scholarly journals Cryopreservation of Shoot Tips of Elite Cultivars of Cannabis sativa L. by Droplet Vitrification

2019 ◽  
Vol 2 (1) ◽  
pp. 29-34 ◽  
Author(s):  
Esther Uchendu ◽  
Hemant Lata ◽  
Suman Chandra ◽  
Ikhlas A. Khan ◽  
Mahmoud A. ElSohly
Keyword(s):  
Exposure Duration ◽  
Cannabis Sativa ◽  
Germplasm Conservation ◽  
Shoot Tips ◽  
Fiber Production ◽  
Droplet Vitrification ◽  
Protocol Development ◽  
Significant Difference

Cannabis sativa L. (marijuana or hemp) is recognized worldwide for its psychoactive properties as well as for fiber production. This study focused on the evaluation of 3 droplet vitrification protocols for long-term conservation of shoot tips in liquid nitrogen (LN). Shoot tips (∼0.5 mm) were excised from 3- to 4-week-old in vitro-grown shoots of 3 cultivars (MX, VI-20, and B-5: high tetrahydrocannabinol [THC], high cannabidiol [CBD], and intermediate THC∼CBD, respectively) and pretreated on 5% dimethyl sulfoxide agar plates for 48 h. The shoot tips were then vitrified in LN using 3 separate cryoprotectant (plant vitrification solutions [PVS] #2, #3, and #4) droplets on an aluminum cryoplate. There was no significant difference between the regrowth of cryopreserved shoot tips exposed to PVS2 for 15 and 20 min, but regrowth of all 3 cultivars significantly declined after 20 min of exposure. Exposure duration of 15 min was adapted for subsequent experiments. Regrowth of cryopreserved MX was significantly higher with PVS2 (63%) than with PVS3 and PVS4 (≤5%). Regrowth of cryopreserved VI-20 was highest with PVS2 (57%) and significantly higher than with PVS3 and PVS4 (≤25%). The regrowth of cryopreserved shoot tips of B-5 was significantly different between all 3 protocols with PVS2 > PVS4 > PVS3. Both PVS2 and PVS4 produced regrowth above 55%, while regrowth with PVS3 was significantly lower (31%). These results indicate that 15–20 min of exposure to PVS2 are most suitable for cryopreservation of these varieties. This is the first report on protocol development for the cryopreservation of organized tissues of C. sativa L. for germplasm conservation.

scholarly journals Integration of Cryopreservation and Tissue Culture for Germplasm Conservation and Propagation of Rosa pomifera ‘Karpatia’

2017 ◽  
Vol 45 (1) ◽  
pp. 208-214 ◽  
Author(s):  
Ewelina KWAŚNIEWSKA ◽  
Ewa DZIEDZIC ◽  
Bożena PAWŁOWSKA
Keyword(s):  
Treatment Time ◽  
Germplasm Conservation ◽  
Shoot Multiplication ◽  
Shoot Tips ◽  
Ms Medium ◽  
Droplet Vitrification ◽  
Multiplication Cycle ◽  
New Research

Cryopreservation is an useful technique for long-term conservation that requires minimal space and maintenance. Germplasm protection of Rosa is important to preserve genetic diversity, to store material for breeding and to expand new research. This study was conducted to develop a droplet vitrification cryopreservation and micropropagation of Rosa pomifera cv. ‘Karpatia’, whose large hypanthia are characterized by remarkable pro-health properties. Culture in vitro was stabilized and shoot tips collected from dormant buds served as initial explants. The multiplication of shoots was carried out on MS medium containing benzyladenine. For the droplet vitrification cryopreservation, shoot tips from in vitro cultures were used: small with exposed meristem, and large with a meristem covered with leaves, as well as shoot tips from in situ plants, which were collected in winter. Treatment time with plant vitrification solution (PVS2) was also tested (10-30 minutes). From in vitro culture, 32-41% small explants with exposed meristem survived, but they regenerated at a very low level. The best cryostorage results were obtained for shoot tips from dormant buds and a 20-minute PVS2 treatment: the survival was 84% and regeneration 72%. During the post-freezing regeneration multiplication index was 2.4 shoots per one multiplication cycle, after cryopreservation and in the control. On half MS medium without growth regulators, 97-99% of shoots rooted, and all rooted plants have adapted to ex vitro conditions and were planted into the soil. Biometric analyses during shoot multiplication, rooting and acclimatization stages did not reveal any changes compared to the non-cryopreserved samples.

scholarly journals Effect of the Duration of Liquid Nitrogen Storage on the Regrowth of Blackberry Cryopreserved by Droplet Vitrification

