Regrowth of embryogenic tissues of <Emphasis Type="Italic">Pinus nigra</Emphasis> following cryopreservation

Embryogenic tissues of a conifer species Pinus nigra Arn. have been cryopreserved by a slow-freezing method. The effect of cryoprotective compounds such as maltose, sucrose or sorbitol (each 0.5 M) combined with 7.5% (v/v) DMSO has been tested. After thawing, the following parameters have been investigated: tissue regrowth 6 weeks after thawing, and post-thaw growth evaluated as fresh mass accumulation as well as genetic stability in post-thaw period. The parameters mentioned have been compared in both cryopreserved and non-cryopreserved tissues. Out of eight cell lines used in experiments, seven survived cryopreservation (87.5% regrowth), although cell line and treatment effects were observed. In most cell lines, sucrose or maltose pretreatments were superior over sorbitol. In the regrown cell lines, the post-thaw growth as fresh mass accumulation was not negatively influenced by cryopreservation. No genetic variation was observed in cryopreserved tissues using a RAPD approach.     

Improving genetic transformation of European chestnut and cryopreservation of transgenic lines

The aim of the present work was to study the effect of the developmental stage of the somatic embryos and of the genotype on the genetic transformation of embryogenic lines of European chestnut (Castanea sativa Mill.) and the cryopreservation of the embryogenic lines that are generated. As an initial source of explants in the transformation experiments, it was found that the use of somatic embryos isolated in the globular stage or clumps of 2–3 embryos in globular/heart-shaped stages was more effective (30%) than when embryos at the cotyledonary stage were used (6.7%). All of the seven genotypes tested were transformed, and transformation efficiency was clearly genotype dependent. Three transgenic lines were successfully cryopreserved using the vitrification procedure, and the stable integration of the uidA gene into the transgenic chestnut plants that were regenerated subsequent to cryopreservation was demonstrated.     

In vitro clonal propagation and stable cryopreservation system for <Emphasis Type="Italic">Platycladus orientalis</Emphasis> via somatic embryogenesis

Platycladus orientalis is a widespread conifer, which is native in eastern Asia, and has recently attracted much attention due to its ornamental value for landscape and gardens. However, native P. orientalis populations have been in decline over the past century. Here, we established an in vitro propagation and cryopreservation system for P. orientalis via somatic embryogenesis (SE). Whole megagametophytes with four development stages (Early embryogeny: E1 and late embryogeny: L1, L2, and L3) of zygotic embryos from immature P. orientalis cones were used as initial explants and cultured on three different basal media such as initiation medium (IM), Litvay (LV), and Schenk and Hildebrandt (SH). Both the developmental stage of zygotic embryos and kind of basal medium had a significant effect on embryogenesis induction with IM (P?<?0.001, respectively). The highest frequency of embryogenic callus induction was obtained in megagametophytes with zygotic embryos at L2 stage, which ranged as high as 30%. The maturation medium containing IM basal salts, vitamins and amino acids, 15 g l^?1 abscisic acid (ABA), 50 g l^?1 maltose, and 100 g l^?1 polyethylene glycol 4000 (PEG) was found to be the suitable medium for production of somatic embryos. The frequency of somatic embryo formation from both non-cryopreserved and cryopreserved cell lines was also tested. There were no statistical differences on the production of somatic embryos between non-cryopreserved and cryopreserved cells (P?=?0.523). Genetic fidelity of the plantlets regenerated from non-cryopreserved and cryopreserved embryogenic cell lines was assessed by both random amplified polymorphic DNA (RAPD) and inter simple sequence repeat (ISSR) analysis. There was no genetic instability in the regenerated plantlets from cryopreserved embryogenic cell lines. Both the SE protocol and cryopreservation protocols described here have the potential to contribute the conservation and clonal propagation of P. orientalis germplasm.     

