DNA-methylation alterations and exchanges during in vitro cellular differentiation in rose (<Emphasis Type="Italic">Rosa hybrida</Emphasis> L.)

DNA-methylation profiles of leaf tissues of Rosa hybrida cv. Carefree Beauty collected from in vivo-grown greenhouse plants, in vitro-grown proliferating shoots at different passages, regenerants of embryogenic callus, regenerants of organogenic callus, as well as calli from undifferentiated callus (UC), embryogenic callus, and organogenic callus were investigated using an amplified fragment-length polymorphism (AFLP)-based detection technique. Three types of AFLP bands were recovered. Type I bands were observed with both isoschizomers Msp and HpaII, while type II and type III bands were observed only with MspI and HpaII, respectively. Sequence analysis of the three types of AFLP bands revealed that a nonmethylated MspI/HpaII-recognition site 5-CCGG-3 resulted in a type I band, while an inner 5-methylcytosine generated most type II and type III bands. About 40% of inner and 20% of outer cytosines in 5-CCGG-3 sequences were fully methylated, and only a few hemimethylated outer cytosines were observed. Changes in types of AFLP bands among different tissues were frequently observed, including appearance and disappearance of type I, II, and III AFLP bands, as well as exchanges between either type I and type II or type I and type III AFLP bands. Methylation alterations of outer cytosines in 5-CCGG-3 sequences triggered appearance and disappearance of type I and II AFLP bands. Methylation changes of both outer and inner cytosines resulted in either removal or generation of type III AFLP bands. Methylation alteration of an inner cytosine was responsible for exchange between type I and type II, while hemimethylation of an outer cytosine accounted for exchange between type I and type III AFLP bands. During UC induction, a significant DNA-methylation alteration was detected in both inner and outer cytosines. Variations in methylation profiles significantly differed between somatic embryogenesis and in vitro organogenesis. Demethylation of outer cytosines occurred at a high frequency during somatic embryogenesis, and most altered AFLP bands in embryogenic callus were passed on to its regenerants. However, most methylation-altered AFLP bands during organogenesis were recovered in shoot regenerants derived via organogenic callus. Seven tissue-specific bands were isolated, cloned, and sequenced. Blast search revealed that two of these might be derived from functional genes.Mingliang Xu and Xiangqian Li contributed equally to this paper     

Genetic and epigenetic instabilities induced by tissue culture in wild barley (<Emphasis Type="Italic">Hordeum brevisubulatum</Emphasis> (Trin.) Link)

A simple tissue culture protocol was developed for efficient plant regeneration from young inflorescence-derived calli in wild barley, Hordeum brevisubulatum (Trin.) Link, an important pasturage grass. Genetic and epigenetic instabilities in the regenerated plants (regenerants) were assessed by three molecular markers AFLP, S-SAP and MSAP. Two pools of calli derived from young inflorescences of a single donor plant and 44 randomly chosen regenerants were subjected to AFLP analysis. Results showed that 74 out of 793 scored bands were polymorphic among the studied samples, giving rise to a genetic variation frequency of 9.3%. The number of variant bands as compared to the donor plant varied greatly among the regenerants, with a small number of regenerants accumulated a large number of variant bands (maximum 55), while the majority of regenerants showed only 2–3 variant bands. A subset of regenerants together with the two pools of calli were selected for S-SAP and MSAP analysis to detect possible retrotranspositional activity of a prominent retroelement family, BARE-1, in the genomes of Hordem species, and possible alterations in cytosine methylation. S-SAP analysis showed that of the 768 scored bands, 151 were polymorphic among the analyzed samples, giving rise to a genetic variation frequency of 19.7%, albeit no evidence for retrotranspositional event was obtained based on locus-specific PCR amplifications. MSAP analysis revealed that tissue culture has caused cytosine methylation alterations in both level and pattern compared with the donor plant. Sequencing of selected variant bands indicated that both protein-coding genes and transposon/retrotransposons were underlying the genetic and epigenetic variations. Correlation analysis of the genetic and epigenetic instabilities indicated that there existed a significant correlation between MSAP and S-SAP (r = 0.8118, 1,000 permutations, P < 0.05), whereas the correlation between MSAP and AFLP (r = 0.1048) is not statistically significant. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. Xiaoling Li and Xiaoming Yu contributed equally to this work.     

