人参愈伤组织的PSY基因遗传转化

将八氢番茄红素合成酶基因（PSY）重组于植物双元表达载体pBin438,得到重组质粒pBin438-PSY。用冻融法将其导入农杆菌EHA101中,采用叶盘法转化人参愈伤组织,对所获得的抗性细胞系进行PCR和Southern检测,并对表达产物进行了薄层层析（TLC）、光谱分析、高效液相色谱（HPLC）检测及含量测定。结果表明PSY基因已成功导入人参愈伤组织细胞基因组,并已得到高效表达,表达产物β-胡萝卜素含量为143μg·g^-1人参细胞干重。本研究利用转基因方法在人参愈伤组织细胞中成功地表达了八氢番茄红素合成酶基因,为进一步提高人参的营养价值奠定了基础。     

八氢番茄红素合酶基因对人参的遗传转化

八氢番茄红素合酶(Phytoene synthase ,PSY)是类胡萝卜素生物合成的限速酶,通过建立PSY基因的人参转化体系,可促进相应类胡萝卜素的合成,从而提高人参的营养价值。本研究以人参愈伤组织为受体,以PSY 为目的基因,应用根癌农杆菌介导法进行遗传转化。以抗性筛选人参受体转染效率为指标,从菌液浓度、侵染胞龄、侵染时间、共培养时间四方面优化了转化体系。进行了PCR、PCR-Southern和RT-PCR分析鉴定及β-胡萝卜素含量测定,初步证明外源基因PSY 已整合到人参的基因组中并在转录水平上进行了表达,β-胡萝卜素含量平均提高了26倍。该研究为改善和提高人参中类胡萝卜素含量提供了一种新的途径。     

八氢番茄红素合成酶(PSY)的生物信息学分析

目的:通过生物信息学方法对八氢番茄红素合成酶基因(PSY)及氨基酸序列分析,并构建三维结构。方法:运用生物信息学方法对八氢番茄红素合成酶基因及其蛋白质序列的理化性质、亲/疏水性、信号肽、跨膜结构域、糖基化位点,磷酸化位点,二级结构,功能结构域和三级结构进行预测分析。结果:PSY基因含1239bp的开放阅读框,编码氨基酸数为412,为碱性不稳定蛋白;八氢番茄红素合成酶富含Arg、Leu、Ala、Ser、Val等氨基酸,为亲水性蛋白质;PSY为非跨膜蛋白,不含信号肽,具有多个磷酸化位点,α螺旋和无规卷曲是其主要结构元件。结论:用同源建模的方法构建其三维结构,得到合理模型,为采用生物工程提高番茄红素产量提供理论依据。     

雨生红球藻八氢番茄红素合成酶基因的克隆及表征

雨生红球藻是一种单细胞绿藻,在多种逆境胁迫条件下能够大量合成并迅速积累虾青素,其积累量最高可达细胞干重的4%,从而成为目前最理想的天然虾青素合成工具.八氢番茄红素合成酶(PSY)是虾青素合成途径中第一个限速酶.分离了八氢番茄红素合成酶基因(psy)的全长cDNA及基因组DNA.其全长cDNA包括1200个碱基,编码400个氨基酸,基因组DNA包括5个外显子,4个内含子.系统发育分析结果显示,绿藻的八氢番茄红素合成酶基因形成一个进化枝,它们与高等植物的psy亲缘关系比较近.通过GenomeWalking的方法,分离了psy基因约1kb的5′侧翼序列.将含有TATA-box和CAAT-box的297bp的序列与LacZ报告基因构成嵌合的表达载体,用基因枪法转化雨生红球藻.lacZ的瞬间表达检测结果表明,这段上游序列能够驱动lacZ表达,具有启动子活性.     

拟南芥psy基因cDNA的克隆及其植物表达载体的构建

为了获得胚乳组织特异性表达八氢番茄红素的转基因小麦,以拟南芥幼叶RNA为模板,由特异型引物通过RT-PCR一步法得到大小约为1.3kb的基因片段,将此片段连接在克隆载体pMD18-T进行测序,结果表明,该基因片段为八氢番茄红素合成酶基因(psy)cDNA片段。将psy基因片段正向插入植物表达载体pLRPT中高分子量麦谷蛋白亚基基因1Dx5启动子与nos终止子之间,pLRPT载体无1Dx5基因开放阅读框,运用菌落PCR对重组子进行筛选与鉴定,说明拟南芥psy基因已正确插入pL-RPT,成功构建了植物表达载体pLRPTPSY。     

西瓜八氢番茄红素合成酶基因片段的克隆和序列分析

以西瓜品种ZXG00152为材料,提取瓜瓤总RNA,进行反转录,依据植物八氢番茄红素合成酶(PSY)的氨基酸保守序列设计引物,以cDNA第一链为模板,扩增得到长约750 bp的cDNA片段。将该片段克隆到pMD19-T载体,测序结果表明该基因片段长748 bp,编码249个氨基酸,Blast搜索结果表明,由该片段推导出的氨基酸序列与其它植物的八氢番茄红素合成酶有较高的同源性,其中与甜瓜的一致性达到97.8%。该片段已在GenBank中登录(登录号:DQ494214)。     

