Cold,antioxidant and osmotic pre-treatments maintain the structural integrity of meristematic cells and improve plant regeneration in cryopreserved kiwifruit shoot tips

Cryopreservation is a reliable and cost-effective method for the long-term preservation of clonally propagated species. The number of vegetatively propagated species conserved by cryopreservation is increasing through development of vitrification-based methods; droplet vitrification in particular is becoming the preferred method for many species, as it ensures fast freezing and thawing rates. This research investigated if cold, antioxidant and osmotic pre-treatments could maintain the structural integrity of cells, thence aid in developing a droplet vitrification protocol for kiwifruit using Actinidia chinensis var. chinensis ‘Hort16A’ as a model. Cold acclimation of donor plantlets at 4 °C for 2 weeks followed by sucrose pre-culture of shoot tips and supplementation of ascorbic acid (0.4 mM) in all media throughout the procedure registered 40% regeneration after cryopreservation. Transmission electron microscope imaging of meristematic cells confirmed sucrose and ascorbic acid pre-treatment of shoot tips from cold acclimated plantlets following treatment in vitrification solution exhibited severe plasmolysis and some disruption of membrane and vacuoles. In contrast cells without cold acclimation or sucrose and ascorbic acid pre-treatments exhibited minimal change after exposure to vitrification solution. After cryopreservation and recovery, all cells of untreated shoot tips showed rupture of the plasma membrane, loss of cytoplasmic contents and organelle distortions. By comparison, most pre-treated shoot-tip cells from cold acclimated plantlets retained their structural integrity, showing that only those cells that have been dehydrated and plasmolysed can withstand cryopreservation by vitrification.     

Comparison of two PVS2-based procedures for cryopreservation of commercial sugarcane (<Emphasis Type="Italic">Saccharum</Emphasis> spp.) germplasm and confirmation of genetic stability after cryopreservation using ISSR markers

Conservation of Saccharum spp. germplasm as ex situ collections of plants has a high cost, and in natural conditions, the plants remain exposed to pests, pathogens, and natural disasters. Long-term preservation of plant germplasm is important for agricultural biodiversity and food safety, so the aim of this study was to develop a cryogenic procedure for cryopreservation of sugarcane germplasm. The first study compared droplet vitrification and encapsulation-vitrification techniques for cryopreservation of in vitro shoot tips of Saccharum spp. variety Halaii. The best regeneration rate (70.9%) was obtained from 45-min PVS2 vitrification solution-treated shoot tips via the droplet vitrification technique. This technique was tested on two other Saccharum sp. varieties, and the best regeneration rates for varieties NG 57-024 and H 83-6179 were 63.3 and 76.3%, respectively. Shoots derived from cryopreserved shoot tip buds developed well-formed roots, and were easily acclimated to greenhouse conditions. The second study evaluated genetic stability of the cryopreserved varieties using ten inter-simple sequence repeat primers. A total of 211 (Halaii), 198 (H83-6179), and 201 (NG 57-024) reproducible bands, ranging from 125 to 5500 bp, were scored with this technique. One hundred genetic stability was detected from Halaii and H 83-6179 whereas 98.5% genetic stability was detected from varieties of NG 57-024. The PCR reactions showed that there was no crucial variation on genetic stability for all cryopreserved varieties.     

Droplet-vitrification cryopreservation of <Emphasis Type="Italic">in vitro</Emphasis>-grown shoot tips of grapevine (<Emphasis Type="Italic">Vitis</Emphasis> spp.)

