小麦—天兰偃麦草—黑麦三属杂种花粉植株诱导条件的研究

研究表明,三属杂种处于单核中晚期阶段的花粉最适于诱导形成愈伤组织。低温预处理对促进三属杂种花粉愈伤组织的诱导有一定的作用。利用以马铃薯提取物为基础物质的马铃薯-Ⅱ培养基作诱导培养基,其愈伤组织诱导与分化的频率比目前两个较好的合成培养基要高。同一个三属杂种F_1春、秋播种植株之间在形成愈伤组织的能力上有较大的差异,秋播材料形成愈伤组织的能力明显高于春播材料。F_(?)杂种植株诱导愈伤组织和分化植株的频率均比F_1杂种明显提高。     

八倍体小偃麦与普通小麦杂交后代花药培养的研究

本试验研究了八倍体小偃麦与普通小麦杂交后代愈伤组织的诱导频率、雄核发育和秋水仙碱诱导小孢子染色体加倍的效果。结果表明:八倍体小偃麦与普通小麦杂种F_1愈伤组织的产量具有明显的杂种优势;其雄核发育存在均等分裂和不均等分裂等类型,这与小麦中的观察结果相似;在培养基中加入秋水仙碱可以有效地诱导小孢子第一次有丝分裂时染色体加倍。     

旱地小麦(金沙江一号)×天兰冰草杂种幼胚愈伤组织诱导及植株再生

旱地小麦(金沙江一号)×天兰冰草远缘杂交结实率较高,可达30.5%。但是,由于种子的胚乳发育不良而不能萌发,未获得杂种F_1实生苗,授粉12天后再把幼胚接种于WG附加2,4—D2mg/l、NAA0.5mg、K70.1mg/l培养基中,30—60%的幼胚诱导出愈伤组织。愈伤组织转入WG附加NAA0.5mg/l、KT0.5mg/l、Ad100mg/l、CH500mg/l的分化培养基后逐渐分化出丛生绿苗。这些绿苗经分根培养后移栽成活。正交和反交的杂种F_1再生植株形态呈中间类型,并且都表现了自交不孕等杂种特性。实验还比较了正交和反交的结实率及幼胚培养的愈伤组织诱导率,讨论了细胞质因子对杂种F_1幼胚再生能力的影响。     

水稻花粉植株的诱导及其后代观察

研究了水稻(Oryza sativa)花药的离体培养及其花粉植株后代的表现,得到如下结果: 1.用加有2,4-D 1—5毫克/升的Blaydes培养基培养水稻花药,诱导出水稻花粉愈伤组织。采用花粉处于单核期的花药进行培养比较合适。 2.诱导愈伤组织成苗,以二次诱导法效果较好。即将愈伤组织种植在低浓度激素的培养基上(IAA 0.05—0.5毫克/升,激动素1—2毫克/升),在此培养基上分化快,芽点多,但芽不易伸长;芽点出现后再移到激素浓度较高的培养基上(IAA 2毫克/升,激动素4毫克/升),很快出现幼苗。 3.水稻花粉植株二代,田间表现和室内分析结果表明基本整齐一致,没有分离。杂种F_1花粉植株后代在许多性状上超过双亲,有选种价值。说明水稻花药培养用于育种是可能的。     

小偃麦原生质体培养及植株再生

硬粒小麦(Triticum durum Desf.AABB)和中间偃麦革[Elytrigia intermedium(Host)Nevski BBEEFF]的杂种 F_1——小偃麦的幼穗诱导的胚性愈伤组织继代培养近两年后,转入修改的 MS 液体培养基建成胚性细胞悬浮系。从此悬浮系分离的原生质体在修改的 KM_(8p)培养基中培养48小时后出现第一次分裂。15天后,在液体浅层培养条件下的细胞分裂频率为2%;而用1.2%琼脂糖固化进行固体平板培养时,细胞的分裂频率则为12.14%。20—30天后,添加渗透压降低的原生质体培养液。当从原生质体再生的愈伤组织长至2—4mm 大小时,逐步转至生长及分化培养基上再生出完整植株。     

基因型对春麦花粉植株诱导率影响的研究

花药培养中,不同基因型供体对于花粉植株的影响很大.几年来的研究结果表明,用花培品系做亲本配置杂交组合;不同世代的基因型,尤其是F_1代花药供体植株;亲本基因型在提高花粉愈伤组织出愈率、花粉绿苗分化及花粉绿苗率方面均有明显的效果.     

