Synthesis and molecular structure of bis(6-mercapto-9-benzylpurine)palladium(II)-dimethylacetamide

Abstract: Bis(6-mercapto-9-benzylpurine)palladium(II) Table VIII. Rigid Group Angular Parameters Compd , deg a, deg 9, deg (C6Hs),Sna-f 7.1Registry No. (C6Fs)4Sn, 106549-2; (C6Fs)4Ge, 1452-12-6. Supplementary Material Available. A listing of structure factor amplitudes (Tables I and II) will appear following these pages in the microfilm edition of this volume of the journal. Photocopies of the supplementary material from this paper only or microfiche (105 X 148 mm, 24X reduction, negatives) containing all of the supplem… Show more

“…The location of a proton on N(4) or N(6) cannot be obtained directly from the crystal structures of I or 11, however. The C(14)-N(6t C(18) angles of 120.2(13)" in I and 119.4(13)" in PI fall between 125 k 3", for protonated nitrogen atoms, and 116 f 3", for unprotonated nitrogen atoms, as suggested by the empirical rule of Singh (26,27) for six-membered nitrogen heterocycles. One possible explanation for this observation of a value lying between 125" and 116" is that the site of protonation is disordered between N(4) and N(6).…”

Copper tetrafluoroborate complexes of the potentially binucleating ligand 1,4-di(2′-pyridyl)aminophthalazine. Mononuclear and polynuclear derivatives

“…The location of a proton on N(4) or N(6) cannot be obtained directly from the crystal structures of I or 11, however. The C(14)-N(6t C(18) angles of 120.2(13)" in I and 119.4(13)" in PI fall between 125 k 3", for protonated nitrogen atoms, and 116 f 3", for unprotonated nitrogen atoms, as suggested by the empirical rule of Singh (26,27) for six-membered nitrogen heterocycles. One possible explanation for this observation of a value lying between 125" and 116" is that the site of protonation is disordered between N(4) and N(6).…”

Copper tetrafluoroborate complexes of the potentially binucleating ligand 1,4-di(2′-pyridyl)aminophthalazine. Mononuclear and polynuclear derivatives

“…The bond lengths and angles in the cytosine ligand are, in general, in reasonable agreement with other determinations (Sundaralingam & Carrabine, 1971;Szalda et al, 1975b). (b) The glycylglycine chelate ligand As we have noted previously (Marzilli, Kistenmacher & Chang, 1973;Marzilli et al, 1974;Kistenmacher et al, 1975b), there is considerable dissymmetry in the exocyclic bond angles at the hetero atom to which the metal atom is bonded in transition-metal purine complexes where interligand hydrogen bonding or chelation [see, for example, Heitner & Lippard (1974)] takes place. The present structure also shows this feature, Cu-N(3)-C(2) 110.3 (3) ° and Cu-N(3)-C(4) 127.8 (3) °.…”

[(Glycylglycinato)(cytosine)copper(II)]. A model for enzyme–metal–nucleic acid ternary complexes

“…While the gross structural features are, of course, similar to those reported by C & N, the purine ring geometry derived from our refinement differs markedly from that obtained previously. The bond lengths found for the coordinated purine ligand here are compared with those of C & N, and also with those reported for the free ligand and for other transition metal complexes of 6-mercaptopurine (Heitner & Lippard, 1974;Sletten & Apeland, 1975) in Table 2. It is apparent from an examination of Table 2 that the values which we have determined are consistent with those found in the C(4~(51 related systems.…”

“…We and others have recently been investigating the interactions of metal ions with purines and purine analogs (Purnell, Estes & Hodgson, 1976;Purnell, Shepherd & Hodgson, 1975;Heitner & Lippard, 1974;Sletten & Apeland, 1975; and references therein). We were, therefore, interested to see the report (Caira & Nassimbeni, 1975, hereinafter C & N) of the structure of a dimeric copper(I) complex of 6-mercaptopurine.…”

“…This interaction meets the criterion (Hamilton & Ibers, 1968) that both the O-H and the H...C1 separations are less than the appropriate sums of the van der Waals radii (Pauling, 1960;Bondi, 1964) and hence is probably a weak hydrogen bond. Caira & Nassimbeni (1975), (b) Heitner & Lippard (1974), (c) Sletten & Apeland (1975), (d) values given are the averages of two: Brown (1969); Sletten, Sletten & Jensen (1969).…”

The structure of bis[dichloro-6-mercaptopuriniumcopper(I)] dihydrate: a refinement