2017 ◽  
Vol 66 (1-2) ◽  
pp. 44-50
Author(s):  
Tatjana Vujović ◽  
Đurđina Ružić ◽  
Radosav Cerović
Keyword(s):  
Liquid Nitrogen ◽  
Room Temperature ◽  
Shoot Tips ◽  
Lower Survival Rate ◽  
Droplet Vitrification ◽  
Vitrification Solution ◽  
Long Term Preservation ◽  
Direct Immersion

SummaryIn vitro shoot tips of the blackberry cultivar ‘Čačanska Bestrna’ were cryopreserved using the droplet vitrification technique. Upon loading (30 min) in a solution of 1.9 M glycerol and 0.5 M sucrose, the explants were dehydrated for 40 min on ice with the PVS A3 vitrification solution (glycerol 37.5%, dimethyl sulfoxide 15%, ethylene glycol 15% and sucrose 22.5%) and for 40 min at room temperature with the PVS3 solution (glycerol 50% and sucrose 50%). They were subsequently frozen in individual microdroplets of vitrification solution, by direct immersion in liquid nitrogen (LN), and kept therein for 2, 4, 8 and 24 h. The explant rewarming was performed in an unloading solution (0.8 M sucrose) for 30 min at room temperature. The duration of LN exposure did not exert significant effects on the survival and regrowth of explants in both types of vitrification solutions. The survival and regrowth of cryopreserved shoot tips dehydrated with PVS3 solution ranged between 90–95% and 80–90%, respectively. However, dehydration with PVS A3 resulted in a lower survival rate (80–90%) and a considerably lower regrowth rate (55–65%) of explants. Monitoring the shoots regenerated in the in vitro culture revealed their normal capacity for multiplication and rooting in comparison with the controls, which fully confirms the purpose of cryopreservation in the long-term preservation of plant material.

scholarly journals A modified droplet vitrification method for cryopreservation of shoot tips from in vitro potato plants

2019 ◽  
Vol 23 (4) ◽  
pp. 422-429 ◽  
Author(s):  
T. A. Gavrilenko ◽  
N. A. Shvachko ◽  
N. N. Volkova ◽  
Yu. V. Ukhatova
Keyword(s):  
Plant Genetic Resources ◽  
Original Method ◽  
Shoot Tips ◽  
Droplet Vitrification ◽  
Modified Method ◽  
Long Term Storage ◽  
Common Potato ◽  
The Impact

Collections of common potato maintained in the field genebanks suffer significant losses due to the impact of extreme environmental factors, diseases and pests. The solution of the problem of safe long-term preservation of common potato accessions is to create doublet in vitro and cryo-collections. Cryogenic collections are stored at ultra-low temperatures in cryobanks. Several methods of potato cryoconservation are known, of which the droplet vitrification method developed by B. Panis with colleagues in 2005 is the most widely used in genebanks. This paper provides a detailed description of the modified method of droplet vitrification, which is used for cryopreservation of apexes (shoot tips) of potato in vitro plants at the N.I. Vavilov All-Russian Institute of Plant Genetic Resources (VIR). The method modified at VIR includes the main steps of the original droplet-vitrification method developed by B. Panis and colleagues: 1) preparation of plant material, 2) isolation of shoot tips, 3) treatment of explants with cryoprotector solutions, 4) freezing/immersion in liquid nitrogen, 5) thawing, 6) post-cryogenic recovery and evaluation of viability and regeneration capacity. The modifications of stages 1, 2 and 6 proposed at VIR lead to a significant reduction in the duration of cryopreservation experiments in comparison with the original method of B. Panis. This paper presents the results of cryopreservation of modern potato cultivars and South American landraces which were obtained using the method of droplet vitrification as modified at VIR. The majority (76.7 %) of the studied accessions of cultivated potato were characterized by high rates of postcryogenic recovery (40–95 %) and 23.3 % of the samples had the values of postcryogenic regeneration from 20 to 39 %, which corresponds to the minimal permissible values for long-term storage in a cryobank. Currently the modified droplet-vitrification method is used for further expanding of the VIR potato cryocollection.

scholarly journals Micropropagation and Cryopreservation of Yukon Draba (Draba yukonensis), a Special Concern Plant Species Endemic to Yukon Territory, Canada

Plants ◽  
2021 ◽  
Vol 10 (10) ◽  
pp. 2093
Author(s):  
Akansha Saxena ◽  
Wen-Lu Bi ◽  
Mukund R. Shukla ◽  
Syd Cannings ◽  
Bruce Bennett ◽  
...  
Keyword(s):  
Natural Habitat ◽  
Germplasm Conservation ◽  
Yukon Territory ◽  
Shoot Tips ◽  
Indole Butyric Acid ◽  
Special Concern ◽  
Basal Salts ◽  
Direct Immersion

