Cryopreservation of avocado embryogenic cultures using the droplet-vitrification method

This work reports on the cryopreservation of embryogenic cultures of avocado (Persea americana Mill.). Three cryopreservation protocols, based either on slow cooling or vitrification, were tested using two cell lines representative for the two types of embryogenic cultures that can be obtained in this species. Significant interactions between the embryogenic line and the cryopreservation protocol were observed. The best results were obtained when applying the droplet-vitrification method with recovery rates ranging from 77.78 to 100 %. The slow freezing method gave rise to different results depending on the cell line. While 80 % recovery was recorded in line D1, low recovery levels (33.33 %) were achieved in samples from line D31. The effect of different PVS2 incubation times was also evaluated and 60 min was considered as the optimum period. The developmental stage of starting material proved to be a key factor. Explant consisting of a mixture of embryogenic calli and somatic embryos at early stages resulted in the highest recovery rates after thawing.     

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.     

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     

Long-term maintenance of Pinus nigra embryogenic cultures through cryopreservation

Embryogenic tissues of Pinus nigra have been cryopreserved using a two step slow-freezing method. In the first experiment, 20 cell lines were included and the effect of the duration of cryostorage (1 h vs. 1 year) on regrowth was compared. After a short-term storage (1 h in liquid nitrogen, LN) out of 20 cell lines tested 15 showed regrowth (75%) with individual frequencies 10–100%. Long term storage (1 year in LN) resulted in regrowth of 14 cell lines (70%) while the individual frequencies reached 10–100%. One year storage had no negative influence on the fresh mass accumulation evaluated 2–3 months after thawing. Another 20 cell lines were included in the second experiment with the aim to study the correlation between cryotolerance and maturation capacity of cell lines. Between maturation capacity and cryotolerance expressed as regrowth frequencies of individual cell lines, no correlation has been found.     

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.

     

Cryopreservation of embryogenic tissues from mature holm oak trees

The development of a vitrification method for cryopreservation of embryogenic lines from mature holm oak (Quercus ilex L.) trees is reported. Globular embryogenic clusters of three embryogenic lines grown on gelled medium, and embryogenic clumps of one line collected from liquid cultures, were used as samples. The effect of both high-sucrose preculture and dehydration by incubation in the PVS2 solution for 30–90 min, on both survival and maintenance of the differentiation ability was evaluated in somatic embryo explants with and without immersion into liquid nitrogen. Growth recovery of the treated samples and ability to differentiate cotyledonary embryos largely depended on genotype. Overall, high growth recovery frequencies on gelled medium and increase of fresh weight in liquid medium were obtained in all the tested lines, also after freezing. However, the differentiation ability of the embryogenic lines was severely hampered following immersion into LN. Two of the embryogenic lines from gelled medium were able to recover the differentiation ability, one not. In the lines with reduced or no differentiation ability, variation in the microsatellite markers was observed when comparing samples taken prior to and after cryopreservation. The best results were achieved in the genotype Q8 in which 80% of explants grown on gelled medium differentiated into cotyledonary embryos following cryopreservation when they were precultured on medium with 0.3 M sucrose and then incubated for 30 min in the PVS2 solution. Explants of the same genotype from liquid medium were unable to recover the differentiation ability. A 4-weeks storage period both in liquid nitrogen and in an ultra-low temperature freezer at −80 °C was also evaluated with four embryogenic lines from gelled medium using the best vitrification treatment. Growth recovery frequencies of all lines from the two storage systems were very high, but their differentiation ability was completely lost.     

