Richards, John H.
- Arjara, Gitrada (2007) [Refolding a β-Barrel Membrane Protein
](https://resolver.caltech.edu/CaltechETD:etd-05292007-061922); 10.7907/4PSM-AS02
- Farrow, Neil (1999) Investigation of electron transfer in the [alpha]-helical protein cytochrome b [subscript 562]; 10.7907/8mrb-7d44
- Kiser, Cynthia N (1998) Biological electron transfer in copper proteins; 10.7907/PWWP-AS34
- Mizoguchi, Tadashi Jack (1996) Probing the role of the active-site Cysteine of Azurin by site-directed mutagenesis; 10.7907/4VTZ-PE72
- Langen, Ralf (1995) Electron transfer in proteins : theory and experiment; 10.7907/1sg4-x578
- Richmond, Todd Alan (1994) Structural requirements for catalysis: studies on RTEM-1 β-lactamase; 10.7907/bmqt-cf02
- Sun, Yun (1992) NMR Studies of Protein-DNA Interactions: Determinations of DNA Structures Recognized by Bin Recombinase and Studies of Their Roles in Protein Binding Interactions; 10.7907/em1y-p761
- Emerling, Michael Roy (1991) Enzymatic hydrolysis of the amide bond : mutagenic studies of the mechanisms of [alpha]-lytic protease and [beta]-lactamase; 10.7907/mbnb-c645
- Labgold, Marc Robert (1991) Novel Biological Catalysts: Mutagenesis of RTEM β-Lactamase to Alter Substrate and Catalytic Specificity; 10.7907/m8m6-yc79
- Long, David M. (1991) Structure and mechanism of RTEM-1 [beta]-lactamase : the role of lysine 234; 10.7907/p6e6-vp61
- Hollenbaugh, Diane (1991) Specificity determinants of the class A [beta]-lactamase RTEM-1; 10.7907/0qza-et62
- Chang, Thomas Kyu-Young (1991) Gene synthesis, expression, and mutagenesis of azurin; 10.7907/795e-hp65
- Hardy, Winters Reef (1990) The characterization and processing of the nonstructural proteins of Sindbis virus; 10.7907/gk9d-5371
- Healey, William Joseph (1989) The Structural Basis of Enzyme Catalysis: Mutagenesis of β-lactamase at Ala 172, Glu 166, and Ala 237; 10.7907/t2g7-x074
- Perez, Dianne Marie (1988) Structure-Function Studies of Serine Hydrolases: Synthesis of a Gene for α-Lytic Protease and the Purification and Characterization of a Mutant β-Lactamase; 10.7907/brjj-5n58
- Mayo, Stephen Leon (1988) Electron Transfer in Structurally Engineered Metalloproteins; 10.7907/YJKW-3133
- Antypas, William George, Jr. (1988) Nuclear Magnetic Resonance Studies of Biological Systems; 10.7907/j4ep-gn92
- Iverson, Sheila Anne (1988) Blue Copper Proteins: Gene Synthesis and Expression; 10.7907/z0s5-h938
- Chang, Yie-Hwa (1987) Studies of the Roles of Residues 71 and 72 of RTEM-1 Beta-Lactamase and the Structure-Function Relationships between Beta-Lactamases and D,D-Carboxypeptidases by Mutagenesis; 10.7907/k85q-w423
- Carroll, Steven S. (1987) The Construction and Kinetic Analysis of Specific Mutants of β-Lactamase; 10.7907/2mg4-x771
- Neitzel, James Joseph (1987) The Expression, Stability, and Enzymatic Activity of Specific Beta-Lactamase Mutants; 10.7907/E6R6-4J57
- Schultz, Steve Chester (1986) Site Saturation Mutagenesis of Residue 71 in β-Lactamase; 10.7907/c3a0-kd54
- Cave, Robert J. (1986) A Theoretical Model for Orientation Effects in Electron Transfer Reactions; 10.7907/s9zp-mj05
