Agrobacterium tumefaciens– mediated transformation of embryogenic avocado cultures and regeneration of somatic embryos

Embryogenic avocado cultures were genetically transformed with the uidA (GUS) and nptII genes, and transformed somatic embryos were recovered from these cultures. Embryogenic avocado cultures derived from zygotic embryos of `Thomas' and consisting of proembryonic masses were gently separated and co-cultivated with disarmed, acetosyringone-activated Agrobacterium tumefaciens strain A208, which contained the cointegrative vector pTiT37-ASE::pMON9749 (9749 ASE). Kanamycin-resistant embryogenic suspension cultures were selected in two steps: (1) initial selection in maintenance medium, consisting of MS basal medium, supplemented with 0.1 mg l^–1 picloram and 50 mg l^–1 kanamycin sulfate for 2–4 months and (2) subsequent selection in maintenance medium with 100 mg/ml kanamycin sulfate for 2 months in order to eliminate chimeras. Somatic embryo maturation was initiated by subculture onto semisolid maturation medium (without picloram) followed by transfer to maturation medium with 100 mg l^–1 kanamycin sulfate. Genetic transformation of embryogenic cultures and somatic embryos was confirmed by the X-gluc reaction, and integration of nptII and uidA into the avocado genome was confirmed by PCR and Southern hybridization, respectively. Received: 2 June 1997 / Revision received: 26 September 1997 / Accepted: 11 October 1997     

Temporary immersion systems (RITA®) for the improvement of cork oak somatic embryogenic culture proliferation and somatic embryo production

Somatic embryogenesis in cork oak (Quercus suber L.) is an efficient tool that allows the production of large number of embryos from selected quality and productive trees. Temporary immersion systems (TIS) are an alternative to semi-solid or liquid culture that combine the advantages of liquid culture and avoid the associated problems. Parameters that affect the TIS multiplication efficiency of Q. suber L. embryogenic cultures were evaluated. Immersion frequencies of 1 min every 6 or 4 h increased the fresh weight 3.7 or 7.5-fold compared with an immersion frequency of 1 min every 12 h or cultures on semi-solid medium, respectively. The cellular fate of embryogenic cultures was also affected by the immersion frequency, 1 min every 6 h was the best for mass propagation of proliferative developmental stages (embryogenic calli and embryo clusters) while 1 min every 4 h promoted the formation of single, fully developed cotyledonary embryos. An initial amount of 1.5 g fresh weight of proliferative tissues produced the best results in RITA^® containers while 0.5 g of embryogenic callus was the best for semi-solid cultures.     

Regional characterization of a hamster–sheep somatic cell hybrid panel

The regional characterization of a previously obtained hamster–sheep hybrid panel is reported. Using data available from ruminant maps (sheep, cattle, and goat), we have selected a set of 300 markers and have analyzed them by PCR in this hybrid panel. Results obtained for 204 markers show the presence of all sheep chromosomes (including gonosomes) in entire or fragmented form. Analysis of syntenies has given 130 types of answer defining segments of variable sizes. This study has led to the regional characterization of this panel and provides comparative data on a set of bovine and caprine markers. With the level of characterization now achieved for this hybrid panel, the regional assignment of new genes or markers to sheep chromosomes can be rapidly obtained. Finally, this panel will help to collect new data for comparative mapping of domestic animals and to highlight the conservation of syntenic groups between closely related species, that is, sheep, cattle, and goat. Received: 14 May 1999 / Accepted: 23 August 1999     

Visible and “cryptic” segregation of parental chromosomes in embryonic stem hybrid cells