An efficient and broad-spectrum protocol for cryopreservation of Vitis spp. shoot tips by droplet-vitrification is reported. Shoot tips (1.0 mm) containing 5–6 leaf primordia (LPs) were precultured for 3 d with a preculture medium containing 0.3 M sucrose, 0.16 μM glutathione, and 0.14 μM ascorbic acid. Precultured shoot tips were treated for 20 min at 24°C with a loading solution composed of 2 M glycerol and 0.4 M sucrose, followed by exposure at 0°C to half-strength plant vitrification solution 2 (PVS2) for 30 min, and then full-strength PVS2 for 50 min. Dehydrated shoot tips were transferred into 2.5-μL PVS2 carried on aluminum foil, prior to a direct immersion in liquid nitrogen. With this method, an average shoot regrowth level of 50.5% was obtained from cryopreserved shoot tips in six V. vinifera genotypes (three wine cultivars, two table cultivars, and one rootstock) and two V. pseudoreticulata genotypes. Vegetative growth of the regenerants recovered from cryopreservation, significantly increased as the number of subculture cycles increased and was greater than the control after the third subculture following cryopreservation. Inter-simple sequence repeats (ISSR) and random amplification of polymorphic DNA (RAPD) analyses did not detect any polymorphic loci in the plants of V. vinifera L. cv. ‘Cabernet Sauvignon’ from cryopreserved shoot tips compared to the original cultures. This droplet-vitrification cryopreservation method provides a technical platform to set up cryobanks of Vitis spp.     

Survival and genetic stability of shoot tips of <Emphasis Type="Italic">Hedeoma todsenii</Emphasis> R.S.Irving after long-term cryostorage

Endangered and rare species for which seed banking is not possible require alternative methods of ex situ conservation for long-term preservation. These methods depend primarily on cryopreservation methods, such as shoot tip cryopreservation, but there are few datasets with information on the long-term survival of shoot tips stored in liquid nitrogen. In this study, survival and genetic stability of shoot tips of the endangered species, Hedeoma todsenii, banked over multiple years were examined. In vitro cultures cryopreserved with both the encapsulation dehydration and the encapsulation vitrification methods showed good average survival after up to 13 yr of storage in liquid nitrogen. The application of droplet vitrification to this species increased survival significantly, with an average of 72%, compared with 24–45% survival obtained with other methods. As measured with microsatellite and sequence-related amplified polymorphism (SRAP) markers, the genetic stability of the same genotypes stored over different periods of time typically did not change. However, there was an average of 10.4% band loss between replicate samples that did indicate a potential change in DNA composition. These results demonstrate the use of shoot tip cryopreservation as an effective ex situ conservation tool for this species, but genetic stability of the cryopreserved tissues should be closely monitored.     

Cryopreservation of the critically endangered golden paintbrush (<Emphasis Type="Italic">Castilleja levisecta</Emphasis> Greenm.): from nature to cryobank to nature

In this study conservation of Castilleja levisecta Greenm., a globally endangered species was addressed through in vitro cryopreservation of shoot tips. In vitro cultures were successfully established using seedlings received from British Columbia, Canada. Shoot tips excised from in vitro propagated plants were cryopreserved using a droplet-vitrification method following optimization of individual protocol steps such as pre-culture, treatment with vitrification solutions, and unloading. The highest plant regrowth after cryopreservation (66%) was achieved when shoot tips were pre-cultured in 0.3 M sucrose for 17 h followed by 0.5 M sucrose for 4 h, incubated in an osmo-protectant solution (17.5% [v/v] glycerol and 17.5% [w/v] sucrose) for 20 min, exposed to vitrification solution A3 (37.5% [v/v] glycerol plus 15% [v/v] dimethylsulfoxide (DMSO) plus 15% [v/v] ethylene glycol (EG) plus 22.5% [w/v] sucrose) on ice for 40 min, and unloaded in 0.8 M sucrose solution for 30 min. Healthy plants were developed from cryopreserved shoot tips and propagated in vitro using nodal segments. Plants derived from in vitro culture and from cryopreserved tissues were successfully rooted and acclimated in a greenhouse with 100% survival rate. Acclimatized plants were reintroduced in a naturalized propagation area at the Conservation Nursery at Fort Rodd Hill, Canada. Twenty of 94 reintroduced plants (21%) survived the transit from lab to field and some had started to flower. This is the first report for cryopreservation of C. levisecta, an important step in conserving and re-introducing this critically imperiled species in nature.     

