小麦成熟胚的组织培养

【研究目的】为了筛选出小麦(Triticum aestivum L.)成熟胚(MEs)培养和遗传转化受体材料的优良基因型,【方法】以27份优良普通小麦冬性主栽品种或高代育种品系为试材,采用整粒切胚诱愈方法(endosperm-supported method),对小麦成熟胚进行组织培养研究。【结果】结果表明,在成熟胚培养过程中光照、温度、培养基2,4-D浓度、基因型等因素对小麦成熟胚组织培养影响较大;同时小麦成熟胚组织培养存在着较强的基因型依赖性,不同基因型愈伤组织诱导率、分化率、成苗率的差异具有统计学意义（P<0.01）。通过研究从27个小麦基因型中筛选出了3个适合于成熟胚整粒切胚诱愈的基因型,即山农2618、泰山021、河北341,他们的成苗率分别达到了15.38%、25.27%、21.33%。【结论】小麦成熟胚组织培养优良基因型的筛选,为以后小麦的遗传转化和应用基因工程技术进行遗传改良奠定了基础。     

二倍体、四倍体小麦成熟胚组织培养研究初报

以栽培二粒小麦(Triticum dicoccum Schuble)、硬粒小麦(Triticum durum Desf.)以及普通六倍体小麦祖先种野生二粒小麦(Triticum dicoccoides Kom.)、野生一粒小麦(Triticum aegilopides Bal.)4个基因型麦属植物成熟胚(MEs)为外植体,对成熟胚愈伤组织诱导、分化及植株再生的组织培养效果做了初步研究,筛选出适合于非六倍体小麦成熟胚组织培养的基因型.结果表明,不同基因型成熟胚愈伤组织的诱导、分化及植株再生差异显著,具有很强的基因型效应和基因型依赖性.其中栽培二粒小麦的成熟胚表现出较好的组织培养特性,它的愈伤组织诱导率、分化率、成苗率以及组培效率分别为95.00%、90.00%、32.40%、27.70%,显著高于其它基因型.二倍体、四倍体小麦成熟胚组织培养特性的研究以及组织培养基因型的筛选,为遗传转化体系的建立、小麦功能基因的分离和克隆,以及小麦分子育种工作奠定了基础.     

我国部分主推小麦品种组织培养再生能力评价

小麦细胞工程育种和基因工程育种存在强烈的基因型特异性, 从目前推广的优良小麦品种中筛选不同外植体再生能力强的基因型, 对于提高小麦生物技术育种效率和加速育成品种的生产应用具有重要意义。本研究以全国大面积推广的24个优良小麦品种和抗白粉病优良品系CB037为材料, 连续2年进行花药培养、幼胚培养和成熟胚培养, 统计愈伤组织诱导率、愈伤组织分化率和植株再生率, 分析、评价这些小麦品种(系) 3种外植体的组织培养再生性能。结果表明, 25个小麦品种(系)花药、幼胚、成熟胚的植株再生率分别为0~41.75%、2.25%~531.92%和3.24%~84.34%, 基因型差异显著; 组织培养再生能力以幼胚最强(119.79%), 成熟胚其次(36.23%), 花药最弱(4.91%)。CB037的3种外植体组织培养再生效率均最高, 轮选987、扬麦16、内麦836、科农199、新春6号、郑麦366、郑麦9023、新冬20、烟农19和川麦42幼胚培养植株再生能力表现较强, 新春6号、京冬8号、石麦4185、科农199和轮选987成熟胚培养植株再生率较高, 石麦4185和邯6172花药培养绿苗诱导率较高。小麦组织培养效率与基因型和外植体类型密切相关, 不同品种同一外植体再生能力差异显著, 同一品种不同外植体再生能力也存在显著差异, 并且3种外植体的组织培养再生能力不存在相关性。本研究筛选到不同外植体再生能力较好的优良小麦基因型, 可进一步用于小麦转基因育种和单倍体育种。     

