根癌农杆菌介导AtNHX1基因转化番茄的研究

构建AtNHX1基因植物表达载体,通过农杆菌介导法将其转入番茄。探讨了外植体类型、农杆菌菌株和不同筛选标记对芽诱导分化的影响。对抗性植株进行PCR检测,获得15株转基因植株。对转基因番茄T1代进行80mmol/LNaHCO胁迫处理,转基因植株的相对生长量高于对照植株,显示AtNHX1基因的导入提高了番茄对碱性盐的耐受性。     

转HS1prol基因番茄植株的获得

目的为了减少根结线虫对番茄的危害,研究并获得转抗线虫基因HS1prol番茄植株.方法在鉴定表达载体之后,采用CaCl2法制作农杆菌EHA105感受态细胞,然后用冻融法将HS1prol基因转入农杆菌中.通过农杆菌介导法将HS1prol基因导入无菌番茄外植体中,获得抗根结线虫转化再生植株.用卡那霉素筛选到再生植株后,提取抗性芽的基因组,利用设计好的引物进行PCR鉴定.结果与结论目的基因已整合到番茄基因组中,获得了转HS1prol基因番茄植株.     

转HS1~(pro1)基因番茄植株的获得

目的:为了减少根结线虫对番茄的危害,研究并获得转抗线虫基因HS1pro1番茄植株。方法:在鉴定表达载体之后,采用CaCl2法制作农杆菌EHA105感受态细胞,然后用冻融法将HS1pro1基因转入农杆菌中。通过农杆菌介导法将HS1pro1基因导入无菌番茄外植体中,获得抗根结线虫转化再生植株。用卡那霉素筛选到再生植株后,提取抗性芽的基因组,利用设计好的引物进行PCR鉴定。结果与结论:目的基因已整合到番茄基因组中,获得了转HS1pro1基因番茄植株。     

抗冷冻蛋白基因(afp)转化大豆的研究

目的:通过农杆菌介导法遗传转化大豆。方法:通过热激法将质粒pCAAFP66导入根癌农杆菌菌株EHA105中获得含有抗冷冻蛋白基因(afp)及除草剂抗性筛选标记基因(bar)的农杆菌工程菌株;以大豆品种华春6号和马祖1号种子的下胚轴为外植体,经过农杆菌介导将抗冷冻蛋白基因导入大豆基因组中,在含有除草剂草丁膦(PPT)的培养基中筛选、并经过PCR鉴定获得大豆转化植株。结果:PPT的最佳筛选浓度为1.0mg/L,华春6号和马祖1号的阳性植株数分别为6株和2株,转化效率分别为3.70%和0.94%。结论:不同基因型大豆的转化率存在差异,抗冷冻蛋白基因成功遗传转化进大豆细胞中。     

影响农杆菌介导白细胞介素-2基因转化番茄的因素研究

利用农杆菌介导法将白细胞介素-2基因（il-2）导入番茄中,对影响其转化的因素进行了分析。结果表明：农杆菌菌种（EHA105和C58C1）、外植体类型（子叶和下胚轴）、带有不同筛选标记（Kan^r、PPT^r、Hyg^r）的载体质粒几个因素对芽诱导分化及转化均有影响。实验共接种转化2018个子叶和下胚轴外植体,获得了47株抗性再生株,对其进行il-2的PCR扩增检测,有44株呈阳性。PCR-Southern杂交证实PCR结果可靠,显示il-2基因已导入到番茄中。     

转HSl^prol基因番茄植株的获得

目的：为了减少根结线虫对番茄的危害,研究并获得转抗线虫基因HSl^prol。番茄植株。方法：在鉴定表达载体之后,采用CaCl2法制作农杆菌EHAl05感受态细胞,然后用冻融法将HSl^prol基因转入农杆菌中。通过农杆菌介导法将HSl^prol基因导入无菌番茄外植体中,获得抗根结线虫转化再生植株。用卡那霉素筛选到再生植株后,提取抗性芽的基因组,利用设计好的引物进行PCR鉴定。结果与结论：目的基因已整合到番茄基因组中,获得了转HSl^prol基因番茄植株。     

