根癌农杆菌对巴戟天遗传转化的影响因素

以巴戟天带节茎为材料,研究了根癌农杆菌对巴戟天遗传转化的影响因素。结果表明:外植体感染前先进行2 d预培养,对转化有一定促进作用;外植体与农杆菌共培养时间以3 d为宜;乙酰丁香酮能提高转化效率,抗性芽分化率可达18.0％;外植体与农杆菌共培养后延迟4 d选择,抗性芽分化率有所提高;硝酸银能抑制外植体表面农杆菌的生长,提高GUS阳性芽的比例,硝酸银浓度2 mg/L时,GUS阳性芽比例最高(42.9％)。     

带内含子卡那霉素抗性基因双元载体构建及烟草转化

农杆菌介导法是植物基因转化的常用方法,然而由于筛选培养基中常用的抗生素头孢霉素和羧苄青霉素具有类植物激素活性,影响外植体的再生和转化频率,将一个植物的内含子插入卡那霉素抗性基因编码区的N端。合成了一个带内含子的卡那霉素抗性基因。构建带该基因的植物双元表达载体pYP1202并转化烟草,受外植体在含卡那霉素50－200mg/L的选择培养基中抗性芽分化频率不受卡那霉素浓度影响,然而具有GUS活性的转化子占分化芽的比例却随着卡那霉素浓度的增加而升高。当培养基中加入500mg/L羧苄青霉素后受侵外植体产生的抗性芽频率比单一的卡那霉素筛选提高近1倍,高达91.4％,然而具GUS活性的转化子占抗性芽的比较仅有26.7％,在200mg/L的卡那霉素筛选下,比例升至93.3％。用带内含子卡那霉素抗性基因构建的植物表达载体转化植物可以减少假抗性芽的产生。     

带内含子卡那霉素抗性基因双元载体构建及烟草转化

农杆菌介导法是植物基因转化的常用方法,然而由于筛选培养基中常用的抗生素头孢霉素和羧苄青霉素具有类植物激素活性,影响外植体的再生和转化频率。将一个植物的内含子插入卡那霉素抗性基因编码区的N端,合成了一个带内含子的卡那霉素抗性基因。构建带该基因的植物双元表达栽体pYP1202并转化烟草,受侵外植体在含卡那霉素50～200mg/L的选择培养基中抗性芽分化频率不受卡那霉素浓度影响,然而具有GUS活性的转化子占分化芽的比例却随着卡那霉素浓度的增加而升高。当培养基中加入500mg/L羧苄青霉素后受侵外植体产生的抗性芽频率比单一的卡那霉素筛选提高近1倍,高达91.4％,然而具GUS活性的转化子占抗性芽的比例仅有26.7％,在200m/L的卡那霉素筛选下,比例升至93.3％。用带内含子卡那霉素抗性基因构建的植物表达载体转化植物可以减少假抗性芽的产生。     

新疆杨高效遗传转化系统的建立

选择新疆杨(Populus alba L.var．pyramidalis Bge．)为遗传转化受体材料,为建立根癌农杆菌介导新疆杨高效遗传转化系统,从预培养时间、侵染时间、共培养时间、添加乙酰丁香酮(AS)的时机、共培养培养基中添加乙酰丁香酮浓度、侵染菌液的制备方法、外植体继代方式等7个方面优化筛选。结果显示较合适的转化系统为：预培养8h,农杆菌菌液(OD600=0．4)侵染15min,共培养5d,侵染菌液的最优制备方法是液体培养活化农杆菌2次加离心收集菌体重悬,共培养培养基中添加乙酰丁香酮80μmol／L。新疆杨叶盘转化频率可达38．10％。     