Cryopreservation of wild Shih (<Emphasis Type="Italic">Artemisia herba</Emphasis>-<Emphasis Type="Italic">alba</Emphasis> Asso.) shoot-tips by encapsulation-dehydration and encapsulation-vitrification

Artemisia herba-alba, called Shih is a medicinal herbal plant found in the wilds. The biodiversity of this plant is heavily subjected to loss because of heavy grazing, land cultivation and collection by people to be used in folk medicine. In the current study, two cryopreservation dependent techniques to conserve the shoot-tips of in vitro grown Shih were evaluated: encapsulation- dehydration and encapsulation- vitrification. Shoot-tips of Shih were encapsulated into sodium-alginate beads. In encapsulation- dehydration, the effect of sucrose concentration (0.5, 0.75 or 1.0 M) and dehydration period (0, 2, 4 or 6 h) under sterile air-flow on survival and regrowth of encapsulated shoot tips were studied. Maximum survival (100%) and regrowth (27%) rates were obtained when encapsulated unfrozen Artemisia herba-alba shoot tips were pretreated with 0.5 M sucrose for 3 days without further air dehydration. After cryopreservation the highest survival (40%) and regrowth (6%) rates were achieved when Artemisia herba-alba shoot tips were pretreated with 1.0 M sucrose for 3 days without further air dehydration. Viability of Artemisia herba-alba shoot tips decreased with increased dehydration period. In encapsulation-vitrification, the effect of dehydration of encapsulated Artemisia herba-alba shoot tips with 100% PVS2 for various dehydration durations (10, 20, 30, 60 or 90 min) prior to freezing was studied. After cryopreservation the dehydration of encapsulated and vitrified shoot tips with 100% PVS2 for 30 min resulted in 68% survival and 12% regrowth rates. Further conservation techniques must be evaluated to increase both survival and regrowth percentages.     

Somatic embryogenesis in Araucaria angustifolia

Immature and mature zygotic embryos were used as source of explants for induction of somatic embryogenesis in Araucaria angustifolia. Embryogenic cultures (EC) were only obtained from immature zygotic embryos. Basic medium, carbon source, and genotype showed a significant influence on the formation of stage I somatic embryos (SE). When EC were submitted to maturation conditions, SE continued their individual development until stage II, but mature embryos were not obtained. Proteins secreted by embryogenic cultures were, to a certain degree, genotype specific and included an extracellular class IV chitinase and β-1-3-glucanase.     

Improvement of the post-thaw qualities of Okinawan native pig spermatozoa frozen in an extender supplemented with ascorbic acid 2-O-alpha-glucoside

The technical establishment of boar sperm cryopreservation is indispensable for effective breeding of the scarce Okinawan native pig Agu. The objective of the present study was to determine whether ascorbic acid 2-O-α-glucoside (AA-2G), a stable ascorbate derivative, is capable of improving the quality of cryopreserved Agu spermatozoa. Ejaculated Agu sperm frozen in an extender supplemented with 0, 100, 200, 400 or 800 μM AA-2G was thawed, and then evaluated the sperm motility and other qualities. Treatment with 200 μM AA-2G has the most beneficial effect on the sperm motility and the plasmalemma integrity after frozen-thawing among the concentrations tested (P < 0.05). In particular, the incidences of total motile sperm and rapid progressive motility at 1 and 3 h after incubation were markedly increased by treatment with AA-2G at 200 μM. The addition of AA-2G during cooling and freezing efficiently protected spermatozoa against the lipid peroxidation and the DNA damage. Spermatozoa frozen in the presence of AA-2G possessed significantly higher levels (P < 0.05) of ATP even after thawing than those frozen without AA-2G, implying that sperm viability was effectively conserved. Furthermore, higher sperm penetrability to matured oocytes in vitro was maintained in sperm treated with AA-2G during cryopreservation. These effects were observed for all sperm derived from three individuals. These findings demonstrate that the addition of AA-2G to the freezing extender efficiently improves the post-thaw qualities of fragile Agu sperm through the protection of spermatozoa against cell damage caused by oxidative stress during cryopreservation.     

Retention of the capacity to produce plants from protoplasts in cryopreserved cell lines of rice (Oryza sativa L.)

