Microspore culture of white cabbage, Brassica oleracea var. capitata L.: Genetic improvement of non-responsive cultivars and effect of genome doubling agents

For the efficient application of haploid induction procedures in cabbage breeding, a sufficient number of regenerants should be achieved in a broad spectrum of genotypes. However, the majority of genotypes are somewhat recalcitrant. The efficiency of microspore culture was tested by crossing a responsive (28.7 embryos per Petri dish) and a non- responsive (0.1 embryo) cabbage cultivar. The embryo yield of one progeny was intermediate (18.9) while two were superior to the best parent cultivar (52.9 and 64.0 embryos). Thus, genes for haploid embryogenesis, present in responsive lines, can be effectively transmitted to responsive × non-responsive hybrids. Abscisic acid-induced desiccation of embryos was used for the efficient regeneration of plants. High germination percentages (54.7-70.6%) followed by normal plantlet development were achieved. Spontaneous genome doubling measured at the plantlet stage differed markedly in untreated genotypes. The percentage of diploids ranged from 21 to 67%. The effects of two antimitotic drugs applied to freshly isolated microspores were determined in two experiments. In the first experiment, trifluralin (0.5 and 1.0 mg:l) had no effect on embryo induction while oryzalin partly (0.125-0.25mg/l) or completely (0.5.mg/l) inhibited the formation of embryos. In the second experiment, higher concentrations of trifluralin increased the proportion of diploidized plants. Application of anti-mitotic drugs to microspores did generally not improve the overall production of haploid plants, which was higher in an untreated control.     

In vitro chromosome doubling with colchicine during microspore culture in wheat (Triticum aestivum L.)

Isolated microspores of two DH lines of wheat were treated with 8 different colchicine concentrations up to 3 mM for either 24 h or 48 h during microspore culture. Untreated control cultures produced on average 220 embryos per spike (100,000 microspores), 68% of the regenerated plantlets were green, and 15% of the flowering plants were fertile. The colchicine treatments had a significant effect on chromosome doubling as measured by the percentage of fertile regenerants. Using colchicine concentrations around 1 mM the percentage of fertile plants among the regenerants was increased up to 53%. The highest number of embryos and regeneration rates were observed after 24 h colchicine treatment, while the highest frequencies of green plants and fertile plants were obtained with 48 h colchicine treatments. The highest number of DH plants per spike was found after treatment with colchicine concentrations of 300 to 1000 μM. Such treatments resulted in an estimated average between the two genotypes of 23 doubled haploid plants per spike. This revised version was published online in July 2006 with corrections to the Cover Date.     

Functional genomics of microspore embryogenesis

Isolated plant microspores, when stressed and cultured in vitro, can be diverted from their normal gametophytic pathway towards sporophytic development, with the formation of haploid embryos and ultimately doubled-haploid plants. This process is called androgenesis or microspore embryogenesis, and is widely used in plant breeding programmes to generate homozygous lines for breeding purposes. Protocols for the induction of microspore embryogenesis and the subsequent regeneration of doubled haploid (DH) plants have been successfully developed for more than 200 species. These practical advances stand in stark contrast to our knowledge of the underlying molecular genetic mechanism controlling this process. The majority of information regarding the genetic and molecular control of the developmental switch from gametophytic to sporophytic development has been garnered from four intensely studied (crop) plants comprising two dicotyledonous species, rapeseed (Brassica napus) and tobacco (Nicotiana tabacum), and two monocotyledonous species, wheat (Triticum aestivum) and barley (Hordeum vulgare). In these species the efficiency of microspore embryogenesis is very high and reproducible, making them suitable models for molecular studies. In the past, molecular studies on microspore embryogenesis have focussed mainly on the identification of genes that are differentially expressed during this developmental transition and/or early in embryo development, and have identified a number of genes whose expression marks or predicts the developmental fate of stressed microspores. More recently, functional genomics approaches have been used to obtain a broad overview of the molecular processes that take place during the establishment of microspore embryogenesis. In this review we summarise accumulated molecular data obtained in rapeseed, tobacco, wheat and barley on embryogenic induction of microspores and define common aspects involved in the androgenic switch.     

