References
- Biochim. Biophys. Acta v.90 no.239 Dedonder, R. A.;Hassid, W. Z.
- Int. J. Macromol. v.17 no.189 Andre, I.;Mazeau, K.;Taravel, F. R.;Tvaroska, I.
- Science v.231 no.48 Miller, K. J.;Kennedy, E. P.;Reinhold, V. N.
- Carbohydr. Res. v.117 no.185 Dell, A.;York, W. S.;McNeil, M.;Darvill, A. G.;Albersheim, P.
- Yakugaku Zasshi v.106 no.240 Okada, Y.;Horiyama, S.;Koizumi, K.
- J. Gen. Microbiol. v.128 no.1873 Hisamatsu, M.;Amemura, A.;Matsuo, T.;Matsuda, H.;Harada, T.
- Proteins: Structure, Function and Genetics v.4 no.31 Dauber-Osguthorpe, P.;Roberts, V. A.;Osguthorpe, D. J.;Wolff, J.;Genest, M.;Gagler, A. T.
- J. Inclusion Phenom. v.36 no.55 Kwon, C.;Choi, Y.-H.;Kim, N.;Yoo, J.-S.;Yang, C.-H.;Kim, H.-W.;Jung, S.
- J. Am. Chem. Soc. v.106 no.7545 Betzel, C.;Saenger, C.;Hingrty, B. E.;Brown, G. M.
- Bull. Korean Chem. Soc. v.20 no.753 Choi, Y.-H.;Kang, S.;Yang, C.-H.;Kim, H.-W.;Jung, S.
- Proteins: Structure, Function and Genetics v.13 no.206 Hart, N.;Read, R. J.
- J. Chem. Phys. v.21 no.1087 Metropolis, A. W.;Resenbluth, M. N.;Rosenbluth, A. H.;Teller, E.
- J. Chem. Phys. v.97 no.4309 Ding, Q.;Karasawa, N.;Goddard, W. A.
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