Add to ORKGBacterial ice nucleators (INs) are among the most effective ice nucleators known and are relevant for freezing processes in agriculture, the atmosphere, and the biosphere. Their ability to facilitate ice formation is due to specialized ice-nucleating proteins (INPs) anchored to the outer bacterial cell membrane, enabling the crystallization of water at temperatures up to −2 °C. In this Perspective, we highlight the importance of functional aggregation of INPs for the exceptionally high ice nucleation activity of bacterial ice nucleators. We emphasize that the bacterial cell membrane, as well as environmental conditions, is crucial for a precise functional INP aggregation. Interdisciplinary approaches combining high-throughput droplet freezi...
Forbes J, Bissoyi A, Eickhoff L, et al. Water-organizing motif continuity is critical for potent ice...
This research aimed at applying ice nucleation proteins (INPs) in freezing technologies to improve t...
Ice-nucleating organisms play important roles in the environment. With their ability to induce ice f...
Ice-nucleating proteins (INPs) from Pseudomonas syringae are among the most active ice nucleators kn...
Ice nucleation-active bacteria are the most efficient ice nucleators known, enabling the crystalliza...
Ice-nucleating proteins (INPs) found in bacteria are the most effective ice nucleators known, enabli...
AbstractWe generated a recombinant 96-residue polypeptide corresponding to a sequence Tyr176–Gly273 ...
Organisms that thrive at cold temperatures produce ice-binding proteins to manage the nucleation and...
AbstractA new ice nucleation gene from Pseudomonas syringae was isolated and overexpressed as a full...
Ice nucleation active bacteria have attracted particular attention due to their unique ability to pr...
A growing body of circumstantial evidence suggests that ice nucleation active (Ice(+)) bacteria cont...
Cloud glaciation is critically important for the global radiation budget (albedo) and for initiation...
Bacterial ice-nucleating proteins (INPs) promote heterogeneous ice nucleation more efficiently than ...
Biological material has gained increasing attention recently as a source of ice-nucleating particles...
The ice nucleation activities of five different <i>Pseudomonas syringae</i>, <i>Ps...
Forbes J, Bissoyi A, Eickhoff L, et al. Water-organizing motif continuity is critical for potent ice...
This research aimed at applying ice nucleation proteins (INPs) in freezing technologies to improve t...
Ice-nucleating organisms play important roles in the environment. With their ability to induce ice f...
Ice-nucleating proteins (INPs) from Pseudomonas syringae are among the most active ice nucleators kn...
Ice nucleation-active bacteria are the most efficient ice nucleators known, enabling the crystalliza...
Ice-nucleating proteins (INPs) found in bacteria are the most effective ice nucleators known, enabli...
AbstractWe generated a recombinant 96-residue polypeptide corresponding to a sequence Tyr176–Gly273 ...
Organisms that thrive at cold temperatures produce ice-binding proteins to manage the nucleation and...
AbstractA new ice nucleation gene from Pseudomonas syringae was isolated and overexpressed as a full...
Ice nucleation active bacteria have attracted particular attention due to their unique ability to pr...
A growing body of circumstantial evidence suggests that ice nucleation active (Ice(+)) bacteria cont...
Cloud glaciation is critically important for the global radiation budget (albedo) and for initiation...
Bacterial ice-nucleating proteins (INPs) promote heterogeneous ice nucleation more efficiently than ...
Biological material has gained increasing attention recently as a source of ice-nucleating particles...
The ice nucleation activities of five different <i>Pseudomonas syringae</i>, <i>Ps...
Forbes J, Bissoyi A, Eickhoff L, et al. Water-organizing motif continuity is critical for potent ice...
This research aimed at applying ice nucleation proteins (INPs) in freezing technologies to improve t...
Ice-nucleating organisms play important roles in the environment. With their ability to induce ice f...