小麦再生植株的变异研究 Ⅱ.再生植株当代(R_1代)的细胞学和形态学变异

再生植株具有高频率的染色体异常,其中有20.61％表现为染色体数量变异,最常见的为2n—1类型,其次为2n—2类型,也有2n 1、2n—3个体以及染色体数嵌合株。再生植株减数分裂各期均有染色体异常行为,可以见到的有落后染色体、染色体桥、断片、二分体延迟、微核,还有粗线期十字型配对等结构变异,以及五分体、六分体和畸型四分体等异常现象。微核率随培养时间延长而增加,可用作染色体伤害的一个指标。再生植株R_1代存在着许多形态学变异。性状变异与染色体数目变异没有明显关系。     

Intermediate fertile Triticum aestivum （＋）Agropyron elongatum somatic hybrids are generated by low doses of UV irradiation

We report the production and characterization of somatic hybrids between Triticum aestivum L. and Agropyron elongatum (Host) Nevishi (the synonym is Thinopyrum ponticum). Asymmetric protoplast fusion was performed between Agropyron elongatum protoplasts irradiated with a low UV dose and protoplasts of wheat taken from nonregenerable suspension cultures. More than 40 green plantlets were obtained from 15 regenerated clones and one of them produced seeds. The phenotypes of the hybrid plants and seeds were intermediate between wheat and Agropyron elongatum. All of the regenerated calli and plants were verified as intergeneric hybrids on the basis of morphological observation and analysis of isozyme, cytological, 5SrDNA spacer sequences and random amplified polymorphic DNA (RAPD). RFLP analysis of the mitochondrial genome revealed evidence of random segregation and recombination of mtDNA.     

Occurrence of chromosomal variations and plant regeneration from long-term-cultured citrus callus

Summary Embryogenic callus of Anliucheng sweet orange (Citrus sinensis Osbeck) is theoretically diploid. However, significant chromosomal variations occurred when the calluses were subcultured and preserved for a long time. Cytological observation revealed a variety of mitotic irregularities underlying the occurrence of chromosomal variations. Despite the ubiquitous existence of chromosomal variations, long-term-cultured calluses were still capable of producing somatic embryos and plants. Interestingly, chromosomal variants were selected against when somatic embryos and plants regenerated from the embryogenic callus. Randomly amplified polymorphic DNA (RAPD) analysis was also carried out to detect DNA sequence variation in regenerated plants derived from the embryogenic callus. No difference in banding patterns was detected. It was clear that the plant regeneration from long-term-cultured callus was inclined to select against somaclonal variations.     

不定胚再生植株的染色体数目变异

本实验以甜瓜“小麦瓜”和“青皮绿肉”品种为试材,经不定胚诱导再生植株。分别调查了不同继代培养时间后形成再生植株的染色体数目,并将之与对照染色体数目相比较,发现通过诱导不定胚所得到的再生植株中存在着一定的变异,而且经过不同继代培养时间后,所得到的不定胚再生植株的变异程度不同,随着时间的增加,染色体数目的变异率从3.3%增加到30%,变异幅度也从2n=23~24增加到2n=13~48。从而得出结论：不定胚再生植株染色体数目变异程度随着培养时间的增加而增加;培养时间在1~2个月内所得到的不定胚再生植株的变异较少。此外,不定胚再生植株的染色体数目变异程度也因品种而异。 Abstract:Chromosomal number of different of somatic embryos regenerated plants were investigated in melon variety “xiaomaigua” and “Qingpilurou”.Certain variations of chromosomal number were found among the regenerated plants compared with normal sample,and range of variation covered from 2n=23～24 to 2n=13～48 with the increase of generation,the rate from 3.3% to 30%.The results indicated that degree of variation in chromosomal number of somatic embryos regenerated melon plants increased with the time of culture,and those cultured in one to two months had the least variation.It was also found that degree of chromosomal number variations varied with melon varieties.     