The effects of various parameters during processing for cryopreservation on the ultrastructure and viability of recalcitrant zygotic embryos of <Emphasis Type="Italic">Amaryllis belladonna</Emphasis>

Cryostorage (usually in, or above liquid nitrogen) is presently the only option for long-term germplasm conservation of species producing recalcitrant (desiccation-sensitive) seeds. The present study investigated the ultrastructural responses of zygotic embryos excised from recalcitrant Amaryllis belladonna seeds to the sequential steps involved in cryopreservation. Flash-dried embryos, with and without prior sucrose (non-penetrating) or glycerol (penetrating) cryoprotection, were cooled rapidly or slowly, recovered in vitro and then assessed for ultrastructural and viability responses. Untreated embryos were 100% viable, the ultrastructure being indicative of their actively metabolic condition. Although nuclear morphology changed, viability was unaffected after exposure to either glycerol or sucrose, but mitochondrial ultrastructure suggested enhancement of metabolic activity particularly after sucrose treatment. When flash dried after sucrose cryoprotection, a significant increase in the degree of vacuolation, abnormal plastid ultrastructure and some wall abnormality accompanied a decline in survival to 70% and 60% at water contents > and <0.4 g g⁻¹, respectively. In contrast, glycerol cryoprotection, which promoted retention of generally normal ultrastructure and also counteracted any increase in the degree of vacuolation, was associated with 100% and 90% survival of embryos at the higher and lower water contents. After exposure to liquid nitrogen (LN), ultrastructural irregularities were minimal in rapidly cooled glycerol-cryoprotected embryos, at water content <0.4 g g⁻¹, which showed 70% survival after retrieval from cryogenic conditions. At the other extreme, no embryos survived LN exposure when sucrose cryoprotected. The study relates the cumulative effects of subcellular abnormality and declining viability, in relation to experimental parameters for cryopreservation.     

Improved cryopreservation of bovine preimplantation embryos cultured in chemically defined medium

The aim of this study was to examine the effects of modifications to a standard slow freezing protocol on the viability of in vitro produced bovine embryos. Bovine oocytes were matured, fertilized with frozen-thawed semen, and presumptive zygotes cultured in defined two-step culture media. The standard freezing medium was 1.5M ethylene glycol (EG), 0.1M sucrose, 10% fetal bovine serum (FBS) in Dulbecco's phosphate buffered saline (D-PBS). A preliminary trial showed that in vitro produced embryos cryopreserved in this medium had a survival rate of 74.6% at 24h and 53.5% at 48 h post-thaw. Experiment 1 studied the effects of omitting the sucrose supplement or replacing it with 0.1M xylose. In Experiment 2, the effects of partial (0%, 25% or 50%) or total (100%) replacement of sodium chloride with choline chloride in the cryopreservation medium were examined (the medium with 100% replacement was designated CJ1). The effects of replacing the 10% FBS with 0.4% BSA or 0.4% lipid-rich BSA (Albumax I) in CJ1 was studied in Experiment 3. In Experiment 4, pregnancy/calving rates following the post-thaw transfer of in vitro produced embryos cryopreserved in the standard freezing medium were compared with those of in vitro and in vivo produced embryos cryopreserved in the improved medium (Albumax I in CJ1). Supplementation of the cryopreservation medium with 0.1M sucrose resulted in higher post-thaw survival rates at 24 h (71.3% versus 53.5 and 51.7%; P<0.05), 48 h (51.1% versus 45.3 and 40.2%), and 72 h (34.0% versus 24.4 and 23.0%) than 0.1M xylose or no supplement, respectively, in Experiment 1. Experiment 2 showed that embryos cryopreserved in the standard medium had poorer survival rates at 24 h (72.8% versus 86.5%; P<0.05), 48 h (53.1% versus 66.3%) or 72 h (28.4% versus 44.9%) than those frozen in CJ1. The post-thaw survival rate of embryos frozen in medium supplemented with Albumax I was better than that for the FBS or BSA supplements at 24h (92.0% versus 90.7 and 87.3%), 48 h (87.3% versus 76.9 and 70.9%; P<0.05), and 72 h (70.4% versus 49.1 and 46 4%; P<0.05; Experiment 3). In Experiment 4, in vitro produced embryos cryopreserved in CJ1 medium supplemented with Albumax I resulted in higher pregnancy rates at Day 35 (31.9% versus 22.9%) and Day 60 (24.1% versus 14.3%) of gestation, and calving rates (22.6% versus 10.0%; P<0.05) than similar embryos frozen in the standard medium. However, in vivo produced embryos cryopreserved in Albumax I in CJ1 resulted in higher pregnancy rates at Day 35 (50.7%; P<0.05) and Day 60 (45.1%; P<0.05) of gestation, and calving rate (43.7%; P<0.05). It was concluded that modification of the freezing medium by addition of lipid-rich BSA and replacing sodium chloride with choline chloride improves the post-thaw survival of in vitro produced embryos, and their viability post-transfer.     

