明升体育m88

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揤慠曄惈僞儞僷僋幙僨乕僞儀乕僗IDEAL

揤慠曄惈椞堟偲偼丄嵶朎拞偱棫懱峔憿傪偲傜偢偵怢傃偨峔憿傪偲傞椞堟偺偙偲傪尵偄傑偡丅揤慠曄惈椞堟傪懡偔帩偮僞儞僷僋幙偼丄揤慠曄惈僞儞僷僋幙偲屇偽傟傑偡(揤慠曄惈僞儞僷僋幙偼丄intrinsically disordered protein偺栿偱丄塸岅偱偼偙偺懠偵intrinsically unfolded protein, natively unfolded protein摍偲傕屇偽傟傑偡)丅偙偺椞堟偼丄棫懱峔憿傪曐帩偟側偄偵傕偐偐傢傜偢丄懠偺僞儞僷僋幙偲憡屳嶌梡偟偨傝丄儕儞巁壔摍偺東栿屻廋忺傪庴偗傞偙偲偱丄揮幨挷愡丄僔僌僫儖揱払摍偺拞偱旕忢偵廳梫側摥偒傪帩偭偰偄傑偡丅揤慠曄惈僞儞僷僋幙偼尋媶偺楌巎偑愺偔丄拁愊偝傟偨抦幆偑桳岠偵廂廤偝傟偰偄傑偣傫偱偟偨丏偦偙偱丄変乆偼柤屆壆戝妛丒懢揷尋媶幒偲嫟摨偱僨乕僞儀乕僗IDEAL傪奐敪丒塣塩偟偰偄傑偡丏

嶲峫暥專
Fukuchi, S., Amemiya, T., Sakamoto, S., Nobe, Y., Hosoda, K., Kado, Y., Murakami, D. S., Koike, R., Hiroaki, H., and Ota, M. "IDEAL in 2014 illustrates interaction networks composed of intrinsically disordered proteins and their binding partners." Nucleic Acids Res. 42(D1) D320-D325 (2014)

Fukuchi, S., Sakamoto, S., Nobe, Y., Murakami, D. S., Amemiya, T., Hosoda, K., Koike, R., Hiroaki, H., and Ota, M. "IDEAL: Intrinsically Disordered proteins with Extensive Annotations and Literature." Nucleic Acids Res. 40(D1) D507-D511 (2012)

揤慠曄惈椞堟丒峔憿椞堟傾僲僥乕僔儑儞僔僗僥儉DICHOT

揤慠曄惈僞儞僷僋幙尋媶偱偼惗柦忣曬妛偑戝偒側峷專傪偟傑偟偨丏揤慠曄惈椞堟偼傾儈僲巁攝楍偐傜梊應壜擻偱丄揤慠曄惈僞儞僷僋幙偑拲栚偝傟偨崰偐傜梊應僾儘僌儔儉偑奐敪偝傟丄僾儘僥僆乕儉婯柾偱偺梊應偑峴傢傟偰棃傑偟偨丏揤慠曄惈僞儞僷僋幙偑恀妀惗暔偵懡偄帠傗僔僌僫儖揱払摍偵娭梌偡傞偲偄偭偨抦尒偼丄惗柦忣曬妛偐傜摼傜傟偨傕偺偱偡丏杮尋媶幒偱奐敪偟偨DICHOT僔僗僥儉偼丄傾儈僲巁攝楍傪曄惈椞堟偲峔憿椞堟偵姰慡偵擇暘偡傞揰偑懠偺僾儘僌儔儉偲堎側偭偰偄傑偡丏

嶲峫暥專
Fukuchi, S., Hosoda, K. Homma, K., Gojobori, T. and Nishikawa, K. Binary classification of protein molecules into intrinsically disordered and ordered segments. BMC Structural Biology 11 29 (2011)

Fukuchi, S., Homma, K., Minezaki, Y., Gojobori, T. and Nishikawa, K. Development of an Accurate Classification system of Proteins into Structured and Unstructured Regions that Uncovers Novel Structural Domains: Its Application to Human Transcription Factors. BMC Structural Biology 9 26 (2009)

Ota, M., Gonja, H., Koike, R., Fukuchi, S. Multiple-Localization and Hub Proteins. PLoS ONE 11(6): e0156455. doi:10.1371/journal.pone.0156455 (2016).

Homma, K., Noguchi, T., and Fukuchi, S. Codon usage is less optimized in eukaryotic gene segments encoding intrinsically disordered regions than in those encoding structural domains. Nucleic Acids Research, doi: 10.1093/nar/gkw899 (2016).

Tomono, T., Kojima, H., Fukuchi, S., Tohsato, Y. and Ito, M. Investigation of glycan evolution based on a comprehensive analysis of glycosyltransferases using phylogenetic profiling. Biophysics and Physicobiology. 12, 57-68, (2015).

Goda, N., Matsuo, N., Tenno, T., Ishino, S., Ishino, Y., Fukuchi, S., Ota, M., and Hiroaki, H. An optimized Npro-based method for the expression and purification of intrinsically disordered proteins for an NMR study. Intrinsically Disordered Protein. DOI:10.1080/21690707.2015.1011004 (2015)