农杆菌介导的AtNDPK2基因转化亚麻的研究

以双亚7号亚麻为试验材料,通过农杆菌介导法,将抗性基因At NDPK2导入亚麻,并对影响遗传转化的主要因素进行了优化研究,结果表明:双亚7号培养5d苗龄的亚麻,下胚轴切成0.5 cm左右,预培养2 d后,取出放于OD 0.6-0.8的农杆菌菌液中摇动10-15 min。然后用灭过菌的滤纸吸干下胚轴表面的农杆菌,置于不含抗生素的共培养基上共培养3 d,共培养结束后将下胚轴转入含50 mg·L-1G418和300 mg·L-1Cef的下胚轴分化增殖的筛选培养基中进行分化增殖。获得抗性植株6株,PCR检测表明有4株阳性植株,转化率为66.67%,初步表明At NDPK2基因已导入亚麻中。     

组成型表达的ClpB基因提高番茄植株的耐冷性

用农杆菌介导法将CaMV35S启动子驱动的ClpB cDNA导入番茄,并比较了转基因和未转基因番茄的抗冷能力。当受冷胁迫后,转基因番茄比未转基因番茄表现出较轻的冷胁迫症状,并维持较高的PSII水平。     

抗冻蛋白(afp)基因表达载体的构建及对香蕉胚性细胞悬浮系的转化

通过PCR从‘京都七寸人参'胡萝卜基因组DNA中扩增抗冻蛋白基因,测序结果表明该基因的核苷酸序列与从宁夏‘吴忠'胡萝卜中克隆的完全一致。先后将获得的胡萝卜afp基因克隆和亚克隆至pMD18-T和pBI121,构建植物表达载体pBI121-afp。通过冻融法将pBI121-afp导入根癌农杆菌EHA105中。以香蕉栽培品种‘北大矮蕉'的胚性细胞悬浮系为受体,采用农杆菌介导法将胡萝卜afp基因导入其中,然后在Kanamycin的选择压力下通过体细胞胚发生途径进行植株再生。共获得抗性再生植株9株,其中两株经PCR检测呈阳性,可初步确定目的基因已经整合到这两株转基因香蕉植株的基因组中。     

中国樱桃品种"对樱"再生体系的优化和转基因初探

优化了中国樱桃品种"对樱"不定根离体再生体系,用农杆菌介导法,将抗菌肽B基因导入"对樱",通过抗性筛选获得了44株抗性转化植株.PCR检测有9株为阳性,初步说明抗菌肽基因已整合到"对樱"基因组中.     

First Report of Tomato infectious chlorosis virus on Tomato in Bulgaria

Virus‐like chlorotic symptoms were observed on tomato plants, cv. Velocity, grown in a greenhouse, region of Plovdiv. Samples collected from the leaves with interveinal yellowing and with initial interveinal chlorosis were tested for virus presence. Only the samples collected from the upper leaves with slight interveinal chlorosis were positive for Tomato infectious chlorosis virus (TICV) in indirect ELISA. Further, RT‐PCR analysis with specific primers for Tomato chlorosis virus (ToCV) heat shock protein 70, for TICV heat shock protein 70 and for TICV minor capsid protein was positive for TICV in all tested samples. No signals were obtained with primers for ToCV. Phylogenetic analysis showed that the Bulgarian sequence of Hsp70 and a sequence of Greek isolate clustered together having the highest resampling score. Regarding CPm, the Bulgarian isolate was more relevant to the French isolate. The obtained results from phylogenetic analysis supported the idea of a close relationship between the Bulgarian and Greek isolates.     

Cytopathology of Tomato torrado virus Infection in Tomato and Nicotiana benthamiana

Electron microscopy studies were carried out to investigate the cytopathological changes induced in tomato leaves by Tomato torrado virus (ToTV) that infects tomato plants worldwide causing severe necrotic symptoms. Plants infected with one of the Polish isolates of ToTV were used for cytopathological research. The results revealed severe cellular alterations, especially in Solanum lycopersicum. Moreover, it was shown that crystalline aggregates of virions occurred not only within the phloem cells as it has been previously reported.     

