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1.
新疆杨高效遗传转化系统的建立   总被引:9,自引:0,他引:9  
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%。  相似文献   

2.
影响花椰菜农杆菌介导转化因素的研究   总被引:1,自引:1,他引:0  
以花椰菜赛雪的带柄子叶为外植体,以MS为基本培养基,GUS基因为报告基因,分析了遗传转化过程中的影响因子,如预培养时间、农杆菌菌液浓度、侵染时间、共培养时间、乙酰丁香酮浓度、延迟筛选时间等对外植体瞬间表达和稳定表达的影响。结果显示,以花椰菜的带柄子叶为外植体,预培养2d,农杆菌菌液为OD6000.3~0.4,侵染8min,共培养2d,乙酰丁香酮浓度为100μmol/L,延迟筛选7d,卡那霉素筛选压为5mg/L为最优的遗传转化方案,转化率最高可达35.7%。另外,GUS瞬间表达率和转化率并不存在绝对的相关性,但瞬间表达分析仍然可以作为外源基因进入受体细胞的指示。花椰菜农杆菌介导转化方案的优化研究为芸薹属蔬菜高效遗传转化提供了技术保障,有利于芸薹属蔬菜遗传育种与种质创新研究。  相似文献   

3.
不同理化因子对黄芩毛状根诱导的影响   总被引:1,自引:0,他引:1  
张东向  王蕊  张磊 《生物技术》2008,18(1):63-66
目的:利用发根农杆菌1.2556诱导黄芩,得到毛状根.方法:采用共培养法诱导黄芩毛状根,研究不同外植体,不同预培养时间,不同菌液浓度,不同感染时间,乙酰丁香酮,抗生素浓度等条件对转化率的影响.结果:利用预培养2d后的茎段为转化材料,当发根农杆菌浓度在OD600值为0.5时感染10min,转化率最高.在菌液中或培养基中添加100umol/L,乙酰丁香酮可以提高黄芩毛状根的转化效率.培养基中加入250mg/L抗生素Cef能较好地抑制发根农杆菌生长.结论:用共培养法诱导出黄芩毛状根,并确定了最佳诱导条件,以提高黄芩外植体的诱导率.  相似文献   

4.
农杆菌介导的紫花苜蓿高效遗传转化体系的研究   总被引:2,自引:0,他引:2  
为建立高效的农杆菌介导的紫花苜蓿的遗传转化体系,对影响转化体系的若干因素进行了研究.结果表明,最适宜的条件分别为抗菌素为350 mg/L的羧苄青霉素(Carb);卡那霉素(Kan)筛选的浓度为60 mg/L;基因型为WL-323;外植体为下胚轴;农杆菌菌液浓度OD600值为0.4-0.6;侵染时间10 min;乙酰丁香酮(AS)的浓度为10 mg/L.  相似文献   

5.
转基因育种是快速定向改良兰花育种目标性状的有效方法,但迄今未见有关墨兰转基因育种的研究报道。试验以‘企剑白墨’墨兰Cymbidium sinensis cv.‘Qijianbaimo’的根状茎为受体材料,研究了影响农杆菌介导墨兰遗传转化效率的因素,以建立有实用价值的墨兰遗传转化技术体系。结果表明,受体的预培养时间、乙酰丁香酮的添加方式及浓度、农杆菌工程菌液浓度(OD600)、侵染时间和共培养时间均对‘企剑白墨’根状茎的GUS瞬时表达率有显著影响。以预培养39 d的根状茎尖为材料,在添加200μmol/L乙酰丁香酮,OD600为0.9的工程菌液中侵染35 min后,转入添加200μmol/L乙酰丁香酮的共培养基中培养7 d时,‘企剑白墨’根状茎的GUS瞬时表达率最高,为11.67%。采用上述条件对‘企剑白墨’墨兰进行遗传转化,经PCR鉴定和GUS染色检测,从400株再生植株中获得了3株转基因植株,转化率为0.75%。研究表明通过农杆菌介导法对墨兰进行遗传改良是可行的。  相似文献   