果实特异性RNAi介导的Lcy基因沉默来增加番茄中番茄红素的含量

根据GenBank中番茄的番茄红素β-环化酶(Lcy)基因序列和八氢番茄红素去饱和酶基因(Pds)启动子序列设计特异引物从番茄基因组DNA中分别扩增出了Lcy基因的高度保守的长302bp的DNA片段和长1790的Pds启动子片段。根据RNAi的原理,将Lcy基因的DNA片段以正反两个方向通过一段内含子序列连接在一起形成RNAi片段,将该片段与Pds启动子一起插入到pVCT2020的表达载体中,通过农杆菌介导的方法转化番茄,获得转基因植株5棵,PCR检测证实外源片段已成功导入番茄基因组中。收获转色期后20d左右的完全成熟的番茄果实提取番茄红素进行含量分析,结果显示转基因番茄果实中番茄红素的含量极大的增加了。上述结果表明通过RNAi果实特异性的抑制类胡萝卜素代谢途径中生物合成酶基因的表达能够极大的增加番茄果实中番茄红素的含量。这为通过基因工程手段提高番茄果实中的营养价值提供了参考。     

小麦面粉黄色素相关基因研究

小麦八氢番茄红素合成酶(PSY)基因和脂肪氧化酶(LOx)基因可能影响面粉黄色素含量。根据玉米P5y 基因序列设计引物,扩增出小麦PSY基因的部分片段,序列比较表明小麦和玉米PSY基因外显子DNA序列长度一致,但存在单核苷酸多态性(SNP)位点,序列一致性为90％;蛋白质氨基酸序列比较发现其序列一致性为97％, 说明一些SNP并未导致氨基酸的改变,该基因在玉米和小麦中应具有类似的功能活性。利用非整倍体材料将小麦 PSY基因初步定位到1D染色体。用同样方法,发现小麦的LOX基因与大麦、水稻、玉米的L0X基因具有很高的一致性,并将其初步定位到4BS染色体。     

绿色荧光蛋白基因导入胡萝卜愈伤组织并获得表达

目的:将绿色荧光蛋白基因(green fluorescent protein,GFP)重组到胡萝卜愈伤组织细胞中,使其获得表达,为今后利用GFP基因作为植物报告基因提供条件。方法:通过冻融法将含有GFP基因的重组表达载体PBI1121转入到根癌农杆菌EHA105中,再利用根癌农杆菌介导的方法将GFP基因导入到胡萝卜愈伤组织细胞中,经过除菌和抗性筛选后观测转化结果。结果:荧光显微镜观测到被转化的愈伤组织在受蓝光激发后发出绿色荧光,利用PCR法扩增出约740bp的目的基因片断。结论:GFP基因在胡萝卜愈伤组织细胞中获得了表达。     

番茄果实成熟过程中番茄红素含量及合成相关基因表达的分析

以2个高代自交系粉果番茄MLK1和红果番茄FL1为材料,利用实时荧光定量PCR技术及色差仪法,对果实成熟过程中4个时期的番茄红素含量分析及八氢番茄红素合成酶(Psy1和Psy2)和番茄红素环化酶(Lcy)基因的表达进行研究。结果表明,在番茄果实成熟的过程中,番茄红素的含量也逐渐增高,在完熟期达到最高,且红果中的含量高于粉果中的。在2个番茄品种果实不同部位中,Psy1、Psy2和Lcy基因在果实逐渐成熟的过程中转录水平均逐渐增加,在完熟期表达量最高,且红果FL1中的表达量高于粉果MLK1表达量,果实中Psy基因的表达量高于Lcy基因的表达量。     

Defense response mechanisms of ginseng callus cultures induced by Yersinia pseudotuberculosis, a human pathogen

The effect of Yersinia pseudotuberculosis, the bacterial pathogen affecting humans and animals, on growth of ginseng (Panax ginseng C.A. Mey) cell cultures was studied. The bacteria strongly induced the expression of phenylalanine ammonia-lyase and β-1,3-glucanase, the proteins encoded by the defense-related genes of ginseng and inhibited the normal ginseng callus growth but did not affect the resistant cell cultures. The thermostable and thermolabile protein toxins of these bacteria are lethal to mice when induced parentherally, and they also induced the expression of the defense-related genes in ginseng callus cultures. At the same time, the ginseng cells completely suppressed the bacterial cell growth. These data suggest that the ginseng cells recognized the yersinia and developed the immune response to this pathogen. The interaction between the ginseng cells and Y. pseudotuberculosis is similar to the hypersensitive response of plants to plant pathogens.     

