Knight C A, Devries A L
Science. 1989 Aug 4;245(4917):505-7. doi: 10.1126/science.245.4917.505.
The melting of pure ice single crystals can be inhibited by the presence of an antifreeze glycopeptide isolated from an Antarctic fish. This inhibition effect exhibits crystallographic dependence and can result in superheating of the crystal by heat conduction across the ice-solution interface. The antifreeze molecules inhibit melting in a manner more or less symmetrical to their well-known effect of inhibiting freezing. The melting effect is best expressed at concave ice interfaces, whereas the freezing effect is best expressed at convex ones. Both are restricted to orientations near (1010) with the particular antifreeze that was used.
从南极鱼类中分离出的一种抗冻糖肽能够抑制纯冰单晶的融化。这种抑制作用表现出晶体学依赖性,并且会通过冰 - 溶液界面的热传导导致晶体过热。抗冻分子抑制融化的方式与其抑制结冰的著名效应或多或少呈对称关系。融化效应在凹形冰界面处表现得最为明显,而结冰效应在凸形冰界面处表现得最为明显。对于所使用的特定抗冻剂而言,这两种效应都局限于靠近(1010)的取向。