Plant regeneration through callus initiation from mature embryo of Triticum

The behaviour of diverse Triticum genotypes in the tissue culture response of mature embryo callus was compared, and factors affecting tissue culture response were studied in this paper. Significant differences were detected in callus induction, embryogenic callus differentiation, plantlet regeneration and culture efficiency when mature embryos of 31 plants of different Triticum species were compared. These were the main wheat cultivars of the Chinese northern winter‐type wheat region and breeding lines (Triticum aestivum L.), durum wheat (Triticum durum Desf.), cultivable emmer wheat (Triticumdicoccum Schuble) and the common wheat progenitors Triticum dicoccoides and Triticum aegilopides. The genotype dependency was particularly high in tissue culture of mature embryos of these Triticum genotypes. The efficiency of induction, differentiation and regeneration of mature embryos callus was high in genotypes selected out. Mature embryo‐derived callus of HB341, TS021, SN2618, T. dicoccum, HB188, and T9817 showed better tissue culture response than the other genotypes. Plantlets can be regenerated from mature embryo‐derived callus of 31 genotypes, saving on growth facility resources and time required for the collection of other explants, and providing a solid basis for the genetic transformation and molecular plant breeding of Triticum plants.     

“济麦”系列品种成熟胚再生体系的优化研究

建立成熟的外植体再生体系,搭建有效的转化平台是实现小麦基因工程改良的重要途径。与未成熟胚相比,利用小麦成熟胚作为外植体不仅取材方便,而且不受环境和季节的限制。因此,建立小麦成熟胚再生体系是小麦组织培养发展的重要趋势。本研究利用"济麦"系列5个品种济南17、济麦19、济麦20、济麦21和济麦22,以适于组培的小麦品种Bobwhite作对照,研究了不同浓度2,4-D、玉米素(ZT)和激动素(KT)对小麦成熟胚的愈伤诱导和分化成苗的影响。结果表明,与对照品种Bobwhite相比,"济麦"系列品种具有更高的成熟胚出愈率,品种间差异显著,呈现出基因型效应。在相同2,4-D诱愈浓度条件下,不同品种间分化和成苗率差异极显著。"济麦"系列品种的成苗率均低于对照品种Bobwhite(13.55%),说明进一步优化愈伤的再生成苗能力是未来建立再生体系的关键。相同品种条件下,2,4-D诱愈浓度对出愈、分化和成苗率影响显著,当2,4-D诱愈浓度4mg/L时,除济麦20以外,其它五个品种均能分化成苗,其中济麦22成苗率约10.33%,接近Bobwhite水平。本研究为建立和完善"济麦"系列品种的成熟胚再生和遗传转化体系奠定了基础。     

不同二倍体和四倍体小麦成熟胚再生体系研究

为了研究不同基因型和培养条件对小麦成熟胚愈伤组织诱导和分化的影响,以硬粒小麦、墨西里卡、野生一粒麦Tu和野生一粒麦Tb为实验材料,对其成熟胚在不同激素配比下愈伤组织的诱导和植株分化进行研究。结果表明,不同基因型小麦成熟胚愈伤组织诱导、分化及再生均存在很大差异。其中硬粒小麦的成熟胚培养效果最佳,其愈伤组织在不同2,4-D浓度（1.0~4.0 mg/L）下诱导率均在93%以上。不同激素配比对成熟胚愈伤组织绿点率、再生率均有显著影响。硬粒小麦、墨西里卡、野生一粒麦Tb在激素配比为KT 1.5 mg/L+NAA 0.5 mg/L的分化培养基中培养效果最好,其绿点率分别为85.22%,61.67%,8.50%,成苗率分别为40.40%,32.06%,1.72%;而野生一粒麦Tu的最适分化培养基激素配比为KT 1.0 mg/L +NAA 1.0 mg/L,其绿点率和再生率分别为18.64%和8.47%。研究表明,基因型是影响二倍体和四倍体小麦成熟胚培养的主要因素,愈伤组织的诱导和植株的再生是相互独立的。     

影响小麦成熟胚培养因素的研究

利用110多个小麦品种的种子为材料,研究了影响成熟胚培养效果的几个因素.实验结果表明,基因型是重要的影响因子,引起愈伤组织的生长速度和一次成苗率等性状的明显差异.培养基的成份也起着重要作用,2,4-D是必需的生长素,使用浓度的范围较大,但浓度太高会降低愈伤组织的生长速度,并明显抑制器官分化;0.5～1毫克/升的NAA和GA_3与0.5～1毫克/升2,4-D配合作用对培养有益,一次成苗率较高,同样浓度的ABA仅对根分化有促进作用;培养基中蔗糖浓度在3～7%有助于愈伤组织生长.另一个影响因子是愈伤组织的继代时间长度,短时间继代培养(不超过一年)能改善愈伤组织的质量并加快其增殖,超过一年的长时间继代培养虽不影响愈伤组织的增长速率,但使绿苗分化率剧烈下降,白苗分化率上升.通过筛选适宜的基因型和调节培养基中的激素,亦获得了较高的绿苗分化频率.     