Influence of cryopreservation on the pulpal tissue of immature third molars in vitro

The purpose of this study was to evaluate in vitro the viability of isolated and non-isolated pulpal tissue of immature third molars after cryopreservation. This study was divided in three different experiments. Experiment 1: Pulpal tissue isolated from 19 third molars was divided in horizontal segments. Each segment was cultured separately in order to evaluate whether differences in growth capacity within the tissue could be found. Experiment 2: Pulpal tissue isolated from 27 third molars was divided in a mesial and a distal part. One part was cryopreserved before culturing, the other part was cultured immediately. Growth capacity of cryopreserved and non-cryopreserved tissue was evaluated and compared. Experiment 3: 43 third molars were cryopreserved. After thawing, the dimension of the apical foramen was measured and the pulp was isolated and segmented horizontally. The different parts were cultured and growth capacity was evaluated and compared. Results of experiment 1 and 2 showed no significant difference in growth capacity between fibroblasts originating from different pulpal segments of the same tooth without cryopreservation and between fibroblasts originating from cryopreserved and non-cryopreserved isolated pulpal tissue. In experiment 3 it was demonstrated that the dimension of the apical foramen and pulpal viability after cryopreservation are positively correlated. A minimum dimension of 9.42 mm2 enables the cryoprotective agent to penetrate sufficiently and to protect the pulpal tissue from apex to crown. This study proved that cryopreservation of human pulpal tissue is possible if the cryoprotective agent can reach the entire pulp.     

Cryopreservation of embryogenic suspension cultures of Cyclamen persicum Mill.

We have developed a simple protocol for the cryopreservation of embryogenic suspension cultures of Cyclamen persicum. Embryogenic suspension cultures in the linear growth phase 7–10 days after subculture were used for cryopreservation. Of the different cryoprotectants tested during a 2-day pre-culture, 0.6 M sucrose resulted in the highest re-growth rates of 75%. An additional pre-treatment with 0.6 M sucrose and 10% DMSO (dimethylsulfoxide) for 1 h also positively affected re-growth. Microscopic studies on viability revealed that only few small embryogenic cells survived cryopreservation, while vacuolated single cells died. Experiments in which the duration of the pre-culture period—i.e. the length of time the embryogenic suspension cells were exposed to 0.6 M sucrose—was varied showed that 2–4 days was the most optimal exposure time to 0.6 M sucrose. Callus re-grown after cryopreservation showed growth rates similar to that of unfrozen callus and regenerated even higher numbers of somatic embryos than unfrozen callus.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - DM Dry mass - DMSO Dimethylsulfoxide - FDA Fluorescein diacetate - FM Fresh mass - 2IP 6-(,-Dimethylallylamino)purine - LN Liquid nitrogen - rpm Rounds per minute - SCV Sedimented cell volume     

Cryopreservation of viable hepatocyte monolayers in cryoprotectant media with high serum content: metabolism of testosterone and kaempherol post-cryopreservation

Little work in the literature focuses on the cryopreservation of primary hepatocytes as monolayer cultures, yet this technique offers many distinct advantages over other cryopreservation systems, including high recovery, high post-thaw nutrient penetration, and low numbers of trapped dead cells. This article investigates the cryopreservation of primary rat hepatocytes at -78 degrees C attached as monolayers to collagen coated culture dishes, and describes efforts to increase post-thaw viability and function through manipulation of the freeze/thaw protocol. Different concentrations of foetal calf serum (FCS) with 10% (v/v) dimethyl sulphoxide (ME2SO) were tested as cryopreservation media, and high cryoprotectant serum levels were found to be important in maintaining membrane integrity and function in the cryopreserved rat hepatocyte monolayer cultures. Cultures cryopreserved with 90% (v/v) FCS plus 10% (v/v) ME2SO maintain 79.7+/-6.5% of the monolayer area as viable cells with normal morphology (by image analysis), 112.7+/-14.2% protein concentration, 55.4+/-4.2% carboxyfluorescein diacetate de-acetylation, 27.2+/-7.5% kaempherol glucuronidation (a measure of UDP-glucuronosyl transferase activity), and 39.3+/-7.3% testosterone hydroxylation (a measure of cytochrome P-450 activity) compared with non-cryopreserved controls. This method of cryopreservation may provide a simple, convenient means of long-term storage of hepatocytes for in vitro metabolism studies.     

