Regeneration of the barley zygote in ovule culture

An ovule culture technique has been established for barley that allows the regeneration of plants from zygotes. An average of 1.3 plantlets per ovule could be regenerated from more than 60% of the cultured ovules and about 75% of the regenerated plantlets developed into normal, fertile plants. The same regeneration frequencies were obtained in intact ovules and in ovules where the two integuments had been removed from the micropylar region. Unfertilized ovules and ovules where the fertilized eggs had been destroyed by a microinjection needle did not give rise to embryo-like structures. Plants could be regenerated from the zygote at the same frequency at developmental stages from immediately after fertilization until the formation of bicellular embryos. This tissue culture system appeared to be largely independent of genotype since similar regeneration frequencies were obtained in two different barley cultivars, Igri and Alexis, that in anther and microspore culture behave differently. The same technique has also been applied successfully in the wheat cultivar Walter.     

Nuclear DNA amounts in the egg and zygote of maize (Zea Mays L.)

The nuclear DNA content of isolated eggs and zygotes of maize was estimated using 4,6-diamidino-2-phenylindole (DAPI) staining and microspectrofluorometry. The data indicate that egg nuclei contain the 1C level of DNA (basic haploid amount) at the time of karyogamy, and that, by inference, the sperm nuclei are also at 1C. Fertilization occurred in most ovules by 24–28 h post-pollination (hpp), and DNA synthesis was well underway by 27–31 hpp. By 30–34 hpp, 80% of the zygotes were at the 3C DNA level or above, and many were undergoing mitosis. This study provides information that is pertinent to experiments on the microinjection of exogenous DNA into isolated zygotes of maize, and it will serve as a comparative base for future determinations of the DNA content of zygotes produced and cultured in vitro.Abbreviations DAPI 4,6-diamidino-2-phenylindole - hpp hours post-pollination We would like to thank R. Blanc, D. Aldon, and C. Digonnet for their expert technical assistance and advice during the course of this study. Partial support for this study by the Organized Research Fund, Northern Arizona University, is gratefully acknowledged. The bulk of this study was carried out while H.L.M. was visiting research professor at the Ecole Normale Supérieure de Lyon.     

Plant regeneration from embryogenic cell suspensions derived from anther cultures of barley (Hordeum vulgare L.)

Summary We have established embryogenic cell suspension cultures of barley (Hordeum vulgare L. cultivars Igri, Gimpel, Princesse, and Baronesse) from anther-derived embryogenic callus. Suspension cultures of cultivars Igri and Gimpel were regenerable. The most successful cultivar was Igri, from which a number of independent cell lines producing plantlets were established. Plants could be transferred to soil; up to now, 50% of more than 200 regenerated plants were morphologically normal and fertile. The relative frequency of sterile plants increased as suspensions aged. Suspensions older than 1 year produced embryogenic callus but only albino plantlets could be regenerated.     

Nuclear fusion leads to chromosome doubling during mannitol pretreatment of barley (Hordeum vulgare L.) microspores.

A cytological study of barley microspores during pretreatment of the uninucleate stage to the early culture stage was conducted utilizing six genotypes. Among the three main pretreatments investigated, microspores completed the first mitotic division during 28 d cold pretreatment of spikes, with or without leaf sheath attached, and during 0.3 M mannitol pretreatment of anthers at 25 degrees C. However, during a 4 d pretreatment in 0.3 M mannitol at 4 degrees C this first mitotic division was blocked or delayed and subsequently most often occurred during the first day on culture medium. The first mitotic division of most microspores pretreated in 0.3 M mannitol was mostly symmetrical (55-60%), whereas it was asymmetric (94%) during the 28 d cold pretreatment of spikes. Following the first mitotic division during the mannitol pretreatment at 25 degrees C, closely associated daughter nuclei often appeared to fuse via membrane coalescence, leading to a high frequency of large uninucleate microspores. Based upon nuclear size, the frequencies of fused uninucleate microspores in genotypes GBC 778, GBC 777 and Igri were estimated to be 87%, 54% and 75%, respectively, after a 4 d mannitol pretreatment at 25 degrees C. Chromosome numbers in dividing nuclei and relative densitometry measurements of nuclear DNA in microspores from cv. Igri confirmed the apparent fused nature of large nuclei in uninucleate microspores. The high frequency of fused nuclei indicates that nuclear fusion occurred between both symmetric and asymmetric nuclei. Microspores of cv. Igri cultured on filter paper following three different pretreatments provided an average of about 12 000 embryo-like structures (ELS) per plate. In samples, 85-97% of these ELS regenerated green shoots. The frequency of doubled haploids (74-83%) following all pretreatments was similar to the frequencies of fused nuclei. The pretreatment of spikes in 0.3 M mannitol at 4 degrees C for 4 d is preferred as it appears to provide genotype independent induction and suspension of nuclear division, as well as regenerating green plants in a shorter time than cold alone.     

