小麦-黑麦二体代换系间杂交诱导染色体易位的研究

摘 要：小麦-黑麦二体代换系间杂交,是诱导小麦-黑麦染色体易位的重要途径,有理论与应用价值。本研究利用DS1R/1D与DS5R/5A、DS6R/6A杂交,结果表明,F1减数分裂有19个二价体、4个单价体,有部分同源染色体配对和染色体易位现象;F2 对带有黑麦性状的24株普通小麦类型植株进行原位杂交检测,共检测出10株有染色体易位,易位频率为41.6%。易位株系为：06-16-7、06-16-3、06-16-5、06-16-7、06-16-8、06-17-7、0617-11、06-17-15、06-17-16、06-18-5。由于亲本选配、检测植株有一定的目的性,易位植株均表现有一定的应用价值。     

组织培养中大葱染色体倍性变异的研究

采用大葱茎尖分生组织直接成苗及分化丛生苗、茎盘诱导愈伤组织培养再生植株,通过染色体压片,对大葱愈伤组织及幼苗染色体数目变化进行了研究。结果表明,茎尖分生组织培养的幼苗及丛生苗遗传稳定,其染色体未发生倍性变异,均为2n=16;愈伤组织及其再生苗遗传稳定性较差,愈伤组织染色体数变异率为43.4%,其中单倍体占6.7%、三倍体占2.5%、四倍体占10%、五倍体占4.2%、六倍体占3.3%、七倍体占4.2%、八倍体占3.3%、非整倍体占9.2%;愈伤组织分化苗染色体变异率为11.7%,其中单倍体占6.7%,三倍体占1.7%,四倍体占3.3%。     

滇丁香化学诱变的多倍体及其鉴定研究

为获得滇丁香新种质、选育抗性新品种,用不同浓度的氨磺灵溶液浸泡滇丁香种子,以种子下胚轴膨大视为变异株,统计变异率和发芽率,通过形态学观察、气孔观察、染色体计数及流式细胞仪检测确定其倍性。结果表明：15μmol/L氨磺灵浸泡种子24 h为滇丁香多倍体诱导最佳方法,变异率达60.1%,发芽率为66.7%,获得2株四倍体植株;25μmol/L氨磺灵诱导24 h,变异率为50%,获得1株八倍体植株。滇丁香变异植株在株高、叶长、叶厚方面均与对照植株呈显著差异,多倍体滇丁香植株株型矮小、叶片畸形较圆润且变厚、叶色较深、叶毛茎毛粗长。多倍体植株气孔的长和宽及保卫细胞的长和宽均显著大于二倍体植株,且气孔密度显著小于二倍体植株。经流式细胞仪检测,不同倍性植株DNA含量近似倍数关系。经染色体计数,滇丁香二倍体植株染色体数目为2n=44,四倍体植株4n=88。四倍体滇丁香丙二醛含量极显著低于二倍体,而脯氨酸含量极显著高于二倍体。     

不结球白菜小孢子胚成苗及倍性变异研究

以不结球白菜小孢子胚为外植体,对胚发育成苗过程中基本培养基、激素配比、基因型及生根条件进行了研究,并对再生植株的染色体倍性进行了鉴定。研究表明：适于小孢子胚芽分化的培养基为B5＋GA30.1 mg/L＋蔗糖3%＋琼脂1.2%,在此培养基上6号、14号、31号的子叶型胚状体的出芽率分别为53.33%,85.24%,75.55%,平均出芽数分别为5.66,3.83,3.28个;为了诱导获得健壮新根,提高植株再生率,最适宜的生根培养基为MS＋IBA 0.1 mg/L＋蔗糖3%＋琼脂0.6%,生根率达100%,平均根数9.70条。对133株再生植株进行了染色体倍性鉴定,结果发现不结球白菜自然加倍率很高,且倍性变异情况比较复杂,其中四倍体植株所占比例最高,达到56.39%,二倍体植株占39.10%,三倍体植株占3.01%,而单倍体植株仅占1.50%。     