AgNO_3在小麦幼胚组织培养中的应用研究

为了提高小麦幼胚体细胞再生频率,以河南省大面积推广的豫麦49号、豫麦18号和兰考906为研究对象,研究了不同浓度AgNO_3对小麦幼胚胚性愈伤组织培养特性和草酸盐氧化酶活性的影响.结果表明:基因型间、不同AgNO_3浓度间小麦幼胚胚性愈伤组织诱导率、愈伤组织绿点率和草酸盐氧化酶活性差异均达到0.01显著水平,基因型间以豫麦18最高、兰考906最低;不同AgNO_3浓度间以MS培养基上附加2.5～5.0 mg/L处理较高.不同浓度AgNO_3条件下小麦幼胚胚性愈伤组织诱导率与草酸盐氧化酶活性相关系数为0.920,达0.01显著水平.可见,在小麦幼胚组织培养过程中可以加入Ag~+提高再生频率.     

影响小麦K199不同外植体愈伤组织诱导的因素

以小麦科农199(K199)的完整种子、离体成熟胚和幼叶作为外植体,探讨了取材时间、取材部位、激素浓度和培养方式对小麦离体培养的影响。结果表明,刨碎的离体成熟胚和叶片基段为小麦组织培养的良好起始材料,种子萌发4 h为最佳取材时间,2 mg/L 2,4-D更有利于获得II型愈伤,光培养比暗培养更适用于叶片愈伤培养。     

杜仲愈伤组织诱导及胚性愈伤组织的判别

为探索杜仲胚性愈伤组织诱导的条件,建立杜仲体细胞胚胎发生初步体系,以杜仲幼嫩叶片和未成熟合子胚为外植体、MS为基本培养基,探究外源激素配比、未成熟合子胚发育阶段与基因型对愈伤组织诱导的影响,并从形态学和细胞学对愈伤组织进行胚性的判断。试验结果表明：4种不同激素配比的培养基诱导出的叶片愈伤组织在形态上具有差异,MS+ 2,4-D 2 mg/L+ 6-BA 1 mg/L和MS+ 2,4-D 2 mg/L+6-BA 0.5 mg/L有利于叶片胚性愈伤组织诱导;在培养基MS+ 2,4-D 2 mg/L+ 6-BA 1 mg/L上,以未成熟合子胚为外植体诱导出4种类型愈伤组织,其中圆球形和颗粒型突起的愈伤组织具有胚性;未成熟合子胚采集时间对愈伤组织诱导率具有显著差异,6月14日采集的外植体愈伤诱导率最高,不同基因型差异不显著。     

花生体细胞胚诱导及植株再生研究

为了建立花生体细胞胚诱导及植株再生体系,为花生分子育种提供技术支撑,以花生品种‘桂花30’和‘桂花771’为材料,采用预培养3天的种子胚小叶、下胚轴、子叶节为外植体,在添加外源激素的MS培养基中使体细胞脱分化形成体细胞胚,再分化成植株。结果表明,在所设定2,4-D浓度（3,5,10,15,20 mg/L）范围内,胚小叶最容易诱导形成体细胞胚,2,4-D的适宜浓度为10 mg/L,经过约30天培养,可产生大量体细胞胚,‘桂花30’和‘桂花771’的平均诱导率分别为55.37%和36.72%。平均每个外植体产胚量分别为5.68个和4.27个。将诱导形成的体细胞胚转接到6-BA浓度由5 mg/L逐渐降低到1.5 mg/L的MS培养基中,体细胞胚萌发再生成无根小苗,正常植株再生率‘桂花30’为32.6%,‘桂花771’为23.5%。将无根苗转接到生根培养基中可获得完整植株。花生是较难诱导体细胞胚形成的作物之一,筛选合适的基因型、外植体和激素浓度是获得较高体细胞胚发生率和植株再生率的关键技术。     

