Translations:Protein/71/ja: Difference between revisions

===Bioinformatics===
{{Main|Bioinformatics}}
A vast array of computational methods have been developed to analyze the structure, function and evolution of proteins. The development of such tools has been driven by the large amount of genomic and proteomic data available for a variety of organisms, including the [[human genome]]. It is simply impossible to study all proteins experimentally, hence only a few are subjected to laboratory experiments while computational tools are used to extrapolate to similar proteins. Such [[Sequence homology|homologous proteins]] can be efficiently identified in distantly related organisms by [[sequence alignment]]. Genome and gene sequences can be searched by a variety of tools for certain properties. [[Sequence profiling tool]]s can find [[restriction enzyme]] sites, [[open reading frame]]s in [[nucleotide]] sequences, and predict [[secondary structure]]s. [[Phylogenetic tree]]s can be constructed and [[evolution]]ary hypotheses developed using special software like [[ClustalW]] regarding the ancestry of modern organisms and the genes they express. The field of [[bioinformatics]] is now indispensable for the analysis of genes and proteins.