不结球白菜小孢子胚成苗及倍性变异研究

以不结球白菜小孢子胚为外植体,对胚发育成苗过程中基本培养基、激素配比、基因型及生根条件进行了研究,并对再生植株的染色体倍性进行了鉴定.研究表明:适于小孢子胚芽分化的培养基为B5 GA3 0.1 mg/L 蔗糖3% 琼脂1.2%,在此培养基上6号、14号、31号的子叶型胚状体的出芽率分别为53.33%,85.24%,75.55 %,平均出芽数分别为5.66,3.83,3.28个;为了诱导获得健壮新根,提高植株再生率,最适宜的生根培养基为MS IBA 0.1 mg/L 蔗糖3% 琼脂0.6%,生根率达100%,平均根数9.70条.对133株再生植株进行了染色体倍性鉴定,结果发现不结球白菜自然加倍率很高,且倍性变异情况比较复杂,其中四倍体植株所占比例最高,达到56.39%,二倍体植株占39.10%,三倍体植株占3.01%,而单倍体植株仅占1.50%.     

大花香石竹多倍体育种研究

对102个大花香石竹品种的染色体倍性进行鉴定,二倍体、三倍体和四倍体品种分别占77%、6%和17%,当前生产上的主栽品种马斯特、达拉斯和卡曼（具有大花苞性状）都是二倍体品种,71%的四倍体品种为花边复色类型。初步认为部分香石竹四倍体栽培品种是远缘杂交的后代。通过用秋水仙碱处理香石竹品种马斯特的试管苗,获得两株四倍体植株,其花蕾直径增大,而节间变短。     

普通野生稻花粉植株性状的研究

对普通野生稻195株花粉植株的H_1代和少数H_2代进行的形态学、育性、倍性、遗传性、抗病性、耐冷性和外观品质等多种特性的观察研究结果表明:育性正常的二倍体花粉植株H_1代占总数的85.6%;全不育的占14.4%,其部分植株根尖细胞染色体数为n=12的单倍体或12和18的异数体。有一部分花粉植株具有宝贵的可供利用的性状和特性。本研究还获得了4个抗白叶枯病的H_2纯系。这批新质源对水稻育种、生物技术及稻作学基础理论的研究具有重要意义。     

利用六倍体小黑麦×普通小麦培育伴随易位的非整倍体

用核型和GiemsaC—带技术对六倍体小黑麦×普通小麦的杂种后代（F4）83C3796和83C3804混系今的非整倍体进行了分析。在74个随机抽样的细胞中，染色体数从35条到43条都有分布，比率分别是4．05％、5．40％、2．7O％、9．46％、9．46％、12．16％、12．16％、41．89％和2．70％．发生小麦染色体丢失的植株频率超过55．39％，2n－13植株出现的比率最低（占2．70％）．并从一般核型中观察到染色体游离片段和染色体“断裂一融合”过程．C一带分析观察到高频率的小麦一黑麦染色体易位，都属罗伯逊易位．易位包含了小麦的A、B、D组染色体和黑麦所有14条染色体臂，其中IRS易位频率最高（占48．3％），且全为纯合易位，其它易位染色体纯合的程度各自不同．研究中还观察到在一个细胞中有多个小麦一黑麦染色体易位共存的现象．文中还讨论了易位非整倍体在小麦育种上的利用问题。     