Chromosome segregation of the parental chromosomes was studied in 20 interspecific hybrid clones obtained by fusion of Mus musculus embryonic stem cells with Mus caroli splenocytes. FISH analysis with labeled species specific probes and microsatellite markers was used for identification of the parental chromosomes. Cytogenetic analysis has shown significant intra- and interclonal variability in chromosome numbers and ratios of the parental chromosomes in the hybrid cells: six clones contained all M. caroli chromosomes, nine clones showed moderate segregation of M. caroli chromosomes (from 1 to 7), and five clones showed extensive loss of M. caroli chromosomes (from 12 to complete loss of all M. caroli autosomes). Both methods demonstrated cryptic segregation of the somatic partner chromosomes. For instance, five clones with near-tetraploid chromosome sets contained only few M. caroli chromosomes (from 1 to 8). The data obtained suggest that the tetraploid chromosome set per se is not a sufficient criterion for conclusion on the absence of chromosome loss in the hybrid cells. Note that cryptic chromosome segregation occurred at a high frequency in the examined hybrid clones. Thus, cryptic segregation should be borne in mind for assessing pluripotency and genome reprogramming of embryonic stem hybrid cells.__________Translated from Ontogenez, Vol. 36, No. 2, 2005, pp. 151–158.Original Russian Text Copyright © 2005 by Pristyazhnyuk, Temirova, Menzorov, Kruglova, Matveeva, Serov.     

Temporal effect of 2,4-D on induction of embryogenic nuclellar cultures and somatic embryo development of ‘Carabao’ mango

Summary Embryogenic nucellar cultures were established on B5 major salts, MS minor salts and organics, 400 mg/l⁻¹ glutamine, 60 g/l⁻¹ sucrose, 2 g/l⁻¹ gellan gum, and 4.5 μM 2,4-dichlorophenoxyacetic acid (2,4-D). There was no clear relationship between developmental age of the nucellar explants and induction of embryogenic cultures. The temporal requirements for culture initiation and for induction of embryogenic competence from nucellar explants were determined by pulsing the cultures for 0, 7, 14, 21, 28, 35, 42, 49, 56, and 63 d. Culture initiation required a minimum 7–14 d pulse with 2,4-D, and was maximum after a 56-d pulse; however, embryogenic competence was optimum after a minimum of 28 d exposure to 2,4-D. Somatic embryogenesis occurred directly from the nucellar explants at low frequencies. Somatic embryo maturation only occurred following plating of suspensions onto semisolid medium, and was stimulated by 2.4–4.8 μM kinetin and 4.4 μM 6-benzyladenine.     

Variable X chromosome inactivation patterns in near-tetraploid murine EC × somatic cell hybrid cells differentiatedin vitro

For the cytogenetic study of X chromosome inactivation as an X chromosome dosage compensation mechanism, we isolated a number of XXXX, XXX, and XXY near-tetraploid mouse hybrid cell clones by fusing XX or XO embryonal carcinoma cells with lymphocytes carrying a structurally altered X chromosome(s). The inactive X chromosome from the female lymphocyte was reactivated in these hybrid clones which retained embryonal carcinoma morphology so far as they were cultured on the collagen-coated plastic surface in the medium supplemented with leukemia inhibitory factor (LIF) and betamercaptoethanol (BME). Some of these clones developed balloon-like cystic embryoid bodies when they were allowed to form cell aggregates in medium without LIF and BME in bacteriological petri dishes to which they do not adhere. X chromosome inactivation occurring during this process detected by the incorporation of 5-bromodeoxyuridine did not conform to the expected pattern leaving two X chromosomes active in every tetraploid cells. This may suggest either that the X-inactivation mechanism evolved primarily, for the diploid cell is unable to deal with tetraploid conditions efficiently, or that the present system ofin vitro differentiation represents an anomalous situation never encounteredin vivo.     

The gene for the α-subunit of ATPase: a site of homologous recombination in plant mitochondrial DNA also functions in somatic hybrid cells

Summary Segments of mitochondrial DNA (mtDNA) carrying the gene for the -subunit of F₁-ATPase (atpA) were detected by Southern hybridization with atpA from pea as probe. In the case of Nicotiana langsdorffii, we identified four fragments that are derived from combinations of two different 5 and two different 3 flanking regions of atpA. All four types share the coding region, suggesting that they result from homologous recombination in the coding region of atpA. By contrast, N. glauca generated only one analogous fragment, which indicated the existence of only a single type of atpA in N. glauca. In the case of somatic hybrids obtained by fusion between protoplasts from N. langsdorffii and N. glauca, analysis with EcoRI or HindIII detected three new fragments in addition to the parental fragments. These new fragments can be explained by homologous recombination within the coding region of atpA. Our results show that the coding region of atpA is involved not only in intragenomic homologous recombination but can also be involved in homologous recombination between two parental mitochondrial genomes of somatic hybrids.     

