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Results:
1-11
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Results: 11
Authors:
Hosmane, NS
Zhang, HM
Maguire, JA
Demissie, T
Oki, AR
Saxena, A
Lipscomb, WN
Citation: Ns. Hosmane et al., New stanna- and plumba-carboranes: Synthetic and structural investigation, MAIN GR MET, 24(9), 2001, pp. 589-596
Authors:
Guo, H
Cui, Q
Lipscomb, WN
Karplus, M
Citation: H. Guo et al., Substrate conformational transitions in the active site of chorismate mutase: Their role in the catalytic mechanism, P NAS US, 98(16), 2001, pp. 9032-9037
Authors:
Hosmane, NS
Zhang, HM
Maguire, JA
Wang, Y
Demissie, T
Colacot, TJ
Ezhova, MB
Lu, KJ
Zhu, DM
Gray, TG
Helfert, SC
Hosmane, SN
Collins, JD
Baumann, F
Kaim, W
Lipscomb, WN
Citation: Ns. Hosmane et al., Chemistry of C-trimethylsilyl-substituted heterocarboranes. 28. Selective alkylation and reactivity of "carbons adjacent" and "carbons apart" tetracarba-nido-dodecaborane(12) derivatives toward group 1 and group 2 metals. Synthetic, spectroscopic, and structural investigations on lithium-, sodium-,potassium-, cesium-, and magnesium-complexed C4B8 carboranes, ORGANOMETAL, 19(4), 2000, pp. 497-508
Authors:
Krappmann, S
Lipscomb, WN
Braus, GH
Citation: S. Krappmann et al., Coevolution of transcriptional and allosteric regulation at the chorismatemetabolic branch point of Saccharomyces cerevisiae, P NAS US, 97(25), 2000, pp. 13585-13590
Authors:
Jin, L
Stec, B
Lipscomb, WN
Kantrowitz, ER
Citation: L. Jin et al., Insights into the mechanisms of catalysis and heterotropic regulation of Escherichia coli aspartate transcarbamoylase based upon a structure of the enzyme complexed with the bisubstrate analogue N-phosphonacetyl-L-aspartate at 2.1 angstrom, PROTEINS, 37(4), 1999, pp. 729-742
Authors:
Strater, N
Sun, L
Kantrowitz, ER
Lipscomb, WN
Citation: N. Strater et al., A bicarbonate ion as a general base in the mechanism of peptide hydrolysisby dizinc leucine aminopeptidase, P NAS US, 96(20), 1999, pp. 11151-11155
Authors:
Gerratt, J
Lipscomb, WN
Citation: J. Gerratt et Wn. Lipscomb, Spin-coupled wave functions for atoms and molecules (reprinted from the Proceedings of the National Academy of Sciences, vol 59, No. 2, pp. 332-335, February, 1968), INT J QUANT, 74(2), 1999, pp. 83-85
Authors:
Hosmane, NS
Colacot, TJ
Zhang, HM
Yang, JM
Maguire, JA
Wang, Y
Ezhova, MB
Franken, A
Demissie, T
Lu, KJ
Zhu, DM
Thomas, JLC
Collins, JD
Gray, TG
Hosmane, SN
Lipscomb, WN
Citation: Ns. Hosmane et al., Chemistry of C-trimethylsilyl-substituted heterocarboranes. 26. Further investigation of oxidative cage closure, cage fusion, and cage isomerizations: Synthetic, structural, and bonding studies on "carbons adjacent" and "carbons apart" tetracarba-nido-dodecaborane(12) derivatives, ORGANOMETAL, 17(24), 1998, pp. 5294-5309
Authors:
Ma, JP
Zheng, XF
Schnappauf, G
Braus, G
Karplus, M
Lipscomb, WN
Citation: Jp. Ma et al., Yeast chorismate mutase in the R state: Simulations of the active site, P NAS US, 95(25), 1998, pp. 14640-14645
Authors:
Gindulyte, A
Lipscomb, WN
Massa, L
Citation: A. Gindulyte et al., Proposed boron nanotubes, INORG CHEM, 37(25), 1998, pp. 6544-6545
Authors:
Gindulyte, A
Krishnamachari, N
Lipscomb, WN
Massa, L
Citation: A. Gindulyte et al., Quantum chemical calculations of proposed multicage boron fullerenes, INORG CHEM, 37(25), 1998, pp. 6546-6548
Risultati:
1-11
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