不结球白菜同源四倍体苏州青的诱导鉴定

为获得高产优质的不结球白菜四倍体苏州青,本研究使用浓度分别为0.1%,0.2%及0.3%的秋水仙素溶液,点滴处理二倍体苏州青幼苗植株的子叶生长点,进行5次处理后,通过形态学和细胞学方法筛选鉴定四倍体苏州青植株,并比较二、四倍体苏州青的农艺性状及品质差异。结果表明：秋水仙素浓度为0.2%时加倍效果最好。形态解剖学鉴定结果表明：四倍体在株型、叶片、花、种荚、种子大小都有较明显的变大趋势;四倍体植株叶片气孔较二倍体变大,气孔密度变小;同时四倍体植株花粉粒比二倍体更膨大,更不规则;细胞学鉴定结果表示,四倍体植株染色体数为40条,二倍体植株为20条;通过流式细胞仪鉴定,四倍体植株荧光强度约为二倍体的2倍。通过品质比较分析,结果显示四倍体苏州青的各项生理指标含量较于二倍体均有不同。通过农艺性状比较,单株质量、叶宽、叶厚都有一定程度的增加。本研究利用秋水仙素操作技术,抑制有丝分裂后期纺锤丝的形成,实现染色体加倍,创制不结球白菜新种质,为选育四倍体不结球白菜提供理论基础和种质资源。     

Mitosis Observation on the Tetraploid Lilium oriental and 2n Gamete Hybrid Offspring of Lilium oriental

对东方百合四倍体正常植株,变异植株,2n配子杂种后代进行有丝分裂观察,结果表明四倍体正常植株的有丝分裂均正常而变异植株出现染色体桥现象;2n配子杂种后代多数植株有丝分裂正常,少数植株的有丝分裂极不正常出现了染色体桥和染色体落后,双核及多极分裂现象,从而产生染色体数目的多样性。     

Analysis of genetic variability in various tissue culture-derived lemon plant populations using RAPD and flow cytometry

Five populations of lemon plants [Citrus limon (L.) Burm] obtained from undeveloped ovules through different tissue culture procedures were examined for the presence of somaclonal and irradiation-induced genetic variation. Tested groups were: (1) nucellar seedlings; (2) organogenic, regenerated via adventitious buds from nucellar seedling internodes; (3) embryogenic population, regenerated from non-irradiated nucellar callus via somatic embryogenesis; (4) embryogenic population, regenerated from irradiated nucellar callus via somatic embryogenesis; and (5) protoplast-derived, regenerated via somatic embryogenesis. Genomic DNA samples from 360 plants (72 from each group) were screened for polymorphism among RAPD fingerprints amplified by 10 decamer primers. Among all tested plants, genetic variation was detected only within the group of plants recovered from irradiated embryogenic calli. Out of 72 plants from that group, three had RAPD fingerprints different from the rest of the population, and fourth plant was found to be cytochimeric, consisting of diploid and tetraploid cells as revealed by flow cytometry. In all other populations of regenerated plants, we did not come across any plants with changed ploidy level.     

The Cytological Status of Plants Regenerated from Shoot-Meristem Culture of Pisum sativum L

The cytological status of plantlets regenerated from shoot apical meristems of Pisum sativum was investigated. Chromosome counts in root apices of in vitro regenerated plants showed a preponderance of diploid cells. Moreover, the karyotypes of root-tips from plants derived from culture and from normal plants were basically the same. Topics such as the treatment of chromosomal armlength data, simple statistical comparison of samples derived from normal and regenerated plants are discussed.     

Effect of Mutagenic Treatments on Somaclonal Variation in Wheat (Triticum aestivum L.)

Different wheat genotypes were treated with gamma-rays, sodium azide (SA) and EMS before tissue culture and immature embryos from M₁ plants or plants shortly after exposure to gamma-rays were used to initiate callus culture. Thousands of plants were regenerated and used to investigate the effect of mutagenic treatments on the regenerated plants and somaclonal variation in the M₃R₂ and M₂R₂ generations. The results showed that mutagen-induced damage in terms of reduction in plant height, fertility and spike length were not outstanding in the regenerated plants as compared with the untreated control. In the M₃R₂ generation, only SA treatment had significantly higher frequencies of somaclonal variations than the control. Increases in the variation frequencies were observed when explant embryos were irradiated with 2.5 and 5 gy gamma-rays and the highest frequency appeared when embryos were exposed to 5 gy gamma-rays on the 5th day after anthesis. Increased variation spectra also resulted from mutagenic treatments and most of the variants recovered were unsuitable for plant improvement.     

