Add to ORKGThe fold of the β-helical antifreeze protein from Tenebrio molitor (TmAFP) proved to be surprisingly tolerant of multiple amino acid substitutions, enabling the construction of a panel of mutants displaying grids of single amino acid types in place of the threonines on the ice-binding face. These mutants, maintaining the regularity of amino acid spacing found in the wild-type protein but with different functional groups on the surface, were tested for antifreeze activity by measuring thermal hysteresis and observing ice grown in their presence. We found that no mutant exhibited the dramatic activity of the wild-type version of this hyperactive antifreeze protein. However, mutants containing four valines or tyrosines in place of the threonin...
AbstractIt has been suggested that cooperative interactions between antifreeze proteins (AFPs) on th...
AbstractAntifreeze proteins (AFPs) help many organisms protect themselves from freezing in subzero t...
AbstractAll three fish antifreeze protein types (I, II and III) inhibit the growth of ice to form he...
Mutation of residues at the ice-binding site of type III antifreeze protein (AFP) not only reduced a...
AbstractMany organisms are able to survive subzero temperatures at which bodily fluids would normall...
AbstractReported here is the 2.3 Å resolution crystal structure of spruce budworm (Choristoneura fum...
This thesis describes the design, synthesis and measurement of ice growth inhibition properties of ...
Antifreeze proteins (AFPs) are a subset of ice-binding proteins that control ice crystal growth. The...
Many organisms are exposed to subzero temperatures in nature and can survive these temperatures by t...
AbstractThe beetle Tenebrio molitor produces several isoforms of a highly disulfide-bonded β-helical...
Thesis (M.S.) California State University, Los Angeles, 2012Committee members: Xin Wen, Hyunso...
Many organisms are exposed to subzero temperatures in nature and can survive these temperatures by t...
© 2017 Wang et al. This is an open access article distributed under the terms of the Creative Common...
Antifreeze proteins (AFPs) evolved in many organisms, allowing them to survive in cold climates by c...
AbstractBackground Antifreeze proteins are found in certain fish inhabiting polar sea water. These p...
AbstractIt has been suggested that cooperative interactions between antifreeze proteins (AFPs) on th...
AbstractAntifreeze proteins (AFPs) help many organisms protect themselves from freezing in subzero t...
AbstractAll three fish antifreeze protein types (I, II and III) inhibit the growth of ice to form he...
Mutation of residues at the ice-binding site of type III antifreeze protein (AFP) not only reduced a...
AbstractMany organisms are able to survive subzero temperatures at which bodily fluids would normall...
AbstractReported here is the 2.3 Å resolution crystal structure of spruce budworm (Choristoneura fum...
This thesis describes the design, synthesis and measurement of ice growth inhibition properties of ...
Antifreeze proteins (AFPs) are a subset of ice-binding proteins that control ice crystal growth. The...
Many organisms are exposed to subzero temperatures in nature and can survive these temperatures by t...
AbstractThe beetle Tenebrio molitor produces several isoforms of a highly disulfide-bonded β-helical...
Thesis (M.S.) California State University, Los Angeles, 2012Committee members: Xin Wen, Hyunso...
Many organisms are exposed to subzero temperatures in nature and can survive these temperatures by t...
© 2017 Wang et al. This is an open access article distributed under the terms of the Creative Common...
Antifreeze proteins (AFPs) evolved in many organisms, allowing them to survive in cold climates by c...
AbstractBackground Antifreeze proteins are found in certain fish inhabiting polar sea water. These p...
AbstractIt has been suggested that cooperative interactions between antifreeze proteins (AFPs) on th...
AbstractAntifreeze proteins (AFPs) help many organisms protect themselves from freezing in subzero t...
AbstractAll three fish antifreeze protein types (I, II and III) inhibit the growth of ice to form he...