Heterologous expression of <Emphasis Type="Italic">PDH47</Emphasis> confers drought tolerance in <Emphasis Type="Italic">indica</Emphasis> rice

Jerusalem artichoke (Helianthus tuberosus L.) cultivars are conserved in genebanks for use in breeding and horticultural research programs. Jerusalem artichoke collections are particularly vulnerable to environmental and biological threats because they are often maintained in the field. These field collections could be securely conserved in genebanks if improved cryopreservation methods were available. This work used four Jersualem artichoke cultivars (‘Shudi’, ‘M6’, ‘Stampede’, and ‘Relikt’) to improve upon an existing procedure. Four steps were optimized and the resulting procedure is as follows: preculture excised shoot tips (2–3 mm) in liquid MS medium supplemented with 0.4 M sucrose for 3 days, osmoprotect shoot tips in loading solution for 30 min, dehydrate with plant vitrification solution 2 for 15 min before rapid cooling in liquid nitrogen, store in liquid nitrogen, rapidly rewarm in MS liquid medium containing 1.2 M sucrose, and recover on MS medium supplemented with 0.1 mg L^?1 GA₃ for 3–5 days in the dark and then on the same medium for 4–6 weeks in the light (14 h light/10 h dark). After cryopreservation, Jerusalem artichoke cultivar ‘Shudi’ had the highest survival (93%) and regrowth (83%) percentages. Cultivars ‘M6’, ‘Stampede’, and ‘Relikt’ achieved survival and regrowth percentages ranging from 44 to 72%, and 37–53%, respectively. No genetic changes, as assessed by using simple sequence repeat markers, were detected in plants regenerated after LN exposure in Jerusalem artichoke cultivar ‘Shudi’. Differential scanning calorimetry analyses were used to investigate the thermal activities of the tissues during the cryopreservation process and it was determined that loading with 2.0 M sucrose and 0.4 M sucrose dehydrated the shoot tips prior to treatment with PVS2. Histological observations revealed that the optimized droplet vitrification protocol caused minimal cellular damage within the meristem cells of the shoot tips.     

Cryopreservation of an endangered <Emphasis Type="Italic">Hladnikia pastinacifolia</Emphasis> Rchb. by shoot tip encapsulation-dehydration and encapsulation-vitrification

The objective of the present study was the cryopreservation of monotypic endemic Hladnikia pastinacifolia Rchb. shoot tips from an in vitro culture, via encapsulation-dehydration (ED) or encapsulation-vitrification (EV). For all tested genotypes, the highest rates of shoot regrowth and multiplication were obtained after overnight preculture in 0.4 M sucrose, encapsulation in Murashige and Skoog (MS) medium with 0.4 M sucrose and 1 M glycerol, followed by polymerization in 3% (w/v) Na-alginate in MS with 0.4 M sucrose. Optimal osmoprotection was achieved for ED with 0.4 M sucrose plus 1 M glycerol and for EV with 0.4 M sucrose plus 2 M glycerol. The best dehydration time for ED was 150 min in a desiccation chamber with silica gel, and the best vitrification time for EV was 85 min in plant vitrification solution 2 (PVS2). For ED, dehydration for 150 min resulted in explant water content of 22%. When the encapsulation method was combined with ED, 53% regrowth was achieved, and when it was combined with EV, 64% regrowth was achieved. Both methods could become applicable for the long-term cryopreservation of H. pastinacifolia germplasm, although EV was faster and resulted in better final regrowth success. Genetic stability analysis of cryopreserved plant samples was carried out for two genotypes, using random amplified polymorphic DNA (RAPD) markers to compare the two different cryopreservation protocols. Significant genetic differences between the genotypes were detected and a low level of genomic variation was observed.     