Efficient in vitro Chromosome Doubling During Beta vulgaris Ovule Culture

The effect of in vitro colchicine treatment of sugar beet ovules, after 7 days culture, on embryo formation, regeneration and ploidy of regenerated plants was studied with 5 concentrations of colchicine and 5 durations of treatment arranged as a 5 × 5 factorial in incomplete blocks. The best results were obtained with the shortest duration of treatment (5 hours) and the highest concentration of colchicine (0.4 %) giving 5.0 diploid plants per 100 ovules with 62.1 % of regenerated plants being diploid. Statistical analysis revealed that treatment effects could be separated into a toxic effect reducing embryo formation and a chromosome doubling effect affecting percentages of diploid regenerated plants. Toxic effects on embryo formation could be explained by simple exponential decay models, toxicity of the drug (decay constant) increasing linearly with duration of treatment. Duration of treatment had no effect on chromosome doubling percentages. The effects of colchicine concentration on chromosome doubling were explained by an exponential saturation model with spontaneous chromosome doubling of 8.1 % and saturation at 51.4 % diploid plants at 0.2 % and higher colchicine concentrations. In addition, treatments increased percentages of 4N and 6N plants from 0 % without colchicine to 10 % on average for treated ovules. A response surface model fitted to the total yield of diploid plants per ovule indicated that shorter durations of treatment and higher colchicine concentration may improve results.     

The Use of Stomatal Chloroplast Number for Rapid Determination of Ploidy Level in Maize

The usefulness of using the chloroplast number in epidermal guard cells as an indirect ploidy indicator was evaluated on seed-grown and tissue culture-derived maize plants. For seed-grown plants, two maize genotypes (B89 and R75) which had both diploid and tetraploid seeds available were used as experimental materials. The ploidy levels of seed-grown plants were confirmed by flow cytometric analysis of nuclear suspensions from these plants. For regenerated plants, haploid and diploid levels were examined and the ploidy levels of these plants were determined by chromosome counts of cells from root tips. A positive relationship between the chloroplast number and ploidy level was observed for both seed-grown and regenerated plants. The stomatal guard cells of tetraploid plants had nearly double the number of chloroplasts as the diploid plants. Similar results were found from the regenerated plants. The differences in the mean chloroplast number between diploid and tetraploid seed-grown plants and between haploid and diploid regenerated plants were highly significant. The results of this study demonstrate that counting chloroplasts in guard cells can be an efficient means of screening a large number of plants for ploidy levels. In addition, this study suggests the possibilities of using this method for detecting contaminated seed lots by different ploidy seed and for distinguishing plants of different genotypes.     

An assessment of morphogenic and transformation efficiency in a range of varieties of potato (Solanum tuberosum L.)

Summary To provide a truly genotype-independent transformation system, it is necessary to be able to transform a wide range of potato genotypes. The ability to regenerate shoots in vitro was determined for 34 potato varieties using tuber disc explants. Following a culture regime used extensively in previous studies with the variety Desiree, half of the varieties could be regenerated from tuber discs and half could not. From a sample of varieties that could be regenerated from tuber discs, all but one variety gave transgenic plants. Twelve varieties were evaluated for the capacity to regenerate shoots from leaf and internode explants excised from in vitro grown plants. All of the varieties tested regenerated adventitious shoots. Leaf and internode explants from 5 varieties were subsequently used for transformation, and transgenic plants were produced from two potato varieties that did not give transgenic plants from tuber disc explants. Some varieties could not be transformed by either method, and will require modification of the in vitro regeneration and transformation system to be successful.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - IAA indole-3-acetic acid     

A comparison of the somaclonal variation level of Rosa hybrida L. cv Meirutral plants regenerated from callus or direct induction from different vegetative and embryonic tissues

