花粉管通道技术转化番木瓜的初步研究

以番木瓜"solo Ⅱ"号植株为受体材料,用花粉管通道法进行了番木瓜环斑病毒外壳蛋白基因(PRSV-CP)278 bp片段的遗传转化.采用质粒DNA和农杆菌菌液两种导入液,分别处理花187和232朵,收获成熟番木瓜105和30个.座果率分别为56.15%和12.93%,随机选择每种载体的种子100粒播种.成株率分别为61%和60%.对T1幼苗(除含空载体外)全部进行PCR检测.检测结果为质粒DNA和农杆菌菌液两种导入液转化所得的幼苗阳性率分别为50.54%和51.22%.     

棉花耐盐变异体的遗传分析

利用花粉管通道技术将耐起因三的罗布麻（Ａｐｏｃｙｎｕｍ ｖｅｎｅｔｕｍ）ＤＮＡ导入鲁棉６号,从后代中筛选出棉花耐盐变异体山农０１１。对山农０１１及其杂种后代进行了抗盐遗传和基因效应分析。结果表明：变异体的耐盐性是由核基因控制的。其遗传基因效应以加性效应为主,并存在较大的加快互作效应。该耐盐变异体可作为一良好的抗盐种质材料利用。     

利用花粉管通道技术导入大豆抗病虫目的基因

采用花粉管通道技术,将几丁质酶基因导入14个大豆品种,共导入1125朵花,花朵的成活率为47.8%,将Bt基因导入11个大豆品种,共导入260朵花,花朵的成活率为40.8%。8个转Bt基因品种中的D1代共收获192粒种子,获得幼苗132株,出苗率为68.75%,把转Bt基因的132株植株用X-Gluc溶液检测,没有发现阳性反应,将转Bt基因的132株植株进行PCR检测,得到5株阳性转化植株,对D1代获得的5株阳性转化植株的D2代,进行PCR检测,得到D2代稳定遗传的阳性转化植株2株。     

番茄的耐盐性与耐盐转基因番茄

由于土壤盐渍化的日益加剧导致作物大量减产,通过基因工程的方法将耐盐基因转入作物,培育耐盐作物新品种是开发利用盐碱地的一种经济、有效的手段.番茄是一种栽培广泛,具有重要经济价值的蔬菜,又是基因工程的模式生物之一,开展番茄耐盐性研究具有重要意义.分析了番茄的耐盐性和转耐盐基因番茄的研究现状.     

小麦花粉管通道及子房注射法转化Anti-TrxS基因

为了获得抗穗发芽转基因小麦材料,以13个小麦品种(品系)为受体材料,用花粉管通道及子房注射法进行了硫氧还蛋白反义基因(Anti-TrxS)的遗传转化。花粉管通道法共转化小花2036朵,收获T0代种子1616粒,结实率为79．4％,将T0代种子大田点播,获T1代苗1424株,出苗率为88．1％。对T1代株系叶片基因组DNA进行PCR检测,31个株系中有16个株系呈阳性反应。子房注射法共转化小花1206朵,收获种子89粒,结实率为7．4％,T1代共出苗41株,出苗率为46．1％,对郑新991T1代株系进行PCR检测,电泳结果呈阳性反应。     

花粉管通道法介导的真菌耐盐基因转化拟南芥

橡胶树内生真菌ITBB2-1具有很强的抗盐性,在培养基中添加2倍海水盐度的NaCl能显著促进菌落的生长.采用两种方法研究利用花粉管通道法将ITBB2-1耐盐基因导入拟南芥.多数耐盐转基因植株畸形,生长发育不正常.通过对一千两百余株转基因植株的筛选,获得了耐盐性显著提高、生长发育正常的转基因植株3个.对主要农艺性状统计分析发现,转基因植株叶片的长度、宽度和面积均比野生型植株小,差异达极显著水平.转基因植株SR3的角果长度仅为野生型的64.5%,SR1和SR2的角果长度与野生型无显著差异.本研究表明,在真菌耐盐机制尚未得到研究和耐盐基因尚毒克隆的情况下,可以采用花粉管通道法将其耐盐特性导入高等植物中.     