A method is described for cryopreservation of cell suspension lines of rice (Oryza sativa L.) for use in protoplast research and as a way of retaining desirable characteristics of cell lines. The procedure involves pre-culture with mannitol, addition of a cryoprotectant solution of sucrose, dimethyl sulfoxide, glycerol and L-proline, two step freezing and storage in liquid nitrogen. Cells have been preserved for up to 14 months (the longest period tried in these experiments). Cryopreserved cells proliferated after plating on solid medium and new cell suspensions could be initiated within 15 days. Viable protoplasts, capable of divisions and callus formation, could be obtained 15–21 days after thawing. Variation between cell lines in terms of recovery rate after cryopreservation occurred. Differences between cell lines in plating efficiencies on solidified medium, however, contributed to this variation. Protoplasts from cryopreserved regenerable cell lines gave rise to embryogenic callus from which plants could be regenerated. These plants developed to maturity. A transformed cell line was also cryopreserved and it had retained the hygromycin resistance and regenerative capacity of the original cell line.Abbreviations DMSO dimethyl sulfoxide - 2,4-D 2,4-dichlorophenoxyacetic acid - NAA 1-naphtylacetic acid - FDA fluorescein diacetate     

New method of FACS analyzing and sorting of intact whole ovarian fragments (COPAS) after long time (24 h) cooling to 5 °C before cryopreservation

As recently announced by the American Society for Reproductive Medicine (ASRM), human ovarian tissue cryopreservation is an established option for fertility preservation in prepubertal girls and young women undergoing gonadotoxic treatments for cancer as well as some autoimmune diseases. Proper ovarian tissue assessment before and after cryopreservation is essential to increase success rates. Ovarian fragments from 16 patients were divided into small pieces in form of cortex with medulla, and randomly divided into the following two groups. Pieces of Group 1 (n?=?16) were frozen immediately after operation, thawed and just after thawing their quality was analyzed. Group 2 pieces (n?=?16) after operation were cooled to 5 °C for 24 h, then frozen after 24 h pre-cooling to 5 °C, thawed and just after thawing their quality was analyzed. The effectiveness of the pre-freezing cooling of tissue was evaluated by the development and viability of follicles (Calcein-AM and Propidium Iodide) using complex object parametric analyzer and sorter machine (COPAS). Positive effect of cooling of cells to low supra-zero temperatures on their future development after re-warming has been observed. New flow cytometry- technique is suitable for the evaluation and sorting of cryopreserved whole human whole intact ovarian fragments. Long time (24 h) cooling of ovarian tissue to 5 °C before cryopreservation has a trend of a cell viability increasing.

     

Automated image processing as an analytical tool in cell cryopreservation for bioprocess development

The continuous availability of cells with defined cell characteristics represents a crucial issue in the biopharmaceutical and cell therapy industry. Here, development of cell banks with a long-term stability is essential and ensured by a cryopreservation strategy. The strategy needs to be optimized for each cell application individually and usually comprises controlled freezing, storage at ultra-low temperature, and fast thawing of cells. This approach is implemented by the development of master and working cell banks. Currently, empirical cryopreservation strategy development is standard, but a knowledge-based approach would be highly advantageous. In this article, we report the development of a video-based tool for the characterisation of freezing and thawing behaviour in cryopreservation process to enable a more knowledge-based cryopreservation process development. A successful tool validation was performed with a model cryopreservation process for the β-cell line INS-1E. Performance was evaluated for two working volumes (1.0 mL and 2.0 mL), based on freezing-thawing rates (20 °C to − 80 °C) and cell recovery and increase of biomass, to determine tool flexibility and practicality. Evaluation confirmed flexibility by correctly identifying a delay in freezing and thawing for the larger working volume. Further more, a decrease in cell recovery from 0.94 (± 0.14) % using 1.0 mL working volume to 0.61 (± 0.05) % using a 2.0 mL working volume displays tool practicality. The video-based tool proposed in this study presents a powerful tool for cell-specific optimisation of cryopreservation protocols. This can facilitate faster and more knowledge-based cryopreservation process development

Graphical abstract

In this study, a video-based analytical tool was developed for the characterisation of freezing and thawing behaviour in cryopreservation process development. Evaluation of the practicality and flexibility of the developed tool was done based on a scale-up case study with the cell line INS-1E. Here, the influence of sample working volume on process performance was investigated. Increasing the volume from 1to 2 mL led to a delay in freezing and thawing behaviour which caused cell recovery loss. We believe that the developed tool will facilitate more directed and systematic cryopreservation process development.