Summary Flowering plants of Rosa hybrida L. cv Meirutral have been obtained either from direct regeneration of adventitious shoots on leaf and root fragments, or through organogenesis and somatic embryogenesis on calli derived from anther, ovule, petal, sepal, receptacle, leaf, stem internode, root and zygotic embryo tissues. The calli derived from floral parts exhibited rhizogenesis. In this case direct induction of adventitious shoots from selected roots had to be performed in order to generate plants. A histological study of the morphogenetic calli was carried out. The plants regenerated directly and those regenerated from calli of leaf, stem internode, root and zygotic embryo tissues, together with reference plants propagated by cuttings, were compared on a phenotypic basis by taking into account petal number, form and colour, and plant growth habit. From these observations, it can be concluded that directly regenerated plants are as stable as reference plants while plants regenerated from callus are unstable, especially those derived from zygotic embryo tissues.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-Dichlorophenoxyacetic acid - GA3 gibberellic acid - IAA 3-indole-acetic acid - MS Murashige and Skoog - NAA 1-naphthalene acetic acid     

Chromosomal instability in cell- and tissue cultures of tomato haploids and diploids

Summary The effect of the tissue culture system, the genotype and the ploidy level of the plant material used as explant source on the stability of the ploidy level of plants regenerated fromcell and tissue cultures of tomato was investigated. In addition the use of the chloroplast number in guard cells as a measure for ploidy level was evaluated. Haploids of tomato were very instable, which instability was observed already in somatic root tip and leaf cells. The number of regenerated plants that retained the original ploidy level differed significantly between the tested haploids. The plants that were regenerated from leaf explants of diploids were predominantly diploid in contrast to the plants regenerated from established callus cultures and protoplast where the majority was tetraploid.     

Production and characterization of intergeneric diploid cybrids derived from symmetric fusion between Microcitrus papuana Swingle and sour orange (Citrus aurantium)

Plants were regenerated from intergeneric somatic hybridization between embryogenic protoplasts of Microcitrus papuana Swingle and leaf-derived protoplasts of sour orange (Citrus aurantium L.) via electrofusion. The regenerated plants were morphologically similar to the leaf parent in growth vigor, leaf and branch structure. FCM analysis showed that they were diploids. Simple-sequence-repeat (SSR) and cleaved-amplified-polymorphic-sequence(CAPS) were employed for hybridity characterization. SSR banding patterns of the regenerated plants were identical to the leaf parent, sour orange, indicating that they possessed nuclear component derived from sour orange. DNA amplification with chloroplast and mitochondrial universal primers, followed by restriction endonuclease digestion, revealed polymorphism between the fusion parents. Therefore, this method was used to determine the cytoplasmic compositions of the regenerated plants. Banding patterns for all the polymorphic primer/enzyme combinations of the regenerated plants were similar to those of the embryogenic parent, M. papuana, suggesting that only the cytoplasmic components derived from the embryogenic parent were present in the regenerated plants. FCM, SSR and CAPS demonstrated that intergeneric diploid cybrids have been successfully obtained by symmetric fusion. Related results concerning nuclear and cytoplasmic composition of previous diploid somatic hybrids and potential mechanism for regeneration of such kind of plants are discussed herein. This revised version was published online in July 2006 with corrections to the Cover Date.     

低酚陆地棉直接体细胞胚胎发生和植株再生

选用低酚陆地棉无菌苗下胚轴为材料进行全固体组织培养,直接诱导获得了胚性愈伤组织,并进一步分化为再生植株.结果表明,激素是影响棉花直接体细胞胚胎发生的重要因素.MSB培养基中添加2,4-D有利于愈伤组织的形成,却不能直接诱导获得胚性愈伤组织.MSB培养基中添加IBA和BA也不能直接诱导获得胚性愈伤组织.MSB培养基附加适当浓度的IBA和KT能直接诱导出胚性愈伤组织.最适激素组合(1.0 mg/L IBA,0.5 mg/L KT)能使诱导棉花下胚轴产生大量胚性愈伤组织,并且在3个月内就可肉眼观察到不同发育时期的胚.MSB培养基中附加1.0 g/L谷氨酰胺和0.5 g/L天门冬酰胺有利于胚萌发成苗.本研究建立了简便高效的棉花直接体细胞胚胎发生和植株再生培养体系,从胚性愈伤组织诱导到植株再生约需5～6个月时间.