SSR and SCAR mapping of a multiple-allele male-sterile gene in Chinese cabbage (Brassica rapa L.)

The genic multiple-allele inherited male-sterile gene Ms in Chinese cabbage (Brassica rapa L.) was identified as a spontaneous mutation. Applying this gene to hybrid seed production, several B. rapa cultivars have been successfully bred in China. A BC₁ population (244 plants) was constructed for mapping the Ms gene. Screening 268 simple sequence repeat (SSR) markers which cover the entire genome of Chinese cabbage was performed with bulked segregant analysis (BSA). On the basis of linkage analysis, the Ms gene was located on linkage group R07. In addition, through the amplified fragment length polymorphism (AFLP) and the sequence-characterized amplified region (SCAR) techniques combining BSA, two SCAR markers which were converted from corresponding AFLP markers flanked the Ms gene. Finally, a genetic map of the Ms gene was constructed covering a total interval of 9.0 cM. Two SCAR markers, syau_scr01 and syau_scr04, flanked the Ms gene at distances of 0.8 and 2.5 cM, respectively. All the SSR markers (cnu_m273, cnu_m030, cnu_m295, and syau_m13) were mapped on the same side of the gene as syau_scr04, the nearest one of which, syau_m13, was mapped at a distance of 3.3 cM. These SSR and SCAR markers may be useful in marker-assisted selection and map-based cloning. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

High-efficiency cryopreservation of Araucaria angustifolia (Bertol.) Kuntze embryogenic cultures: ultrastructural characterization and morpho-physiological features

Here we evaluated and characterized the growth dynamics of A. angustifolia embryogenic cultures (EC) submitted to different cryotreatment incubation times through morphological and time-lapse cell tracking analyzes. The EC submitted to cryopreservation protocol were evaluated by regrowth rates, and ultrastructural characterization by transmission electron microscopy (TEM). The results indicated that A. angustifolia EC support all the cryoprotection times evaluated, without cell proliferation inhibition, but with noticeable genotype-dependent response in all tested cell lines. The use of 1M DMSO showed non-inhibitory effects to EC regrowth independent of cell line or cryotreatment incubation time. However, after cryopreservation, Cr01 cell line regrowth was 100 % for all cryotreatments incubation times evaluated (30, 60, 120, 240 min), while Cr02 cell line only showed 100 % regrowth in 240 min of cryotreatment. The 100 % cell regrowth obtained in both cell lines indicates that the proposed protocol can be successful applied to A. angustifolia EC cryopreservation. Cell tracking analysis showed a survival and initial proliferation of embryogenic cells, with the first cell regrowth signs after 30 days in culture. TEM analysis revealed a conspicuous cell wall thickening in embryogenic cells after cryotreatment and after thawing, which may be related to osmotic stress response caused by the cryopreservation process. An increased heterochromatin presence was also observed in cryotreated or after thawing cells, may possibly be acting as a cell defense mechanism, decreasing the DNA vulnerability to cleavage and preserving the cell integrity.

     

Post-thaw boar sperm motility is affected by prolonged storage of sperm in liquid nitrogen. A retrospective study

Owing to the quick genetic turnover of the pig industry, most AI-boar sires live 2-3 yr, a period during which for 1-2 yr their semen is extended and used in liquid form for AI. Despite showing low cryosurvival, affecting fertility after AI, boar semen is frozen for easiness of transport overseas and reposition of valuable genetics. For the latter, semen is stored in liquid nitrogen (LN₂, cryostorage) for many years, a controversial practice. Here we studied how length of cryostorage could affect sperm quality. Straws (0.5 mL) frozen using the same cryopreservation protocol at one specific location from AI- sires of proven fertility were stored in LN₂ for up to 8 yr. Post-thaw sperm quality was evaluated after 2, 4 or 8 yr of cryostorage, always compared to early thawing (15 d after freezing). Sperm motility and kinematics were evaluated post-thaw using CASA and sperm viability was cytometrically evaluated using specific fluorophores. Sperm viability was not affected by length of cryostorage, but total and progressive sperm motility were lower (p < 0.01) in sperm samples cryostored for 4 or 8 yr compared to those thawed 15 d after freezing. Cryostorage time affected sperm kinetics, but with greater intensity in the samples cryostored for 4 yr (p < 0.001) than in those for 2 yr (p < 0.01). The fact that the major phenotypic characteristic of boar spermatozoa, motility, is constrained by time of cryostorage should be considered when building cryobanks of pig semen. Attention should be placed on the finding that >2 yr of cryostorage time can be particularly detrimental for the post-thaw motility of some sires, which might require increasing sperm numbers for AI.     