番茄游离小孢子培养研究进展

雄核发育是小孢子或未成熟花粉细胞沿孢子体发育途径形成植株的过程，也是创制育种材料的有效途径之一。为建立重复性好、再生频率高的番茄小孢子诱导方法，文章通过回顾国内外研究进展，总结了番茄雄核番茄雄核发育各阶段（胚胎发生能力的获得、诱导小孢子分化形成胚状体以及胚状体再生形成单倍体植株）的主要影响因素，并简要归纳了现有的游离小孢子分离培养技术。分析表明，基因型是制约番茄小孢子诱导体系的关键因素，且需与发育时期、培养条件等多个影响因素同期发生，才能使雄核发育偏离配子体途径。最后，展望了番茄小孢子培养未来的研究方向与发展趋势，以期为番茄双单倍体技术的深入研究提供参考。     

不结球白菜游离小孢子培养成胚影响因素的研究

以17个不同基因型的不结球白菜为供试材料,对影响小孢子胚胎发生频率的若干因素进行了研究。结果表明:在秋冬季日光温室内,供试植株主花序第一朵花开后第7~14天取样,即初花期是最佳取样时期;不同基因型间小孢子胚胎发生能力差异很大,在接种的17个基因型中,有12个诱导出胚,诱导成功率71%;其中102号产胚量最高,达到32.78个/蕾;在已产胚材料中,产胚量最高的基因型是产胚量最低的基因型的546倍;较易抽薹型材料的产胚能力大于易抽薹型和不易抽薹型。以B5有机成分代替NLN有机成分,能够提高产胚量,尤其是对难成胚基因型的小孢子胚胎发生有较好的促进作用,甘露醇对小孢子分裂无促进作用。     

Efficient Production of Doubled Haploid Plants through Chromosome Doubling of Isolated Microspores in Brassica napus

Three methods of chromosome doubling to produce doubled haploid plants from microspore cultures of Brassica napus were compared: colchicine treatment of microspore-derived plants, microspore-derived embryos, and isolated microspores. In the whole plant treatment, 53% of the treated plants set seed, but the treatment delayed plant growth and reduced seed set. When microspore-derived embryos were treated with colchicine, the doubling frequency was 32% (compared to 15% for spontaneous doubling). Direct colchicine treatment of isolated microspores resulted in a doubling efficiency of 70 % of the whole plants. This treatment also stimulated embryogenesis in microspore culture, leading to increased plant regeneration. Thus, direct chromosome doubling of isolated microspores is efficient and more than 10 000 doubled haploid plants have been produced in this manner in the past three years in order to accelerate the plant-breeding process.     

Development and bioassay of transgenic Chinese cabbage expressing potato proteinase inhibitor II gene

Lepidopteran larvae are the most injurious pests of Chinese cabbage production. We attempted the development of transgenic Chinese cabbage expressing the potato proteinase inhibitor II gene (pinII) and bioassayed the pest-repelling ability of these transgenic plants. Cotyledons with petioles from aseptic seedlings were used as explants for Agrobacterium-mediated in vitro transformation. Agrobacterium tumefaciens C58 contained the binary vector pBBBasta-pinII-bar comprising pinII and bar genes. Plants showing vigorous PPT resistance were obtained by a series concentration selection for PPT resistance and subsequent regeneration of leaf explants dissected from the putative chimera. Transgenic plants were confirmed by PCR and genomic Southern blotting, which showed that the bar and pinII genes were integrated into the plant genome. Double haploid homozygous transgenic plants were obtained by microspore culture. The pinII expression was detected using quantitative real time polymerase chain reaction (qRT-PCR) and detection of PINII protein content in the transgenic homozygous lines. Insect-feeding trials using the larvae of cabbage worm (Pieris rapae) and the larvae of the diamondback moth (Plutella xylostella) showed higher larval mortality, stunted larval development, and lower pupal weights, pupation rates, and eclosion rates in most of the transgenic lines in comparison with the corresponding values in the non-transformed wild-type line.     

Early spontaneous diploidization of maternal maize haploids generated by in vivo haploid induction

The production of doubled haploid (DH) lines has become a key technology in maize (Zea mays L.) research and breeding. However, most of the haploid plants are sterile and in many cases artificial chromosome doubling involves the use of costly and toxic chemicals. Here, we report a special kind of doubled haploid named the early doubled haploid (EH) that was generated directly by in vivo haploid induction. We found 83 EH plants induced from the hybrid Zhengdan958, 55 families of its F_2:3 population and the parental lines, all of which were confirmed to be homozygous diploids via flow cytometry and 104 SSR markers. The progeny of EH₀ (EH₁) behaved in the same manner and showed the same potentialities as the parents of Zheng58 and Chang7-2. EH plants were also detected in other genetic backgrounds at a frequency of 1–3.5 % based on the total number of haploid plants. Because the EH lines exhibited completely fertility and were obtained from induction directly in one step, they could be used in DH breeding as a new breeding strategy. According to our observations, it is likely that spontaneous doubling in EH occurred during embryo development when haploid induction. The possible mechanism of EH is also discussed.     