<Emphasis Type="Italic">In vitro</Emphasis> plant regeneration and cryopreservation of <Emphasis Type="Italic">Arachis glabrata</Emphasis> (Fabaceae) using leaflet explants

Arachis glabrata Benth (perennial peanut) is a rhizomatous legume with high forage value and great potential for soil conservation as well as it displays valuable plant genetic resources for the cultivated edible peanut improvement. In this study, we developed for the first time successful protocols for micropropagation and cryopreservation of A. glabrata. First fully expanded leaflets from greenhouse-growing plants were efficiently established in vitro (93%) and displayed high frequency of bud induction (58%) on MS medium with 6 mg L^?1 1-fenil-3-(1,2,3-tiadiazol-5-il)urea [TDZ]. Whole plant regeneration was achieved via direct organogenesis by transferring the induced buds to MS media. Immature unexpanded leaves from micropropagated plants were effectively cryopreserved by using the droplet-vitrification technique. Maximum survival (~ 70%) and further regeneration (60–67%) were obtained by preconditioning immature leaves on semisolid MS with 0.3 M sucrose (1 d), exposing to loading solution consisting of 0.4 M sucrose plus 2 M glycerol (30 min) followed by glycerol-sucrose plant vitrification solution PVS3 (150 min in ice), and direct plunging into liquid nitrogen in droplets of PVS3 deposited on cryoplates. Tissues were rewarmed by plunging the aluminum foils directly in liquid MS enriched with 1.2 M sucrose (15 min) at room temperature. Growth recovery and plant regeneration were efficiently achieved via shoot organogenesis, and somatic embryogenesis by culturing cryostored explants on MS added with 6 mg L^?1 TDZ. Genetic stability of plants derived from cryopreserved leaves was confirmed by random amplified polymorphic DNA markers. The protocols established in this study have great potential for rapid multiplication and conservation of selected A. glabrata genotypes.     

Genetic and biochemical stability assessment of plants regenerated from cryopreserved shoot tips of a commercially valuable medicinal herb <Emphasis Type="Italic">Bacopa monnieri</Emphasis> (L.) Wettst

Shoot tips from four accessions (IC249250, IC 426442, IC 375976, and IC468878) of Bacopa monnieri (L.) Wettst., a commercially valuable memory revitalizing medicinal plant, were cryopreserved using a vitrification technique. Depending on the genotype, 0 to 20% plant regeneration without intermediary callus was achieved from cryopreserved shoot tips. Genetic stability of plants derived from cryopreserved shoot tips was assessed using biochemical and molecular markers. The regenerated plants from non-frozen controls and cryopreserved shoot tips exhibited morphological similarity to respective parental material when transferred to soil. On the basis of ten random amplified polymorphic DNA (RAPD) and bacoside A content using HPLC analysis, no significant reproducible variation was observed between the controls and in vitro-cryopreserved plants. Thus, after cryopreservation treatment, the regenerated plants exhibited molecular and biochemical genetic stability.     

Cryopreservation,early seedling development,and genetic stability of <Emphasis Type="Italic">Oncidium flexuosum</Emphasis> Sims

An efficient cryopreservation protocol was developed for mature seeds of Oncidium flexuosum Sims. Seed morphology, protocorm formation, and early seedling development were also assessed. The effects of phloroglucinol and Supercool X-1000^® as cryoprotectant additives in the vitrification solution were investigated. Dehydration using the plant vitrification solution 2 (PVS2) for 60 and 120 min prior to immersion in liquid nitrogen promoted the highest frequency of in vitro seed germination 6 weeks following culture on half-strength Murashige and Skoog (½ MS) medium. Mature seeds submitted to vitrification for 120 min in PVS2 and 1 % phloroglucinol at 0 °C enhanced germination by 68 %, whereas in PVS2 and 1 % Supercool X-1000^® germination was just moderately enhanced (26 %). In vitro-germinating seedlings developed healthy shoots and roots without the use of plant growth regulators. After 6 months of growth, there were no differences between in vitro- and ex vitro-grown seedlings for various phenotypic characteristics, including shoot length, number of leaves, number and length of roots, and fresh and dry weight. Seedlings were transferred to greenhouse conditions and successfully acclimatized, further developing into normal plants with over 90 % survival. Comparative analysis of seedlings from control and vitrified seeds using flow cytometry indicated that no change in ploidy levels occurred as a result of cryopreservation, therefore maintaining seedlings genetic stability. In this study, vitrification with PVS2 for 120 min with the addition of 1 % phloroglucinol offers a simple, safe, and feasible protocol for cryopreservation of O. flexuosum mature seeds.     