Low responsiveness of six-rowed genotypes to androgenesis in barley does not have a pleiotropic basis.

A heterozygous mutant for the two- and six-rowed character was isolated in the barley cultivar Igri through application of sodium azide to isolated microspore cultures and posterior regeneration. Six-rowed and two-rowed homozygotic plants were subsequently identified in the self-pollinated M2 progenies of the original heterozygous M1. Detailed molecular markers confirmed the isogenic nature of this recovered mutant and the original cultivar Igri. A comparative study of the anther culture response of this six-rowed induced mutant vs. diploid 'Igri' was performed to assess whether the two- or six-rowed gene influences anther culture response in barley through a pleiotropic effect or via linkage disequilibrium. No significant differences for any of the recorded variables throughout the in vitro regeneration process were detected between the 'Igri' six-rowed mutant and any of their two-rowed isogenic lines. This suggests that row-type association with anther culture response in barley cultivars is due to the effect of a tight linkage with other genes directly responsible for androgenic response.     

Plastid differentiation during androgenesis in albino and non-albino producing cultivars of barley (Hordeum vulgare L.)

In order to better understand androgenic albinism in barley, we compared plastid differentiation during anther culture in two cultivars, an albino (spring cultivar Cork) and a non-albino (winter cultivar Igri) producing cultivar. The ultrastructure of plastids and the relative amount of DNA containing plastids were followed in both cultivars during the androgenic process and correlated with the proportion of regenerated chlorophyllous plantlets. For androgenesis, anthers were collected at the uninucleate stage, during mid- or late-microspore vacuolation. At this stage DNA was detected in 15.3 ± 2. 7% of microspore plastid sections in the winter cultivar Igri, compared to 1.7 ± 0.5% in the spring cultivar Cork. In the winter cultivar Igri, starch was broken down after anther pretreatment but plastids divided rapidly during anther culture and thylakoids developed in the stroma. Prior to regeneration, plastids contained 2.0 ± 0.2 thylakoids per plastid and starch represented 26.1 ± 3.3% of the plastid volume. In the spring cultivar Cork, plastids followed a different developmental pathway. After anther pretreatment, microspore plastids differentiated exclusively into amyloplasts, accumulating starch and losing their thylakoids as well as their capacity to divide. This developmental pattern became progressively more marked, so that by the end of anther culture plastids contained 0.5 ± 0.4 thylakoids per plastid and starch represented up to 90.3 ± 4.3% of plastid volume. Following androgenesis, the response was similar in both cultivars except that the winter cultivar Igri provided 87.8% of chlorophyllous plantlets compared to 99.7% albino plantlets in the cultivar Cork. The results presented here suggest that the exclusive regeneration of albino plantlets in the spring cultivar Cork may be due to degradation of microspore plastid DNA during early pollen development, preventing the plastids from differentiating into chloroplasts under culture conditions. Received: 13 March 2000 / Revision accepted: 6 June 2000     

Improved plant regeneration from shed microspore culture in barley (Hordeum vulgare L.) cv. igri

This report describes rapid regeneration of green plants from microspores of the barley cultivar Igri. Use of 0.3 M mannitol during maceration and isolation was essential for response from mechanically isolated microspores of barley cv. Igri grown under our conditions. A shed microspore culture system proved to be simple and gave a fast response; plants were obtained as early as 25 days after the material was taken from the donor plant. A 28-day cold-pretreatment of spikes can also be replaced with a 3–4 day pretreatment of anthers in mannitol. Shed microspores from 100 anthers produced an average of 292 plants with 91% of them green. Approximately 80% of the regenerated plants were spontaneously doubled-haploids.Abbreviations IAA Indole-3-acetic acid - FHG Hunter's media (1988) - MS Murashige and Skoog     

Influence of primary callus induction conditions on the establishment of barley cell suspensions yielding regenerable protoplasts