Mixing of maize and wheat genomic DNA by somatic hybridization in regenerated sterile maize plants

Intergeneric somatic hybridization was performed between albino maize (Zea mays L.) protoplasts and mesophyll protoplasts of wheat (Triticum aestivum L.) by polyethylene glycol (PEG) treatments. None of the parental protoplasts were able to produce green plants without fusion. The maize cells regenerated only rudimentary albino plantlets of limited viability, and the wheat mesophyll protoplasts were unable to divide. PEG-mediated fusion treatments resulted in hybrid cells with mixed cytoplasm. Six months after fusion green embryogenic calli were selected as putative hybrids. The first-regenerates were discovered as aborted embryos. Regeneration of intact, green, maize-like plants needed 6 months of further subcultures on hormone-free medium. These plants were sterile, although had both male and female flowers. The cytological analysis of cells from callus tissues and root tips revealed 56 chromosomes, but intact wheat chromosomes were not observed. Using total DNA from hybrid plants, three RAPD primer combinations produced bands resembling the wheat profile. Genomic in situ hybridization (GISH) using total wheat DNA as a probe revealed the presence of wheat DNA islands in the maize chromosomal background. The increased viability and the restored green color were the most-significant new traits as compared to the original maize parent. Other intermediate morphological traits of plants with hybrid origin were not found.     

Somatic hybrids of Datura innoxia Mill.+Datura discolor Bernh. and of Datura innoxia Mill.+Datura stramonium L. var tatula L.

Summary Following fusion of protoplasts from a chlorophyll-deficient diploid mutant of Datura innoxia Mill. which can be regenerated to shoots, with green wild-type protoplasts of Datura stramonium L. var. tatula L. which can not, it was possible to isolate 49 green hybrid calli on agar medium. Most of these somatic hybrid calli gave rise to leaves and shoots. The chromosome numbers of the somatic hybrids were determined: 15 were tetraploid (amphidiploid), 24 hexaploid, and the other showed an aneuploid chromosome number.In a similar experiment protoplasts of the Datura innoxia mutant were fused with green wild-type protoplasts of Datura discolor Bernh. which are also not able to be regenerated, four green calli were obtained from which leaves and shoots developed after some transfers on agar medium. Three of them showed the amphidiploid (48) chromosome number, whereas one possessed an aneuploid number of 46 chromosomes.After transfer of rooted shoots to soil flowering plants could be obtained in both combinations. The habits of the somatic hybrids in both combinations were intermediate between the habits of the respective parental plants.Dedicated to my father, Prof. Dr. Theodor Schieder, on the occasion of his 70th birthday.     

Visualization of somatic deletions mediated by R/<Emphasis Type="Italic">RS</Emphasis> site-specific recombination and induction of germinal deletions caused by callus differentiation and regeneration in rice

A transgenic rice plant expressing the recombinase of Zygosaccharomyces rouxii under the control of the CaMV 35S promoter was crossed with a transgenic plant carrying a cryptic (beta-glucuronidase) GUS reporter gene, which was activated by recombinase-mediated deletions between two specific recombination sites ( RSs). In F(1) plants, GUS activity was observed as blue spots and stripes in vascular bundles in several parts of the leaves. GUS expression was detected in all of the calli induced from F(1) seeds and throughout the regenerated plants. DNA analysis using the polymerase chain reaction and Southern blotting showed that R/ RS-mediated deletions occurred in all of the cells of the regenerated plants. Stable GUS expression was confirmed in the progeny resulting from self-pollination. Thus, the deletions obtained in the regenerated plants were genetically equivalent to the germinal deletions. These results indicate that the induction of callus differentiation and shoot regeneration is an effective manner to activate the R/ RS system and to produce plants with chromosomal deletions.     

Differentiation Potential and Chromosome Stability of Pollen Callus of Maize in Subcultures

Pollen calli were subcultured for 20 months. According to the degree of totipotency observed during this period they can be divided into the following four types: 1) The potential of differentiation of the calli was lacking. 2) The calli were able to differentiate into a few root-like structure and green spots. 3). The calli were able to grow into not only a few green spots but also a few shoots. But they could not develop into normal plants. 4). This type of callus possessed a great ability of differentiation and regeneration. They could develop into embryoids as well as shoots in the same medium. After transferring on to the regeneration medium, they readily regenerated into green plantlets with profuse roots. When chromosome counts were made on the ealli, it was found that variations in ploidy were not great. From 1539 randomly chosen cells at metaphase stage, 90% were haploid. As the counts were made on the No. 1 callus type and the root-tip cells of the 35 pants regenerated from this same type 89.7% of the former 427 cells and 87.4% of the latter 645 cells were determined to be haploid. The calli of the Type No. 1 possess unlimited totipotency demonstrated by regeneration. These stability and totipoteney may play an important role in practical application and theoretical research of maize.     

EMS-induced lincomycin resistance in red pepper (Capsicum annuum L.)