Cryopreservation of somatic embryos from <Emphasis Type="Italic">Petiveria alliacea</Emphasis> L. by different techniques based on vitrification

Petiveria alliacea L. is a medicinal plant originating from the Amazon region. This study describes an efficient cryopreservation protocol for somatic embryos (SEs) produced from roots of P. alliacea based on the comparison of vitrification, encapsulation-dehydration, and D cryo-plate techniques. With the vitrification technique, SEs treated with PVS2 solution (0.4 M sucrose, 3.3 M glycerol, 2.4 M ethylene glycol, and 1.9 M DMSO) for 30 min displayed high viability (85%) and intermediate proliferation recovery (about 12 adventitious SEs produced from original SEs [SEs/SE] after 90 d of culture). With the encapsulation-dehydration technique, lower viability (70%) and very low proliferation recovery (about two SEs/SE) were achieved with cryopreserved SEs dehydrated for 10 min in a laminar air flow cabinet. The D cryo-plate technique led to high viability (85%) and proliferation recovery (19 SEs/SE) of cryopreserved SEs after 90 min dehydration. In the experimental conditions tested, the D cryo-plate method was the most efficient technique for cryopreservation of P. alliacea SEs.     

Cryopreservation of chestnut by vitrification of <Emphasis Type="Italic">in vitro</Emphasis>-grown shoot tips

Summary Plants of European chestnut (Castanea sativa) have been consistently recovered from cryopreserved in vitro-grown shoot apices by using the vitrification procedure. Factors found to influence the success of cryopreservation include the source of the shoot tips (terminal buds or axillary buds), their size, the duration of exposure to the cryoprotectant solution, and the composition of the post-cryostorage recovery medium. The most efficient protocol for shoot regrowth employed 0.5–1.0 mm shoot tips isolated from 1 cm-long terminal buds that had been excised from 3–5-wk shoot cultures and cold hardened at 4°C for 2 wk. The isolated shoot tips were precultured for 2d at 4°C on solidified Gresshoff and Doy medium (GD) supplemented with 0.2M sucrose, and were then treated for 20 min at room temperature with a loading solution (2M glycerol+0.4M sucrose) and for 120 min at 0°C with a modified PVS2 solution before rapid immersion in liquid nitrogen (LN). After 1 d in LN, rapid rewarming and unloading in 1.2M sucrose solution for 20 min, the shoot tips were plated on recovery medium consisting of GD supplemented with 2.2 μM benzyladenine, 2.9 μM 3-indoleacetic acid, and 0.9 μM zeatin. This protocol achieved 38–54% shoot recovery rates among five chestnut clones (three of juvenile origin and two of mature origin), and in all cases plant regeneration was also obtained.     

Optimization of droplet-vitrification protocol for carnation genotypes and ultrastructural studies on shoot tips during cryopreservation

This study was carried out to optimize a modified droplet-vitrification procedure for the cryopreservation of shoot tips from different carnation genotypes. The best procedure was developed by applying orthogonal tests to the experimental data and by further investigation of the effects on the regrowth percentage. It consisted in preculturing shoot tips in liquid Murashige and Skoog (MS) medium with 0.3 M sucrose for 2 days, pretreating them in liquid MS medium with 5 % Dimethyl sulfoxide +5 % glycerol + 0.3 M sucrose for 10 min, osmoprotecting in Loading solution for 20 min at 25 °C, cryoprotecting with Plant vitrification solution No.2 (PVS2) for 60 min at 0 °C, transferring in drops of fresh PVS2 over aluminum strips and finally storing them in Liquid nitrogen. With the application of the optimized protocol, four carnation cultivars (‘Master’, ‘Calibra’, ‘Lamour’ and ‘Ofcar’) achieved regrowth percentage after cryopreservation ranging from 41 to 73 %. Ultrastructural observations investigated by using transmission electron microscopy showed that the cells encountered the stress during cryopreservation and the main damages occurred during the dehydration step. For surviving cells, the most of the damaged cells could be repaired after recovery growth. This modified protocol will aid in the long-term conservation of carnation germplasm and the ultrastructural studies will benefit for understanding the damage and recovery of the cells during cryopreservation.     