“Arabidobrassica”: Chromosomal recombination and morphogenesis in asymmetric intergeneric hybrid cells

A somatic hybrid cell line, cloned from an individual protoplast-fusion product between Arabidopsis thaliana and Brassica campestris, gave rise to formation of numerous plants differing drastically in morphology. Analysis of these various regenerants, all of which originated from one and the same heterokaryon derived from the fusion of two cells, shows the unspecific elimination of chromosomes of both parental species during the callus growth phase. Whereas the parental cells have so far not been sucessfully regenerated into plants, several of their different asymmetric hybrids are capable of morphogenesis. Furthermore, chromosomal analysis indicates extensive recombination. Most of the plants are predoinantly morphologically regular. Abnormalities are mostly limited to the flowers which tend to undergo phyllody. The results demonstrate that remote somatic hybridization may have applications although true amphidiploids may not be obtainable. The transfer of small units of genetic material between distantly related species by protoplast fusion seems to be a more realistic approach than the combination of complete, highly diverse genomes.     

Regulation of RNA polymerase II activity in α-amanitin-resistant CHO hybrid cells

CHO hybrid cell lines obtained by fusing cells of wild-type sensitivity to α-amanitin with mutant cells containing RNA polymerase II activity resistant to α-amanitin have both sensitive (wild-type) and resistant forms of RNA polymerase II. When these hybrids were grown in medium containing α-amanitin, the sensitive form of polymerase II was inactivated, and the activity resistant to α-amanitin increased proportionally. The total polymerase II activity level therefore remained constant. This regulation of RNA polymerase II activity occurred independently of that of RNA polymerase I and was similar to that observed previously in the α-amanitin-resistant rat myoblast mutant clone Ama102 (Somers, Pearson, and Ingles, 1975).A sensitive radioimmunoassay was developed to quantitate the total mass of RNA polymerase II enzyme. Under conditions of regulation of the enzymatic activity when hybrids grown in α-amanitin exhibited a 2–3 fold increase in the activity of the α-amanitin-resistant enzyme, no major change in the enzyme mass was detected immunologically. However, quantitation of the α-amanitin-inactivated polymerase II of wild-type sensitivity by ³H-amanitin binding indicated that the loss of its enzymic activity was accompanied by a loss of ³H-amanitin binding capacity in the cell lysates. All these results taken together indicate that a mechanism for regulating the intracellular level of RNA polymerase II exists and that it involves changes in the concentration of enzyme.     

Loss of heterozygosity in somatic cells of the mouse. An important step in cancer initiation?

Loss of heterozygosity (LOH) of tumour suppressor genes is a crucial step in the development of sporadic and hereditary cancer. Recently, we and others have developed mouse models in which the frequency and nature of LOH events at an autosomal locus can be elucidated in genetically stable normal somatic cells. In this paper, an overview is presented of recent studies in LOH-detecting mouse models. Molecular mechanisms that lead to LOH and the effects of genetic and environmental variables are discussed. The general finding that LOH of a marker gene occurs frequently in somatic cells of the mouse without deleterious effects on cell viability, suggests that also tumour suppressor genes are lost in similar frequencies. LOH of tumour suppressor genes may thus be an initiating event in cancer development.     

In vitro minimal growth storage of <Emphasis Type="Italic">Saccharum</Emphasis> spp. hybrid (genotype 88H0019) at two stages of direct somatic embryogenic regeneration

In vitro culture via somatic embryogenesis of Saccharum spp. germplasm is used routinely in our laboratories for micropropagation and production of transgenic lines. At times, due to greenhouse and field constraints, it is necessary to hold back material in culture. For this purpose, methods were established to slow down growth and development at two stages of a direct somatic embryogenesis protocol, viz. before embryo maturation and before plantlet acclimatization. Storage of globular somatic embryos of a single genotype, 88H0019, was achieved by transferring three-week old cultures to half-strength Murashige and Skoog (MS) basal salts and vitamin medium, 5 g l⁻¹ sucrose, 0.6 mg l⁻¹ 2,4-dichlorophenoxyacetic acid (2,4-D), 0.5 g l⁻¹ casein hydrolysate, 8 g l⁻¹ agar, pH 5.8, at both 18 and 24 ± 2°C for 12 weeks, after which they were transferred to standard regeneration medium. For storage of whole plantlets, the highest survival rates and shoot re-growth after 8 months was observed at 18°C on half-strength MS and 10 g l⁻¹ sucrose, with or without 30 g l⁻¹ sorbitol. Genetic integrity of the plants was established by amplified fragment length polymorphism (AFLP) analysis and a low polymorphic rate of 0.005% was observed. Phenotypic stability was investigated by conducting standard agronomic and yield measurements after a further 8 months of field growth. Although stalk diameter was significantly smaller from all the minimal growth-derived plants, sucrose yield was not compromised when compared to a conventionally propagated field control. An erratum to this article can be found at     