Characterization of anther culture-derived cell suspensions exclusively regenerating green plantlets in wheat (Triticum aestivum L.)

A reproducible procedure for deriving highly regenerable cell suspensions that can readily and consistently regenerate green plantlets in wheat is described. Initiation and selection of the right type of callus from anther cultures, which consisted of friable early embryogenic portions that can easily disperse in liquid medium was important for the establishment of rapidly growing embryogenic suspensions. Using this type of inoculum no significant variation between three different independent replications was noted when cell suspensions from eleven specially recombined doubled haploid lines were maintained on General medium supplemented with dicamba and a predominance of amino acid nitrogen. This approach also enhanced a long-term embryogenic competence of the cell cultures, with some of the suspensions retaining their morphogenic capacity over a period of more than 15 months. Depending on the medium composition high frequencies of embryogenesis (over 70%) and green plantlet regeneration (repeatedly producing 90–100% of green regenerants) were obtained from the cell aggregates for most of the embryogenic cell lines. Potential advantages of anther culture-derived embryogenic cell suspensions for transformation purposes are the high number of cell lines which can be established routinely and the apparent maintenance of a stable haploid genome by the regenerants in culture. It is anticipated that an increased use of anther or microspore derived doubled haploid techniques in future wheat breeding programmes may favour selection in the breeding material of plant types generally responsive to such protocols. This revised version was published online in July 2006 with corrections to the Cover Date.     

Efficient production of doubled haploid wheat plants by in vitro treatment of microspores with trifluralin or APM

Isolated microspore cultures from two doubled haploid (DH) lines of wheat, Triticum aestivum L., were used to develop an in vitro chromosome-doubling protocol. During the initial 24 h or 48 h of culture the microspores were treated with either of the two antimicrotubule herbicides trifluralin or amiprophos-methyl (APM) in concentrations ranging from 0.1 μM to 10μM. Untreated control cultures yielded 209 embryos per 100000 microspores, which is the equivalent of one spike. Among the regenerated plantlets 67% were green, and 15% of the flowering plants were spontaneously chromosome doubled. Treatments with both the herbicides had a significant effect on chromosome doubling, measured as the percentage of fertile regenerants. With the best combination of treatment duration (48 h) and herbicide concentration (10/μM) the percentage of fertile plants among regenerants could be increased up to 74% with APM and up to 65% with trifluralin. The largest numbers of DH plants per spike could be obtained with herbicide concentrations at 1–3 μM. Treatments with either herbicide at these concentrations resulted in an estimated average between the two genotypes of 27 DH plants per 100 000 microspores. These results demonstrate the high potential of APM and trifluralin as chromosome-doubling agents in isolated microspore cultures. The in vitro treatment integrated into tissue culture procedures will constitute an efficient method for chromosome doubling in future wheat breeding     

中国白菜AFLP分子遗传图谱的构建

以白菜高抗TuMV白心株系91 112和高感TuMV桔红心株系T12 91为亲本建立的小孢子DH系作为图谱构建群体,以AFLP标记来构建白菜连锁图谱。通过对64对AFLP引物组合的筛选,利用20对引物得到了263个AFLP多态性位点。经Mapmaker/EXP3.0软件处理,构建了1张含255个标记位点,10个连锁群,覆盖长度为883.7cM的连锁图。255个AFLP位点中偏离孟德尔遗传的比率(P<0.05)为15 0%和27 5%(P<0.01)。     

RAPD markers linked to a clubroot-resistance locus in Brassica rapa L.

Linkage of random amplified polymorphic DNA (RAPD) markers with resistance genes to clubroot (Plasmodiophora brassicae Wor.) in Brassica rapa L. was studied in a doubled haploid (DH population obtained by microspore culture. Thirty-six DH lines were obtained from F₁ plants from a cross between susceptible ‘Homei P09’ and resistant ‘Siloga S2’ plants. ‘Homei P09’ was a DH line obtained by microspore culture of the Chinese cabbage variety ‘Homei’, which is highly responsive in microspore culture. The resistant line ‘Siloga S2’ was obtained by two rounds of selfing of the fodder turnip ‘Siloga’. Three RAPD markers, RA12-75A, WE22B and WE49B, were found to be linked to a clubroot-resistance locus. These three markers were linked in the DH lines and an F₂ population and should be useful for marker-assisted selection in breeding programs. This revised version was published online in July 2006 with corrections to the Cover Date.     