小麦耐盐种质的筛选鉴定和耐盐基因的标记

通过对 40 0份材料的芽期、苗期鉴定 ,筛选出 11份耐盐性较强的普通小麦 (TriticumaestivumL .)、小麦和黑麦 (SecalecerealeL .)、小麦和延安赖草 (Leymuschinensis (Trin .)Tzvel.)杂交后代材料 ,其中耐盐性突出的材料有 :普通小麦品种“红蚂蚱”、“科遗 2 6”、“希望”(Hope) ;小麦与黑麦杂交后代材料 98_46、98_113、98_131;小麦与延安赖草杂交后代材料 98_16 0、98_16 1、98_16 3。耐盐性表现最突出的材料是 98_113和 98_16 0。细胞学鉴定和原位杂交及醇溶蛋白酸性聚丙烯酰胺凝胶电泳 (A_PAGE)分析和低分子量谷蛋白SDS_PAGE分析 ,证明 98_113是稳定的小麦 黑麦二体附加系 ,但具体附加的是黑麦的哪条染色体还不清楚 ;98_131是小麦 黑麦 1B/ 1R易位系。结合其他 1B/ 1R材料的耐盐表现 ,提出了黑麦 1R染色体短臂上存在耐盐基因的可能性。对 (98_16 0×BanacakaMska)F2 代分离群体苗期抗盐鉴定分析 ,表明在这一杂交组合中的耐盐性状可能由一个主效基因控制。应用SSR标记技术 ,筛选到了与 98_16 0耐盐性状连锁的SSR标记WMS6 7和WMS2 13,它们与耐盐基因的遗传距离分别为 13.9cM (centMorgan)和 31.0cM。结合小麦SSR图谱分析 ,将该主效抗性基因定位在 5BL上。     

番茄耐盐体细胞变异体的离体筛选

以上海主要栽培番茄品种“鲜丰”的下胚轴作为外植体诱导愈伤组织,用NaCl进行直接高盐胁迫和逐渐加大盐浓度胁迫筛选。研究结果表明,逐渐NaCl浓度胁迫筛选获得的耐盐性大多属生理适应性,直接高盐胁迫筛选才有可能获得真正的耐盐突变体。直接高盐胁迫筛选再生出的12株耐盐植株,在150mmol/L NaCl的盐胁迫下,幼苗的成活率可达66％,而未经胁迫筛选过的原始株成活率则为零。其中,2株耐盐突变株能正常开花、结果。其在盐胁迫培养基中芽体的生根率、鲜重及干重均显著高于原始株。     

PCR—SSCP与测序技术相结合检测小麦耐盐突变体

根据位于小麦第四同源群上与耐盐有关的gf-2.8基因的编码区序列设计1对引物,分别以两个耐盐突变体及其亲本的总DNA为模板进行PCR扩增,在5个供试材料中均扩增出1条约685bp的目的条带,SSCP电泳显示突变体974915与其他供试材料之间存在差异。测序表明冀麦24和其耐盐突变体8901-17的扩增产物序列与gf-2.8基因的发表序列相同,这表明突变体8901-17的突变位点不在该基因上,而另一耐盐突变体974915的序列中则至少存在2个单碱基突变,有一处突变导致了氨基酸的变化,该突变位点位于gf-2.8基因的保守区域内。     

番茄交替氧化酶基因的克隆和表达

利用简并PCR扩增产物做探针筛选番茄cDNA基因文库获得一个全长交替氧化酶cDNA基因LeAoxlau.经序列分析得出,该基因全长1 418bp,编码区序列长1 077 bp,编码约40 kD的前体蛋白.该蛋白在转运到线粒体时被加工成32kD的成熟蛋白.Southern印迹杂交分析结果显示该基因以单拷贝形式存在于番茄的基因组中RT-PCR显示,该基因在在番茄植株的根、茎、叶和子叶中表达.重组表达实验表明该基因能在大肠杆菌中表达.     

In vivo and in vitro investigation of salt tolerance in three anthocyaninless mutants in tomato (Lycopersicon esculentum Mill.)

Growth responses of a tomato cultivar Ailsa Craig and the ah-, aw- and bls-isogenic/near isogenic lines (IL/NIL) from it were evaluated and compared at cotyledons stage under salt treatment in vivo and in vitro experiments. No differences in hypocotyl and root growth responses were detected between the anthocyanin-containing and the anthocyaninless lines within the in vivo experiments. The anthocyaninless mutants, (except in some cases the bls mutant), exhibited higher callogenic and shoot-forming capacity on both, control and salinized media. It was concluded that for this reason it would be difficult to determine the relationship between the in vivo and in vitro responses of the lines studied and as well as to evaluate the usefulness of the in vitro method in testing these lines for salt tolerance.     

