@article{oai:sucra.repo.nii.ac.jp:00016073,
 author = {田村, 直治 and 藤野, 英雄 and 幸塚, 麻里子 and 西垣, 功一},
 journal = {埼玉大学紀要. 工学部 第1編, The Science and Engineering Reports of Saitama University},
 month = {},
 note = {Owing to diversities of phenotypes, fungi are one of the most intimately studied organisms and very popular among all. Micro-TGGE genome profiling, a newly introduced approach for genomebased identification of species which random-samples portions of genome DNA and extracts sequence-derived information by J.1 TGGE was applied to provisional identification of fungi and shown to be convenient, effective and reproducible. Quantitative analysis of the similarity between species in terms of PaSS (pattern similarity score) revealed that fungi were, unexpectedly, closely related with each other when viewed froIn the genome sequence. This IllUSt be the first result, for all organisms, obtained by quantitatively comparing genomes among more than 10 species at the order taxon level. It was discussed that since genome profiling does not require an immediate intervention of experts, this approach will allow general scientists as well as well-trained experts contribute to the progress of science through accumulating novel findings on fungi and other organisms with an aid of genome profiles., text, application/pdf},
 pages = {21--28},
 title = {Quantitative comparison of fungi genomes performed by μTGGE genome profiling},
 volume = {37},
 year = {2004},
 yomi = {タムラ, ナオジ and フジノ, ヒデオ and コウヅカ, マリコ and ニシガキ, コウイチ}
}