Yukon Draba (Draba yukonensis) is a small, short-lived perennial mustard species that is endemic to southwestern Yukon in Canada. This plant has been categorized as a species of Special Concern. It faces the threat of habitat loss due to natural and man-made causes and a population that is unevenly distributed to a few large and several small subpopulations in the area. It will therefore be judicious to undertake investigations on the conservation of this species to save it from further deterioration which may lead to its extinction. In this study, a protocol was developed for in vitro propagation and cryopreservation of Yukon Draba. The micropropagation protocol was optimized using shoot tips which enabled clonal propagation and in vitro storage of the species. Shoots grew best in the medium containing MS basal salts and had the highest multiplication with the addition of 2 µM 6-benzylaminopurine or 5 µM Kinetin with 3% sucrose. The addition of 10 µM Indole Butyric Acid (IBA) produced the highest number of adventitious roots on the shoots and the longest root length was observed at 2 µM IBA. The rooted plantlets were transferred to greenhouse and the highest survival (87.5%) was observed for the plantlets treated with a lower concentration of IBA (2 µM). Cryopreservation protocol was developed using the droplet-vitrification method for in vitro shoot tips. Two-week-old shoots had the highest survival and regrowth following exposure to plant vitrification solution 3 (PVS3) for 30 min, prior to direct immersion of the droplets into the liquid nitrogen. The optimized protocols for the micropropagation and cryopreservation may be useful for the long-term germplasm conservation and reintroduction of this species in its natural habitat.

scholarly journals Biofilm reduction potential of 0.02% polyhexanide irrigation solution in several types of urethral catheters

BMC Urology ◽  
2021 ◽  
Vol 21 (1) ◽  
Author(s):  
Florian H. H. Brill ◽  
Julia Hambach ◽  
Christian Utpatel ◽  
Diana C. Mogrovejo ◽  
Henrik Gabriel ◽  
...  
Keyword(s):  
Membrane Filtration ◽  
Saline Solution ◽  
Bacterial Biofilm ◽  
Plate Count ◽  
Vitro Assay ◽  
Significant Difference ◽  
Irrigation Solution ◽  
Clinically Relevant Bacteria

Abstract Background Long-term use of urethral catheters is associated with high risk of urinary tract infection (UTI) and blockage. Microbial biofilms are a common cause of catheter blockage, reducing their lifetime and significantly increasing morbidity of UTIs. A 0.02% polyhexanide irrigation solution developed for routine mechanical rinsing shows potential for bacterial decolonization of urethral catheters and has the potential to reduce or prevent biofilm formation. Methods Using an in vitro assay with standard market-leading types of catheters artificially contaminated with clinically relevant bacteria, assays were carried out to evaluate the biofilm reduction and prevention potential of a 0.02% polyhexanide solution versus no intervention (standard approach) and irrigation with saline solution (NaCl 0.9%). The efficiency of decolonization was measured through microbial plate count and membrane filtration. Results Irrigation using a 0.02% polyhexanide solution is suitable for the decolonization of a variety of transurethral catheters. The effect observed is significant compared to irrigation with 0.9% saline solution (p = 0.002) or no treatment (p = 0.011). No significant difference was found between irrigation with 0.9% saline solution and no treatment (p = 0.74). Conclusions A 0.02% polyhexanide solution is able to reduce bacterial biofilm from catheters artificially contaminated with clinically relevant bacteria in vitro. The data shows a reduction of the viability of thick bacterial biofilms in a variety of commercially available urinary catheters made from silicone, latex-free silicone, hydrogel-coated silicone and PVC. Further research is required to evaluate the long-term tolerability and efficacy of polyhexanide in clinical practice.

scholarly journals In vitro Conservation and Cryopreservation of Nandina domestica, an Outdoor Ornamental Shrub

2013 ◽  
Vol 41 (2) ◽  
pp. 638 ◽  
Author(s):  
Aylin OZUDOGRU ◽  
Diogo Pedrosa Corrêa Da SILVA ◽  
Ergun KAYA ◽  
Giuliano DRADI ◽  
Renato PAIVA ◽  
...  
Keyword(s):  
Liquid Nitrogen ◽  
Storage Temperature ◽  
Sucrose Concentration ◽  
Aluminum Foil ◽  
Shoot Tips ◽  
In Vitro Conservation ◽  
Shoot Cultures ◽  
Storage Medium ◽  
Droplet Vitrification

