Comparative protein structure modeling of genes and genomes

Marc A. Martí-Renom, Ashley C. Stuart, András Fiser, Roberto Sánchez, Francisco Melo, Andrej Šali

Research output: Contribution to journalReview articlepeer-review

2627 Scopus citations


Comparative modeling predicts the three-dimensional structure of a given protein sequence (target) based primarily on its alignment to one or more proteins of known structure (templates). The prediction process consists of fold assignment, target-template alignment, model building, and model evaluation. The number of protein sequences that can be modeled and the accuracy of the predictions are increasing steadily because of the growth in the number of known protein structures and because of the improvements in the modeling software. Further advances are necessary in recognizing weak sequence-structure similarities, aligning sequences with structures, modeling of rigid body shifts, distortions, loops and side chains, as well as detecting errors in a model. Despite these problems, it is currently possible to model with useful accuracy significant parts of approximately one third of all known protein sequences. The use of individual comparative models in biology is already rewarding and increasingly widespread. A major new challenge for comparative modeling is the integration of it with the torrents of data from genome sequencing projects as well as from functional and structural genomics. In particular, there is a need to develop an automated, rapid, robust, sensitive, and accurate comparative modeling pipeline applicable to whole genomes. Such large-scale modeling is likely to encourage new kinds of applications for the many resulting models, based on their large number and completeness at the level of the family, organism, or functional network.

Original languageEnglish (US)
Pages (from-to)291-325
Number of pages35
JournalAnnual Review of Biophysics and Biomolecular Structure
StatePublished - 2000
Externally publishedYes


  • Alignment
  • Fold assignment
  • Fully automated modeling
  • Homology modeling
  • Model evaluation
  • Protein structure prediction
  • Structural genomics

ASJC Scopus subject areas

  • Biophysics
  • Structural Biology


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