硬粒小麦×天蓝偃麦草属间杂种无性系的建立

本实验以“人民麦”ד天蓝偃麦草”F_0成熟胚、F_1幼穗及“珂珂瑞特”ד天蓝偃麦草”F_1幼穗为外植体,在MS+2mg/L2,4-D的培养基上诱导愈伤组织,在无激素的MS培养基上诱导再生植株。产生胚性愈伤组织的频率最高为78.9％。植株再生方式为体细胞胚胎发生方式,再生频率最高为100％。胚性愈伤组织经13个月的继代培养仍具再生能力。发现一种特殊分化现象,即小花结构的分化,并对产生这种现象的原因进行了分析。     

小麦×天兰冰草杂种体细胞愈伤组织诱导及无性系建立

从普通小麦×天兰冰草杂种F_1的叶、茎、节、幼穗诱导出愈伤组织,建立了体细胞无性系,获得了大量试管苗并移栽成活。 愈伤组织诱导率及分化率以幼穗最高,茎、节、叶较低。完全展开的叶片不能形成愈伤组织,未伸展的幼叶能诱导出愈伤组织,分化程度越低的幼叶部位越容易脱分化。幼叶基部切段的愈伤组织诱导率可达90％以上。改良MS附加4mg/l 2,4-D、0.1mg/l KT、0.5mg/l NAA为最佳愈伤组织诱导培养基。最适宜的分化培养基为改良MS附加0.25mg/l KT、0.5 mg/l NAA、150 mg/l腺嘌呤核苷。杂种的愈伤组织诱导率及分化率高于两个亲本。杂种的愈伤组织长势旺盛,适应性强等都表现了小冰麦杂种在组织培养中的杂种优势,而且这种再生能力杂种优势可以通过无性系得到保持。     

籼型杂交稻亲本成熟胚愈伤组织再生体系的建立

本文给出了6个籼型杂交稻亲本成熟胚愈伤组织再生体系建立优化措施。采用6个有重要育种价值的杂交籼稻亲本成熟胚盾片诱导愈伤组织作为分化再生的外植体,通过调节2,4-D浓度、培养基成分、接种方式、激素组合和愈伤组织分化途径,建立适合籼稻遗传转化的再生体系。结果表明,MB培养基是较为合适的愈伤组织诱导培养基类型,6个品种在MB培养基上的愈伤组织诱导率均在60％-80％之间。半粒米的接种方式能够明显提高愈伤组织诱导率,提高幅度达到28．2％。通过调节2,4-D浓度和激素组合,愈伤组织诱导率最高可达到97．9％,两步分化法和适当干燥处理能够提高愈伤组织的分化效率,6品种愈伤组织分化率均在50％-90％之间。初步建立了6个杂交籼稻亲本品种成熟胚愈伤组织的再生体系,为以后遗传转化奠定基础。     

籼稻花药培养的研究——提高愈伤组织诱导率与分化率及根芽分化

3年来通过对籼稻(Oryza sativa subsp.hsien)花药培养的研究,愈伤组织的诱导率从0.2%提高到平均为2.85%,最高达18.75%;绿苗分化率从5%以下提高到平均为13.1%最高达到45.5%。在6个籼稻品种、38个籼×籼杂种中成功地诱导出了绿苗。本文着重研究了提高诱导率的有关因素。以单核晚期花粉的花药愈伤组织诱导频率最高。籼稻花粉去分化过程相对地要求较低浓度的培养基,籼稻花药对高浓度的改良 RM-1964培养基完全没反应。用杂种的诱导率较亲本材料为高。以易于诱导愈伤组织或易于分化绿苗的品种作亲本的杂种后代,诱导率与绿苗分化率亦较高。籼稻形成愈伤组织的高峰是在接种后的50—60天之间。愈伤组织分化的高潮是在转移后10—30天之间。籼稻愈伤组织的分化以先分化根的类型最多,在先分化根的愈伤组织中有36.74%能再分化出芽来。     