Summary With the aim of the development of a culture method for efficient plant regeneration from barley (Hordeum vulgare L.) protoplasts, we examined several culture conditions for primary calli from immature embryos of cvs. Dissa and Igri, which were used for initiation of cell suspensions. Among the primary callus culture conditions tested, growth condition of donor plants had a great impact on these efficiencies; Igri protoplasts derived from embryos of plants grown in a greenhouse gave rise to albino plants and few green shoots while several cell lines originating from embryos of plants grown in a growth chamber (16h light, 12°C) yielded protoplasts developing into green plants. In contrast, cell suspensions were produced at higher frequencies from calli derived from embryos of greenhouse-grown Dissa plants. In Igri, increased levels of 2,4-dichlorophenoxyaceticacid (2,4-D) significantly reduced the efficiency of cell suspension establishment and plant regeneration from protoplasts was achieved only with suspension cells derived from calli induced at the lowest level (2.5 mg/l), while the effect of the 2,4-D concentration was not clear in Dissa. The developmental stage of immature embryos also affected the efficiency of cell suspension establishment, and the optimal embryo size was determined to be approximately 1mm in diameter. These results demonstrate the importance of callus induction conditions for successful barley protoplast culture.     

星星草受精作用及其胚与胚乳早期发育的观察

利用常规石蜡切片法对星星草[Puccinellia tenuiflora(Griseb．)Scribn．et Merr．]受精过程及胚与胚乳的早期发育进行了观察,主要结论如下：(1)开花后2h,花粉管破坏1个助细胞,释放2个精子,精子呈逗点状。(2)开花后2～3h,2个精子分别移向卵细胞与极核。(3)开花后3～5h,精核分别贴附于卵细胞与极核的核膜上。(4)开花后5～10h,精核与卵核融合,雄性核仁出现,合子形成。(5)开花后5～6h,精核与极核融合,并出现雄性核仁,形成初生胚乳核,精核与极核的融合比与卵核融合要快。(6)开花后20h左右,合子分裂。(7)开花后8h,初生胚乳核。     

The Role of Abscisic Acid in Induction of Androgenesis: A Comparative Study Between Hordeum vulgare L. Cvs. Igri and Digger

Under the same mannitol pretreatment and culture conditions, regeneration efficiency in the barley cultivar (cv.) Igri was about 10 times higher than in the cv. Digger, a difference only partially reflected by a difference in viable microspores after anther pretreatment. Therefore, a comparative study between cvs. Igri and Digger was carried out under various pretreatment conditions. For both cultivars, under water, CPW buffer and mannitol pretreatment conditions, there was a positive correlation between microspore viability and regeneration efficiency in that mannitol > CPW buffer >> water. Mannitol pretreatment of cv. Igri produced a much higher endogenous abscisic acid (ABA) level than as to Digger. Addition of ABA stimulated both percentages of viability and regeneration efficiency except in the case of mannitol pretreatment. Under CPW buffer pretreatment conditions, addition of ABA significantly stimulated regeneration efficiency and was ABA concentration dependent. However, cv. Digger was less responsive to ABA than cv. Igri. In both cultivars, under less optimal pretreatment conditions (e.g., water and CPW buffer), the effect of ABA was to stimulate increased percentages of viability and/or to reduce the number of binucleate microspores. Moreover, in cv. Igri, direct culture of anthers for 4 days without pretreatment caused an increased number of binucleate microspores compared with microspores with pretreatment for 4 days. These binucleate microspores showed DNA degradation in the nuclei. However, with mannitol pretreatment binucleate microspores and DNA fragmentation in the nuclei of microspores was rarely observed. On the basis of our observations, we suggest that the difference in regeneration efficiency in cv. Igri and cv. Digger is related to the differences in endogenous ABA production levels under mannitol pretreatment and responsiveness to ABA. One of the effects of ABA is likely due to an inhibition of cell death. Received May 21, 1999; accepted October 5, 1999     

Improved plant regeneration from wheat anther and barley microspore culture using phenylacetic acid (PAA)

Summary The effect of the auxin phenylacetic acid (PAA) on wheat anther and on barley anther/microspore culture was investigated. With PAA the induction response was not usually significantly different from controls but a significantly higher number of green plants were produced in wheat anther and barley microspore culture. For wheat anther culture 100 mg/L PAA was beneficial. For barley microspore culture the optimum levels were from 1 to 100 mg/L, depending on genotype. In barley anther culture there were no improvements using PAA. In wheat anther culture, 145 green plants/100 anthers were obtained with cultivar VeeryS, while the average response from twelve F₁ hybrids in the breeding program was 332 green plants/100 anthers. At least 1000 green plants were obtained using isolated microspores from 100 anthers in barley cv. Igri. With cv. Bruce, regeneration occurred only when 100 mg/L PAA was used. The influence of PAA appears at the embryogenic phase of the culture system. The possible mechanisms by which PAA may improve regeneration are discussed.     