Modified light spectral conditions prior to cryopreservation alter growth characteristics and cryopreservation success of potato (<Emphasis Type="Italic">Solanum tuberosum</Emphasis> L.) shoot tips in vitro

Light is one of the most important factors affecting growth and morphogenesis of plants. Light intensity, photoperiod and spectral composition greatly affect morphogenetic responses of in vitro plants. Modification of light spectra during recovery after cryopreservation improves survival and regeneration, but the effect of modified light conditions prior to cryopreservation are not known. Therefore, the aim of the present study was to follow the photomorphogenetic response of potato plants (Solanum tuberosum L.) under different light qualities i.e. cool white fluorescent (CW) used as control, warm white (HQI), white LEDs (W), blue LEDs (B), red LEDs (R) and a combination of red with 10?% of blue LEDs (RB) prior to cryopreservation, affecting recovery of cultivars Agrie Dzeltenie, Bintje, Maret, Anti and Désirée in vitro. Light spectral quality had a significant effect on growth characteristics of potato plants in vitro. Red light (R) promoted elongation growth but biomass accumulation remained low under monochromatic light treatments. Some of the pre-cryopreservation light treatments significantly affected post-cryopreservation success. Under blue LEDs, high early recovery was observed for all cultivars tested, whereas under red (R) or (HQI), lowest survival percentages were obtained 2–4 weeks after thawing. Specifically, during early recovery, blue light increased survival from 26 to 66?%, 4 to 31?% and 16 to 48?% for cultivars Agrie Dzeltenie, Anti, and Désirée, compared to illumination by red LEDs. Therefore, light spectral quality prior to cryopreservation can significantly affect the cryopreservation success of potato shoot tips.     

Cryopreservation of <Emphasis Type="Italic">Citrus</Emphasis> anthers in the National Crop Genebank of China

Genebank conservation of pollen is valuable because it makes genetic resources immediately available for use in breeding programs. In the case of Citrus species, conserved anthers or pollen can be easily transported and used to develop new varieties with pathogen resistance and desirable quality and yield traits. The aim of this study was to develop and improve air-desiccation cryopreservation protocols for Citrus cavaleriei and Citrus maxima anthers in genebanks. In the current study, warming, rehydration, and in vitro germination conditions were optimized to achieve high levels of in vitro germination in Citrus pollen for ten cultivars after liquid nitrogen (LN) exposure. The optimal warming, rehydration, and in vitro germination medium formulations affected the germination levels after pollen cryopreservation, with species- and cultivar-dependent effects. The Citrus anthers were dehydrated to the moisture content of 5–14% before LN exposure and warmed at 25 (cryopreserved Citrus anthers with a moisture content of lower than 10%) or 37°C (a moisture content of 10% or higher), then rehydrated, and cultured on medium with 150-g L^?1 sucrose, 0.1-g L^?1 boric acid, 1.0-g L^?1 calcium nitrate, 0.1-g L^?1 potassium nitrate, 0.3-g L^?1 magnesium sulfate, and 10-g L^?1 agar. After 2 yr of storage, in vitro germination levels of Citrus pollen after cryopreservation were significantly higher (> 22% for all ten cultivars) than those of samples that were stored at 4°C (0%). In vitro germination levels of pollen from six of ten cultivars after cryopreservation remained relatively high after 2 yr of storage (38–93%). The highest viability of 93% was obtained for C. cavaleriei ‘2–3’. The methods identified in the current study could be used to cryopreserve C. cavaleriei and C. maxima anthers.     

<Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation and shoot regeneration in elite breeding lines of western shipper cantaloupe and honeydew melons (<Emphasis Type="Italic">Cucumis melo</Emphasis> L.)

