Miloš Faltus scite author profile

Insects that naturally tolerate internal freezing produce complex mixtures of multiple cryoprotectants (CPs). Better knowledge on composition of these mixtures, and on mechanisms of how the individual CPs interact, could inspire development of laboratory CP formulations optimized for cryopreservation of cells and other biological material. Here we identify and quantify (using high resolution mass spectrometry) a range of putative CPs in larval tissues of a subarctic fly, Chymomyza costata that survives long-term cryopreservation in liquid nitrogen. The CPs (proline, trehalose, glutamine, asparagine, glycine betaine, glycerophosphoethanolamine, glycerophosphocholine, and sarcosine) accumulate in hemolymph in a ratio of 313:108:55:26:6:4:2.9:0.5 mmol.L−1. Using calorimetry, we show that the artificial mixtures, mimicking the concentrations of major CPs' in hemolymph of freeze-tolerant larvae, suppress the melting point of water and significantly reduce the ice fraction. We demonstrate in a bioassay that mixtures of CPs administered through the diet act synergistically rather than additively to enable cryopreservation of otherwise freeze-sensitive larvae. Using MALDI-MSI, we show that during slow extracellular freezing trehalose becomes concentrated in partially dehydrated hemolymph where it stimulates transition to the amorphous glass phase. In contrast, proline moves to the boundary between extracellular ice and dehydrated hemolymph and tissues where it likely forms a layer of dense viscoelastic liquid. We propose that amorphous glass and viscoelastic liquids may protect macromolecules and cells from thermomechanical shocks associated with freezing and transfer into and out of liquid nitrogen.

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Dormancy development during cold hardening of in vitro cultured Malus domestica Borkh. plants in relation to their frost resistance and cryotolerance

Bilavčík

Zámečnı́k

Grospietsch

et al. 2012

Trees

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The development of dormancy, frost resistance and cryotolerance of in vitro apple plants (Malus domestica Borkh.), cv. Greensleeves during their exposure to cold hardening was studied. In vitro cultures were cold hardened at 4°C under a short photoperiod up to 25 weeks. The dormancy status, non-structural saccharides, proline, water content and frost resistance were evaluated for optimization of cryopreservation. According to regrowth tests, in vitro cultures exhibited endogenous dormancy after the maximal frost resistance was reached. The highest regeneration ability of shoot tips after cryopreservation by encapsulation-dehydration method coincided with the period of the plant's dormant state and maximum of frost resistance. All studied saccharides and proline exhibited the maximal values at the beginning of cold hardening and/ or the dormancy phase. Contrary to the accumulation of saccharides and proline, water content showed the inverse time behaviour. According to these results, the cold hardening-induced endodormancy, high frost resistance and accumulation of saccharides and proline are the important prerequisites for the successful cryopreservation of shoot tips of in vitro grown apple plants.

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Glass transition and heat capacity behaviors of plant vitrification solutions

et al. 2014

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Differential scanning calorimetry (DSC) was employed to investigate the vitrification and annealing behaviors of the most commonly used plant vitrification solutions (PVS). These solutions are employed to protect plant tissues towards ice formation and freeze injury, and help to the vitrification of these tissues, by globally reducing the intracellular fluids mobility. Glass transition temperatures (T g) and heat capacity increments (∆Cp) were determined for five solutions PVS1, PVS2, PVS2 mod, PVS3 and PVS3 mod, with different composition, and a range of cooling and warming rates was employed. Glass transitions showed clear and consistent temperature differences within vitrification solutions, which could be related to composition and water content. Roughly, two sets of T G values were obtained, those for PVS1 and 2, at-112 ºC and-114 ºC, respectively, and those for PSV3, at-90 ºC. The observed T g and ∆Cp, unexpectedly, did not significantly change within a wide range of cooling rates (from 5 ºC min-1 to liquid nitrogen quenching) and warming rates (from 5 to 20 ºC). Garlic shoot tips cryopreserved after the droplet method produced a similar result to that of the vitrification solutions employed. After quench cooling to temperatures below T g , repeated excursions to higher temperatures were made and the cooling and warming T g were recorded. These treatments had little or no effect over the PVS solutions T g , which remained practically constant. A direct practical consequence is that the plant vitrification solutions glass transition temperature does not significantly change with cryopreservation methods based on either direct plunging of samples into liquid nitrogen or employing closed cryovials.