Summary Ethyl methane sulphonate (EMS) is a potential mutagen to induce lincomycin resistance in Capsicum annuum. Mutagenized cotyledons were cultured on shoot regenerating medium containing lincomycin (100 mgl⁻¹). Approximately 14% of regenerated shoots were chlorophyll deficient and about 4% of regenerated shoots were green from mutaganized cotyledons. The regenerated green plants were resistant to lincomycin but sensitive to chloramphenicol, kanamycin, spectinomycin, and streptomycin. Reciprocal crosses were made between resistant and sensitive plants. Inheritance of lincomycin resistance was transmitted as a non-Mendelian trait. Lincomycin resistance is a first selectable and maternally inherited organelle encoded genetic marker described in chili pepper. Such mutants should be useful in designing biochemical selection schemes to recover somatic hybrids and cybrids.     

Intergeneric somatic hybridization in Gramineae: somatic hybrid plants between tall fescue (Festuca arundinacea Schreb.) and Italian ryegrass (Lolium multiflorum Lam.)

Summary Tall fescue (Festuca arundinacea Schreb.) protoplasts, inactivated by iodoacetamide, and non-morphogenic Italian ryegrass (Lolium multiflorum Lam.) protoplasts, both derived from suspension cultures, were electrofused and putative somatic hybrid plants were recovered. Two different genotypic fusion combinations were carried out and several green plants were regenerated in one of them. With respect to plant habitus, leaf and inflorescence morphology, the regenerants had phenotypes intermediate between those of the parents. Southern hybridization analysis using a rice ribosomal DNA probe revealed that the regenerants contained both tall fescue- and Italian ryegrass-specific-DNA fragments. A cloned Italian ryegrass-specific interspersed DNA probe hybridized to total genomic DNA from Italian ryegrass and from the green regenerated somatic hybrid plants but not to tall fescue. Chromosome counts and zymograms of leaf esterases suggested nuclear genome instability of the somatic hybrid plants analyzed. Four mitochondrial probes and one chloroplast DNA probe were used in Southern hybridization experiments to analyze the organellar composition of the somatic hybrids obtained. The somatic hybrid plants analyzed showed tall fescue, additive or novel mtDNA patterns when hybridized with different mitochondrial gene-specific probes, while corresponding analysis using a chloroplast gene-specific probe revealed in all cases the tall fescue hybridization profile. Independently regenerated F. arundinacea (+) L. multiflorum somatic hybrid plants were successfully transferred to soil and grown to maturity, representing the first flowering intergeneric somatic hybrids recovered in Gramineae.     

白菜与甘蓝之间体细胞杂交种获得与遗传特性鉴定

为拓宽白菜育种的基因资源,改良白菜品质,以白菜(Brassica campestris,2n=20,AA)和甘蓝(B.oleracea L.var.capitata,2n=18,CC)的子叶和下胚轴为材料分离、制备原生质体。采用40%聚乙二醇(Polyethylene glycol,PEG)进行原生质体融合。融合细胞在以0.3 mol/L蔗糖、0.3 mol/L葡萄糖为渗透稳定剂,附加1.0 mg/L 2,4-D+0.5 mg/L 6-苄氨基嘌呤(6-BA)+0.1 mg/L 1-萘乙酸(NAA)+1.0 mg/L激动素(Kinetin,Kin)的改良K8p培养基中培养并诱导细胞分裂。小愈伤组织经增殖培养后在MS+0.2 mg/L玉米素(Zeatin,ZEA)+1 mg/L 6-BA+0.5 mg/L Kin+0.4 mg/L NAA的固体分化培养基上诱导出不定芽。30 d后再转入MS基本培养基,获得完整的再生植株。将生根的植株转移到花盆,并对其杂种性质进行形态学、细胞学和分子生物学鉴定。结果表明,经细胞融合分裂出的320个愈伤组织中,获得了35棵再生植株,其再生率达10.94%。形态学观察显示,绝大多数再生植株的叶面积较大,株型和叶型为两种杂交亲本的中间型,部分植株的叶片浓绿、肥厚。染色体计数结果显示,36.4%的再生植株染色体数为2n=38;36.4%的再生植株的染色体数为2n=58 60;27.2%的再生植株的染色体数为2n=70 76,超过两个融合亲本的染色体数的总和。流式细胞仪测定DNA含量显示,再生植株DNA含量变化比较大,其结果与染色体鉴定结果相吻合。随机扩增多态性DNA(Randomamplified polymorphic DNA,RAPD)和基因组原位杂交(Genomic in situ hybridization,GISH)分析结果证明再生植株具有双亲基因组。体细胞杂种花粉育性比较低,杂交、回交后其育性逐渐获得恢复,与白菜回交后代逐渐恢复了育性。通过体细胞杂交和回交、杂交获得了形态变化广泛的个体,为白菜的品种育种提供多样的种质资源。     

