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Localized molecular orbitals for polyatomic molecules (1975)

Kleier, Daniel A. ; Dixon, David A. ; Lipscomb, William N.

Springer

Theoretical chemistry accounts 40 (1975), S. 33-45

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ISSN: 1432-2234

Keywords: Aromatic rings ; Localized molecular orbitals ; Partial retention of diatomic differential overlap

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Molecular wavefunctions have been generated by the PRDDO (Partial Retention of Diatomic Differential Overlap) method for the monocyclic aromatic rings containing six π-electrons (C4H 4 −2 , C5H 5 − , C6H6, C7H 7 + , and C8H 8 +2 ) and ten π-electron species (C8H 8 −2 , C9H 9 − , C10H10). The eigenvalue spectra of the canonical molecular orbitals are presented. Localized molecular orbitals (LMO's) generated using the Boys criterion are reported for localizations involving all occupied molecular orbitals (complete localizations) and localizations of the π orbitals only. We find evidence for σ-π separation in the complete localizations for some of these molecules even though the Boys criterion is often biased against such results. We demonstrate for C6H6 and find for the other molecules that the π-orbital localizations are indeterminate (i.e. there are an infinite number of equally satisfactory LMO structures between two limiting extremes). This result may be viewed as a corollary of Hückel's (4n+2) rule for aromaticity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00547911

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Two-Metal Ion Catalysis in Enzymatic Acyl- and Phosphoryl-Transfer Reactions (1996)

Sträter, Norbert ; Lipscomb, William N. ; Klabunde, Thomas ; [et al.]

Weinheim : Wiley-Blackwell

Angewandte Chemie International Edition in English 35 (1996), S. 2024-2055

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ISSN: 0570-0833

Keywords: catalysis ; enzymatic catalysis ; metallohydrolases ; Catalysis ; Enzyme catalysis ; Metalloenzymes ; Chemistry ; General Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Notes: Numerous studies, both in enzymatic and nonenzymatic catalysis, have been undertaken to understand the way by which metal ions, especially zinc ions, promote the hydrolysis of phosphate ester and amide bonds. Hydrolases containing one metal ion in the active site, termed mononuclear metallohydrolases, such as carboxypeptidase. A and thermolysin were among the first enzymes to have their structures unraveled by X-ray crystallography. In recent years an increasing number of metalloenzymes have been identified that use two or more adjacent metal ions in the catalysis of phosphoryl-transfer reactions (R-OPO3 + R′-OH → R′-OPO3 + R-OH; in the case of the phosphatase reaction R′-OH is a water molecule) and carbonyl-transfer reactions, for example, in peptidases or other amidases. These dinuclear metalloenzymes catalyze a great variety of these reactions, including hydrolytic cleavage of phosphomono-, -di- and -triester bonds, phosphoanhydride bonds as well as of peptide bonds or urea. In addition, the formation of the phosphodiester bond of RNA and DNA by polymerases is catalyzed by a two-metal ion mechanism. A remarkable diversity is also seen in the structures of the active sites of these di- and trinuclear metalloenzymes, even for enzymes that catalyze very similar reactions. The determination of the structure of a substrate, product, stable intermediate, or a reaction coordinate analogue compound bound to an active or inactivated enzyme is a powerful approach to investigate mechanistic details of enzyme action. Such studies have been applied to several of the metalloenzymes reviewed in this article; together with many other biochemical studies they provide a growing body of information on how the two (or more) metal ions cooperate to achieve efficient catalysis.

Additional Material: 34 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/anie.199620241

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