Abstract
Ice-binding proteins (IBPs) are found in many organisms, such as fish and hexapods, plants, and bacteria that need to cope with low temperatures. Ice nucleation and thermal hysteresis are two attributes of IBPs. While ice nucleation is promoted by large proteins, known as ice nucleating proteins, the smaller IBPs, referred to as antifreeze proteins (AFPs), inhibit the growth of ice crystals by up to several degrees below the melting point, resulting in a thermal hysteresis (TH) gap between melting and ice growth. Recently, we showed that the nucleation capacity of two types of IBPs corresponds to their size, in agreement with classical nucleation theory. Here, we expand this finding to additional IBPs that we isolated from snow fleas (the arthropod Collembola), collected in northern Israel. Chemical analyses using circular dichroism and Fourier-transform infrared spectroscopy data suggest that these IBPs have a similar structure to a previously reported snow flea antifreeze protein. Further experiments reveal that the ice-shell purified proteins have hyperactive antifreeze properties, as determined by nanoliter osmometry, and also exhibit low ice-nucleation activity in accordance with their size.
Highlights
IntroductionCollembola ( referred to as springtails) are the world’s most abundant hexapods (arthropods and insects) and can be found in diverse habitats, from the tropics to the poles [1]
Collembola are the world’s most abundant hexapods and can be found in diverse habitats, from the tropics to the poles [1]
A new Collembola species was found in Mount Hermon, a snow flea which contains ice-binding proteins (IBPs)
Summary
Collembola ( referred to as springtails) are the world’s most abundant hexapods (arthropods and insects) and can be found in diverse habitats, from the tropics to the poles [1]. Collembola, an ancient group of organisms, forms a separate class within the phylum Arthropoda. These arthropods can survive at low temperatures, and the physiological processes behind this survival are well documented. A survey of the geographical regions of Israel showed that the highest number of species and individuals are located in the Mount Hermon area, where temperatures reach below −10 ◦ C [3]. A new springtail, based on phylogenetic analysis, which we recently found in the snow in the same area, is studied in this report. In contrast to other arthropods, Biomolecules 2019, 9, 532; doi:10.3390/biom9100532 www.mdpi.com/journal/biomolecules
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