水稻悬浮细胞再生及根癌农杆菌介导转化的影响因素

已经成功报道的农杆菌介导的水稻遗传转化多以活力较高的胚性愈伤为材料,很少以水稻悬浮细胞作为受体．另外,利用农杆菌转化多数都是通过浸泡的方式进行侵染．本实验利用滴加浸染法进行农杆菌介导转化水稻悬浮细胞,探讨影响 DNA 转化效率的因素．研究显示,在转化前,将水稻悬浮细胞在愈伤诱导培养基上培养1～2周,诱导产生直径为2～3 mm的微小愈伤组织对转化非常重要.微小愈伤组织大小不应小于 2 mm;对悬浮细胞短时间培养不但会缩短植株再生时间,而且会提高转化效率．此外,侵染农杆菌的浓度、侵染时间和不同侵染方法也影响 T-DNA 插入基因组的效率．用 1 ml Ａ600值为 0.5 浓度的农杆菌悬液滴加在水稻悬浮细胞诱导的愈伤,培养3 d或直到可见农杆菌菌落,此方法可以得到较高转化效率．将再生的潮霉素抗性的转化植株在含有 50 mg/L 潮霉素的分化和生根培养基中筛选得到,并对转化植株 gus 基因的表达进行 PCR 检测.结果显示,用 Ａ600值为 0.5 浓度的农杆菌浸泡侵染 20 min和滴加浸染法,分别得到PCR阳性植株率为 70% 和92%.     

少花龙葵毛状根的诱导和次生代谢物的产生

研究了发根农杆菌（Agrobacterium rhizogenes)对少花龙葵（Solanum photeinocarpum)的转化和毛状根的诱导,分析了影响转化的因素,并初步检测了毛状根的生长和次生代谢物的产生。发根农杆菌菌株R1000、R1601分别感染少花龙葵的叶片、茎段,约7d后得到毛状根。菌株R1000感染的外植体的生根率分别为90．2％和50．0％,根诱导频率分别为6．2和4．6;菌体R1601感染的外植体的生根率分别为92．1％和49．2％,根诱导频率分别为6和5．5;对照两周内不出根。冠瘿碱检测证实所得毛状根为转化根。感染在MS＋PP333培养基上生长的矮壮苗叶片,毛状根诱导频率显著提高;用MS液体培养基稀释1倍的菌液感染叶片,转化效率也得到提高。毛状根生长速度快,培养4周后干重增加420倍,总糖苷生物碱和皂甙含量分别为原植株根的31和107倍。     

影响农杆菌介导的大豆子叶节遗传转化的因素

利用携带pCAMBIA1301质粒（含hpt和gus基因）的超毒根癌农杆菌菌株EHA105对大豆子叶节外植体进行遗传转化,研究了影响农杆菌介导的大豆子叶节遗传转化的因素。研究结果表明．农杆菌侵染液和共培养培养基中添加200μmok/L乙酰丁香酮和50mg／L抗坏血酸可以有效促进农杆菌对大豆子叶节的转化。农杆菌与子叶节共培养后羧苄青霉素（250mr／L）和头孢霉素（100mg／L）结合使用能有效抑制农杆菌过度繁殖并提高转化芽诱导频率;在转化细胞的分化和转化芽伸长过程中,改进的筛选策略可以明显改善对转化芽的筛选效果,从而提高转化频率。应用优化后的转化体系．获得了3个国内大豆主栽品种的转基因植株,PCR阳性植株频率为3．8％～7．6％。转化植株叶片总DNA的PCR和Southern blot实验表明,T-DNA上的外源基因已经整合到大豆基因组中。     

高效马铃薯遗传转化体系的建立及甜蛋白基因的导入

本研究选用了三个马铃薯(Solanum Iuberosum L.)栽培品种“85T-14-3”、“86-2”及“Favorita”的块茎、微型薯和试管薯为起始材料,应用根癌农杆菌 Ti 质粒系统成功地建立了一种方法简单、速度快和频率高的遗传转化体系。其中试管薯薄片的转化速度最快,经根癌农杆菌(Agrobacterium tumefaciens)共培养后,薄片在100mg/L 卡那霉素的分化培养上,2—3周就可产生出抗性小芽,这些小芽进一步仲长后可在50—100mg/L 卡那霉素的无激素MS 培养基上生根。从共培养到转化植株的获得只需6—7周。微型薯和试管薯的转化频率较高,最高可达67.5%。大多数抗性植株均能检测到胭脂碱合成酶或 GUS 基因的表达。把带有甜蛋白基因和胭脂碱合成酶标记基因的Ti质粒导入马铃薯,获得大量转化植株。叶片抗性检测和 nopaline 检测可推断外源甜蛋白基因已进入马铃薯基因组。     