The origin and development of somatic embryos following cryopreservation of an embryogenic suspension culture ofPicea sitchensis

Summary The development of somatic embryos in an embryogenic suspension culture ofPicea sitchensis was followed every day for two weeks after thawing from liquid nitrogen (LN₂). Only a few cells, primarily located at the periphery of the embryonic region of the embryos, survived cryopreservation in LN₂. Surviving cells were classified into two groups: embryogenic cells (EC) and non-embryogenic cells (NEC), based on their morphology and embryogenic competence. The dense cytoplasmic EC underwent organized growth and differentiation with first divisions occurring after 24 h, and embryo formation 6–8 days after thawing from LN₂. No evidence of asymmetrical divisions or free-nuclear stages was found during somatic embryo formation. NEC had less dense cytoplasm with numerous small vacuoles. One to five days after thawing the NEC became progressively more vacuolated and elongated. Histological examination revealed no mitotic activity in NEC, and six days after thawing NECs were seen as single cells or unorganized cell aggregates. Two weeks after thawing the appearance of the cryopreserved cultures was comparable to that of the untreated cultures.Abbreviations EC embryogenic cells - ECC embryogenic cell clusters - FDA fluorescein diacetate - GMA glycol methacrylate - LN₂ liquid nitrogen (–196°C) - NEC non-embryogenic cells     

Induction,maturation and germination of holm oak (Quercus ilex L.) somatic embryos

Cotyledon explants of Panax ginseng produced somatic embryos directly on solid hormone-free MS medium containing 3% (w/v) sucrose while high concentration of NH₄NO₃ (60 mM) induced embryogenic callus. Ten subcultures of the embryogenic callus on hormone-free MS medium with 40 mM NH₄NO₃ gave hormone-independent proliferation of callus, which exhibited proliferation potential even on MS medium with a standard level of NH₄NO₃ (20 mM). Pulse treatment of callus with exogenous auxin or cytokinin (1.0 mg 1^–1 2,4-D, 1.0 mg 1^–1 kinetin) resulted in the loss of the hormone-independent characteristic and caused the callus to brown. For the suspension culture, embryogenic callus was transferred to MS liquid medium containing 3% (w/v) sucrose in an 500 ml Erlenmyer flask. Embryogenic cell clumps in full-strength MS liquid medium discharged toxic substances, resulting in strong suppression of cell growth. In 1/3-strength MS medium, exudation of toxic material did not occur. Embryogenic cell clumps were mass-grown on a large-scale in a bioreactor (20-1), showing a 7.1 increase of fresh weight in 1/3-strength MS medium with 3% (w/ v) sucrose after 5 weeks of culture. Total ginsenoside content of cultured embryogenic cell clumps was low and 6 times below naturally-cultivated ginseng roots.     

Survival and genetic stability of Picea abies embryogenic cultures after cryopreservation using a pregrowth-dehydration method

A vitrification method enabled efficient cryopreservation of embryogenic tissue (ETs) of Norway spruce (Picea abies L.) at ?196 °C in liquid nitrogen (LN). Correctly formed, normal somatic embryos were generated from ETs that had been thawed after removal from LN. The pregrowth-dehydration method involved preculture of ETs with sucrose (0.25–1.00 M) in the presence or absence of 10 μM abscisic acid (ABA), followed by air-drying for 2 h and rapid freezing in LN. Pretreatment of ETs with both sucrose and ABA promoted ET growth after preculture and thawing more effectively than treatment with sucrose alone. Survival of ETs after thawing from LN using both sucrose and ABA was 54.4 % compared to pretreatment with sucrose alone which was 20 %. Addition of ABA in the preculture medium also improved the ability of ETs to form cotyledonary stage somatic embryos. The somatic embryos, which had normal shoot and root apices and the correct number of cotyledons, were indistinguishable from regenerants obtained from control cultures. Genetic analysis of control and cryopreserved ETs, as well as somatic embryos derived from cryopreserved ETs, indicated that the cryopreservation method had no effect on any of the five microsatellite loci (SpAGC1, SpAGC2, SpAGG3, SpAC1H8, and SpAC1F7) tested. The cryopreservation protocol outlined should enable the long-term storage of valuable clones of Norway spruce in LN, potentially for hundreds of years.     