     

Cryopreservation of zebrafish (Danio rerio) oocytes using improved controlled slow cooling protocols

Cryopreservation of gametes provides a promising method to preserve fish genetic material. Previously we reported some preliminary results on cryopreservation of zebrafish (Danio rerio) oocytes using controlled slow cooling and determined the optimum cryoprotective medium and cooling rate for stage III zebrafish oocytes. In the present study, the effects of two different cryopreservation media, cryoprotectant removal method, final sample freezing temperature before LN₂ plunge, warming rate, and the post-thaw incubation time on oocyte viability were investigated. Commonly used cryoprotectant methanol and glucose were used in this study. Stage III zebrafish oocytes were frozen in standard culture medium 50% L-15 or in a sodium-free KCl buffer medium. Oocyte viability was assessed using trypan blue staining and ATP assay. The viability of oocytes frozen in KCl buffer was significantly higher than oocytes frozen in L-15 medium. The results also showed that fast thawing and stepwise removal of cryoprotectant improved oocyte survival significantly, with highest viability of 88.0 ± 1.7% being obtained immediately after rapid thawing when assessed by trypan blue staining. However, after 2 h incubation at 22 °C the viability of freeze-thawed oocytes decreased to 29.5 ± 5.1%. Results also showed that the ATP level in oocytes decreased significantly immediately after thawing. All oocytes became translucent after freezing which complicated the use of GVBD test (in vitro maturation of oocytes followed by observation of germinal vesicle breakdown which results in oocytes becoming translucent). New oocyte viability assessment methods are urgently needed.     

Hexavalent Chromium Reduction and Accumulation by <Emphasis Type="Italic">Acinetobacter</Emphasis> AB1 Isolated from Fez Tanneries in Morocco

Hexavalent chromium reduction and accumulation by Acinetobacter AB1 isolated from Fez tanneries effluents were tested. The effects of some environmental factors such as pH, temperature, and exposure time on Cr(VI) reduction and resistance were investigated. We found that this strain was able to resist to concentrations as high as 400 mg/l of Cr(VI). Moreover, pH 10 and the temperature 30°C constitute favourable conditions to the growth and reduction of Acinetobacter AB1. Complete reduction of Cr(VI) was observed at low initial Cr(VI) concentrations of 50 mg/l after 72 h of incubation. Furthermore, Transmission electron microscope (TEM) analysis showed morphological changes in AB1 strain due 48H exposure to 100 mg/l chromate concentration and revealed circular electron dense (dark black point) inclusion within the cell cytoplasm suggesting chromium deposition within the cells.     

Global DNA methylation profiles of somatic embryos of peach palm (Bactris gasipaes Kunth) are influenced by cryoprotectants and droplet-vitrification cryopreservation

Regrowth capacity and genetic stability of plants recovered following cryopreservation are associated with changes in DNA epigenetics, particularly in DNA methylation levels. In this study, global DNA methylation profiles associated with frequency of regrowth of peach palm (Bactris gasipaes) somatic embryos following cryopreservation using droplet-vitrification were investigated. Somatic embryo clusters (SEC) subjected to plant vitrification solution 3 (PVS3) for different durations (0, 60, 120, 180, and 240 min) were evaluated for regrowth capacity. The highest frequency of regrowth (52.4 %) was obtained when SEC were incubated in PVS3 for 120 min prior to droplet-vitrification cryopreservation. Global DNA methylation profiles were influenced by both cryoprotectants and droplet-vitrification cryopreservation. Incubation of SEC in PVS3 for limited durations not only reduced frequency of regrowth, but also increased DNA methylations levels when compared with proliferating SEC grown in a temporary immersion system. Although SEC subjected to cryopreservation exhibited the highest DNA methylation variation, 120 min SEC incubation in a PVS3 solution resulted in the recovery of initial global methylation profiles after 24 weeks of regrowth.     