Genome differentiation in Magonoliaceae as revealed from meiotic pairing in interspecific and intergeneric hybrids

The cross compatibility within and between Yulania Spach and Michelia L.(Magnoliaceae) is relatively good and various such hybrids,obtained by conventional artificial hybridization,are available.The aim of the present study was to determine the extent of genome differentiation between the species involved in these crosses through the observation of chromosome pairing during meiosis in pollen mother cells (PMCs) of the hybrids.Chromosome pairing behavior was studied in five species (2n =38) and two interspecific hybrids of Michelia,eight species (2n =38,76 and 114) and 10 interspecific hybrids of Yulania,and three intergeneric hybrids between Michelia and Yulania.The results showed that chromosome pairing was normal with bivalent formation in diploid parental species and in interspecific hybrids.In addition to bivalents,multivalents were encountered in polyploid parental species and polyploid interspecific hybrids.In the intergeneric hybrids between a tetraploid Yulania and two diploid Michelia,19 chromosomes,most likely originating from Michelia,were unable to synapse from zygotene to metaphase I.Meiotic chromosome pairing indicated a high degree of homology between species within Michelia and Yulania and less homology between the genomes of these two genera.The differentiation of morphological characters and the distinctness of natural distribution also support the conclusion that these two genera are likely independent monophyletic groups.This suggests that the two genera were split at early evolution of Magnoliaceae and the overlapping characteristics in external morphology and internal structures of the two genera may be the result of parallel evolution or ancient common ancestry.     

Somatic hybrids produced by protoplast fusion between S. tuberosum and S. brevidens: phenotypic variation under field conditions

Summary Phenotypic and flowering characteristics of hybrid plants generated by protoplast fusion between a tetraploid S. tuberosum line and diploid S. brevidens were assessed under field conditions. Hybrids were compared to both clonal parental material and protoplast-derived plants of each parent. Almost all of the hybrids were hexaploid. A wide range of variation in morphological characters was observed for hybrids and protoclones. Flowering was markedly reduced in protoclones. The majority of hybrids flowered, had viable pollen and set tubers. Tuber and pollen characteristics of hybrids produced from individual fusion calli also varied. The potential usefulness of fusion hybrids in potato improvement is discussed.     

四倍体水稻花药培养筛选初级三体的研究

以同源四倍体水稻 ( Oryza sativa L.)各世代杂种和四倍体籼、粳原种为材料进行花药培养 ,诱导花粉植株再生。根据三体植株表型上相互区别的特性 ,且又显著区别于二倍体 ,对其中所诱导的 1 5个花药培养品系 4 390株 H1花粉植株进行了重点固定和染色体镜检。结果表明 ,花粉 H1植株染色体组成包括二倍体、四倍体和非整倍体 ,其频率分别为 88.0 %、5 .5 3%和 6.67%。鉴定出 2 72株三体 ,占全部花粉植株的 6.2 0 %。对照已配套三体系的形态 ,将鉴定的三体株划分为 9种类型 ,并对其中的 91 2 4 - 7窄叶三体进行粗线期核型分析 ,鉴定为三体 8。将三体 8的种子播种 ,在 H2 代苗期统计额外染色体的传递率 ,三体株占 34 .1 1 % ,其农艺性状也同于 H1亲代     

