%0 Journal Article %1 citeulike:2971226 %A Wisniewski, Michael %A Davis, Glen %A Schafter, Karen %D 1991 %J Planta %K acclimation, anatomy, cellular, citeulikeExport freezing, xylem %N 2 %P 254--260 %R 10.1007/bf01102426 %T Mediation of deep supercooling of peach and dogwood by enzymatic modifications in cell-wall structure %U http://dx.doi.org/10.1007/bf01102426 %V 184 %X Treatment of stem sections of peach (Prunus persica (L.) Batsch) and flowering dogwood (Cornus florida L.) with macerase, an enzyme mixture rich in pectinase, for 24–48 h resulted in a complete flattening of the low-temperature exotherm (LTE) as determined by differential thermal analysis (DTA). Ultrastructural analysis of macerase-treated tissue demonstrated a nearly complete digestion of the pit membrane (black cap and primary cell-wall) of nearly 100\% of the xylem-parenchyma cells examined after 48 h of exposure to the enzyme. Additionally, the underlying amorphous layer was partially degraded in up to 57\% of the cells examined. The macerase treatment had no visible effect on secondary cell-walls of xylem tissue. In contrast, treatment of stem tissue with cellulysin (mostly cellulase) resulted in a shift of the LTE to warmer temperatures as determined by DTA, and a digestion of only the outermost layer of the pit membrane in nearly 100\% of the cells examined, with little or no effect on the underlying layers. Treatment of tissue with 25 mM sodiumphosphate buffer also resulted in a shift of the LTE to warmer temperatures but the shift was not as great as in cellulysin-treated tissue. The shift was associated with a partial degradation of the outermost layer of the pit membrane in dogwood (33–45\% of the cells examined) but not in peach (3–7\% of the cells). Collectively, the data indicate that pectins may be an integral structural element of the pit membrane and that this portion of the cell-wall, along with the underlying amorphous layer, play a major role in forming a barrier to water movement and growth of ice crystals. This barrier allows xylem parenchyma of some species of woody plants to undergo deep supercooling.

@article{citeulike:2971226, abstract = {{Treatment of stem sections of peach (Prunus persica (L.) Batsch) and flowering dogwood (Cornus florida L.) with macerase, an enzyme mixture rich in pectinase, for 24–48 h resulted in a complete flattening of the low-temperature exotherm (LTE) as determined by differential thermal analysis (DTA). Ultrastructural analysis of macerase-treated tissue demonstrated a nearly complete digestion of the pit membrane (black cap and primary cell-wall) of nearly 100\% of the xylem-parenchyma cells examined after 48 h of exposure to the enzyme. Additionally, the underlying amorphous layer was partially degraded in up to 57\% of the cells examined. The macerase treatment had no visible effect on secondary cell-walls of xylem tissue. In contrast, treatment of stem tissue with cellulysin (mostly cellulase) resulted in a shift of the LTE to warmer temperatures as determined by DTA, and a digestion of only the outermost layer of the pit membrane in nearly 100\% of the cells examined, with little or no effect on the underlying layers. Treatment of tissue with 25 mM sodiumphosphate buffer also resulted in a shift of the LTE to warmer temperatures but the shift was not as great as in cellulysin-treated tissue. The shift was associated with a partial degradation of the outermost layer of the pit membrane in dogwood (33–45\% of the cells examined) but not in peach (3–7\% of the cells). Collectively, the data indicate that pectins may be an integral structural element of the pit membrane and that this portion of the cell-wall, along with the underlying amorphous layer, play a major role in forming a barrier to water movement and growth of ice crystals. This barrier allows xylem parenchyma of some species of woody plants to undergo deep supercooling.}}, added-at = {2019-03-31T01:14:40.000+0100}, author = {Wisniewski, Michael and Davis, Glen and Schafter, Karen}, biburl = {https://www.bibsonomy.org/bibtex/2016ddec4580a4da60475bcc1e9e87fa4/dianella}, citeulike-article-id = {2971226}, citeulike-linkout-0 = {http://dx.doi.org/10.1007/bf01102426}, day = 1, doi = {10.1007/bf01102426}, interhash = {aab8b9193425374e9dab0c500fea13dd}, intrahash = {016ddec4580a4da60475bcc1e9e87fa4}, journal = {Planta}, keywords = {acclimation, anatomy, cellular, citeulikeExport freezing, xylem}, month = may, number = 2, pages = {254--260}, posted-at = {2008-07-08 00:41:20}, priority = {2}, timestamp = {2019-03-31T01:16:26.000+0100}, title = {{Mediation of deep supercooling of peach and dogwood by enzymatic modifications in cell-wall structure}}, url = {http://dx.doi.org/10.1007/bf01102426}, volume = 184, year = 1991 }