤组织的形成 ,并进一步诱导分化 ,离体培养成完整的试管植株 ,这对深入进行体细胞突变育种 ,以及抗病毒品系筛选和种质改良或耐贮藏等基因转化 ,提供了有用的技术和方法。     

番木瓜环斑病毒单克隆抗体的制备及在病毒分型上的初步应用

本试验是用番木瓜环斑病毒(Papaya ringspot virus, PRV)提纯制剂免疫的BALB/c小白鼠脾细胞与Sp~2/o-Ag14骨髓瘤细胞融合,获得三个能稳定传代并分泌抗番木瓜环斑病毒的单克隆抗体的杂交瘤细胞系。其中23H1 McAb的效价较高,用ELISA检测,腹水抗体效价高达1:76800,能被PRV兔抗血清所阻断。这3个杂交瘤细胞系产生的单抗与TMV和CMV无血清交叉反应。它们可把PRV四个毒株初步区分为三个血清型。     

Effective selection of transgenic papaya plants with the PMI/Man selection system

The selectable marker gene phospho-mannose isomerase (pmi), which encodes the enzyme phospho-mannose isomerase (PMI) to enable selection of transformed cell lines on media containing mannose (Man), was evaluated for genetic transformation of papaya (Carica papaya L.). We found that papaya embryogenic calli have little or no PMI activity and cannot utilize Man as a carbon source; however, when calli were transformed with a pmi gene, the PMI activity was greatly increased and they could utilize Man as efficiently as sucrose. Plants regenerated from selected callus lines also exhibited PMI activity but at a lower specific activity level. Our transformation efficiency with Man selection was higher than that reported using antibiotic selection or with a visual marker. For papaya, the PMI/Man selection system for producing transgenic plants is a highly efficient addition to previously published methods for selection and may facilitate the stacking of multiple transgenes of interest. Additionally, since the PMI/Man selection system does not involve antibiotic or herbicide resistance genes, its use might reduce environmental concerns about the potential flow of those genes into related plant populations.     

Field Released Transgenic Papaya Affects Microbial Communities and Enzyme Activities in Soil

Soil properties, microbial communities, and enzyme activities were studied in soil planted with transgenic or nontransgenic papaya under field conditions. The transgenic papaya contained a replicase (RP) mutant gene of the papaya ringspot virus (PRSV), which conferred resistance to the virus, the neomycin phosphotransferase II (NPT II) marker gene, which conferred Km resistance, and a cauliflower mosaic virus 35S promoter (CaMV 35S). There were significant differences (P < 0.05) in the total number of colony forming units (CFUs) of bacteria, actinomycetes, and fungi between soils planted with RP-transgenic and nontransgenic plants; total CFUs of bacteria, actinomycetes, and fungi in soil planted with transgenic papaya were significantly higher by 0.43, 0.80, and 0.46 times, respectively. Significantly higher (P < 0.05) CFUs of bacteria, actinomycetes, and fungi resistant to kanamycin (Km) were present in soils planted with the transgenic papaya than in those planted with nontransgenic papaya. Resistance quotients (CFU in the presence of a chemical relative to that without) of Km-resistant bacteria, actinomycetes and fungi were higher in soil planted with transgenic papaya, and the resistance quotients of Km-resistant bacteria, actinomycetes, and fungi in soils planted with transgenic papaya increased statistically significantly (P<0.05) from 1.5 to 2.5, from 1.2 to 2.6, and from 0.9 to 2.8 times, respectively. Soils planted with transgenic papaya had significantly higher enzyme activities of arylsulfatases (+5.4 times), alkaline phosphatases (+0.5 time), invertase (+0.5 time) and phosphodiesterases (+0.2 time), but lower enzyme activities of proteases (−2.1 times), polyphenol oxidases (−1.4 times), urease (−0.2 time) than the soils planted with nontransgenic papaya. Our results suggest that transgenic papaya could alter chemical properties, enzyme activities, and microbial communities in soil.     

转基因番木瓜研究进展

番木瓜环斑病毒 (PRSV)使热带亚热带的重要水果番木瓜的生产受到严重影响 ,在众多方法防效不佳的情况下 ,利用病原获得抗性防治PRSV给番木瓜的生产带来了光明。综述了近年来转PRSVCP基因番木瓜中影响番木瓜转化因素和转基因番木瓜的抗性因素。转PRSV外壳蛋白 (CP)基因的番木瓜中多以胚性组织为转化材料 ,被转化材料的生理状态和基因型 ,是影响转化效率和转基因植株质量的主要因素。所获得的转基因番木瓜对PRSV的抗性在很大程度上依赖于接种PRSV与所转化PRSVCP基因的序列同源性、转基因拷贝数和所转基因的位置等。     

Analysis on virus resistance and fruit quality for T4 generation of transgenic papaya

Molecular biological characterization,fruit characters,and nutrients were analyzed for T4 generation of transgenic papaya.All transgenic papaya plants with the mutated replicase (RP) gene from papaya ringspot virus (PRSV) showed high resistance or immunity against PRSV in the field.The RP transgene can be steadily inherited to,and expressed at RNA level,the progenies.The growth characteristics of transgenic papaya were much better than nontransgenic papaya in the field.The non-transgenic papaya seedlings began to show typical symptoms caused by PRSV after being inoculated with PRSV.They died quickly and never grew to produce fruit.The adult trees developed yellow leaves and produced smaller fruits and were doomed to a slow death after some time,while most oftransgenic papaya plants (about 91.8%) did not show any symptoms caused by PRSV,and produced more,bigger,and high quality fruits.Compared with non-transgenic plants,the fresh fruit length of T4 generation of transgenic papaya increased 2.6%-5%,and the diameter decreased 0.6%-1.5%.The flesh thickness of fresh fruit increased 12%-15%,which made it fitter for eating.Although the fresh fruit quality changed,there was no significant difference between transgenic and non-transgenic papaya.The quality characteristics of dry fruit including the contents of water,lipid,N,protein,reduced sugar,vitamin A,vitamin C,and carotene in the T4 generation of transgenic papaya were all the same as their non-transgenic parents.This means that transgenic plants and non-transgenic plants are substantially equivalent,and the transgene has no effect on dry fruit quality.In this study,we found that vitamin A and vitamin C in red-fleshed papaya were 1.4-1.8 and 1.78-2.07 times more than the yellow-fleshed ones,respectively,while N and protein were only 84.2%-92.1% and 82.1%-98.9% of the yellow-fleshed ones.