%0 Conference Paper %1 koza:1998:pmGPcpsemcl %A Koza, John %A Bennett, Forrest %A Andre, David %B Evolutionary Programming VII: Proceedings of the Seventh Annual Conference on Evolutionary Programming %C Mission Valley Marriott, San Diego, California, USA %D 1998 %E Porto, V. William %E Saravanan, N. %E Waagen, D. %E Eiben, A. E. %I Springer-Verlag %K algorithms, genetic programming %R doi:10.1007/BFb0040753 %T Using Programmatic Motifs and Genetic Programming to Classify Protein Sequences as to Extracellular and Membrane Cellular Location %U http://www.genetic-programming.com/jkpdf/ep1998.pdf %V 1447 %X As newly sequenced proteins are deposited into the world's ever-growing archive of protein sequences, they are typically immediately tested by various algorithms for clues as to their biological structure and function. One question about a new protein involves its cellular location &shyp; that is, where the protein resides in a living organism (extracellular, membrane, etc.). A human-created five-way algorithm for cellular location using statistical techniques with 76% accuracy was recently reported. This paper describes a two-way algorithm that was evolved using genetic programming with 83% accuracy for determining whether a protein is extracellular and with 89% accuracy for membrane proteins. Unlike the statistical calculation, the genetically evolved algorithm employs a large and varied arsenal of computational capabilities, including arithmetic functions, conditional operations, subroutines, iterations, memory, data structures, set-creating operations, macro definitions, recursion, etc. The genetically evolved classification algorithm can be viewed as an extension (which we call a programmatic motif) of the conventional notion of a protein motif. %@ 3-540-64891-7

@inproceedings{koza:1998:pmGPcpsemcl, abstract = {As newly sequenced proteins are deposited into the world's ever-growing archive of protein sequences, they are typically immediately tested by various algorithms for clues as to their biological structure and function. One question about a new protein involves its cellular location &shyp; that is, where the protein resides in a living organism (extracellular, membrane, etc.). A human-created five-way algorithm for cellular location using statistical techniques with 76% accuracy was recently reported. This paper describes a two-way algorithm that was evolved using genetic programming with 83% accuracy for determining whether a protein is extracellular and with 89% accuracy for membrane proteins. Unlike the statistical calculation, the genetically evolved algorithm employs a large and varied arsenal of computational capabilities, including arithmetic functions, conditional operations, subroutines, iterations, memory, data structures, set-creating operations, macro definitions, recursion, etc. The genetically evolved classification algorithm can be viewed as an extension (which we call a programmatic motif) of the conventional notion of a protein motif.}, added-at = {2008-06-19T17:35:00.000+0200}, address = {Mission Valley Marriott, San Diego, California, USA}, author = {Koza, John and Bennett, Forrest and Andre, David}, biburl = {https://www.bibsonomy.org/bibtex/24522c97c6af2ef4b009d9d06f67a0d70/brazovayeye}, booktitle = {Evolutionary Programming VII: Proceedings of the Seventh Annual Conference on Evolutionary Programming}, doi = {doi:10.1007/BFb0040753}, editor = {Porto, V. William and Saravanan, N. and Waagen, D. and Eiben, A. E.}, interhash = {2b087fb3540a3a3faa52a4a5400db1b8}, intrahash = {4522c97c6af2ef4b009d9d06f67a0d70}, isbn = {3-540-64891-7}, keywords = {algorithms, genetic programming}, month = {25-27 March}, notes = {EP-98.}, publisher = {Springer-Verlag}, publisher_address = {Berlin}, series = {LNCS}, timestamp = {2008-06-19T17:44:07.000+0200}, title = {Using Programmatic Motifs and Genetic Programming to Classify Protein Sequences as to Extracellular and Membrane Cellular Location}, url = {http://www.genetic-programming.com/jkpdf/ep1998.pdf}, volume = 1447, year = 1998 }