4个梅花品种的胚培养及愈伤组织诱导研究

为保存和扩繁梅花种质资源,试验筛选4个梅花品种,取胚进行胚培养,旨在建立梅花胚培养的无菌体系。以梅花(Prunus mume Sieb. Et Zucc.)天然杂交的未成熟胚为外植体,初步探索‘淡寒红’、‘南京红须’、‘双碧垂枝’、‘粉瓣’等梅花品种的胚培养体系,并在此基础上,利用叶片建立了高效的愈伤组织诱导体系。结果表明：胚培养的最适培养基为MS+6-BA 1.0 mg/L+IBA 0.2 mg/L,叶片愈伤组织诱导培养基为MS+2,4-D 1.0 mg/L,最适的叶龄为幼叶时期。梅花的胚培养中,不同品种的萌发率具有一定差异,难易顺序是单瓣品种群＜垂枝品种群＜朱砂品种群。     

Durum wheat × maize crosses for haploid wheat production: Influence of parental genotypes and various experimental factors

To improve haploid plant production in durum wheat, the haplomethod involving intergeneric crossing with maize followed by embryo rescue was used. The influence of parental genotypes and various experimental factors were studied. Ten cultivars of Triticum turgidum ssp. durum (female parent) were crossed with eight genotypes of Zea mays. After pollination, plant stems were either maintained in situ or cut near the base and kept in a 2,4‐dichlorophenoxyacetic acid (2,4‐D)‐sucrose solution. Ten to 18 days after pollination, embryos were excised from developed ovaries and cultured on one of MS, MS/2, or B5 media. Haploid embryos and plants were obtained (78 green haploid plants regenerated in 0 year). The wheat genotype was significant for ovary development, embryo and plant formation, whereas the maize genotype was significant only for embryo formation. Detailed results of all crosses showed the best crossing partner for each wheat genotype. Cutting the plant stems after pollination gave better results than maintaining them in situ. The optimal stage for embryo rescue was 14 days and B5 and MS/2 media were more efficient than MS for embryo culture.     

Improved plant regeneration and in vitro somatic embryogenesis of St Augustinegrass [Stenotaphrum secundatum (Walt.) Kuntze]

St Augustinegrass [Stenotaphrum secundatum (Walt.) Kuntze] is an important warm season turf and pasture grass. In vitro tissue culture of St Augustinegrass could serve as an important mean for its improvement through genetic transformation as well as induced somaclonal variation. To optimize tissue culture conditions for plant regeneration of St Augustinegrass, tissue culture responses of 11 explant tissues and four callus induction/subculture media have been examined. Embryogenic calli with regeneration potential were observed on cultures of early immature embryo [3 days after pollination (DAP)], immature embryo (7–14 DAP), and shoot base of young seedlings. The addition of benzyladenine (BA) in the callus induction/subculture medium enhances callus regeneration ability and does not harm callus induction for immature embryos. The best response came from 7 to 14 DAP immature embryo on MS medium containing 1 mg/l 2,4‐dichlorophenoxyacetic acid and 0.5 mg/l BA. The callus induction and regeneration rates were 97.7% and 47.6% respectively. However, BA supplement reduced callus formation and failed to enhance regeneration for young leaf bases. Scanning electron microscopy revealed that plant regeneration of St Augustinegrass is via somatic embryogenesis.     

糯玉米的成熟胚培养

以糯玉米成熟胚为外植体作离体培养,研究在培养基中添加植物激素,硝酸银及有机物等对玉米愈伤组织的诱导和胚性愈伤继代生长的影响。结果表明：在诱导培养阶段,N6+6-BA 0.2mg/L+2,4-D 2mg/L的培养基诱导率最高,愈伤质量好;在继代培养阶段,MS+6-BA 0.2mg/L+2,4-D 2mg/L +AgNO310mg/L或CW (Coconut Water) 10%的培养基可改善胚性愈伤的质量。     

Comparison of callus culture with embryo culture at different times of embryo rescue for primary triticale production

Summary Callus culture of immature wheat-rye hybrid embryos was compared with embryo culture in two experiments. Embryos were rescued from field grown mother plants at two day intervals 13–21 days after pollination and plated for 1) callus culture on Murashige and Skoog medium (MS) supplemented with 2 mg/12,4-dichlorophenoxy acetic acid followed by plant regeneration on hormone free MS medium with half strength mineral salts, 2) embryo culture on Taira and Larter medium (TL). Observations were made on embryo size and condition at time of rescue (Experiment 1) and embryo development directly into plants (embryo culture) or through embryogenesis (callus culture). Fewer 19 and 21 day old embryos developed into plants from callus culture than from embryo culture in Experiment 1. Callus culture was more efficient than embryo culture in promoting plant recovery from 17 day old embryos in Experiment 2. The number of plants per embryo was significantly higher from callus culture than from embryo culture. In both experiments callus culture promoted embryogenesis in more embryos than developed in embryo culture. Embryo rescue 15–17 days after pollination was optimal in both experiments.     