Unequal chromosome division and inter-genomic translocation occurred in somatic cells of wheat–rye allopolyploid

Newly synthesized wheat–rye allopolyploids were investigated by genomic in situ hybridization, over the first, second, third and fourth allopolyploid generations. Inter and intra chromosome connections were observed in 12 root-tip cells of CA4.4.7 (S₂ generation), and translocations between wheat and rye chromosomes were also detected in five root-tip cells. In root-tip cells of CA4.4.7.5 and CA4.4.7.2.2 (S₃ and S₄ generation), the chromosome connections occurred again, a dissociative small rye segment was detected in seven cells of CA4.4.7.5. In plants MSV6.1 and MSV6.5 (S₁ generation), almost half of the root-tip cells contained 13 rye chromosomes and the rest held 12 rye chromosomes, and all the cells of the two plants contained 42 wheat chromosomes. Five pairing configurations of rye chromosomes, including 5 II + 3 I, 6 II + 1 I, 6 II, 5 II + 2 I and 4 II + 4 I, were observed in pollen mother cells of the two plants. The two plants’ progeny, including S₂, S₃, and S₄ generation plants, contained 42 wheat chromosomes and 12 rye chromosomes. Therefore, the inter chromosome translocation and unequal chromosome division could occur in somatic cells of wide hybrids. The unequal chromosome division in somatic cell could induce chromosome elimination at the early stages of allopolyploidization.     

Downregulation of beta2-microglobulin in human cord blood somatic stem cells after transplantation into livers of SCID-mice: an escape mechanism of stem cells?

Adherently growing, non-hematopoietic somatic stem cells isolated from human cord blood were stained with the fluorescent dye PKH26 and transplanted into livers of SCID-mice to examine a possible cell fate transition. Already 7 days after transplantation stem cells were well integrated into the liver tissue. Human albumin that was not expressed by the stem cells before transplantation was detectable in the host's livers after injection of cord blood stem cells. Human alpha1-antitrypsin was detectable in stem cells already before transplantation and remained positive in the mouse liver. The most interesting observation in this study was the downregulation of human beta2-microglobulin (beta2M) in the stem cells after transplantation: beta2M is expressed constitutively in our cord blood stem cells. However, beta2M was no longer detectable by RT-PCR in all tissues where human albumin and alpha1-antitrypsin were expressed after stem cell transplantation. beta2M is known to participate as an integral part of the major histocompatibility complex. Absence of beta2M makes the residual heavy chain inactive as an antigen. Thus, downregulation of beta2M may represent an escape mechanism from killer-T cells and may be a molecular mechanism explaining the recently described "immunological blindness" [37] of stem cells. In contrast to the results obtained after direct injection of stem cells as a suspension, no consistent downregulation of beta2M was observed after transplantation of stem cells encapsulated in alginate beads to generate a compartment where stem cells are protected from the host's natural killer cells. No expression of human genes was observed after transplantation of human cord blood derived mononuclear cells (MNC) that were used as a negative control. In conclusion, we have shown that human cord blood somatic stem cells survive and are reprogrammed after transplantation into mouse livers, although a complete transdifferentiation to hepatocytes did not occur within 7 days, since some marker genes (GATA4 and alpha-fetoprotein) were still negative. Switching off expression of beta2M may be part of an intriguing and novel mechanism explaining why stem cells escape the host's immune system.     