Evidence of apomixis in hemisexual dogroses, Rosa section Caninae

All members of Rosa section Caninae, dogroses are polyploid and characterized by their unbalanced meiosis, which in most cases leads to a pronounced morphological influence from the maternal parent. In a previous investigation on a pair of reciprocal crosses between two species in this section, Rosa dumalis and R. rubiginosa (2n=35), nine offspring plants (approximately 10%) did not receive any of the 21 RAPD markers present in the respective pollen parent. This was interpreted as a possible occurrence of apomixis. These nine plants have now been subjected to a further study with additional markers. Thirteen new RAPD markers showed the same result as in the previous investigation: none of the nine plants inherited any of the pollen donor markers. The reproducibility of the RAPD markers was checked by mixing DNA samples to obtain a series of artificial hybrids between the two parent plants. Twelve RAPD markers gave the expected result, whereas one marker appeared only 50% of the time. In addition, pollen viability, mean number of seeds per hip, mean seed weight, and mean weight of fruit flesh per hip have been studied on the four progeny groups: R. dumalis×R. rubiginosa plants which received pollen donor markers (PM plants), R. dumalis×R. rubiginosa plants which did not receive any pollen donor markers (NPM plants), R. rubiginosa×R. dumalis PM plants and R. rubiginosa×R. dumalis NPM plants. A canonical discriminant analysis based on these four reproductive characters separated the four progeny groups. There were significant differences between the two PM groups in all investigated characters, and also between the PM and the NPM groups in pollen viability. The result from the RAPD markers together with the differences in pollen viability between the PM and NPM progeny groups is taken as an indication that apomixis occurs within the Caninae section. Received: 13 October 1999 / Revision accepted: 28 January 2000     

TRUE-BREEDING COLCHICINE-INDUCED MUTANTS FROM SORGHUM HYBRIDS

Colchicine treatment of sorghum seedlings of both F₁ hybrids and of their pollen parent lines resulted in complex mutant plants the majority of which were true-breeding. Recessive irradiation-induced characters originally homozygous in the pollen parent lines and heterozygous in the hybrids did not appear in any of the mutants or their self progenies. Recessive normal characters apparently absent in the pollen parent lines and heterozygous in the hybrids appeared in some mutants and bred true in their self progenies. These results are consistent with the hypothesis that colchicine-induced mutants arise through chromosome substitution (Sanders and Franzke, 1964, Jour. Arnold Arb. 45: 36). Since sorghums with 2n = 20 are believed to be of polyploid derivation, interchangeable chromosomes carrying different alleles could be present in true-breeding lines. There is evidence that diploid mutant complements may result from reduction of polyploid nuclei. Since the proportion of true-breeding mutants was as large from the highly heterozygous seedlings as from the homozygous seedlings, segregation of chromosomes during reduction must be primarily by c-pairs which later separate as the homologues of a new cell. Plants from such cells would be equivalent to doubled haploids. With colchicine treatment, true-breeding lines have been obtained from multiple hybrids in a single step rather than after many generations of selling.     

Hybridization between Gossypium herbaceum and Gossypium stocksii through embryo rescue

INTRODUCTIONGOSndumherbaceuminoneofthetwo'A'genomediploidcultivatedspeciesofcotton.ItisgrowninsomepartsofcentralIndia,esDeciallyasarainfedcrop.G-sto~isawiIdspeciesbelongingto'E'ge11omeandisfoundinWestAsia.Thisspecieshasaverygoodrootsystemandistoleranttodrought[1]-Thus,thehybridizationbetweenG.herbaceumandG.stock8iisdesiredtodevelopdrought-tolerantvarietiesinG.herbaceum.Theattemptstoproduceinterspecifichybridsbytheconventionalmethodsareoftenunsuccessfulduetotheformationofunderdevel-op…     

猕猴桃属花粉形态及其系统学意义

由于天然种间杂交,猕猴桃属Actinidia Lindl.的分类存在着组间界限不清、近缘种之间很难区分的问题。本文试图通过对该属不同组、系的植物花粉及种间杂交后代花粉的扫描电镜观察,探讨该属物种的系统学关系。在扫描电镜下观察了猕猴桃属植物21种、 6变种和4个不同种间杂交F1代植株的花粉,描述了它们的花粉形态,并根据花粉形态特征建立了相应的检索表。研究结果表明：（1）猕猴桃属的花粉形状主要以长球形至近球形为主,变异较小,而花粉粒大小和外壁纹饰的种间差异较大。（2）多数迁地保护物种的花粉粒以三孔沟为主,不同于以前报道的以三拟孔沟为主,原因可能是花粉样本采集地的环境不一样,以及野外的广泛杂交造成的。（3）种间杂交后代花粉空瘪,无授粉能力,是由于所采用亲本植株染色体的倍性不同,后代不能产生正常花粉所致。（4）人工选育雄株花粉外壁纹饰较野生雄株花粉的精细,这种花粉外壁纹饰变小的特征可能有利于雌雄异株植物的授粉受精。这一现象值得进一步探讨。（5）雄株花粉大小与其雌株果实大小之间有一定相关性,这一现象有助于杂交后代的早期筛选。     