The study focused on an economically-important ornamental outdoor shrub, Nandina domestica, with the aims to (i) optimize an effective in vitro conservation method, and (ii) develop a cryopreservation protocol for shoot tips by the PVS2 vitrification and droplet-vitrification techniques. For in vitro conservation of shoot cultures, the tested parameters were sucrose content in the storage medium (30, 45, 60 g/L) and storage temperature (4 °C or 8 °C). Cryopreservation was performed by applying the PVS2 vitrification solution, in 2-ml cryovials or in drops over aluminum foil strips, for 15, 30, 60 or 90 min at 0 °C, followed by the direct immersion in liquid nitrogen of shoot tips. Results show that N. domestica shoots can be conserved successfully for 6 months at both the temperatures tested, especially when 60 g/L sucrose is used in the storage medium. However, conservation at 4 °C showed to be more appropriate, as hyperhydricity was observed in post-conservation of shoots coming from storage at 8 °C. As for cryopreservation, a daily gradual increase of sucrose concentration (from 0.25 to 1.0 M) produced better protection to the samples that were stored in liquid nitrogen. Indeed, with this sucrose treatment method, a 30-min PVS2 incubation time was enough to produce, 60 days after thawing, the best recovery (47% and 50%) of shoot tips, cryopreserved with PVS2 vitrification and droplet-vitrification, respectively.

scholarly journals Improved Conservation of Coffee (Coffea arabica L.) Germplasm via Micropropagation and Cryopreservation

Agronomy ◽  
2021 ◽  
Vol 11 (9) ◽  
pp. 1861
Author(s):  
Yanelis Castilla Valdés ◽  
Mukund R. Shukla ◽  
María Esther González Vega ◽  
Praveen K. Saxena
Keyword(s):  
Coffea Arabica ◽  
Plant Genetic Resources ◽  
Ex Situ ◽  
Zygotic Embryos ◽  
Agricultural Crop ◽  
Temporary Immersion ◽  
Droplet Vitrification ◽  
Coffea Arabica L

Coffee (Coffea spp.) is an important tropical agricultural crop that has significant economic and social importance in the world. The ex situ conservation of plant genetic resources through seeds is not feasible due to the sensitivity of coffee seed to desiccation and low temperatures. The cryopreservation of zygotic embryos may allow for an efficient and long-term storage of coffee germplasm. This study describes the cryopreservation methods for conserving zygotic embryos of Coffea arabica L. for the long-term conservation of currently available germplasm. Zygotic embryos were successfully cryopreserved in liquid nitrogen at −196 °C under controlled environmental conditions with either droplet-vitrification or encapsulation–vitrification protocols without dehydration. Zygotic embryos had the highest regrowth (100%) following droplet-vitrification cryopreservation using the Plant Vitrification Solution 3 (PVS3) for 40 min at 23 °C. In the case of encapsulation–vitrification using PVS3 for 40 min at 23 °C, the embryo regeneration response was 78%. Plantlets were recovered following shoot multiplication using a temporary immersion system (TIS) and in vitro rooting. The prolific rooting of shoots was observed after 4 weeks of culture in the liquid medium with plugs made of the inert substrate Oasis® In vitro Express (IVE) compared to the semi-solid medium. The successful cryopreservation of coffee zygotic embryos using droplet vitrification and encapsulation–vitrification followed by micropropagation in temporary immersion culture system has not been reported earlier and together these technologies are anticipated to further facilitate the initiatives for the conservation and distribution of coffee germplasm.

scholarly journals Long-term in Vitro Regeneration of Hamelia patens

HortScience ◽  
1995 ◽  
Vol 30 (4) ◽  
pp. 873G-874
Author(s):  
D. Sankhla ◽  
T.D. Davis ◽  
N. Sankhla ◽  
A. Upadhyaya
Keyword(s):  
Culture Medium ◽  
In Vitro Regeneration ◽  
Shoot Formation ◽  
Shoot Tips ◽  
Shoot Cultures ◽  
Ms Medium ◽  
Prolific Shoot ◽  
Ornamental Shrub

This report describes an efficient in vitro regeneration protocol for H. patens (firebush), a heat-tolerant ornamental shrub native to tropical and subtropical America. Shoot cultures were initially established using shoot tips placed on MS-revised medium containing 2.3 μM 2,4-D, 2.3 μM kinetin, and 0.25% polyvinylpyrrolidone. Other types of explants (nodal and internodal segments, leaf pieces, floral buds) did not regenerate shoots when placed on this medium. Two-month-old plantlets derived from the shoot tips were subcultured on MS medium supplemented with 0.5 μM thidiazuron (TDZ), and within 3 to 4 weeks, some callus was produced at the root–shoot junction. When this callus, with a small portion of the root and shoots, was placed on MS medium with 0.05 μM TDZ and 0.01 μM ABA, prolific shoot formation occurred within 3 to 4 weeks followed by root formation. By regular subculturing every 5 to 6 weeks, hundreds of plantlets have been obtained over the past 3 years with no apparent decline in regeneration potential. Addition of activated charcoal (0.5%) to the culture medium has greatly improved growth of the plantlets.

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