AFLP analysis to assess genomic stability in Solanum regenerants derived from wild and cultivated species

The cultivated potato as well as its tuber-bearing relatives are considered model plants for cell and tissue culture, and therefore for exploiting the genetic variation induced by in vitro culture. The association between molecular stability and tissue culture in different genetic backgrounds and ploidy levels has already been explored. However, it still remains to be ascertained whether somaclonal variation differs between callus-derived chromosome-doubled and undoubled regenerants. Our research aimed at investigating, through amplified fragment length polymorphism (AFLP) markers, the genetic changes in marker-banding patterns of diploid and tetraploid regenerants obtained from one clone each of Solanum bulbocastanum Dunal and S. cardiophyllum Lindl (both 2n = 2x = 24) and tetraploids from cultivated S. tuberosum L. (2n = 4x = 48). Pairwise comparisons between the banding patterns of regenerants and parents allowed detecting considerable changes associated to in vitro culture both at diploid and tetraploid level. The percentages of polymorphic bands between diploid and tetraploid regenerants were, respectively, 57 and 69% in S. bulbocastanum and 58 and 63% in S. cardiophyllum. On average, the frequencies of lost parental fragments in regenerants were significantly higher than novel bands both in S. bulbocastanum (48 vs. 22%) and S. tuberosum (36 vs. 18%) regenerants. By contrast, in S. cardiophyllum, a similar incidence of the two events was detected (32 vs. 29%). Our results revealed that structural changes after tissue culture process strongly affected the genome of the species studied, but diploid and tetraploids regenerated plants responded equally.     

In vitro propagation and cryopreservation of Thuja koraiensis Nakai via somatic embryogenesis

Korean arbor vitae (KAV; Thuja koraiensis Nakai) is a critically endangered coniferous tree in Korea. Here, we report the somatic embryogenesis (SE) and cryopreservation system that can be used for micropropagation of KAV and long-term storage of KAV cultures. To induce SE in KAV, the influence of the developmental stage of zygotic embryos and the effect of basal medium on embryogenesis induction were examined. The developmental stage of zygotic embryos had a significant effect on the embryogenesis induction (P < 0.0001). The highest frequency of embryogenesis induction occurred in megagametophytes with zygotic embryos at precotyledonary (P) and late embryogeny (L1) stage (36%). The highest frequency of embryogenesis induction was obtained on initiation medium containing IM basal salts with 2.2 μM 6-benzylaminopurine and 4.5 μM 2,4-dichlorophenoxyacetic acid (35%). The effect of abscisic acid (ABA) on production of somatic embryos was tested. The highest number of somatic embryos per 50 mg of embryogenic tissue was achieved on maturation medium with levels of 100 μM ABA (24.0 ± 2.4). The effect of cryopreservation treatment to embryogenic tissues on the maturation capacity of somatic embryos was also tested. No significant differences between noncryopreservation and cryopreservation treatment were observed (P = 0.1896), and the highest mean number of somatic embryo per 50 mg of embryogenic tissues was obtained in noncryopreserved cell line (28.17 ± 5.66). Finally, the genetic identities of the plantlets regenerated from non- and cryopreserved embryogenic cell lines were verified and there was no genetic variation in the regenerated plantlets from cryostored embryogenic cell lines. This study is the first report on SE and the successful cryopreservation of embryogenic culture of the genus Thuja.

     

