Molecular Mechanisms of Tolerance in Tardigrades: New Perspectives for Preservation and Stabilization of Biological Material

Overview

Journal Biotechnol Adv

Specialties Biochemistry
Biotechnology

Date 2009 May 28

PMID 19472511

Citations 24

Authors

Ralph O Schill

Brahim Mali

Thomas Dandekar

Martina Schnolzer

Dirk Reuter

Marcus Frohme

Affiliations

Soon will be listed here.

Abstract

Certain organisms found across a range of taxa, including bacteria, yeasts, plants and many invertebrates such as nematodes and tardigrades are able to survive almost complete loss of body water. The dry organisms may remain in this state, which is known as anhydrobiosis, for decades without apparent damage. When water again becomes available, they rapidly rehydrate and resume active life. Research in anhydrobiosis has focused mainly on sugar metabolism and stress proteins. Despite the discovery of various molecules which are involved in desiccation and water stress, knowledge of the regulatory network governing the stability of the cellular architecture and the metabolic machinery during dehydration is still fragmentary and not well understood. A combination of transcriptional, proteomic and metabolic approaches with bioinformatics tools can provide a better understanding of gene regulation that underlie the biological functions and physiology related to anhydrobiosis. The development of this concept will raise exciting possibilities and techniques for the preservation and stabilization of biological materials in the dry state.

Citing Articles

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Wilanowska P, Rzymski P, Kaczmarek L Life (Basel). 2024; 14(3).

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Adult Stem Cells Freezing Processes and Cryopreservation Protocols.

Dey M, Devireddy R Methods Mol Biol. 2024; 2783:53-89.

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Recovery from anhydrobiosis in the tardigrade : Better to be young than old and in a group than alone.

Nagwani A, Melosik I, Kaczmarek L, Kmita H Heliyon. 2024; 10(5):e26807.

PMID: 38434295 PMC: 10907786. DOI: 10.1016/j.heliyon.2024.e26807.

Verification of Hypsibius exemplaris Gąsiorek et al., 2018 (Eutardigrada; Hypsibiidae) application in anhydrobiosis research.

Poprawa I, Bartylak T, Kulpla A, Erdmann W, Roszkowska M, Chajec L PLoS One. 2022; 17(3):e0261485.

PMID: 35303010 PMC: 8932574. DOI: 10.1371/journal.pone.0261485.

Intrinsically Disordered Tardigrade Proteins Self-Assemble into Fibrous Gels in Response to Environmental Stress.

Malki A, Teulon J, Camacho-Zarco A, Chen S, Adamski W, Maurin D Angew Chem Int Ed Engl. 2021; 61(1):e202109961.

PMID: 34750927 PMC: 9299615. DOI: 10.1002/anie.202109961.