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Antifreeze proteins are secreted by winter rye cells in suspension culture
Author(s) -
PihakaskiMaunsbach Kaarina,
Tamminen Ilkka,
Pietiäinen Milla,
Griffith Marilyn
Publication year - 2003
Publication title -
physiologia plantarum
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.351
H-Index - 146
eISSN - 1399-3054
pISSN - 0031-9317
DOI - 10.1034/j.1399-3054.2003.00110.x
Subject(s) - secale , antifreeze protein , apoplast , protoplast , extracellular , suspension (topology) , secretion , acclimatization , ice formation , cell culture , freezing point , cell wall , biology , chemistry , botany , microbiology and biotechnology , biochemistry , genetics , mathematics , physics , atmospheric sciences , homotopy , geology , pure mathematics , thermodynamics
During cold‐acclimation, winter rye ( Secale cereale L) leaves secrete antifreeze proteins (AFPs) into the apoplast. The AFPs bind to ice and modify its growth, which is easily observed in vitro . However, it is not yet known whether in planta AFPs interact with ice or whether they exert cryoprotective effects. These experiments are difficult to conduct with intact plants, so the aim of this work was to determine whether AFPs are produced in response to cold temperature in cell culture and to examine their function by using suspension cells. We showed that suspension cells secreted three of the six known winter rye AFPs into the culture medium during acclimation at 4°C. These AFPs were not present in washed suspension cells, thus indicating that they are not firmly bound to the cell walls. In order to examine the function of extracellular AFPs, non‐acclimated (NA) winter rye suspension cells and protoplasts isolated from NA winter rye leaves were then frozen and thawed in the presence of AFPs extracted from cold‐acclimated winter rye leaves. The AFPs had no effect on the survival of NA protoplasts after freezing; however, they lowered the lethal temperature at which 50% of the cells are killed by freezing (LT 50 ) of NA suspension cells by 2.5°C. We conclude that low above‐zero temperatures induce winter rye suspension cells to secrete AFPs free in solution where they can protect intact suspension cells, but not protoplasts, from freezing injury, presumably by interacting with extracellular ice.

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