Successful cryopreservation of Quercus robur plumules

Successful cryopreservation of Q. robur germplasm as plumules (i.e. shoot apical meristems of embryos) is described in this paper. After excision from the recalcitrant seeds and preliminary storage in 0.5 M sucrose solution (18 h), the plumules were subjected to cryoprotection (in 0.75 M sucrose, followed by 1.0 M sucrose and 1.5 M glycerol solutions), and next to desiccation (over silica gel or in nitrogen gas) and cooling (in slush at –210°C or in vials filled with liquid nitrogen, LN, −196°C), and were then cryostored for 24 h. High percentage of survival was obtained after cryostorage (21–67%, depending on pretreatment, assessed in vitro by greening plumules that increased in size). Desiccation of plumules over silica gel resulted in significantly higher survival after cryopreservation (58%) in comparison with desiccation in nitrogen gas (29%), with regrowth (shoots with leaves) 5–18%. The extent of plumule desiccation was comparable in both methods, in which drying of plumules for 20 min decreased the water content to 0.5–0.6 g H₂O g⁻¹ dry weight before LN exposure. The type of LN exposure did not significantly influence plumule survival and regrowth after cryostorage. Plumules isolated from acorns of four provenances survived cryostorage after cryoprotection followed by desiccation over silica gel and direct cooling in vials with LN (survival 51–76%, regrowth 8–20%). Normal plants developed from the recovered shoots after rooting. The presented protocol for Q. robur plumule cryopreservation may offer a potential approach for establishing germplasm conservation in gene banks for Quercus species.     

DNA-methylation changes in grapevine somaclones following in vitro culture and thermotherapy

The methylation-sensitive amplified polymorphism (MSAP) technique using HpaII and MspI isoschizomers was used to analyse DNA-methylation alterations in stressed grapevine plants. The stress used was in vitro propagation via nodal segments and in vitro thermotherapy for virus elimination. A set of pertinent grapevine plants derived from two cultivars (18 plants each for Müller Thurgau and Riesling) was used as stressed variants for analyses. A total of 695 and 700 MSAP bands were recognised and evaluated as present/absent for all analysed variants derived from both cvs. Müller Thurgau and Riesling. Average computed similarity of MSAP banding between analysed variants (Dice/Nei and Li coefficient) was 0.935 for both cultivars. Clustering of variants within resulting dendrograms showed significant differences between woody cuttings despite originating from the one plant. Further, there was a strong ‘donor’ effect of maternal plants on future arrays of DNA methylation in their regenerants. The ‘donor’ effect even seemed to prevail in the effect of stress on final DNA-methylation state in stressed regenerants. Additional MSAP evaluation suggests that thermotherapy induced an additional array of methylation changes when compared with stress caused by in vitro cultivation. From the viewpoint of whether methylation of CCGG loci increased/decreased due to stress, the results showed moderate prevalence for decreasing CCGG loci methylation.     

Tissue culture-induced locus-specific alteration in DNA methylation and its correlation with genetic variation in <Emphasis Type="Italic">Codonopsis lanceolata</Emphasis> Benth. et Hook. f

We have reported recently that tissue culture induced a high level of genetic variation at the primary nucleotide sequence in regenerants of medicinal plant Codonopsis lanceolata. It is not known, however, whether epigenetic variation in the form of alteration in DNA methylation also occurred in these plants. Here, we investigated possible alterations in level and pattern of cytosine methylation at the CCGG sites in the same set of regenerants relative to the donor plant, by the MSAP method employing a pair of isoschizomers, HpaII and MspI, which recognize the same restriction site but are differentially sensitive to cytosine methylation at the CCGG sites. A total of 1,674 MSAP profiles were resolved using 39 primer combinations. Of these, 177 (10.5%) profiles were polymorphic among the regenerants and/or between the regenerant(s) and the donor plant, in EcoRI + HpaII or EcoRI + MspI digest but not in both, indicating alteration in cytosine methylation patterns of specific loci, though their estimated total level of methylation remained more or less the same as the donor plant. Gel blot analysis validated most of the variant MSAP profiles as bona fide alteration in methylation patterns. Correlation analysis between the MSAP data and the previously reported ISSR and RAPD data revealed significant correlations, suggesting their possible intrinsic interrelatedness. Thirty-seven typical variant MSAP profiles were isolated and sequenced, of which 5 showed significant homology to known-function genes, 2 to chloroplast sequences, whilst the rest 30 did not find a match in the database. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. W. L. Guo and R. Wu contributed equally to this work.     

DNA methylation of retrotransposons,DNA transposons and genes in sugar beet (Beta vulgaris L.)