Effects of free and chelated iron on in vitro androgenesis in barley and wheat

A suitable form of iron supplement in the induction medium was found to be important for further development of induced pollen embryos in barley and wheat cultivars (genotypes), especially those providing few green plants viain vitro androgenesis. Genotypes able to regenerate many green plants were less susceptible to the lack of iron in induction medium. Although Fe-EDTA was found to be a suitable form of iron in the induction medium, androgenesis was also induced on media containing non-chelated iron (Fe²⁺ and Fe³⁺ ions). EDTA alone without iron inhibited the androgenic response even in the wheat cv. Florida, a model cultivar for androgenesis in wheat. In all barley cultivars under study including cv. Igri, a model cultivar for androgenesis in barley, EDTA alone caused an almost total suppression of androgenesis. This revised version was published online in June 2006 with corrections to the Cover Date.     

Cytological Studies of the Double Fertilization in Rice

Detailed studies on the process of double fertilization in rice were conducted in the present work. The results are summarized as follows: 1. In the embryosac 30 minutes after anthesis, the pollen tube has already reached the micropyle in every specimen. In some cases, it has even entered further into the embryosac and discharged its contents, including the two male gametes. 2. 1½ hours after anthesis, the male gamete enters into the egg cell. As soon as it comes in contact with the egg nucleus, it increases in size. 2 hours after anthesis, the male nucleus is found inside the female one. A male nucleolus is now clearly discernible. 3. The male nucleolus is gradually growing until it reaches the size of the female one, and then the fusion of the two takes place. The fusion is generally completed and the zygote is formed 7 hours after anthesis. 4. The first mitotic division of the zygote occurs 9 hours after anthesis. 5. The fusion of the male gamete and the polar nucleus proceeds in a similar way as that of the male and female gametes, but it takes a much shorter time usually being completed within 3 hours after anthesis. 6. The male gamete enters into one of the polar nuclei and reveals its nucleolus which increases rapidly in size and then unites with that of the polar nucleus. As soon as the union is completed, the nuclear membrane between the closely contacted parts of the two polar nuclei disappears and the primary endosperm nucleus is formed. 7. The first mitotic division of the primary endosperm nucleus begins right after its formation. 8. With the fusion of the male and female gametes and the development of the zygote, the mitochondria in the cytoplasm surrounding the nucleus increase in size and number. However, in the central cytoplasm about the polar nuclei they show no notice- able change during the fertilization process. 9. Based on the facts that in the embryosac a secondary pollen tube is often seen in every stage of the fertilization process and that additional nucleoli are also observed sometimes in the egg nucleus, the authors believe that polyspermy most probably exists in rice plants, and that this may be one of the causes of polyploid plants often found in rice field as reported by several authors.     

The influence of pretreatment on cell stage progression and the time of DNA synthesis in barley (<Emphasis Type="Italic">Hordeum vulgare</Emphasis> L.) uninucleate microspores

The objective of this study was to correlate the time that DNA synthesis first occurs in haploid microspores of barley with cell cycle and plant morphological stages and to subsequently assess the influence of pretreatments on DNA synthesis at different stages of microspore development. Spikes with microspores in early, mid, and late uninucleate stages of the two-rowed barley cultivars Manley and Igri were subjected to two commonly used pretreatments. First, during cold pretreatment for 28 days there was a slow increase in relative DNA values as well as asymmetric nuclear divisions in some microspores. Second, during a 4-day cold plus 0.3 M mannitol pretreatment, there was very little change in the microspore stage or DNA values indicating that for the duration of this pretreatment the progression of the cell cycle was essentially suspended at all stages, both in Igri and Manley. The results are discussed relative to the potential for genetic transformation of microspores.     