Pollen exine ornamentation in the F2 generation of an interspecific hybrid of Chorisia (Bombacoideae,Malvaceae) in relation to inheritance pattern

Pollen morphology in ten plants of F₂ progeny of an interspecific tree hybrid, Chorisia insignis H. B.& K.×C. speciosa St. Hil (Bombacoideae, Malvaceae) has been studied with a view to have an insight in to the effect of hybridization on the pollen morphological features in F₂ generation. The study is a sequel to an earlier study on the pollen morphology of Chorisia species and their F₁ hybrid, in which case the hybrid pollen uniformly exhibited the apertural features of the male parent and exine features of the female parent. In the F₂ progeny the pollen grains display the apertural feature of the male parent in all the plants. However, with regard to exine ornamentation, variability has been observed. Of the ten plants, two plants exhibit the exine features of the male parent showing empty lumina (without bacula), five plants have their pollen exactly like that of the F₁ plant (showing prominent columellar heads in the lumina of the apocolpium region) and the remaining three plants showing columellae in lumina of both apocolpium and mesocolpium region being different from the above types. It has been inferred that the variability in the exine pattern in F₂ pollen indicates that the pollen exine pattern in hybrids, perhaps, is not unequivocally controlled by sporophytic or gametophytic genomes.     

Morphological markers for the detection of introgression from cultivated into wild carrot (Daucus carota L.) reveal dominant domestication traits

Hybridisation and subsequent introgression have recently received much attention in the context of genetically modified crops. But crop–wild hybrid detection in the field can be difficult, as most domestication traits seem to be recessive, and the hybrid phenotype may also depend on the direction of the cross or environmental factors. Our aim was to develop a reliable set of morphological markers that differ between two wild and 13 cultivated carrots (Daucus carota L.) and to evaluate their inheritance in hybrid lines. We then examined these morphological markers in four F1 hybrids obtained by fertilising plants from the two wild accessions with pollen from two common carrot cultivars. Of the 16 traits that differed between the two carrot subspecies, three took intermediate values in the hybrids, eight resembled the cultivar parent (dominant domestication traits), two resembled the wild parent (domestication traits recessive), and three were not significant or growth condition‐dependent. Root:shoot ratio was seven times higher for cultivars than for wild plants, while still attaining equivalent total dry weight, which shows that dry matter production by the shoot is much higher in cultivars than in wild plants. High root:shoot ratios were also present in the hybrids. While we found no maternal effects, the type of cultivar used for pollination had an impact on hybrid characteristics. The morphological markers developed here provide insights into the mode of inheritance of ecologically relevant traits and can be useful for pre‐screening wild populations for hybrid detection prior to genetic analysis.     

Fertile allotetraploid from the cross betweenPhaseolus coccineus L. andPhaseolus acutifolius A. Gray

Summary As somatic hybridization and genetic transformation are not yet applicable to beans, a programme of hybridization between a male sterile line ofP. coccineus and a wild genotype ofP. acutifolius var.tenuifolius was carried out in order to introduce useful characters from the wild parent into the genome of the cultivated species. This interspecific cross is of particular interest sinceP. acutifolius is a source of resistance to many diseases, drought and high temperature. The difficulties in producing these hybrids were overcome by repeated pollinations and with the help of embryo culture. The F₁ hybrid shows a high sterility which may be explained by the poor pollen quality and the presence of a chromosomic asynapsis at meiosis. Fertile allotetraploids (Co) were successfully produced in progeny from colchicine treated cuttings of F₁ hybrids. Several (C₂) mature seeds were harvested from selfed allotetraploid plants.Abbreviations Co initial allotetraploid plants - C₁, C₂ first and second allotetraploid generation - PMC pollen mother cell