The magic of four： induction of pluripotent stem cells from somatic cells by Oct4, Sox2, Myc and Klf4

The developmental process from a fertilized egg to agrown adult is programmed with remarkable accuracy.While the genetic information of the fertilized egg and itsdescendent somatic cells are the same, it is the selectiveexpressions of the same genome that give rise to the 200or so different cell types in an adult. The differentiatedstates of these adult cells are maintained epigenetically,presumably through the modification of chromatins and theassociated histones. In higher mammals, it was thought thatthe differentiation process is irreversible until the successfulcloning of Dolly [1]. By transferring a nucleus from a fullydifferentiated cell in the mammary gland, Wilmut and col-leagues were able to generate an exact replica of a highermammal, the Doily [1]. This work not only demonstratedthat the genome of differentiated cells can be reprogrammedinto an embryonic state and then to resume a full-fledgeddevelopmental process to generate a normal adult, but alsorejuvenated the field of animal cloning. The prospect thata somatic cell from a patient may be reprogrammed to the     

The role of sucrose and different cytokinins in the in vitro floral morphogenesis of rose (hybrid tea) cv. “First Prize”

Shoots of rose (hybrid tea) cv. “First Prize” were induced to flower in vitro on Murashige and Skoog (MS) medium containing various sucrose concentrations (15, 30 or 45 g l⁻¹) and different phytohormone combinations of different cytokinins [N⁶-benzyladenine (BA); thidiazuron (TDZ) and zeatin] with α-naphthaleneacetic acid (NAA). Results indicate that sucrose is the key factor in floral morphogenesis while cytokinin increases the flowering percentage and helps the normal development of floral buds. From the three cytokinins that were used, BA and zeatin were considered to be more suitable as inductive flowering agents than TDZ. Reduced inorganic and organic salt concentration in MS media had a positive effect on in vitro flowering. The morphology of shoots bearing floral buds varied with different cytokinin treatments. The highest percentage (45%) of flowering was obtained on MS medium supplemented with 3.0 mg l⁻¹ BA, 0.1 mg l⁻¹ NAA and 30 g l⁻¹ sucrose.     

Influence of in vitro environment on somatic embryogenesis of Coffea arabica L. cv. Caturra rojo: the effects of carbon dioxide on embryogenic cell suspensions

The influence of environment in the culture vessel is a factor that has very little study in the process of somatic embryogenesis. The present research was carried out with the objective to determine the effects of carbon dioxide on somatic embryogenesis of Coffea arabica cv. Caturra rojo. Embryogenic cell suspensions were cultured under different carbon dioxide concentrations (2.5%, 5.0%, and 10.0%) in the gases mixture and two control treatments, one with passive exchange and the other with forced ventilation. The results demonstrated that there were a larger number of somatic embryos formed with a concentration of 2.5% CO_2. The differentiation of these somatic embryos of coffee in embryogenic cell suspensions (130 × 10³ SE l⁻¹) was also stimulated. The effects of CO₂ on somatic embryogenesis were demonstrated when the control with passive exchange was compared with forced ventilation control, because in the former, where there was an accumulation of CO₂, the production of somatic embryos was greater. CO₂ could stimulate the formation and differentiation of somatic embryos directly, which led to a modification of the pH patterns of the culture medium or indirectly when producing changes in the pH that favored the somatic embryogenesis process.     

Influence of exogenous abscisic acid on germination and plantlet conversion frequencies of hybrid larch somatic embryos (Larix × leptoeuropaea)

The effect of exogenous abscisic acid, provided to somatic embryos during the maturation step, on endogenous abscisic acid and its main conjugated form (abscisic acid glucose ester), germination and conversion frequencies is presented in this paper. Abscisic acid measurements were obtained after a methanolic extraction, a fractionation through high performance liquid chromatography, quantitation with an immunoassay and identification of the quantitated compound using gas chromatography-mass spectrometry. Results show that endogenous abscisic acid and abscisic acid glucose ester levels are clearly correlated with the exogenous abscisic acid concentration provided to the embryos. Maturation was clearly enhanced by exogenous abscisic acid, but no correlation was found between abscisic acid concentration and germination frequency. Conversely, development of the aerial part of the germinated somatic embryos was dependent upon the abscisic acid concentration in the culture medium and results suggest that this dependence could be related to the endogenous abscisic acid content.