6.
利用根癌农杆菌介导转化大豆成熟种子胚尖获得转基因植株   总被引:19,自引:0,他引:19  
利用根癌土壤农杆菌EHA105/pCAMBIA2301对来自大豆成熟种子的胚尖外植体进行遗传转化,并对农杆菌侵染时间长短以及乙酰丁香酮(AS)浓度等影响转化频率的条件进行了探讨.发现浸染时间以20 h为佳,乙酰丁香酮最佳浓度为200 umo1/L,并探讨了恢复培养的重要性.分别从3个大豆品种合丰35、合丰39、东农42得到了转基因植株,GUS染色及Southern杂交结果证明外源基因整合到大豆基因组中,获得转基因大豆的频率达6.4%~12.1%.  相似文献   

7.
EuFPS基因表达载体构建及对杜仲遗传转化的研究   总被引:1,自引:0,他引:1  
本实验用EcoRⅠ和BamHⅠ双酶切植物表达载体pSH737和含有目的基因的pUC-FPS,定向连接得到重组质粒pSH-FPS,将其导入农杆菌EHA105.采用农杆菌介导法对杜仲进行遗传转化,研究了卡那霉素(kanamycin,Km)浓度、预培养时间、菌液浓度及侵染时间、乙酰丁香酮(acetosyringone,AS)浓度、共培养时间等对杜仲遗传转化效率的影响.结果表明,选择无菌苗苗龄15 d的杜仲下胚轴,卡那霉素浓度50mg/L,农杆菌浓度OD600值0.3-0.6,侵染时间8 min,侵染时菌体重悬液中添加50 μmol/L乙酰丁香酮,共培养时间3 d,抗性芽的获得率最高.对再生植株进行GUS检测发现有45%的植株呈阳性.  相似文献   

8.
宁夏枸杞发根农杆菌转化系的建立及影响转化因素的研究   总被引:21,自引:2,他引:19  
胡忠  杨军 《西北植物学报》2000,20(5):766-771
以发根农杆菌A4菌株介导,对宁夏枸杞叶片和茎切段的遗传转化进行了初步研究,建立了发状根体系,并优化了转化条件。乙酰丁香酮的添加、农杆菌液的浓度、共培养时间、外植体取材部位及时间,均可以影响发状根的诱导频率。采用添加100μmol/L的 乙酰丁香酮、振荡培养24h的A4菌液感染3周龄的叶片切段,并共培养3d,可以得到最佳的转化效果,发状根的诱导率为48.9%。在同样的转化条件下,只有13.6%的茎切  相似文献   

9.
毕瑞明 《生物技术》2008,18(2):58-60
目的:提高小麦成熟胚愈伤组织的转化效率,为建立快速高效的小麦遗传转化体系奠定基础。方法:以普通小麦HB341、SN2618成熟胚愈伤组织为受体,通过农杆菌GV3101/pBI121介导,进行选择剂选择压、外植体预培养时间、接种菌液浓度及侵染时间等遗传转化主要因子的优化研究。结果:最适宜的转化条件是:胚性愈伤组织在附加200μmol/l乙酰丁香酮的分化培养基上预培养3d,在OD600=0.6的接种菌液中侵染30min,然后在附加40~60mg/l卡那霉素的分化培养基上筛选培养30d,即可获得假阳性率很低的转基因小麦抗性芽。结论:该研究为快速高效小麦遗传转化体系的建立提供了依据。  相似文献   

10.
根癌农杆菌介导大花蕙兰遗传转化的研究   总被引:1,自引:1,他引:0  
以大花蕙兰原球茎(PLBs)为外植体,采用EHA105和LBA4404 2种根癌农杆菌菌株与pCAMBIA1301质粒构建工程菌介导,以建立大花蕙兰遗传转化体系,并比较不同受体处理方式、菌液浓度和侵染方式等对大花蕙兰转化的影响.结果表明:(1)以切成3 mm左右的PLBs小块作为受体材料,用OD600值为0.6的LBA4404根癌农杆菌菌株,并用MS+1.0 mg/L BA+200μmol/L AS(乙酰丁香酮)的液体培养基将菌液等体积稀释侵染,转化率可达62.5%.(2)大花蕙兰对潮霉素(Hyg)十分敏感,5 mg/L Hyg对转化后的PLBs有较好的筛选效果,筛选后最高成活率为13.0%.(3)PCR检测初步证明,通过根癌农杆菌介导的方法获得了2株转基因大花蕙兰植株.  相似文献   