Long-term cryopreservation of reaggregated pancreatic islets resulting in successful transplantation in rats

Preservation of pancreatic islets for long-term storage of islets used for transplantation or research has long been a goal. Unfortunately, few studies on long-term islet cryopreservation (1 month and longer) have reported positive outcomes in terms of islet yield, survival and function. In general, single cells have been shown to tolerate the cryopreservation procedure better than tissues/multicellular structures like islets. Thus, we optimized a method to cryopreserve single islet cells and, after thawing, reaggregated them into islet spheroids. Cryopreserved (CP) single human islet cells formed spheroids efficiently within 3–5 days after thawing. Approximately 79% of islet cells were recovered following the single-cell cryopreservation protocol. Viability after long-term cryopreservation (4 weeks or more) was significantly higher in the CP islet cell spheroids (97.4 ± 0.4%) compared to CP native islets (14.6 ± 0.4%). Moreover, CP islet cell spheroids had excellent viability even after weeks in culture (88.5 ± 1.6%). Metabolic activity was 4–5 times higher in CP islet cell spheroids than CP native islets at 24 and 48 h after thawing. Diabetic rats transplanted with CP islet cell spheroids were normoglycemic for 10 months, identical to diabetic rats transplanted with fresh islets. However, the animals receiving fresh islets required a higher volume of transplanted tissue to achieve normoglycemia compared to those transplanted with CP islet cell spheroids. By cryopreserving single cells instead of intact islets, we achieved highly viable and functional islets after thawing that required lower tissue volumes to reverse diabetes in rats.     

Survival and ultrastructural features of peach palm (Bactris gasipaes, Kunth) somatic embryos submitted to cryopreservation through vitrification

Bactris gasipaes (Arecaceae), also known as peach palm, was domesticated by Amazonian Indians and is cultivated for its fruit and heart-of-palm, a vegetable grown in the tree’s inner core. Currently, the conservation of this species relies on in situ conditions and field gene banks. Complementary conservation strategies, such as those based on in vitro techniques, are indicated in such cases. To establish an appropriate cryopreservation protocol, this study aimed to evaluate the ultrastructural features of B. gasipaes embryogenic cultures submitted to vitrification and subsequent cryogenic temperatures. Accordingly, somatic embryo clusters were submitted to Plant Vitrification Solution 3 (PVS3). In general, cells submitted to PVS3 had viable cell characteristics associated with apparently many mitochondria, prominent nucleus, and preserved cell walls. Cells not incubated in PVS3 did not survive after the cryogenic process in liquid nitrogen. The best incubation time for the vitrification technique was 240 min, resulting in a survival rate of 37 %. In these cases, several features were indicative of quite active cell metabolism, including intact nuclei and preserved cell walls, an apparently many of mitochondria and lipid bodies, and the presence of many starch granules and condensed chromatin. Moreover, ultrastructure analysis revealed that overall cellular structures had been preserved after cryogenic treatment, thus validating the use of vitrification in conjunction with cryopreservation of peach palm elite genotypes, as well as wild genotypes, which carry a rich pool of genes that must be conserved.     

