New computational models of natural site mutations are developed that account for the different selective pressures acting on different locations in the protein. The number of adjustable parameters is greatly reduced by basing the models on the underlying physical-chemical properties of the amino acids. This allows us to use our method on small data sets built of specific protein types. We demonstrate that with this approach we can represent the evolutionary patterns in HIV envelope proteins far better than with more traditional methods. Proteins 32:289–295, 1998. © 1998 Wiley-Liss, Inc.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/38528/1/4_ftp.pd
One selection pressure shaping sequence evolution is the requirement that a protein fold with suffic...
Numerous models of molecular evolution have been developed over the years. Our knowledge of these mo...
Mathematical and statistical models are useful for describing and understanding observations in gene...
BACKGROUND: Since thermodynamic stability is a global property of proteins that has to be conserved ...
Proteins perform most of the specialized functions we require at a molecular level--they serve in ca...
Abstract Background Since thermodynamic stability is a global property of proteins that has to be co...
To investigate how the properties of individual amino acids result in proteins with particular struc...
Thesis (Ph.D.)--University of Washington, 2020An important goal in the study of protein evolution is...
The goal of this thesis work was the computational simulation of the evolution of populations of lat...
Proteins play a vital role in almost every process of life, and this diversity has been achieved by ...
We introduce a computational method to optimize the in vitro evolution of proteins. Simulating evolu...
The number of amino acids that occupy a given protein site during evolution reflects the selective c...
Abstract Background Sites of p...
textIdentifying sites under evolutionary pressure and predicting the effects of substitutions at tho...
ABSTRACT To investigate how the prop-erties of individual amino acids result in pro-teins with parti...
One selection pressure shaping sequence evolution is the requirement that a protein fold with suffic...
Numerous models of molecular evolution have been developed over the years. Our knowledge of these mo...
Mathematical and statistical models are useful for describing and understanding observations in gene...
BACKGROUND: Since thermodynamic stability is a global property of proteins that has to be conserved ...
Proteins perform most of the specialized functions we require at a molecular level--they serve in ca...
Abstract Background Since thermodynamic stability is a global property of proteins that has to be co...
To investigate how the properties of individual amino acids result in proteins with particular struc...
Thesis (Ph.D.)--University of Washington, 2020An important goal in the study of protein evolution is...
The goal of this thesis work was the computational simulation of the evolution of populations of lat...
Proteins play a vital role in almost every process of life, and this diversity has been achieved by ...
We introduce a computational method to optimize the in vitro evolution of proteins. Simulating evolu...
The number of amino acids that occupy a given protein site during evolution reflects the selective c...
Abstract Background Sites of p...
textIdentifying sites under evolutionary pressure and predicting the effects of substitutions at tho...
ABSTRACT To investigate how the prop-erties of individual amino acids result in pro-teins with parti...
One selection pressure shaping sequence evolution is the requirement that a protein fold with suffic...
Numerous models of molecular evolution have been developed over the years. Our knowledge of these mo...
Mathematical and statistical models are useful for describing and understanding observations in gene...