亚麻下胚轴离体培养和转化的研究

报道了亚麻（Ｌｉｎｕｍ　ｕｓｉｔａｔｉｓｓｉｍｕｍ）的高频率植株再生和细胞转化。亚麻下胚轴切段培养在ＭＳＢ分化培养基上,诱导分化出不定芽。最佳的激素组合是ＢＡ２ｍｇ／Ｌ＋ＩＡＡ０．５ｍｇ／Ｌ,分化频率可达９７％。在附加ＢＡ１ｍｇ／Ｌ和ＮＡＡ０．０２ｍｇ／Ｌ的ＭＳＢ培养基上,亚麻下胚轴外植体的不定芽分化频率也可达９０％以上。用根癌农杆菌（Ａｇｒｏｈａｃｔｅｒｉｕｍ　ｔｕｍｅｆａｃｉｅｎｓ）感染亚麻下胚轴外植体,在含卡那霉素５０ｍｇ／Ｌ的选择培养基上筛选获得卡那霉素抗性苗,并检测到ＧＵＳ基因活性表达。表明它们是转化植株,转化频率约为２％。     

根癌农杆菌介导的水稻转化及转基因R1代植株表型特征

用根癌农杆菌介导的方法对２个粳稻品种和４个籼稻品种进行了转化。粳稻成熟胚和籼稻幼胚来源的愈伤组织用携带质粒ｐＧＩＨ的农杆菌ＥＨＡ１０１感染,对所有品种均获得较高的愈伤转化频率（２０．８３％～６２．３２％）。粳稻“申香粳４号”植株转化频率为１７．３９％,“秋丰”为９．２１％。４个品种籼稻中仅“超丰早１号”获得１株转化植株。Ｓｏｕｔｈｅｒｎ杂交分析、ＧＵＳ染色、Ｔ－ＤＮＡ整合边界序列分析等结果表明外源     

PSAG12-ipt嵌合基因转化马铃薯体系的研究

以根癌农杆菌介导法将PSAG12-ipt嵌合基因导入马铃薯栽培品种,对影响马铃薯遗传转化的多种因素进行系统研究.结果表明:马铃薯茎段分化效率高于叶片,马铃薯愈伤诱导和芽分化最适培养基为MS+6-BA 0.25mg/L+NAA 0.25mg/L+2,4-D 0.25mg/L,添加1%Na2SO3能有效防止褐化;茎段愈伤诱导和分化苗生根最适的Kan浓度分别为50mg/L和75mg/L;外植体预培养2d,OD600为0.2～0.5的农杆菌浓度侵染8min、共培养3d后进行选择培养能有效地提高植株再生能力.用PSAG12和ipt双重PCR检测再生植株,阳性转化率为65.8%.Southern blotting结果表明,转基因植株多以单拷贝形式整合进马铃薯基因组中.     