Effect of the holding time at 15 °C prior to cryopreservation,the thawing rate and the post-thaw incubation temperature on the boar sperm quality after cryopreservation

The aim of the present study was to evaluate the effect of the holding time at 15 °C prior to cryopreservation (2, 4 and 8 h), thawing rate (37 °C for 20 s or 70 °C for 8 s) and post-thaw incubation temperature (15 °C or 37 °C) on the post-thaw boar sperm quality. These are important time periods in the freezing–thawing process which have been less studied. Sperm-rich ejaculate fractions from three healthy boars were collected once a week for five consecutive weeks and were cryopreserved with the lactose-egg yolk extender (LEY). Sperm quality was determined by assessing the motility, the acrosome status, and the sperm plasma membrane integrity at 30, 150 and 240 min of incubation. The results show that with the holding time at 15 °C prior to cryopreservation there was not a clear effect until at least 24 h of holding time. The thawing rate and the post-thaw incubation temperature, however, had a marked effect on sperm quality. When the samples were thawed at 70 °C for 8 s, the sperm viability, motility and some kinetic variables (VCL, VSL, VAP and ALH) were greater than with results observed when the samples were thawed at 37 °C for 20 s. In addition after thawing the sperm samples incubated at 15 °C had a sustained sperm quality for longer, up to 4 h post-thawing.     

Potential of Typha angustifolia for phytoremediation of heavy metals from aqueous solution of phenol and melanoidin

Typha angustifolia was evaluated for various heavy metals (Cu, Pb, Ni, Fe, Mn, and Zn) bioremediation potential from aqueous solution containing variable concentrations of phenol (100–800 mg l^?1) and melanoidin (2500–8500 Co–Pt) at 20, 40, and 60 days. The concentration of phenol (200–400 mg l^?1) along with melanoidin 2500 Co–Pt showed optimum for phytoremediation of tested heavy metals, while, higher concentrations of melanoidin (5600–8500 Co–Pt) showed toxic effect on T. angustifolia along with phenol. Phenol and melanoidin showed adverse effect on T. angustifolia of up to 20 days incubation, but this leads to induction of peroxidase and ascorbic acid activity to cope with adverse conditions. Subsequently, as pollutants were decreased along with plant growth, peroxidase and ascorbic acid also declined. However, with reduction of peroxidase, catalase level was increased. The Cu, Zn, and Ni were accumulated at maximum in all tested conditions. The TEM observations of T. angustifolia showed clotted deposition of metals and shrinkage of cell in root, breakdown of spongy and palisade parenchyma of leaves at higher concentration of phenol (100 mg l^?1) and melanoidin (5500 Co–Pt). Thus, this study concluded that T. angustifolia could be a potential phytoremediator for heavy metals from metal, melanoidin, and phenol containing industrial wastewater at optimized condition.     

Root cryopreservation to biobank medicinal plants: a case study for Hypericum perforatum L.

In this study, an effective root-based cryopreservation method was developed for Hypericum perforatum L., an important medicinal species, using in vitro plants. A systematic approach was applied to determine effective combinations of protocol steps such as preculture, osmoprotection, vitrification solution treatment, and unloading, followed by protocol optimization using a single-factor approach. The effects of root section type (root tips, middle sections, or basal sections), duration of root section culture after excision, and donor plant age were also investigated. In a wild genotype, middle and basal root sections excised from 8-wk-old plants and cryopreserved at the age of 10 d after excision showed the highest plant regrowth after cryopreservation. In the optimized protocol, root sections were precultured in 10% (w/v) sucrose for 17 h, osmoprotected with a solution composed of 17.5% (w/v) glycerol and 17.5% (w/v) sucrose for 20 min, followed by a vitrification solution of 40% (w/v) glycerol and 40% (w/v) sucrose for 30 min, and cryopreserved using aluminum foil strips (droplet-vitrification). After rewarming in preheated 25% (w/v) sucrose solution and 30-min unloading, root segments were recovered on medium supplemented with 1.0 mg L⁻¹ gibberellic acid and showed 78% plant regrowth. This cryopreservation method was successfully adapted for five elite lines of H. perforatum with a 45 to 87% regrowth rate after cryopreservation. These results suggest that root cryopreservation may be an effective method for medicinal plant conservation and should be tested with a broader range of species.