Calcium-dependent mechanism of somatic embryogenesis in oncogene rolC expressing cell cultures of Panax ginseng

It was shown earlier, that ginseng embryogenic cell culture 2c3 was obtained as a result of callus cells transformation with the Agrobacterium rhizogenes rolC oncogene. In the present report we determine that inhibitors of Ca2+-channels (LaCl3, verapamil, niflumic acid) certainly lowered the quantity of somatic embryos in the 2c3 cell culture. This is the evidence of the influence of calcium-dependent signal system on plant embryogenesis. Protein kinases inhibitors W7 and H7 also caused the lowering of somatic embryos quantity in the 2c3 cell culture. We analysed changes of CDPK genes expression in embryogenic 2c3 cell culture. Total expression decreased 1.2-1.5 times comparing with the control callus culture. CDPK expression in the 2c3 embryogenic culture lowered by the inhibition of expression of the gene subfamilies PgCDPK1 (PgCDPK1a and PgCDPK1b) and PgCDPK3 (PgCDPK3a). At the same time, expression of PgCDPK2 gene subfamily (PgCDPK2b and PgCDPK2d) was increased. We suppose that genes of PgCDPK2 subfamily might be responsible for the embryogenesis initiation in the 2c3 ginseng cell culture. It was shown for the first time that the rolC gene and the process of embryogenesis could change expression of particular forms of CDPK genes.     

Mineral Composition of Cultured Ginseng Cells

The contents of macroelements and microelements in ginseng roots and callus cultures was determined by atom absorption spectroscopy. Ginseng cells and tissues were shown to accumulate considerable amounts of microelements. The content of six of the eleven mineral components studied (K, Ca, Na, Mo, Mn, and Cr) in callus cultures was higher than that in roots of agricultural ginseng plants. We revealed good correlations between the contents of microelements (K, Ca, and Mg), as well as between the concentrations of macroelements (Mo, Li, Cu, and Cr), in ginseng cultures. The ability to accumulate elements varied between ginseng species, which was probably related to their genetic features. Our findings indicate that cultured ginseng cells hold much promise as a source of microelements.     

Mineral composition of cultured Ginseng cells]

The contents of macroelements and microelements in ginseng roots and callus cultures was determined by atom absorption spectroscopy. Ginseng cells and tissues were shown to accumulate considerable amounts of microelements. The content of six of eleven mineral components studied (K, Ca, Na, Mo, Mn, and Cr) in callus cultures was higher than that in roots of agricultural ginseng plants. We revealed good correlations between the contents of microelements (K, Ca, and Mg), as well as between the concentrations of macroelements (Mo, Li, Cu, and Cr) in ginseng cultures. The ability to accumulate elements varied between ginseng species, which was probably related to their genetic features. Our findings indicate that cultured ginseng cells hold much promise as the source of microelements.     

Study of antimutagenic properties of bio-ginseng in mammalian cells in vitro and in vivo

The impact was studied of bio-ginseng produced from ginseng callus cells on the rate of chromosome rearrangements in Chinese hamster cells and in continuous tumor cells of mice (Ehrlich strain). Bio-ginseng reduced rate of spontaneous SCE as well as the level of mitomycin C-induced chromosome aberrations in Chinese hamster cells. It protected ascitic tumor cells (Ehrlich strain) against the mutagen action of urea nitrosomethyl.     

American and korean ginseng tissue cultures: Growth,chemical analysis,and plantlet production

Summary Roots, stems, or leaves of American (Panax quinquefolium) and Korean (Panax ginsing) ginseng were grown as callus or supension tissue cultures. Tissue cultures ofP. ginseng would occasionally form plantlets. The fundamental chemical composition, inorganic analysis, and saponin (panaquilin) content of American and Korean ginseng plants and tissue cultures were determined. The crude saponin content is very similar to, but approximately one-half (1.3%, fresh weight) of that present in ginseng roots. Two-dimensional thin layer chromatographic analysis revealed minor differences in the panaquilins present in American and Korean ginseng tissue cultures. The sapogenin, panaxadiol, was isolated from Korean ginseng callus.     

Stable transformation and long-term expression of the gusA reporter gene in callus lines of perennial ryegrass (Lolium perenne L.)

Stable transformation of perennial ryegrass (Lolium perenne L.) was achieved by biolistic bombardment of a non embryogenic cell suspension culture, using the hpt and gusA gene. The transformation yielded on the average 5 callus lines per bombardment (1.4×10⁶ cells). Stable integration of the genes into the plant genome was demonstrated by Southern analysis of DNA, isolated from hygromycin-resistant callus lines. The gusA reporter gene, which was regulated by the constitutive promoter of the rice gene GOS2, was expressed in both transient and stable transformation assays, indicating that this promoter is suitable for expression of a transferred gene in perennial ryegrass. Long-term GUS expression was observed in ca. 40% of the callus lines, whereas the other callus lines showed instability after 6 months and 1 year of culture.