The methylation of cytosines shapes the epigenetic landscape of plant genomes, coordinates transgenerational epigenetic inheritance, represses the activity of transposable elements (TEs), affects gene expression and, hence, can influence the phenotype. Sugar beet (Beta vulgaris ssp. vulgaris), an important crop that accounts for 30% of worldwide sugar needs, has a relatively small genome size (758 Mbp) consisting of approximately 485 Mbp repetitive DNA (64%), in particular satellite DNA, retrotransposons and DNA transposons. Genome‐wide cytosine methylation in the sugar beet genome was studied in leaves and leaf‐derived callus with a focus on repetitive sequences, including retrotransposons and DNA transposons, the major groups of repetitive DNA sequences, and compared with gene methylation. Genes showed a specific methylation pattern for CG, CHG (H = A, C, and T) and CHH sites, whereas the TE pattern differed, depending on the TE class (class 1, retrotransposons and class 2, DNA transposons). Along genes and TEs, CG and CHG methylation was higher than that of adjacent genomic regions. In contrast to the relatively low CHH methylation in retrotransposons and genes, the level of CHH methylation in DNA transposons was strongly increased, pointing to a functional role of asymmetric methylation in DNA transposon silencing. Comparison of genome‐wide DNA methylation between sugar beet leaves and callus revealed a differential methylation upon tissue culture. Potential epialleles were hypomethylated (lower methylation) at CG and CHG sites in retrotransposons and genes and hypermethylated (higher methylation) at CHH sites in DNA transposons of callus when compared with leaves.     

Variation of cytosine methylation in 57 sweet orange cultivars

Sweet orange is an important group of citrus cultivars, which includes a number of bud sport cultivars. Little is known about the CpG methylation status of the CCGG sequences in the orange genome. In this study, methylation-sensitive amplification polymorphism (MSAP), based on the application of isoschizomers (Hpa II and Msp I), was first used to analyze cytosine methylation patterns in 57 orange cultivars that were not fully differentiated by regular DNA molecular markers. Three types of bands were generated from ten primer pairs. Type I bands were present following restriction with Eco RI + Hpa II and Eco RI + Msp I; type II or type III were present only following restriction with either Eco RI + Hpa II or with Eco RI + Msp I. The total number of these three types of bands was 802, 72, and 157, respectively. Among these, the number of polymorphic bands were 244 (30.2%), 23 (31.9%), and 32 (20.4%), in type I, II and III, respectively. The methylation patterns of these 57 cultivars are discussed and assessed by dendrograms derived from the analysis of polymorphic MSAP bands. The distribution of polymorphic bands of the above three types demonstrate the methylation patterns and frequency at the cytosine loci. We suggest that methylation events could be more frequent than demethylation events, and that the methylation patterns maybe associated with phenotypic traits.     

Long-term cryopreservation of Greek fir embryogenic cell lines: recovery, maturation and genetic fidelity

In coniferous species, including Greek fir (Abies cephalonica Loud), the involvement of somatic embryo plants in breeding and reforestation programs is dependent on the success of long-term cryostorage of embryogenic cultures during clonal field testing. In the present study on Greek fir, we assayed the recovery, morphological characteristics and genetic fidelity of embryogenic cell lines 6 and 8 during proliferation and maturation after long-term cryostorage. Our results indicate successful recovery of both cell lines after 6 years in cryostorage. In the maturation phase, both cell lines were capable of producing somatic embryos although some differences were detected among experiments. However, these changes were more dependent on the differences in the components of the maturation media or in the experimental set-up than on the long-term cryostorage. During both proliferation and maturation phases, the morphological fidelity of the embryogenic cultures as well as of the somatic embryos were alike before and after cryopreservation. The genetic fidelity of the cryopreserved cell line 6 that was assayed by random amplified polymorphic DNA (i.e. RAPD) markers demonstrated some changes in the RAPD profiles. The results indicate possible genetic aberrations caused by long-term cryopreservation or somaclonal variation during the proliferation stage. However, in spite of these changes the embryogenic cultures did not lose their proliferation or maturation abilities.     

Extended metAFLP approach in studies of tissue culture induced variation (TCIV) in triticale

We present the development of the theoretical background of the metAFLP approach which allows for partition of complex variation into sequence changes, de novo methylation and demethylation of the regenerants derived via in vitro tissue culture methods in the case of triticale. It was demonstrated that, independent of whether andro- or embryogenesis was used for plant regeneration, the level of sequence changes identified between regenerants is about 10 %. Moreover, DNA demethylation prevails over de novo methylation of the regenerants compared to the donor plant. The metAFLP approach allows for the evaluation of numerous quantitative characteristics. For instance, one may quantify the number of sites unaffected by tissue culture approaches, global site DNA methylation etc. It is suggested that the approach could be useful for breeders in order to control plant material uniformity or for the evaluation of modified in vitro tissue culture approaches allowing for control of the (epi)mutation level. The extended metAFLP approach presented here delivers sufficient background for the evaluation of software that could facilitate analyses of the tissue culture induced variation.     