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Waste silicate minerals as potassium sources: a greenhouse study on spring barley

Madaras

Mayerová

Kulhánek

et al. 2013

Archives of Agronomy and Soil Science

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Thermal analysis of cryopreserved Hypericum perforatum L. shoot tips: Cooling regime dependent dehydration and ice growth

et al. 2011

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Comparison of Cryopreservation Methods of Vegetatively Propagated Crops Based on Thermal Analysis

Zámečnı́k¹,

Faltus²,

Bilavčík³

et al. 2012

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Cryotolerance of apple tree bud is independent of endodormancy

2015

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Increasing interest in cryopreservation of dormant buds reveals the need for better understanding of the role of dormancy in cryotolerance. Dormancy stage and low-temperature survival of vegetative apple buds (Malus domestica Borkh.), cultivars ‘Sampion’ and ‘Spartan’, collected from orchard were evaluated during three seasons contrasting in temperature and precipitation throughout the arrested plant growth period. During each season, the cultivars differed either in the onset of the endodormancy or in the length of the endodormant period. A simple relation between endodormancy of the buds and their water content was not detected. The cryosurvival of vegetative apple buds of both cultivars correlated with their cold hardening without direct regard to their particular phase of dormancy. The period of the highest bud cryotolerance after low-temperature exposure overlapped with the endodormant period in some evaluated seasons. Both cultivars had the highest cryosurvival in December and January. The presented data were compared with our previous results from a dormancy study of in vitro apple culture. Endodormancy coincided with the period of successful cryosurvival of apple buds after liquid nitrogen exposure, but as such, it was not decisive for their survival and did not limit their successful cryopreservation.

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Vitrification Solutions for Plant Cryopreservation: Modification and Properties

Zámečnı́k

Faltus

Bilavčík

2021

Plants

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Many plants cannot vitrify themselves because they lack glassy state-inducing substances and/or have high water content. Therefore, cryoprotectants are used to induce vitrification. A cryoprotectant must have at least the following primary abilities: high glass-forming property, dehydration strength on a colligative basis to dehydrate plant cells to induce the vitrification state, and must not be toxic for plants. This review introduces the compounds used for vitrification solutions (VSs), their properties indicating a modification of different plant vitrification solutions, their modifications in the compounds, and/or their concentration. An experimental comparison is listed based on the survival or regeneration rate of one particular species after using more than three different VSs or their modifications. A brief overview of various cryopreservation methods using the Plant Vitrification Solution (PVS) is also included. This review can help in alert researchers to newly introduced PVSs for plant vitrification cryoprotocols, their properties, and the choice of their modifications in the compounds and/or their concentration.

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Miloš Faltus

A mixture of innate cryoprotectants is key for freeze tolerance and cryopreservation of a drosophilid fly larva

Dormancy development during cold hardening of in vitro cultured Malus domestica Borkh. plants in relation to their frost resistance and cryotolerance

Glass transition and heat capacity behaviors of plant vitrification solutions

Waste silicate minerals as potassium sources: a greenhouse study on spring barley

Thermal analysis of cryopreserved Hypericum perforatum L. shoot tips: Cooling regime dependent dehydration and ice growth

Comparison of Cryopreservation Methods of Vegetatively Propagated Crops Based on Thermal Analysis

Cryotolerance of apple tree bud is independent of endodormancy

Vitrification Solutions for Plant Cryopreservation: Modification and Properties

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