A simple and efficient procedure for cryopreservation of embryogenic cells of aromatic Indica rice varieties

Embryogenic suspension cells of two commercially cultivated aromatic Indica rice varieties, Basmati 385 and Pusa Basmati 1, were cryopreserved using a simple one-step freezing procedure that does not require a controlled-rate freezer. The procedure involves osmotic pre-conditioning of cells with mannitol, addition of a cryoprotectant solution consisting of sucrose, dimethyl sulfoxide, glycerol, proline, and modified R₂ medium, cooling to –25°C for 2 h in a freezer, and then storage in liquid nitrogen. After rapid thawing at 45°C, these cultures showed post-thaw cell viability of 5.6 to 10.5% and formed actively dividing, readyto-use cell suspensions in 20–35 d when cultured directly into liquid medium. Plants were regenerated from cell clumps as well as from colonies formed by protoplasts that were isolated from suspension cells re-established from cryopreserved cells, with frequencies higher (54–98%) than, or comparable to, those obtained from three to four-month-old original non-frozen cell cultures. Cell viability and regeneration frequencies of post-thawed Pusa Basmati 1 cultures were similar to those obtained from the suspension cells cryopreserved using the conventional slow-freezing procedure which involves pre-freezing cells to –40°C at the rate of –0.2°C per min prior to immersion in liquid nitrogen. In Basmati 385, however, cells frozen at ––25°C showed lower post-thaw cell viability than those preserved using the slow-freezing procedure, but these cells produced cell suspensions that had greater shoot morphogenetic potential. The study indicates the beneficial effect of this simple freezing procedure, not only for preserving desirable cultured cells but also for an enrichment of embryogenic cells.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - DMSO dimethylsulfoxide - LN liquid nitrogen - MS Murashige and Skoog (1962) medium - NAA -napthaleneacetic acid - pcv packed cell volume - TTC 2,3,5-triphenyltetrazolium chloride     

Effect of different cryoprotectant procedures on the recovery and maturation ability of cryopreserved <Emphasis Type="Italic">Pinus pinea</Emphasis> embryogenic lines of different ages

Strategies for genetic improvement programs of Pinus pinea L, an important tree species of the Mediterranean ecosystem, are focused on increasing pine nut yield. Somatic embryogenesis and cryopreservation of elite genotypes are emerging as key components of advanced forest breeding programs. This study was carried out with embryogenic lines of different ages obtained from selected half-sib families of the species. The effect of three cryoprotectant procedures on the recovery and maturation ability was tested in embryogenic lines that showed different growth rate, two of them at different ages. In general, cryopreservation drastically reduced growth rates of frozen and rewarmed tissues; however, the use of 5% PEG–sucrose–DMSO dramatically increased growth rates of rewarmed embryogenic cultures. Overall, embryogenic lines of stone pine were suitable for cryopreservation. Seven out of eight lines were recovered, although the initial growth rates were variable. Five of six lines including the three oldest ones were recovered using 5% PEG–sucrose–DMSO. No relation was observed between age and growth rate of embryogenic lines and their response to cryopreservation. The line 2F47 showed the most stable response after long-term subculture and recovery after cryopreservation, at different ages. On the contrary, younger embryogenic lines either recovered after cryopreservation or did not, depending on the applied procedure. Maturation of some of the older lines was restored or enhanced after cryopreservation. Somatic embryos were obtained in three out of five tested embryogenic lines recovered from cryopreservation. However, only a few plantlets from cryopreserved lines were regenerated indicating the process must be optimized further before it is a practical adjunct to breeding.     