Efficient doubled haploid production in microspore culture of loose-curd cauliflower (Brassica oleracea var. botrytis)

We present an improved protocol for highly efficient production of doubled haploid loose-curd cauliflower plants (Brassica oleracea var. botrytis) via microspore culture. Our experiment explored factors such as donor plant treatment, flower bud pretreatment, embryo germination medium, and ploidy characterization of regenerated plants. Our technique efficiently produced embryos from both tight- and loose-curd donor plants, although the embryo yields were genotype dependent. We achieved a germination rate of around 30 % by employing a hormone combination of zeatin, indole-3-acetic acid, and 6-benzylaminopurine pretreatment culture. We also used 1–4 days of cold pretreatment of the flower buds, which were submerged into NLN-13 medium, to induce microspore embryogenesis. Analysis using an FCM Ploidy Analyzer showed that more than 50 % of regenerated plants were spontaneously doubled haploids, more than 25 % were tetraploids, and fewer than 7 % were haploid. Visual examination of plants in the field revealed that they had distinct phenotypic characteristics relating to their ploidy level. The efficient production of double haploids using our improved microspore culture technique is a promising approach that can be applied in loose-curd cauliflower breeding programmes and genetic research.     

Mutagenic treatment of microspore-derived embryos of turnip rape (Brassica rapa) to increase oleic acid content

The article presents the results of a study on obtaining mutant doubled haploids of turnip rape. The culture medium for producing embryos in isolated microspore culture was optimized. The optimal medium formula was NLN + 13% S + 0.05 mg/L NAA + 0.05 mg/L BA. Embryos derived from isolated microspore culture were treated with EMS mutagen in three concentrations (4 mM, 8 mM, and 12 mM). Mutant doubled haploid plants and their seeds were obtained. Agronomic evaluation and analysis of fatty acid composition in mutant lines seeds showed that they had valuable traits in terms of seed oil quality and yield. Analysis of the fatty acid composition of the seeds of the obtained mutant doubled haploids showed an increase in the percentage of oleic acid (~11%–12%) in comparison with donor cultivars. Our results showed that mutagenesis of embryos from a culture of isolated microspores has potential for improving the qualitative traits of turnip rape.     

Potential use of doubled haploid lines for the screening of resistance to yellow rust (Puccinia striiformis) in hexaploid wheat

Doubled haploid lines derived from anther culture of two Iranian spring wheat genotypes‘Ghods’susceptible and‘9106’resistant to yellow rust in Iranian field conditions, and their F₁ hybrids were used in this study. Seedlings of 36 doubled haploid lines, selected out of 96 according to their agronomic traits and the two parental genotypes were inoculated with eight races of yellow rust. The parental genotypes (‘Ghods’and‘9106’) were segregating for some of the races but their doubled haploid lines were either resistant or susceptible to them.‘Ghods’was susceptible to three of the races studied but three doubled haploid lines derived from it were resistant to them. Five selected doubled haploids from the‘9106’genotype and six from F₁ hybrid plants were resistant to all eight races tested. After further investigations in Iranian field conditions it was found that some of these lines can be used as donor genotypes for resistance to yellow rust in wheat breeding programmes. Use of these genotypes should be possible if the French yellow rust races used for selection also represent the dominant races in Iran. It can be concluded that anther culture provides an efficient method for fixing genes of resistance to yellow rust and desirable doubled haploids from F₁ plants can be derived.     

Anther culture in connection with induced mutations for rice improvement

Doubled haploids have long been recognized as a valuable tool in plant breeding since it not only offers the quickest method of advancing heterozygous breeding lines to homozygosity, but also increases the selection efficiency over conventional procedures due to better discrimination between genotypes within any one generation. Ten cultivars of japonica rice and nine cultivars of indica rice were evaluated for androgenic response. Various doses (10–50 Gy) of gamma rays were applied to investigate the effect of radiation on callus formation, green plant regeneration and the frequency of selected doubled haploid mutants. Similarly, the effects of colchicine concentration (10–200 mg/l) on callus induction, regeneration and fertility of green plants were observed. It was demonstrated that the dose of 20 Gy gamma rays and 30 mg/l concentration of colchicine have significant stimulation effect on regeneration of green plants from rice anther culture. The high frequency of observed doubled haploid mutants indicates that anther culture applied in connection with gamma rays is an effective way to improve rice cultivars. This revised version was published online in August 2006 with corrections to the Cover Date.     

