1. Name Takehiko WADA First Name Last Name 2. Sex M 3 ... - IS3NA
1. Name Takehiko WADA First Name Last Name 2. Sex M 3 ... - IS3NA
1. Name Takehiko WADA First Name Last Name 2. Sex M 3 ... - IS3NA
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18. Photodimerization and Crystal Structure of Long Alkyl Thymine Derivatives,<br />
T. Wada, N. Tohnai, T. Sugiki, E. Mochizuki, and Y. Inaki,<br />
J. Photopolym. Sci. Technol., 7, 91 (1994).<br />
17. High-performance liquid chromatographic separation of oligonucleotides using deoxyadenosine<br />
immobilized silica gels for the stationary phase. Effect of the deoxyadenosine ligand concentration,<br />
T. Wada, K. Matsukawa, H. Wang, E. Mochizuki, K. Takemoto, and Y. Inaki,<br />
Jap. Bunseki Kagaku, 42, 825 (1993).<br />
16. Synthesis and properties of oligolysine and oligoglutamic acid derivatives containing nucleosides,<br />
T. Wada, K. Okada, M. Nakamori, E. Mochizuki, and Y. Inaki,<br />
Nucleic Acids Res., 21, 79 (1993).<br />
15. Synthesis and interaction studies of water soluble nucleic acid analogs containing serine as a spacer,<br />
T. Wada, N. Masumi, E. Mochizuki, Y. Inaki, and K. Takemoto,<br />
Nucleic Acids Res., 20, 115 (1992).<br />
14. Immobilization of nucleoside on silica gel and specific separation of oligonucleotides,<br />
T. Wada, Y. Inaki, K. Matsukawa, H. Kawano, W. Hong, E. Mochizuki, and K. Takemoto,<br />
Nucleic Acids Res., 20, 29 (1992).<br />
13. Photodimerization of Thymine Derivatives in Ionomer Matrix,<br />
T. Wada, E. Mochizuki, K. Masuda, and Y. Inaki,<br />
J. Photopolym. Sci. Technol., 6, 131 (1993).<br />
1<strong>2.</strong> High-performance liquid chromatographic separation of oligonucleotides using deoxyadenosine<br />
immobilized on silica gel as stationary phase,<br />
Y. Inaki, K. Matsukawa, H. Wang, E. Mochizuki, T. Wada, and K. Takemoto,<br />
Jap. Bunseki Kagaku, 42, 99 (1993).<br />
1<strong>1.</strong> Preparation of PVA membrane containing nucleic acid analogs and studies on separation of nucleosides and dinucleotides<br />
using this membrane,<br />
T. Wada, S. Chirachanchai, Y. Inaki, and K. Takemoto,<br />
Mol. Cryst. Liq. Cryst. Sci. Technol., Sect. A, 219, 169 (1992).<br />
10. Synthesis and interaction of water soluble nucleic acid analogs,<br />
K. Takemoto, T. Wada, E. Mochizuki, and Y. Inaki,<br />
Biotechnol Polym.,31 (1991).<br />
9. Synthesis and interaction studies of oligo and polyamino acids derivatives containing nucleosides,<br />
T. Wada, E. Mochizuki, Y. Inaki, and K. Takemoto,<br />
Nucleic Acids Res., 19, 19 (1991).<br />
8. Synthesis and interaction studies on water soluble nucleic acid analogs: poly-L-lysine derivatives containing thymine<br />
and hypoxanthine,<br />
T. Wada, Y. Inaki, and K. Takemoto,<br />
J. Bioactive Comp. Polym., 7, 25 (1992).<br />
7. Nucleic acid analogs : Their specific interaction and applicability,<br />
T. Wada, E. Mochizuki, Y. Inaki, and K. Takemoto,<br />
Biomimetic Polymers, 253 (1990).<br />
6. Synthesis and interaction of water-soluble nucleic acid analogs,<br />
K. Takemoto, T. Wada, E. Mochizuki, and Y. Inaki,<br />
Polym. Mater. Sci. Eng., 62, 558 (1990).<br />
5. Water soluble synthetic nucleic acid analogs-polyethyleneimine derivatives containing nucleic acid<br />
bases-conformation and interaction with nucleic acids,<br />
T. Wada, E. Mochizuki, Y. Inaki, and K. Takemoto,<br />
Nucleic Acids Res., 18, 113 (1990).<br />
4. Synthesis and interaction studies on water soluble nucleic acid analogs : Polyethyleneimine derivatives<br />
containing Uracil and 5-fluorouracil,<br />
T. Wada, Y. Inaki, and K. Takemoto,<br />
J. Bioactive Comp. Polym., 4, 25 (1989).