Cryopreservation of embryogenic tissue of sweet potato (Ipomoea batatas): use of sucrose and dehydration for cryoprotection

Embryogenic tissue of two sweet potato (Ipomoea batatas (L) LAM) genotypes, TIB 10 and Nemanete (Nem), was established from in vitro axillary meristems on Murashige and Skoog (1962) media supplemented with 2,4-dichlorophenoxyacetic acid and 2,4,5-trichlorophenoxyacetic acid respectively. Embryogenic aggregates of approximately 1.5–2.0 mm in diameter were subjected to a rapid or a two-step freezing protocol in liquid nitrogen following alginate encapsulation, sucrose preculture and varying degrees of dehydration. Up to 28% of encapsulated embryogenic aggregates of TIB 10 survived rapid freezing without dehydration. This was not enhanced by dehydration prior to freezing. However, survival after dehydration was enhanced up to 74% by incorporating an initial slow cooling step prior to plunging the tissue into liquid nitrogen. Following freezing, embryogenic tissue appeared to develop normally and retained its competence to produce mature embryos and plantlets. Similar results were obtained with Nem, although the survival percentages were much lower.Abbreviations BA 6-benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - 2,4,5-T 2,4,5-trichlorophenoxyacetic acid - MS Murashige and Skoog (1962) medium     

Cytogenetic characterization of embryogenic callus and regenerated plants of Pennisetum americanum (L.) K. Schum

Summary Embryogenic calli were derived from cultured segments of immature inflorescences of Pennisetum americanum (pearl millet). The original explants as well as the embryogenic calli and the plants regenerated via somatic embryogenesis were examined cytogenetically. Embryogenic calli were predominantly diploid (2n=14) after one month and six months in culture (92% and 76%, respectively). Tetraploid and aneuploid cells were observed in the original explant (2.5% and 1.2%) as well as in one (4.0% and 4.0%) and six-month-old calli (10.0% and 14.0%). Plants were regenerated from calli that had been in continuous culture for two, four and six months. Of the 101 regenerants, 100 were diploid and 1 was tetraploid. The tetraploid was an albino as were three of the diploid regenerants. Examination of 30 of the regenerants in meiotic diakinesis, anaphase I, anaphase II and quartet stages revealed no cytogenetic differences between control and regenerated plants. Gel electrophoresis for total protein content and alcohol dehydrogenase and malate dehydrogenase activity also did not reveal any differences between the controls and regenerants. The results of this study show that a slight shift toward aneuploidy and polyploidy may occur in embryogenic cultures, but there also is a strong selection in favor of plant regeneration from cytogenetically normal cells.     

Cryopreservation of non-encapsulated embryogenic tissue of sweet potato (Ipomoea batatas)

Embryogenic tissue of the sweet potato (Ipomoea batatas (L) LAM) genotype TIB 10 was established from in vitro axillary shoot tips on Murashige and Skoog (1962) medium supplemented with 5 M 2,4-dichlorophenoxyacetic acid. Embryogenic aggregates of fresh mass 9.0–12 mg were subjected to a rapid freezing protocol in liquid nitrogen following sucrose preculture and varying degrees of dehydration. Up to 50% of embryogenic explants survived rapid freezing after preculture on 0.4 or 0.7M sucrose only. Dehydration with silica gel to moisture contents in the range 18–41% improved the survival after cryopreservation of embryogenic tissue. Tissue dehydrated for intermediate periods exhibited poor survival. Following freezing, embryogenic tissue appeared to develop normally, retaining its competence to produce mature embryos and plantlets.Abbreviations BA 6-benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - MS Murashige and Skoog (1962) medium     

Somatic embryogenesis and cryostorage of eastern hemlock and Carolina hemlock for conservation and restoration

Key message

Embryogenic cultures of eastern and Carolina hemlocks could be initiated, and somatic embryos and plantlets produced using standard conifer protocols and media. Embryogenic hemlock cultures were cryostored and recovered.