Improving androgenesis‐mediated doubled haploid production efficiency of FCV tobacco (Nicotiana tabacum L.) through in vitro colchicine application

Production of doubled haploid plants through androgenesis in flue‐cured Virginia (FCV) tobacco is a promising and convenient alternative to conventional selfing techniques for the generation of absolute homozygous lines. Here, we show a robust in vitro haploid and doubled haploid development protocol in FCV tobacco with major emphasis on improving the efficiency of chromosome doubling using in vitro colchicine treatment. We used five FCV tobacco hybrids for comparison of colchicine treatments. The anther culture response varied with developmental stages of the buds, and the highest response was observed in stage 2 buds. The effect of cold pretreatment was significant, and 4 days of pretreatment was optimum for gametic embryogenesis. Among the methods used for determining the ploidy status of plants, flow cytometry was found to be easy, fast and reliable for high‐throughput screening of haploids. Doubled haploids regeneration percentage varied from 6.77 to 11.95 in in vivo treatment, while the range of variation was 22.11% to 28.40% in in vitro colchicine treatment. We observed a pronounced increase in plant survival and the proportion of doubled haploid plants in in vitro treatment compared with the standard in vivo approach.     

Chromosomal regions associated with the in vitro culture response of wheat (Triticum aestivum L.) microspores

Generation of doubled haploid plants is a powerful tool in breeding, as homozygous individuals will be obtained directly from hybrids. However, genotype variability in regeneration efficiency of most European wheat (Triticum aestivum L.) varieties has limited its use in wheat. This study intended to identify quantitative trait loci (QTLs) for green plantlet regeneration from wheat microspore cultures. A QTL analysis using DArT markers was conducted based on a bi‐parental F₃ population, derived from a cross between the varieties Svilena and Jensen, which displayed markedly different capacity for plantlet regeneration. Two QTLs on chromosome 1B and 7B explained 53% of the variation in green plantlet regeneration. Furthermore, a collection of 94 European wheat varieties was genotyped and phenotyped. The microspore response level was low among western and northern European wheat varieties, and the positive QTLs found in the bi‐parental population were rare in the variety collection. Identification of the two QTLs enables introduction of high regeneration efficiency into wheat germplasm. Moreover, our results proved that the efficient regeneration observed for one variety could be crossed into modern winter wheat.     

Screening of Chinese cabbage mutants produced by 60Co γ‐ray mutagenesis of isolated microspore cultures

Since the release of the Chinese cabbage genome sequence, increasing interest has focused on the functional analysis of unidentified genes in Chinese cabbage. Mutant analysis forms the basis of functional genomics research. To produce a variety of Chinese cabbage mutants in the same genetic background, buds containing late uninucleate spores from a doubled haploid line of the Chinese cabbage variety ‘Fukuda 50’ were irradiated with ⁶⁰Co γ‐rays at doses of 20, 40 and 60 Gy. Then, the treated microspores were isolated and cultured. A total of 492 putative M₀ mutants were isolated from 1483 regenerated plants. Of these, six M₁ mutants were verified; the mutant frequency was 0.41%. These mutants comprise a mutant library that includes one plant shape mutant, two flower mutants and three male sterile mutants. Pollen viability detection and DNA flow cytometry were used to determine the ploidy of the regenerated plants. Some of the mutants isolated in this study may be useful for Chinese cabbage breeding and functional genomics research.     

Relative efficiency of maize and Imperata cylindrica for haploid induction in Triticum durum following chromosome elimination‐mediated approach of doubled haploid breeding

Intergeneric hybridization in seven diverse durum wheat genotypes was carried out using two composite varieties of Himalayan maize, viz., Bajaura Makka and Early Composite, and a wild grass, Imperata cylindrica, as pollen sources. Observations related to various haploid induction parameters put forth I. cylindrica as significantly better pollen source for haploid induction in durum wheat over maize in terms of pseudoseed formation (46.93%), embryo formation (38.06%), haploid regeneration (40.42%) and haploid formation efficiency (7.44%). The line x tester analysis revealed that both male and female genotypes had significant effects on all haploid induction parameters except haploid formation frequency in later. Among the pollen sources, I. cylindrica emerged as best combiner based on GCA values when compared with the two Himalayan maize composites. Durum wheat genotype, A‐9‐30‐1 was recognized as the best general combiner followed by PDW 314. The present investigation proposed durum wheat × I. cylindrica as a superior technique over maize‐mediated system, and its large‐scale use can open a new horizon in the sphere of durum wheat doubled haploidy breeding programme.