燕麦愈伤组织诱导和分化再生影响因素的研究

以燕麦3个品种(系)幼胚、幼穗为材料,通过组织培养方法,研究了基因型、培养基、外植体对愈伤组织诱导、继代和分化再生的影响。结果表明,对愈伤组织的诱导,基因型和培养基起重要作用,对幼胚作用极显著,对幼穗作用显著;外植体不同也影响愈伤组织形成,随培养基成分改变而变化,且幼穗较幼胚更易培养;2,4-D浓度影响愈伤组织生长和胚性愈伤组织形成,3 mg/L 2,4-D有利于愈伤生长,促进胚性愈伤形成;草莜一号幼穗愈伤组织有很强的继代能力,继代培养330 d仍具有46.58%的分化率,该材料在组织培养和基因工程研究中具有很大潜力。     

Callus formation and plantlet regeneration from immature Triticum durum Desf. embryos

Summary Experiments upon in vitro culture of immature durum wheat embryos, harvested at different growth stages, were made in two consecutive years. Callus formation and plantlet regeneration were obtained. The ability to form callus and the degree of morphogenetic processes varied with the different hormonal treatments used and with the age of the embryos. In the first year the best response for callus growth was observed with 2,4-D 2 mg l^-1 plus adenine 50 mg l^-1 or 2,4-D 5 mg l^-1 alone in the more mature embryos (15 and 20 days after anthesis). On the contrary, NAA 5 mg l^-1 had a greater shoot regeneration effect. In the next year, at all 2,4-D concentrations and for the two different ages of the embryos tested, all embryos formed callus. Regeneration of plantlets was obtained in higher percentage in calli originated from the more developed embryos. The effect of changed media upon plantlet regeneration was studied after callus transplant.Investigation by cytophotometry and chromosome counts on different calli showed, practically in all cells, a diploid condition. A histological analysis demonstrated embryogenic somatic characteristics in many samples of callus. The pattern of organogenesis seemed to be via adventitious bud formation but structures resembling embryoids were also observed in the callus.     

Variation of the crossability of durum wheat with maize

With the aim of examining crossability of durum wheat with maize, two sets of durum wheat genotypes and a set of D-genome chromosome substitution lines of the durum wheat variety ‘Langdon’ were crossed with maize, and followed by 2,4-dichlorophenoxyacetic acid (2,4-D) treatment in detached-tiller culture. In crosses of 25 durum wheat genotypes (breeding lines) with maize, percent frequencies of embryo formation increased from 1.4% to 2.8% by adding silver nitrate to the detached-tiller culture solution. In crosses of 32 durum wheat genotypes (advanced lines and varieties) with maize using the silver nitrate addition, frequencies of embryo formation ranged from 0.0% to 15.8%; seven genotypes showing more than 6.0% embryo formation frequency were related in their pedigrees. In crosses of a set of chromosome substitution lines with maize, higher frequencies of embryo formation were obtained in substitution lines with chromosomes 1D, 3D, 4D and 7D. These results suggest that 1) adding silver nitrate to the 2,4-D treatment increases overall frequency of embryo formation but is not effective enough to induce the development of seeds and embryos from all durum wheat genotypes, and 2) some D-genome chromosomes substituted in a durum wheat genetic background may enhance crossability with maize in combination with homoeologous chromosomes of durum wheat. This revised version was published online in August 2006 with corrections to the Cover Date.     

Trait correlation of immature embryo culture in bread wheat

Immature embryo culture of 45 cultivars in bread wheat was conducted to investigate trait correlation in tissue culture response. Plantlets were regenerated mainly through somatic embryos confirmed by histological examination, but also confirmed by the trait correlation analysis. The incidence of calli with leaf‐like green spots as opposed to the time, rate and fresh weight of callus induction in dedifferentiation culture was significantly positively related to organogenesis both in differentiation and maintenance culture. It indicated the plant regeneration potential might be predicted early by the incidence of calli with leaf‐like green spots in the dedifferentiation stage. Significant positive correlation also occurred among all the organogenesis traits such as the rate of shoot and root regeneration, or the number and length of shoots.