Chromosome variations in regenerants of Arabidopsis thaliana derived from 2- and 6-week-old callus detected using flow cytometry and FISH analyses

Shoot organogenesis was induced from 2- and 6-week-old callus derived from the leaves of Arabidopsis thaliana ecotype Columbia (2n = 10). Regenerated plants were evaluated for chromosomal variations by means of flow cytometry and fluorescent in situ hybridization (FISH). Flow cytometric measurements revealed the occurrence of diploid, tetraploid, and octoploid plants among the regenerants of 2-week-old calli, whereas only diploid and tetraploid plants were regenerated from the 6-week-old calli. Chromosome counting showed that plants developed from the 2-week-old calli exhibited mixoploidy and a high frequency of aneuploid cells. These plants were infertile and displayed altered morphology. FISH with 5S and 25S rDNA probes allowed to detect some structural chromosomal rearrangements in regenerated plants. Along with cells which exhibited correct localisation of rDNA loci, also cells bearing chromosomal translocations, deletions or duplications were found. The type of structural aberrations varied between diploid and tetraploid regenerants.     

缺体小麦与黑麦杂种幼胚愈伤组织再生植株的染色体变异

对中国春6A缺体小麦与黑麦杂种幼胚愈伤组织不同无性世代再生植株体细胞染色体鉴定结果表明,随着愈伤组织培养时间的延长,再生植株染色体变异频率及变异范围明显增加。在分化的共计224株再生植株中,发生染色体变异的植株为80株,占35.7％,其中有3株为染色体嵌合株,1株发生了染色体结构变异。     

Study on the Establishment and Variation of Somaclones from Wheat-Wheatgrass Alien Additional Lines

Calli were induced from the young leaves and mature embryos of seven wheat-wheatgrass alien additional lines, and somaclones were established from the calli. A large number of plantlets were obtained and survived after transplantation. The medium WG used for tissue culture of wheat-wheatgrass alien addition lines was set up in the experiment. The methods induced callus with two kinds of media were used. The first medium WG2 supplemented with 4 mg/l 2, 4-D and l mg/l NAA was used for callus formation. The second medium was WG2 with 2 mg/l 2, 4-D, 0.5 mg/l NAA and 0.25 mg/l KT. Differentiation medium used was WG3 with 0.5 mg/l KT, 1mg/l NAA and 100 mg/l adenylic acid. The examination of the chromosomes in regenerated plants indicated that the chromosomal number variation was remarkable. The plants maintaining 2n=44 were only 34.4% of the total regenerated plants, and the plants with the chromosomal number returned to 2n=42 made a relatively greater part of the variational plants regenerated. About half of the regenerated plants showed morphological variations. The crossover, translocation and other chromosomal structural changes were found in PMCs of the variational plants regenerated. Meanwhile, the polycentric chromosome derived from the fusion of several chromosomes and chiasmata of somatic chromosomes were clearly observed in callus cells, indicating that crossover and translocation occurred in somacloaes.     

Proteome approaches to characterize seed storage proteins related to ditelocentric chromosomes in common wheat (Triticum aestivum L.)

Changes in protein composition of wheat endosperm proteome were investigated in 39 ditelocentric chromosome lines of common wheat (Triticum aestivum L.) cv. Chinese Spring. Two-dimensional gel electrophoresis followed by Coomassie Brilliant Blue staining has resolved a total of 105 protein spots in a gel. Quantitative image analysis of protein spots was performed by PDQuest. Variations in protein spots between the euploid and the 39 ditelocentric lines were evaluated by spot number, appearance, disappearance and intensity. A specific spot present in all gels was taken as an internal standard, and the intensity of all other spots was calculated as the ratio of the internal standard. Out of the 1755 major spots detected in 39 ditelocentric lines, 1372 (78%) spots were found variable in different spot parameters: 147 (11%) disappeared, 978 (71%) up-regulated and 247 (18%) down-regulated. Correlation studies in changes in protein intensities among 24 protein spots across the ditelocentric lines were performed. High correlations in changes of protein intensities were observed among the proteins encoded by genes located in the homoeologous arms. Locations of structural genes controlling 26 spots were identified in 10 chromosomal arms. Multiple regulators of the same protein located at various chromosomal arms were also noticed. Identification of structural genes for most of the proteins was found difficult due to multiple regulators encoding the same protein. Two novel subunits (1B(Z,) 1BDz), the structure of which are very similar to the high molecular weight glutenin subunit 12, were identified, and the chromosome arm locations of these subunits were assigned.     