Hypoxia enhances the viability,growth and chondrogenic potential of cryopreserved human adipose-derived stem cells

Cryopreservation is the only existing method of storage of human adipose-derived stem cells (ASCs) for clinical use. However, cryopreservation has been shown to be detrimental to ASCs, particularly in term of cell viability. To restore the viability of cryopreserved ASCs, it is proposed to culture the cells in a hypoxic condition. To this end, we aim to investigate the effect of hypoxia on the cryopreserved human ASCs in terms of not only cell viability, but also their growth and stemness properties, which have not been explored yet. In this study, human ASCs were cultured under four different conditions: fresh (non-cryopreserved) cells cultured in 1) normoxia (21% O₂) and 2) hypoxia (2% O₂) and cryopreserved cells cultured in 3) normoxia and 4) hypoxia. ASCs at passage 3 were subjected to assessment of viability, proliferation, differentiation, and expression of stemness markers and hypoxia-inducible factor-1 alpha (HIF-1α). We found that hypoxia enhances the viability and the proliferation rate of cryopreserved ASCs. Further, hypoxia upregulates HIF-1α in cryopreserved ASCs, which in turn activates chondrogenic genes to promote chondrogenic differentiation. In conclusion, hypoxic-preconditioned cryopreserved ASCs could be an ideal cell source for cartilage repair and regeneration.     

Cryopreservation of somatic embryos of the herbaceous peony (Paeonia lactiflora Pall.) by air drying

This study was carried out to establish a suitable method for the cryopreservation of somatic embryos of the herbaceous peony. The somatic embryos were obtained from cotyledon and anther cultures on a MS medium supplemented with abscisic acid (ABA) and phenylacetic acid (PAA), respectively. The frequency of somatic embryo formation was the greatest (61%) from the cotyledons cultured on a MS medium supplemented with 1.0 mg l(-1) of ABA. Embryos were also obtained directly from anthers cultured on a MS medium with or without 2.0 mg l(-1) of PAA. For the cryopreservation of peony somatic embryos, the embryos were dried under a stream of sterile air and frozen by immersion in liquid nitrogen. Thawed embryos were germinated into plantlets after placing on a medium containing 0.3 mg l(-1) of gibberellic acid (GA(3)). The frequency of the post-thaw regrowth of cryopreserved somatic embryos was related to their size and desiccation time, the latter ranging from 0 to 2 h. When the somatic embryos were desiccated for 1 h, the frequency of post-thaw regrowth was greater than 66%. The frequency of post-thaw regrowth of the cryopreserved somatic embryos from anthers and cotyledon tissues was generally high when they were 2-3 mm in size. Desiccation may be a suitable method for the cryopreservation of somatic embryos of the herbaceous peony.     

Evaluation of cell viability and apoptosis in human amniotic fluid-derived stem cells with natural cryoprotectants

A previous study demonstrated that disaccharides, antioxidants, and caspase inhibitors can be used in freezing solutions to reduce the concentration of Me₂SO from the current standard of 10% (v/v) to 5% (v/v) or 2.5% and to eliminate fetal bovine serum (FBS) for the cryopreservation of human amniotic fluid-derived stem cells (AFSCs). Hence, this study investigated whether an irreversible inhibitor of caspase enzymes, benzyloxycarbonyl-Val-Ala-dl-Asp-fluoromethylketone (zVAD-fmk), could be used in post-thaw culture media to increase the survival rate of AFSCs. Our results showed that AFSCs cryopreserved in freezing solution containing trehalose, catalase, and 5% (v/v) Me₂SO and then supplemented with zVAD-fmk in the post-thaw culture media showed similar post-thawing viability, proliferation, and apoptosis than cells cryopreserved in the control solution (10% (v/v) Me₂SO and 20% FBS). The caspase-3 activity in all the cryopreservation solutions tested was similar to that of the control. Caspase-3, caspase-8, caspase-9, and PARP expression was not found in the cryopreserved cells. In addition, no difference was found in the survival rate and apoptosis between short-term (3 weeks) and long-term (1 year) storage of AFSCs cryopreserved in the solutions used in this study. The results of the present study demonstrate that recovery of cryopreserved cells was enhanced by using a caspase inhibitor in the post-thaw culture media.     