A reliable Agrobacterium-mediated transformation and shoot regeneration protocol was developed for breeding lines of commercially important western-shipper cantaloupe and honeydew melons, ‘F39’ and ‘150’, respectively. Different media were tested to select a shoot regeneration system for each of three elite breeding lines ‘F39’, ‘141’ and ‘TMS’. Murashige &; Skoog (MS) basal medium supplemented with 1 mg l^?1 benzyladenine (BA), 0.26 mg l^?1 abscisic acid (ABA) and 0.8 mg l^?1 indole-3-acetic acid (IAA) was used for shoot regeneration from cotyledonary explants in ‘F39’ and ‘150’. Kanamycin sensitivity as well as Timentin^? and Clavamox^® were evaluated using wild-type ‘F39’ and ‘150’ cotyledons. Kanamycin concentrations of 200 and 150 mg l^?1 were chosen as the threshold levels for ‘F39’ and ‘150’, respectively. No significant differences were found between Timentin^? and Clavamox^® in ‘F39’; however, Clavamox^® reduced the incidence of vitrification and increased the frequency of shoot elongation in ‘150’. A. tumefaciens strain EHA105, harboring pCNL56 carrying neomycin phosphotransferase II (nptII) and gusA reporter genes, was selected to establish a transformation protocol for ‘F39’ and ‘150’. Putative transformants were evaluated using β-glucuronidase (GUS) histochemical assay, polymerase chain reaction (PCR) and Southern blot analyses. Based on these parameters, the transformation efficiency for cantaloupe ‘F39’ was 0.3% and that for honeydew ‘150’ was 0.5%.     

An efficient protocol for <Emphasis Type="Italic">in vitro</Emphasis> regeneration and conservation of Shirui lily (<Emphasis Type="Italic">Lilium mackliniae</Emphasis> Sealy): a lab-to-land approach to save the rare endangered Asiatic lily species

An efficient protocol for direct and indirect shoot regeneration and proliferation from bulb scales of Shirui lily (Lilium mackliniae Sealy), an endangered Asiatic lily species endemic to the Shirui hill peak, Manipur, India, has been developed. Bulb scales were isolated from mature bulbs and cultured on Murashige and Skoog (MS) basal medium supplemented with different concentrations of 6-benzylaminopurine (BAP), kinetin (KIN), or thidiazuron (TDZ). For direct shoot regeneration from bulb scale explants, 0.5 mg L^?1 BAP yielded the highest shoot induction (3.5 shoots per scale; a 96.7% response). For indirect de novo organogenesis, optimum callus induction was achieved with 2.0 mg L^?1 2,4-dichlorophenoxyacetic acid (2,4-D), and shoot organogenesis was higher (16.2) when subcultured onto 0.5 mg L^?1 BAP medium. Multiple shoot regeneration and pseudo-bulb formation protocols were assessed; the highest shoot proliferation (10.1) occurred with 0.5 mg L^?1 BAP and 1.0 mg L^?1 gibberellic acid (GA₃). Rooting response was 96% with 0.5 mg L^?1 1-naphthalene acetic acid (NAA), with multiple roots per shootlet. Plantlet survival was increased to 92.5% during the hardening-off process by using hydroponics with Hoagland’s solution in a mist chamber. Clonal fidelity was assessed through random amplified polymorphic DNA (RAPD) analysis comparing the mother plant and regenerated plantlets. After confirming genetic uniformity, the pseudo-bulblets with four to six leaves and three to four roots were successfully established at the Shirui hills peak. This in vitro regeneration and ex vitro conservation approach could be helpful to save this rare endangered species in a sustainable way.     