Characterization of the subtilase gene family in tomato (Lycopersicon esculentum Mill.)

The gene family of subtilisin-like serine proteases (subtilases, SBTs) in tomato (Lycopersicon esculentum Mill.) comprises at least 15 members, 12 of which have been characterized in this study. Sequence comparison revealed that tomato subtilases fall into 5 distinct subfamilies. Single genes were shown to exist for LeSBT1, LeSBT2 and tmp, while 5 and 6 genes were found in the LeSBT3/4 and P69 subfamilies, respectively. With the exception of tmp, tomato subtilase genes were found to lack introns. Expression of subtilase genes was confirmed at the mRNA level by northern blot analysis and/or by primer extension experiments. For each of the 5 subtilase subfamilies, a distinctive pattern of expression was observed in tomato organs. At least one of the subtilases was found to be expressed in each organ analysed. Structural features evident from deduced amino acid sequences are discussed with reference to the related mammalian proprotein convertases.     

Protoplast and leaf explant culture of Lycopersicon cheesmanii and salt tolerance of protoplast-derived calli

In vitro manipulation of Lycopersicon cheesmanii was attempted in order to evaluate its potential to improve salt tolerance of L. esculentum following somatic hybridisation of these two species. The main study concerned three populations of the typicum form (LCS) used for tissue culture and protoplast studies. The minor halophytic form (LCT) was used only for protoplast experiments. Mother plants were sown and propagated in vitro. Shoots (2-7) were obtained from explants (leaflets, petioles, cotyledons), through calli, when 3-4 mg l^–1 BA, kinetin or 2iP were used in association with auxin. IAA (0.2 and 1 mg l^–1 was the most efficient, while 2,4-D or NAA were sometimes inhibitory according to genotype and explant. Leaf protoplasts (2-5 × 10⁷/g of fresh weight) were obtained from LCS and LCT. For LCT, protoplast division declined after five subcultures of the plantlets that had been established from seeds. Protoplast-derived calli were obtained from all populations (maximum PE 30% for LCS). However, they failed to regenerate shoots. Protoplast-derived calli involved in salt tolerance tests showed that LCS17 line was the most tolerant.     

番茄GDP-D-甘露糖焦磷酸化酶cDNA的克隆、表达及定位

GDP-D-甘露糖焦磷酸化酶催化GDP-D-甘露糖的合成,是植物抗坏血酸生物合成途径中上游的关键酶。以马铃薯GDP-D-甘露糖焦磷酸化酶cDNA序列为信息探针,在GenBank dbEST数据库中找到65条高度同源的番茄EST序列,通过序列拼接及RACE-PCR得到了番茄该基因的全长cDNA序列,命名为LeGMP。LeGMP与马铃薯GDP-D-甘露糖焦磷酸化酶cDNA序列一致率为96％,推导的氨基酸序列与马铃薯、烟草、紫苜蓿、拟南芥的GDP-D-甘露糖焦磷酸化酶基因的一致率分别为99％、97％、91％、89％。经Northern杂交分析,LeGMP在番茄根、茎、叶、花、果实中都有表达,但表达水平有差异。利用75个番茄远缘杂交重组系（IL系）将LeGMP定位在番茄第3染色体上的D区段（3-D）。     

Toxicity symptoms caused by high expression of Tet represser in tomato (Lycopersicon esculentum Mill. L.) are alleviated by tetracycline

As a first step towards transferring a tetracycline (Tc)-inducible gene expression system to tomato, we have transformed tomato plants with the Tn10-encoded tet repressor gene (tetR). Homozygous transformed plants with high expression of tetR mRNA show a deleterious phenotype, having reduced shoot dry weights and leaf chlorophyll content, an even more marked reduction in root dry weight and leaf size, and altered photosynthetic physiology. It appears that TetR protein exerts its toxicity only when expressed beyond a threshold level and by interacting with a process that is non-limiting under slow growth conditions. The deleterious phenotype was almost completely reversed by the application of 1 mg dm^?3 Tc to plants grown in sand. The possiblity is discussed that TetR causes these symptoms by binding to a specific DNA sequence functioning as a Tet operator. The effect of Tc on growth and physiology in wild-type plants grown in sand or rockwool is described. Tc at 0.1 mg cm^?3 had no effect. Tc at 1 mg dm^?3 caused a small reduction in root growth, while 5 and 20 mg dm^?3 Tc caused large reductions in growth and photosynthetic parameters.