A genetic analysis of a tomato (Lycopersicon esculentum) genotype with a high frequency of twin spots

Among pale-green tomato plants heterozygous for the xanthophyllic2 (xa-2) mutation that were transformed with a T-DNA harbouring the NPTII and GUS gene, a plant with a high frequency of green/white twin spots was found. The genetic analysis of this plant indicated that the occurrence of these twin spots was caused by a genetic defect located at the distal end of chromosome 10S, where xa-2 also is located. The genetic analysis of green plants regenerated from leaf expiants of this twin-spot plant revealed that the green sectors derive from non-disjunction of the xa-2 ⁺ allele. In an analysis of mitotic chromosome behaviour bridges were observed in approximately 5% of the anaphases, providing arguments that a breakage-fusion-bridge cycle caused by a tissue culture-induced genomic instability is the most likely cause of this aberrant behaviour of chromosome 10.     

Production and characterization of intergeneric somatic hybrids of Trachystoma ballii and Brassica juncea

Intergeneric somatic hybrids, Trachystoma ballii (2n=16)+B. juncea (2n=38), were obtained by fusing mesophyll protoplasts of T. ballii and hypocotyl protoplasts of B. juncea using polyethylene glycol. The heterokaryotic fusion frequency was around 23%. Plants were regenerated from 10 out of 2×10⁴ calli of which four were hybrids. Hybrids were intermediate between the parents in general morphology. However, in some characters one of the parents dominated. All the plants were symmetric in their chromosomal constitution as revealed by the formation of 26 bivalents at metaphase-I of meiosis. Two trivalents and 2 univalents were also observed in some pollen mother cells. Hybrid nature was also confirmed by Southern hybridization of DNA of one regenerated plant restricted with Hind III and probed with the nick translated plasmid pTA71 carrying a wheat nuclear r-DNA sequence. Hybrid plant RT 1 showed bands characteristic of both parents. All the plants were absolutely pollen sterile. However, on backcrosses to B. juncea seeds were obtained.     

Interspecific hybridization between the cultivated potato Solanum tuberosum subspecies tuberosum L. and the wild species S. circaeifolium subsp. circaeifolium Bitter exhibiting resistance to Phytophthora infestans (Mont.) de Bary and Globodera pallida (Stone) Behrens

Summary Somatic fusions between the cultivated potato Solanum tuberosum and the wild species S. circaeifolium subsp. circaeifolium Bitter were produced in order to incorporate desirable traits into the potato gene pool. Selection of the putative hybrids was based on a difference in callus morphology between the hybrids and their parents, with the hybrids showing typical purple-colored cells in otherwise green calli. In all, 17 individual calli regenerated to plants. Of the nine plants that could be transferred to the greenhouse, eight showed a hybrid and one a parental morphology. Restriction fragment length polymorphism (RFLP) analysis confirmed the hybrid character in the former group. Chloroplast counts in stomatal guard cells and flow cytometric determination of nuclear DNA content showed that four hybrid plants were tetraploid (4x), one was mixoploid (5x–8x), and the others were polyploid (6x; 8x). Three out of four tetraploid hybrids were found to be fully resistant to Phytophthora infestans, and all four hybrids were resistant to Globodera pallida pathotypes Pa2 and Pa3. It was further observed that the type and amount of steroidal glycoalkaloids varied among the tubers of the parents and the hybrids. Using the hybrids as female parents in crosses with S. tuberosum, viable seeds could be obtained. This demonstrates the potential of these hybrids in practical plant breeding.     

Excision of the maize transposable element Ac in periclinal chimeric leaves of 35S-Ac-rolC transgenic aspen-Populus

The transposable element Ac from maize, in combination with the phenotypic selectable marker rolC, was employed in transformation experiments of a hybrid aspen clone. A number of transgenic clones exhibited light-green sectors on green leaves. In vitro regeneration from leaves showing a high number of light-green spots resulted in R2 plants, which also showed light-green sectored leaves. However, only one out of 385 regenerated plants obtained showed green leaves. Both PCR and northern analysis indicated Ac excision and restoration of rolC expression. In Southern blot analysis of this green plant additional bands were observed as compared to the original R1 plant. The occurrence of these bands and a suggested Ac excision in the non-green L1-epidermal layer leading to periclinal chimerism of this plant is discussed.