11.
利用根癌农杆菌介导转化技术成功将潮霉素抗性基因转入发白红曲菌中,优化了抗生素浓度,发白红曲菌孢子浓度,根癌农杆菌浓度,共培养温度及时间,以及乙酰丁香酮浓度等转化条件,最终转化效率可达52个转化子/105个红曲孢子.将转化子在含有潮霉素B的培养基继代培养5代,得到了多株稳定的转化子,对部分转化子进行PCR鉴定,结果进一步...  相似文献   

12.
Several factors affecting transformation of Populus tomentosa Carr. were studied, and a simple and effective protocol with optimized condition for transformation of P. tomentosa was developed. The results demonstrated that the transformation frequency was extremely increased with the presence of acetosyringone, and likely with the Agrobacterium tumefaciens (Smith et Townsend) Conn density, duration of infection and co-cultivation. It was found that removal of CoCl2·6H20 from the co-culture medium was benefitial to obtain Kanr shoots.  相似文献   

13.
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%.  相似文献   

14.
影响根癌农杆菌介导的木霉菌遗传转化因素分析   总被引:10,自引:0,他引:10  
采用根癌农杆菌介导的转化方法,以木霉菌分生孢子为受体材料,对影响转化效率的主要因素进行了分析。结果表明,农杆菌菌株类型、初始菌液量、分生孢子浓度、共培养时间以及乙酰丁香酮的诱导等因素对转化效率都具有重要的影响。通过对这些因素的分析,基本得出了根癌农杆菌转化系统对木霉菌遗传转化的特点和规律,为将该转化系统用于其它丝状真菌的遗传转化提供了重要参考。  相似文献   

15.
水稻双元细菌人工染色体载体系统转化体系的建立   总被引:1,自引:0,他引:1  
普通双元载体己被广泛碰用于农杆菌介导的植物转化,但这类载体通常只能转移5~20kb的外源DNA片段;而双元细菌人工染色体(BIBAC)载休可以弥补普通双元裁体的不足,通过它已在烟草、番茄等双子叶植物中实现了大片段DNA(150kb)的转移。BIBAC载体在单子叶植物转化中的应用尚未见报道。面于单、双子叶植物间以及大、小片段转化间的转化体系存在明显差异,常规的农杆菌介导的水稻转化体系不能适应BIBAC系统转化的要求。因此,建立适于BIBAC系统的水稻转化体系是十分必要的。通过比较不同的受体材料,不同的预培养、其培养条件,不同的去除农杆菌及选择阳性愈伤的方式等对转化效率的影响,建矿了适合水稻BIBAC系统的转化体系。该体系的技术要点包括:以水稻品种H1493为转化受体:以含毒性辅助质粒pCH32的LBA4404菌株(HP4404)为侵染菌株;预培养的培养拱pH5.6:以N6A代替AAM悬浮农杆菌:侵染菌液浓度为OD600=1.0;共培养温度为24℃;采用过渡(Resting)培养除去农杆菌;采用二步法进行选择等。基于PCR检测、Southern印迹分析的结果表明,BIBAC载体所携带的插入片段及标记基因已整合到转化植株的基因组中。这个体系的建立为在水稻中利用BIBAC系统进行大片段DNA转化奠定基础。  相似文献   