Infectivity of Tomato Leaf Curl Hainan Virus in Tomato and Tobacco in China

Tomato leaf curl Hainan virus (ToLCHnV) was previously reported as a distinct begomovirus infecting tomato in Hainan, China. To investigate the infectivity of ToLCHnV, an infectious clone of ToLCHnV‐[CN: HaNHK7] was constructed and agro‐inoculated into Solanum lycopersicum, Nicotiana benthamiana, Nicotiana glutinosa, Petunia hybrida, Cucumis sativus, Solanum melongena and Capsicum annuum plants; it induced severe leaf curling and crinkling symptoms in these plant species except C. sativus, S. melongena and C. annuum. The induced symptoms were compared with those induced by Papaya leaf curl China virus.     

The Respiration Rate of Tomato Stem Tissue Infected by Tomato Aucuba Mosaic Virus

The oxygen uptake of stem tissue slices of Lycopersicum esculentumvar. ‘Stonor's Moneymaker’, in 0·035 M. Sorensonphosphate buffer was measured manometrically; the optimum pHwas found to be 5·2. With tomato-stem tissue systemicallyinfected by virus (tomato aucuba mosaic), the respiration ratewas always below that of healthy tissue when equal numbers ofrespiratory systems were compared. When the respiration ratewas expressed in terms of oxygen uptake per unit fresh or dryweight, the respiration rate of the virus-infected tissue couldbe greater or less than that of the healthy tissue dependingon the growth conditions of the experimental material. Underconditions favouring the complete development of disease symptoms,virus infection decreased the fresh and dry weight of the cell.For this reason fresh weight and dry weight were not consideredsuitable criteria to express the respiration rates as theseunits contained different numbers of respiratory systems inhealthy and virus-infected tissue.     

番茄抗黄化曲叶病毒育种研究进展

本文分别对近年番茄抗黄化曲叶病毒的传统育种、分子辅助育种、基因工程育种进展进行了综述.栽培番茄均不抗番茄黄化曲叶病毒,所以传统育种采用从野生近缘种中筛选抗性材料,以其为亲本与栽培番茄进行杂交来获得抗性;野生近缘种中的抗性位点Ty-1、Ty-2和Ty-3及一些QTLs先后被定位,也筛选出了可鉴定Ty-1基因的SSR-47标记及鉴定Ty-3的SCAR标记;通过转基因技术获得抗性是研究热点之一,目前转入番茄后表现出抗性的序列有TYLCV病毒的CP基因、尺EP基因的部分序列或反义序列、不编码的保守序列以及源于白粉虱的GroEL基因.同时讨论了今后的主要发展方向.     

In Planta Transformation of Tomato

In this study, in planta transformation of tomato (Solanum lycopersicum L.), using fruit injection and floral dip, is reported. Agrobacterium tumefaciens strain EHA 105 containing one of three constructs, i.e., pROKIIAP1GUSint (carrying the Apetala 1 [AP1] gene), pROKIILFYGUSint (carrying the LEAFY [LFY] gene), or p35SGUSint (carrying the β-glucuronidase [GUS] gene), was used for plant transformation. For fruit injection transformation, no significant effects (p > 0.05) of the construct used were observed. The highest frequency of transformation was obtained following 48-h incubation of tomato fruit with bacterial cells harboring either one of the three constructs; transformation frequencies of 17%, 19%, and 21% for AP1, LFY, and GUS gene constructs, respectively, were obtained. When fruit maturity was evaluated in fruit injection experiments, mature red fruit resulted in higher frequency of transformants than immature green fruit with 40%, 35%, and 42% for AP1, LFY, and GUS gene constructs, respectively. For floral dip transformation, a higher number of transformants was obtained when the GUS gene construct was used instead of either the AP1 or LFY gene construct, thus suggesting a possible inhibitory effect of the flowering genes used. When flowers were transformed prior to rather than following pollination, they yielded a higher transformation frequency, 12% for the LFY construct and 23% for the GUS construct (p < 0.05), although no transformant was obtained with the AP1 gene construct. All putative GUS-positive transformants were analyzed using polymerase chain reaction and confirmed for the presence of the transgene. Compared to control plants, transgenic plants carrying either the AP1 or LFY transgene flowered earlier and showed several different morphological characters.