基于高遗传转化率及低幼苗玻璃化率的黑果枸杞叶片组合培养体系

【目的】建立高效稳定的黑果枸杞遗传转化体系,有效降低其再生幼苗玻璃化率,促进其基因功能研究和提高遗传改良效率。【方法】以黑果枸杞叶片作为外植体,利用农杆菌(LBA4404、EHA105)介导的遗传转化法,通过调整基础培养基类型并添加相应浓度的植物激素,筛选出最适愈伤组织诱导培养基、分化和选择培养基、生根诱导培养基,将黑果枸杞遗传转化率提高到65%以上,同时降低幼苗玻璃化率至10%以下。【结果】(1)黑果枸杞叶片高效组合培养体系中最佳农杆菌侵染浓度(OD₆₀₀)为0.6,侵染时间为25 min,在此条件下侵染叶片抗性愈伤诱导率达78.2%～96%;(2)黑果枸杞遗传转化中最适分化和选择培养基为：MS+肌醇50 mg/L+烟酸0.25 mg/L+维生素B₆ 0.25 mg/L+铁盐母液1 mL/L+甘氨酸1.0 mg/L+维生素B₁ 0.05 mg/L+6-BA 0.25 mg/L+蔗糖30 g/L+琼脂6 g/L+卡那霉素30 mg/L+特美汀300 mg/L (pH=6.0);最适生根诱导培养基为：WPM+IBA 0.2...     

Preliminary studies on tissue culture and agrobacterium-medicated transformation of Brassica campestris ssp. chinensis]

The hypocotyls and cotyledons of the asepetic seedling of Brassica campestris ssp. chinensis L cv. Pudongaijiecai) were used as explants for tissue culture. Adventitious buds were differentiated on modified MS medium supplemented with TDZ 1-2 mg/L, NAA 0.2-1 mg/L and AgNO3 7.5 mg/L. The percentage of explants which formed buds of cotyledons was about 56%, and that of hypocotyls was about 37%. When the regenerated explants were transferred onto MS medium with 2 i.p. 5 mg/L and NAA 0.1 mg/L for two weeks, whole plantlets were obtained by culturing the regenerated shoots on 1/2 MS medium with NAA 0.1 mg/L. Agrobacterium tumefaciens strain (LBA 4404/PBI 121) carrying the GUS gene and Npt II gene was used for transformation. After 2 days of coculture, the hypocotyls and cotyledons were transferred onto regenerated medium containing CP 300 mg/L for bud formation. After 4-5 weeks, the differentiated buds were transferred onto selection medium with CP 200 mg/L and Km 10 mg/L for 1 month, then the green shoots were transferred onto the rooting medium containing Cef 100 mg/L and Km 20 mg/L. 4-5 weeks later, plantlets with Km resistance were obtained and some of them showed higher enzymatic activities of beta-glucuronidase than control ones.     

根癌农杆菌介导B.t.基因和CpTI基因对花椰菜的转化

用根癌农杆菌介导的方法 ,将B .t.基因和Cp TI基因分别导入花椰菜“杂交 75天”的父本和母本的无菌苗下胚轴切段细胞 ,都获得了转基因植株。经过预培养的下胚轴切段用根癌农杆菌 (LBA44 0 4/ pG BI4A2B ,含B .t .基因 ;LBA44 0 4/pBRLC ,含CpTI基因 )进行感染后 ,共培养 48h ,继续培养 30d后 ,将分化芽转移至筛选培养基上。 10d后 ,大多数分化芽的顶端变成紫色 ,2 0d后紫色芽逐渐变白死亡 ,而转化芽在选择培养基上长成小植株。小植株移至大田能正常生长、开花、结籽。PCR和Southernblot分析表明B .t和CpTI基因已整合在植物基因组中     

<Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation of eggplant (<Emphasis Type="Italic">Solanum melongena</Emphasis> L.) using root explants

An efficient variety-independent method for producing transgenic eggplant (Solanum melongena L.) via Agrobacterium tumefaciens-mediated genetic transformation was developed. Root explants were transformed by co-cultivation with Agrobacterium tumefaciens strain LBA4404 harbouring a binary vector pBAL2 carrying the reporter gene beta-glucuronidase intron (GUS-INT) and the marker gene neomycin phosphotransferase (NPTII). Transgenic calli were induced in media containing 0.1 mg l(-1) thidiazuron (TDZ), 3.0 mg l(-1) N(6)-benzylaminopurine, 100 mg l(-1) kanamycin and 500 mg l(-1) cefotaxime. The putative transgenic shoot buds elongated on basal selection medium and rooted efficiently on Soilrite irrigated with water containing 100 mg l(-1) kanamycin sulphate. Transgenic plants were raised in pots and seeds subsequently collected from mature fruits. Histochemical GUS assay and polymerase chain reaction analysis of field-established transgenic plants and their offsprings confirmed the presence of the GUS and NPTII genes, respectively. Integration of T-DNA into the genome of putative transgenics was further confirmed by Southern blot analysis. Progeny analysis of these plants showed a pattern of classical Mendelian inheritance for both the NPTII and GUS genes.     