16.
A reliable and high-efficiency system of transforming embryogenic callus (EC) mediated by Agrobacterium tumefaciens was developed in cotton. Various aspects of transformation were examined in efforts to improve the efficiency of producing transformants. LBA4404 and C58C3, harboring the pgusBin19 plasmid containing neomycin phosphortransferase II (npt-II) gene as a selection marker, were used for transformation. The effects of Agrobacterium strains, acetosyringone (AS), co-cultivation temperature, co-cultivation duration, Agrobacterium concentration and physiological status of EC on transformation efficiency were evaluated. Strain LBA4404 proved significantly better than C58C3. Agrobacterium at a concentration of 0.5 × 108 cells ml–1 (OD600=0.5) improved the efficiency of transformation. Relatively low co-cultivation temperature (19 °C) and short co-cultivation duration (48 h) were optimal for developing a highly efficient method of transforming EC. Concentration of AS at 50 mg l–1 during co-cultivation significantly increased transformation efficiency. EC growing 15 days after subculture was the best physiological status for transformation. An overall scheme for producing transgenic cotton is presented, through which an average transformation rate of 15% was obtained.  相似文献   

17.
A critical step in the development of a reproducible Agrobacterium tumefaciens mediated transformation system for a recalcitrant species, such as pearl millet, is the establishment of optimal conditions for efficient T-DNA delivery into target tissue from which plants can be regenerated. A multiple shoot regeneration system, without any intervening callus phase, was developed and used as a tissue culture system for Agrobacterium-mediated transformation. Agrobacterium super virulent strain EHA105 harboring the binary vector pCAMBIA 1301 which contains a T-DNA incorporating the hygromycin phosphotransferase (hpt II) and β-glucuronidase (GUS) genes was used to investigate and optimize T-DNA delivery into shoot apices of pearl millet. A number of factors produced significant differences in T-DNA delivery; these included optical density, inoculation duration, co-cultivation time, acetosyringone concentration in co-cultivation medium and vacuum infiltration assisted inoculation. The highest transformation frequency of 5.79% was obtained when the shoot apex explants were infected for 30 min with Agrobacterium O.D.600 = 1.2 under a negative pressure of 0.5 × 105 Pa and co-cultivated for 3 days in medium containing 400 μM acetosyringone. Histochemical GUS assay and polymerase chain reaction (PCR) analysis confirmed the presence of the GUS gene in putative transgenic plants, while stable integration of the GUS gene into the plant genome was confirmed by Southern analysis. This is the first report showing reproducible, rapid and efficient Agrobacterium-mediated transformation of shoot apices and the subsequent regeneration of transgenic plants in pearl millet. The developed protocol will facilitate the insertion of desirable genes of useful traits into pearl millet.  相似文献   

18.
In the present study, an efficient Agrobacterium-mediated gene transformation system was developed for ramie [Boehmeria nivea (L.) Gaud.] based on the examinations of several factors affecting plant transformation efficiency. The effects of Agrobacterium cell density, acetosyringone, co-cultivation temperature, co-cultivation duration, co-cultivation photoperiod and pH on stable transformation were evaluated. Agrobacterium at a concentration of OD = 0.5–0.8 improved the efficiency of transformation. Concentration of acetosyringone at 50 mg/L during co-cultivation significantly increased transformation efficiency. Co-cultivation at 20°C, in comparison to 15, 25 and 28°C, consistently resulted in higher transformation frequencies. A relatively short co-cultivation duration (3 days) was optimal for ramie transformation. Co-cultivation medium at pH 5.9 and co-cultivation in darkness both improved the transformation efficiencies of ramie. An overall scheme for producing transgenic ramie is presented, through which an average transformation rate from 10.5 to 24.7% in five ramie varieties was obtained. Stable expression and integration of the transgenes were confirmed by histochemical GUS assay, kanamycin painting assay, PCR and Southern blotting. This optimized transformation system should be employed for efficient Agrobacterium-mediated transformation of ramie. An erratum to this article can be found at  相似文献   

19.
以美国库拉索芦荟的横切薄片(transversethincelllayer,tTCL)作为转化外植体,初步研究了以根癌 农杆菌介导的多种因子对芦荟遗传转化的影响。结果表明:菌株EHA105比LBA4404及AGL1转化率高; 除了乙酰丁香酮(acetosyringone)外,菌液的预处理和重悬液的pH值也是影响转化的主要因子;菌液的预处 理和适合的蔗糖浓度对转化也有促进作用;感染时间为12~18min,共培养的温度和时间分别以25℃及5d 为佳。  相似文献   

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