Two-Point Hydrogen-Bonding Interaction - American Chemical Society

Received August IO, 1989. Multipoint hydrogen bonding plays an essential role for the selectivities in biological systems. We have recently reported o...
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J . Am. Chem. SOC.1990, 112, 2807-2808

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Two-Point Hydrogen-Bonding Interaction: A Remarkable Chain-Length Selectivity in the Binding of Dicarboxylic Acids with Resorcinol-Aldehyde Cyclotetramer as a Multidentate Host' Yasutaka Tanaka, Yasushi Kato, and Yasuhiro Aoyama*v2 Department of Chemistry Nagaoka University of Technology Kamitomioka, Nagaoka, Niigata 940-21, Japan Received August IO, 1989 Multipoint hydrogen bonding plays an essential role for the selectivities in biological systems. We have recently reported on the selective sugar binding with resorcinol-aldehyde cyclotetramer l;3a striking feature of 1 is that it is a multidentate host having four independent binding sites (A, B, C, and D). We wish to report here that 1 in fact allows a two-point hydrogen-bonding fixation of dicarboxylic acids in a remarkably selective

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Figure 1. IH NMR spectrum of la in CDC13a t room temperature after being stirred with excess 3. Absorptions H,, Hb, and H,a r e for 3 bound with la; see structure 7 for the assignments. Absorptions with marks a r e for 3 free from complexation, which is present owing to its intrinsic solubility.

that the exchange between these (refer to eq I , guest is 3) is slow at room temperature compared with NMR time scale. 1 + guest

la : R = (CHt)ioCH3 Ib ; R

= (CHdaCH3

Glutaric acid (3) is slightly soluble in CHC13 but is readily solubilized in the presence of la or l b . The 'H NMR spectrum of a CDC13solution of la after being stirred with an excess amount of solid 3 showed highly upfield shifted C H proton resonances for bound 3 at dH 0.70 (Ha, 2 H), 0.10 (Hb, 2 H), and -1.33 (Hc, 2 H) as well as those with marks for 3 free from complexation (Figure 1).8 The I3C NMR spectrum of complex lb-3 in CDC13 showed a single resonance for each carbon of bound 3, dc 178.07 (CO), 29.1 1 (CJ, and 15.43 (C&, referring to structure 7. Two-dimensional 'H-I3C and 'H-'H COSY and 'H-IH NOESY spectra of bound 3 indicated that (1) both Ha and Hb (refer to Figure 1 ) couple with C,, while H,couples with C,, (2) Ha and Hb strongly couple with each other (J = 18 Hz) as Ha and H, and Hb and H, do, and (3) Ha and Hb are strongly NOE correlated. These results indicate that Ha and Hb are nonequivalent geminal protons on equivalent C,'s, as shown in 7. The stoichiometry of l:hnd = 1:l is established by 'H NMR integration, and the appearance of distinct signals for Lnd and 3fiksuggests ( I ) Molecular Recognition. 8. Part 7 of this series: Tanaka, Y.; Ubukata, Y.; Aoyama, Y. Chem. Lett. 1989, 1905. (2) Section of Bioorganic Chemistry, Department of Bioengineering, Nagaoka University of Technology. (3) (a) Aoyama, Y.; Tanaka, Y.; Toi, H.;Ogoshi, H . J. Am. Chem. SOC. 1988, 110, 634. (b) Aoyama, Y.; Tanaka, Y.; Sugahara, Ibid. 1989, 111,

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