大麦6H染色体特异性标记的筛选和鉴定

从大麦、小麦和小麦－大麦６Ｈ染色体附加系ＲＡＰＤ分析筛选出对６Ｈ染色体特异的２个ＲＡＰＤ标记,转换为特异性ＰＣＲ标记,利用标记对不同植物材料进行ＰＣＲ扩增鉴定。表明凡含有大麦６Ｈ染色体的材料（Ｂｅｔｚｅｓ、Ｉｇｒｉ、ＣＳ６Ｈ附加系）均能扩增出特异带;而不含６Ｈ染色体的材料,包括小科、黑麦、长穗偃麦草、中间偃麦草、簇毛麦以及含有其他大麦染色体的小麦附加系均不主增出特异带。可见,２对ＰＣＲ引物具有大麦     

Comparative analysis of DNA nuclear content by flow cytometry on strawberry plants propagated via runners and regenerated from meristem and callus cultures

ABSTRACT

DNA variation may occur in plant species grown either in vivo or in vitro. In this study flow cytometric analyses were undertaken on Fragaria x ananassa Duch. runner plants, and on plants regenerated from callus cultures of leaf explants and from meristem cultures. Our aims were to investigate DNA variation in runner plants of different cultivars, and to compare DNA content in plants of the same cultivar obtained by different propagation procedures (i.e. from meristems or callus cultures). Plants growing in vitro and in the greenhouse were also compared. A good regeneration ability was observed in all the cultivars, with different percentages of shoot formation. No significant differences were detected in multiplication rate and rooting percentage within cultivars. This work documents the occurrence of DNA variations in strawberry plants in vivo and in vitro. Flow cytometric measurements of DNA content showed the presence of 4C nuclei, besides 2C nuclei, in runner plants of cultivar Pajaro. DNA content variations (2C/4C nuclei) were observed in plants regenerated from callus cultures. These variations were lost after transfer of the plants to the greenhouse, except for cultivar Don. The extent of such DNA variations was influenced by genotype. Our study confirms earlier reports indicating that DNA variation induced by in vitro culture could be lost or retained after transfer of the plants to the greenhouse.     

Double Fertilization in Gnetum gnemon: The Relationship between the Cell Cycle and Sexual Reproduction

Gnetum gnemon, a nonflowering seed plant and member of the Gnetales, expresses a rudimentary pattern of double fertilization that results in the formation of two zygotes per pollen tube. The process of double fertilization in G. gnemon was examined with light and fluorescence microscopy, and the DNA content of various nuclei involved in sexual reproduction was quantified with 4[prime],6-diamidino-2-phenylindole microspectrofluorometry.Male and female gamete nuclei pass through the synthesis phase of the cell cycle and increase their DNA content from 1C to 2C before fertilization. Each of the two zygotes found in association with a pollen tube is diploid and contains the 4C quantity of DNA at inception. Based on these results as well as previous studies of nuclear DNA content in plant sperm, eggs, and zygotes, three fundamental and distinct patterns of gamete karyogamy among seed plants can be circumscribed: (1) G1 karyogamy, in which male and female gametes contain the 1C quantity of DNA throughout karyogamy and the zygote undergoes DNA replication; (2) S-phase karyogamy, in which gamete nuclei initiate fusion at 1C but pass through the S phase of the cell cycle before completely fusing; and (3) G2 karyogamy, in which male and female gamete nuclei pass through the S phase of the cell cycle before the onset of fertilization. Our results show definitively a pattern of G2 karyogamy in G. gnemon.     

Enhancement of embryogenesis and plant regeneration from barley anther culture by low doses of gamma irradiation

Summary The effects of 0,5 and 10 Gy doses of gamma irradiation on the enhancement of embryogenesis and plant regeneration efficiency of three barley (Hordeum vulgare L.) genotypes, Igri, Arabi Abiad and AECS 76, were evaluated. Embryo yields at 5 and 10 Gy doses were significantly higher than those of the control (OGy). This effect was genotype-dependent. The most responsive genotype was Igri, with 592.8 embryos 32 anthers exposed to 10 Gy. However, despite a high embryo induction rate, the green plant regeneration rate was low. Arbi Abiad had a higher ability to generate green plants produced from, with 28. 13 plantlets obtained from 32 anthers at 10 Gy; irradiation had no significant effect on regeneration of Igri and AECS 76 genotypes. In general, the 10 Gy dose produced a much higher embryo yield than the 5 Gy dose. The root-tip chromosome number and the fertility of 298 regenerating green plants of cv. Igri revealed that 64% of the tested plants were spontaneously doubled haploids (DHs) and fertile.