<Emphasis Type="Italic">In vitro</Emphasis> propagation and agronomic performance of regenerated chili pepper (C<Emphasis Type="Italic">apsicum</Emphasis> spp.) plants from commercially important genotypes

The application of modern biotechnology for improvement of chili pepper productivity requires an efficient in vitro plant regeneration protocol. In this study, a reliable protocol was developed for the in vitro regeneration of four types of chili, Capsicum annuum var. annuum (Jalapeño and Serrano), C. annuum var. glabriusculum/aviculare (Piquin), and C. chinense (Habanero) by direct organogenesis using three different explants (cotyledon, hypocotyls, and embryo) and three induction media. All evaluated culture media promoted the formation of adventitious shoots. When embryos or hypocotyls were used as explants, morphologically normal adventitious shoots developed, while culturing cotyledons resulted in nonelongating rosette-shaped shoots. The highest in vitro regeneration efficiency (14.6 shoots per explant) was achieved when Habanero chili hypocotyls were grown on Murashige and Skoog medium containing 1.7 μM indole-3-acetic acid and 22.2 μM N⁶-benzyladenine. This regeneration rate is higher than that obtained in previous reports. Regenerated plants were ready to be transferred to the greenhouse 13 wk after the explant culture. An evaluation carried out under greenhouse conditions showed differences in agronomic performance between in vitro regenerated plants and plants developed from seeds with the magnitude of the differences depending on the genotype being studied.     

Compatible solutes improve regrowth,ameliorate enzymatic antioxidant systems,and reduce lipid peroxidation of cryopreserved <Emphasis Type="Italic">Hancornia speciosa</Emphasis> Gomes lateral buds

Hancornia speciosa is a native fruit species from Brazil with important economic applications. However, the use of this species has been challenged by difficulties in its storage. Cryopreservation is a safe and efficient tool for long-term storage. Nevertheless, cryopreservation may promote reactive oxygen species (ROS) formation with subsequent lipid peroxidation, which causes membrane damage. The use of in vitro antioxidant compounds could help eliminate ROS and consequently improve explant survival. In the current study, the lateral buds of H. speciosa were precultivated in proline or glycine betaine (GB)-containing solutions, and the effect of these compounds on the enzymatic activity of superoxide dismutase (SOD), catalase (CAT), and ascorbate peroxidase (APX) and on lipid peroxidation was measured after sample warming. The present findings indicated that oxidative stress induced by cryopreservation was significantly reduced by the precultivation of lateral buds with proline and GB. SOD activity increased, and subsequently, hydrogen peroxide (H₂O₂) production increased followed by the immediate activation of CAT and APX. The enzyme activity increased for 7 following rewarming, indicating that precultivation with 0.1 M proline was fundamental to achieving high levels of shoot regeneration from H. speciosa lateral buds.     

The survival of in vitro shoot tips of Garcinia mangostana L. after cryopreservation by vitrification

This report highlights the first successful cryopreservation protocol for shoot tips of Garcinia mangostana L. achieved by using vitrification technique. We investigated the effects of different temperatures and exposure periods to a plant vitrification solution 2 (PVS2), sucrose concentrations and preculture periods, and unloading treatments in steps of the vitrification protocol on the survival of G. mangostana shoot tips after cryopreservation. Exposure to PVS2 for 25 min gave beneficial effects with 10.4 ± 1.8 % survival at 0 °C with average water content of 1.1 ± 0.3 g g^?1 dry mass. Survival was 13.7 ± 5.5 % when using preculture medium with full-strength Murashige and Skoog (MS) medium supplemented with 0.6 M sucrose for 2 days. A significant difference was observed in survival of shoot tips when treated with various sucrose concentrations in preculture which strengthens their importance towards enhancing survival of shoot tips after cryopreservation. MS with 0.4 M sucrose and 2 M glycerol applied as an unloading solution increased the survival of shoot tips to 44.1 ± 6.5 %. Experiments on the effect of ascorbic acid were also conducted for each step of vitrification. Our results showed higher survival of 45.8 ± 3.8 % but there were no significant effects compared with the control (without ascorbic acid). Further study on the recovery dark/light period was conducted. Survival of shoot tips significantly increased to 50.0 ± 16.7 % when subjected to 7 days in the dark before transferring to 16 h/8 h light/dark photoperiod. These studies strengthen suggestions that cryopreservation through vitrification is possible for ex situ conservation of germplasm of this tropical recalcitrant species.