Cryopreservation of embryogenic cultures of Quercus robur using desiccation and vitrification procedures

Oak embryogenic cultures are generally maintained by repetitive embryogenesis. To facilitate management of embryogenic lines and limit the risks of somaclonal variation and contamination a cryopreservation protocol should be developed. In this work we investigated the ability of several pre-treatments to enable 4-6mg clumps (1.0-1.5mm) of globular-heart stage somatic embryos of Quercus robur to withstand freezing in liquid nitrogen. In the best of the two embryogenic culture lines used, 56% of clumps resumed embryogenesis after cooling when they had been pre-treated by successive pre-culture on 0.3 and 0.7M sucrose supplemented media followed by desiccation in the air flow of a laminar flow cabinet to water contents of 24-34%. In both lines, embryogenesis resumption rates of about 70% were achieved by pre-culture on 0.3M sucrose medium followed by application of a vitrification solution (PVS2) for 60-90min prior to rapid plunging in liquid nitrogen.     

Effect of different freezing rates during cryopreservation of rat mesenchymal stem cells using combinations of hydroxyethyl starch and dimethylsulfoxide

ABSTRACT: BACKGROUND: Mesenchymal stem cells (MSCs) are increasingly used as therapeutic agents as well as research tools in regenerative medicine. Development of technologies which allow storing and banking of MSC with minimal loss of cell viability, differentiation capacity, and function is required for clinical and research applications. Cryopreservation is the most effective way to preserve cells long term, but it involves potentially cytotoxic compounds and processing steps. Here, we investigate the effect of decreasing dimethyl sulfoxide (DMSO) concentrations in cryosolution by substituting with hydroxyethyl starch (HES) of different molecular weights using different freezing rates. Post-thaw viability, phenotype and osteogenic differentiation capacity of MSCs were analysed. RESULTS: The study confirms that, for rat MSC, cryopreservation effects need to be assessed some time after, rather than immediately after thawing. MSCs cryopreserved with HES maintain their characteristic cell surface marker expression as well as the osteogenic, adipogenic and chondrogenic differentiation potential. HES alone does not provide sufficient cryoprotection for rat MSCs, but provides good cryoprotection in combination with DMSO, permitting the DMSO content to be reduced to 5%. There are indications that such a combination would seem useful not just for the clinical disadvantages of DMSO but also based on a tendency for reduced osteogenic differentiation capacity of rat MSC cryopreserved with high DMSO concentration. HES molecular weight appears to play only a minor role in its capacity to act as a cryopreservation solution for MSC. The use of a 'straight freeze' protocol is no less effective in maintaining post-thaw viability of MSC compared to controlled rate freezing methods. CONCLUSION: A 5% DMSO / 5% HES solution cryopreservation solution using a 'straight freeze' approach can be recommended for rat MSC.     

Cryopreservation of coconut (Cocos nucifera L.) zygotic embryos does not induce morphological, cytological or molecular changes in recovered seedlings

The present study aimed at exploring the fidelity of coconut (Cocos nucifera L.) plants recovered from cryopreservation. Zygotic embryos from various different cultivars were cryopreserved following four successive steps, namely: rapid dehydration, rapid freezing, rapid thawing and in vitro recovery followed by acclimatization. At the end of the acclimatization period, the seedlings were compared to counterparts of the same age, which were produced from non-cryopreserved embryos. Both series were submitted to morphological, cytological and molecular comparisons. No significant differences in terms of growth rates could be measured. In addition, no morphological variation could be detected through the measurement of shoot elongation rates, production of opened leaves, and the number and total length of primary roots. Karyotype analysis revealed the same chromosome number (2n = 32) in all studied cultivars independently of cryopreservation. No significant differences could be observed between control and cryopreserved material concerning the type of chromosomes, the length of the long and short arms, the arm length ratio and the centromeric index. However, idiogram analysis did show a greater number of black banding on chromosomes isolated from cryopreserved material. Genetic and epigenetic fidelity was assessed through microsatellite (SSR) analysis and global DNA methylation rates; no significant differences would be observed between genomic DNAs isolated from seedlings originating from cryopreserved embryos and respective controls. In conclusion, our results suggest that the method of cryopreservation under study did not induce gross morphological, genetic or epigenetic changes, thus suggesting that it is an appropriate method to efficiently preserve coconut germplasm.     

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.