Abstract

Eastern hemlock (Tsuga canadenesis) and Carolina hemlock (Tsuga caroliniana) are threatened with extirpation from their native ranges in eastern North America by the introduction of the hemlock woolly adelgid (HWA; Adelges tsugae), an exotic insect pest that has already killed millions of hemlock trees. Efforts to conserve and restore these members of the Pinaceae could be greatly enhanced by the availability of an in vitro propagation system. We conducted experiments to initiate embryogenic cultures from eastern and Carolina hemlock zygotic embryos at different stages of development using three media supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) and 6-Benzylaminopurine (BA). Cone collection date, medium and source tree had significant effects on induction of embryogenic tissue from zygotic embryo explants of both species, which ranged as high as 52 % for eastern hemlock and 17 % for Carolina hemlock. Embryogenic hemlock cultures could be cryostored using a protocol employing sorbitol and DMSO, and recovered following several months of frozen storage. Transfer of embryogenic tissue from proliferation media containing 2, 4-D and BA to a Litvay medium with abscisic acid promoted the development of somatic embryos, which were stimulated to mature by slow drying under semi-permeable plastic film. Embryos moved to an imbibition-germination medium without plant growth regulators and incubated in the light elongated and subsequently germinated. A small number of germinated embryos survived transfer to ex vitro conditions and grew into somatic seedlings. The embryogenesis and cryostorage systems developed in the study are already being integrated with hemlock breeding efforts to develop clones with resistance or tolerance to HWA.     

Transformation of soybean [Glycine max (L.) Merrill] using proliferative embryogenic tissue maintained on semi-solid medium

Summary Transgenic soybean can be efficiently produced by particle bombardment of embryogenic suspension culture material. Unfortunately, the time required to obtain a transformation-competent soybean suspension culture line is often lengthy and can result in reduced fertility of regenerated plants. In addition, establishment and maintenance of embryogenic suspension cultures can be very difficult. The objective of this work was to minimize the time required to obtain transformation-competent embryogenic tissue and optimize DNA delivery into that tissue. Somatic embryos were induced from immature cotyledons of soybean [Glycine max (L.) Merrill cv ‘Jack’] by placement of cotyledons, adaxial side up, on a MS-based induction medium containing 40 mg (181 μM) 2,4-dichlorophenoxyacetic acid (2,4-D) per 1 and 6% sucrose. Embryogenic tissues, which formed from the surface of the cotyledons within 2–4 wk, were transferred to an embryo proliferation medium containing 20 mg (90 μM) 2,4-D per 1 and 3% sucrose. After 4 wk, proliferative embryogenic tissue could be used for transformation via particle bombardment. Desiccation of target tissue, period of subculture prior to bombardment, and the number of bombardments per target tissue were evaluated for enhancement of transient β-glucuronidase (GUS) expression. The highest number of blue foci was observed when the target tissue was desiccated for 10 min in an uncovered Petri plate containing proliferation medium, subcultured on the same day of bombardment, and bombarded three times on a single day. For stable transformation, selection was started 20 d after bombardment using 9 mg hygromycin per 1 for 4 wk, and 18 mg per 1 thereafter. Stably transformed clones were obtained from tissue bombarded once and twice on a single day. GUS assays and Southern hybridization analysis of DNA from putative clones confirmed stable integration of the introduced genes. Fertile transgenic plants were obtained in 11–12 mo following culture initiation.     

Analysis of mitochondrial genomes amongCitrus plants produced by the interspecific somatic fusion of ‘Seminole’ tangelo with rough lemon

Interspecific somatic fusion was performed between Seminole tangelo (Citrus reticulata Blanco xC. paradisi Macf.) protoplasts isolated from embryogenic callus and rough lemon (C. jambhiri Lush.) mesophyll protoplasts. Eight plants out of ten randomly selected regenerants had 18 chromosomes and the same nuclear rDNA fragment patterns as that of the mesophyll parent. The remaining two plants showed rDNA fragment patterns from both parents and had 36 chromosomes. For the analysis of mitochondrial DNA (mtDNA),rrn26 derived from pea was used to probeBamHI digests of the regenerants. All plants showed mtDNA band patterns identical to that of the callus parent, suggesting that eight plants were cybrids and the remaining two plants were somatic hybrids. In addition to the callus parent band patterns, additional fragments from the mesophyll parent and/or a novel band fragment were revealed in some of the putative cybrids by peaatpA probe after digestion withDraI andPstI. These results suggest the occurrence of mtDNA recombination/rearrangement inCitrus cybrids produced by somatic fusion in this interspecific combination.Abbreviations mtDNA Mitochondrial DNA