Constitutive expression of rice MADS box gene using seed explants in hot pepper (Capsicum annuum L.).

Two transgenic pepper plants were obtained from 255 seed explants that were infected with Agrobacterium LBA4404 (pGA1209). One of them (PT2) showed morphological change, such as dwarfism and early flowering by the constitutive expression of the rice OsMADS1 gene. The in vitro condition of the plant regeneration has been optimized from hypocotyl explants on a MS medium that was supplemented with zeatin 3 mg/L, IAA 0.3 mg/L for shoot induction. The optimal rooting condition was at NAA 0.3 mg/L. The transformation frequency was 0.8% from the total hypocotyls. DNA and RNA hybridization analyses showed that the introduced gene was integrated and stably expressed in regenerated plants.     

根癌农杆菌介导法获得烟草转人骨形成蛋白—3成熟肽基因植株

利用冻融法将质粒pCAMBIA-hBMP-3m直接转入根癌农杆菌LBA4404,以烟草无菌苗叶盘为外植体,通过农杆菌介导法进行遗传转化,获得了在含25mg/L潮霉素（Hy-gromycin,Hyg）的筛选培养基上再生的抗性植株,经PCR检测呈阳性,初步鉴定并筛选整合了人骨形成蛋白－3成熟肽基因的转基因植株。     

Expression of 10 kD Sulfur-Rice Prolamin Gene of Rice in Potato

Using 10 kD sulfur-rich prolamin gene of rice (PLG) as target gene, the authers constructed the expression vectors pBinLG and pBinLGP, which contained CaMV 35S promoter/PLG/NOS terminator, and Patafin Class Ⅰ promoter/PLG/NOS terminator respectively. They were transformed into Agrobacterium tumefaciens strain LBA4404 (pAL4404) by direct transformation method with incubating the leaf and tuber explants of potato (Solanum tuberosum L. ) with LBA4404 (pAL4404) and selecting in the medium containing 100 mg/L kanamycin, regenerated resistant plants were obtained. The NPT Ⅱ enzyme activity analysis, polymerase chain reaction (PCR), Southern blotting, Northern dot blotting and Western blotting demonstrated that the target gene was integrated into the genome of potato ceils and well expressed in the plant.     

大豆fad基因反义表达载体构建及转化烟草研究

使用PCR方法从大豆基因组DNA中扩增出大豆油酸脱饱和酶基因fad2-1,连接到pMD18-T载体中,转化大肠杆菌JM109菌株.测序后,用DNAstar软件进行同源性比对.然后将正确的序列反向克隆到表达载体pBt,并转化农杆菌菌株LBA4404,经双酶切鉴定和PCR扩增检测,获得具有该基因反向序列的农杆菌工程菌,转化...     

抗生素对大豆愈伤组织的诱导和生长的影响

用红霉素、头孢唑唑钠、头孢拉定、头孢霉素（国产和进口）等5种抗生素对农杆菌LBA4404进行抑菌试验,以头孢霉素的抑菌效果最好。头孢霉素作为抑菌剂用大于豆遗传转化试验时,在下胚轴浓度以300mg/L,在子叶节以500mg/L。大豆品种对卡那霉素的反应在出愈率上表现相似,在褐化率上表现有些不同。大豆不同外植体对卡那霉素的反应存在较大差异,以真叶反应最敏感,下胚轴反应最迟钝。在以卡那霉素作为抗性选择标记时,选择压力真叶和子叶节以50－100mg/L为好,下胚轴以100－200mg/L为宜。