- Dalbadie-McFarland, Gloria (1985) Structural Requirements for Protein Function Studied by in Vitro Mutagenesis on Beta-Lactamase; 10.7907/jhx0-q907
- Handly, Neal Bruce (1984) Studies of Regulatory Networks in Cells: Roles of Ions and Small Molecules; 10.7907/nwzk-dr03
- Becker, Nancy Newton (1983) ¹⁵N Nuclear Magnetic Resonance Studies of the Liver Alcohol Dehydrogenase-NAD⁺-Pyrazole Complex; 10.7907/nnx8-q333
- Miller, James Arthur (1981) Studies on Ligand Binding to the Histrionicotoxin and the Agonist Binding Sites of Membrane Bound Acetylcholine Receptor from Torpedo californica; 10.7907/wd5n-dn51
- Lamkin, Mark Stuart (1976) Analogues of 1, 2-Propanediol, Inactivators of Dioldehydrase: I. Studies on the Effect of 3-Halo-1, 2-Propanediols on the Coenzyme B₁₂ Dependent Dioldehydrase Reaction. II. Studies on the Effect of an Epoxide on Dioldehydrase; 10.7907/1E2T-TX52
- Moon, Richard Bruce (1975) Nuclear Magnetic Resonance Studies of Hemoglobin and Red Blood Cell Function
- Hunkapiller, Michael W. (1974) Nuclear Magnetic Resonance Studies of the Catalytic Mechanism of Proteolytic Enzymes: I. Ionization Behavior of the Histidine Residue in the Catalytic Triad Of α-Lytic Protease : Implications for the Catalytic Mechanism of Serine Proteases. II. Ionization Behavior of Enzymic and Inhibitor Groups in the Tetrahedral Adduct Between α -Lytic Protease and a Peptide Aldehyde. III. Kinetics Of Pepsin-Catalyzed Hydrolysis Of N-Tri-Fluoroacetyl Amino Acids; 10.7907/WCV5-S044
- Eagar, Robert Gouldman (1974) Mechanism of Action of Coenzyme B₁₂ : I. Mechanism of Action of Coenzyme B₁₂. Hydrogen Transfer in the Isomerization of β-Methylaspartate to Glutamate. II. Kinetic Studies of 3-Fluoro-1,2-Propanediol, a New Substance for Dioldehydrase. III. Reaction of 5'-Deoxyinosylcobalamen with Propanediol Dehydrase. IV. Adenosine Deaminase; 10.7907/WKKX-RB26
- Gammon, Kenneth Lee (1973) Nuclear Magnetic Resonance Studies of α-Chymotrypsin: I. NMR Studies of the Binding of Small Molecule Inhibitors to α-Chymotrypsin. II. NMR Studies of the Interaction of N-TFA-D-Tryptophan Semicarbazide with α-Chymotrypsin. III. ¹³C-NMR Studies of Methylated α-Chymotrypsin. IV. NMR Studies of Acylated Chymotrypsins; 10.7907/XXJX-AD69
- Mog, David Michael (1970) Mechanistic Studies of a Model Reaction for Enzymatic Hydroxylation; 10.7907/RTHJ-0E62
- Trifunac, Natalia Pisker (1970) Photochemical Cis-Trans Isomerization of β-Stytylferrocene; 10.7907/09YE-YV13
- McFarland, James Thomas (1969) Part I. The Structure of 1,2-Dimethylnorbornyl Cation. Part II. The Relative Stabilities of Some Tertiary Aliphatic Cations; 10.7907/NJST-QK11
- Schaefer, Phillip Cuthbert (1969) Squalene Cyclization; 10.7907/GV74-NT60
- Miller, William Walter (1968) Part I. Coenzyme B12 as a hydroformylation-type catalyst. Part II. Mechanisms of hydrogen transfer in the methylmalonyl coenzyme a mutase reaction; 10.7907/BBKP-QT89
- Schmidt, Donald Emil, Jr. (1967) Part I. α-Secondary Isotope Effects on the Reaction Catalyzed by the Enzyme Fumarase. Part II. Salt Effects on the Enzyme Fumarase; 10.7907/D85P-2N72
- Dannenberg, Joseph Jay (1967) I. Nuclear Magnetic Resonance Analysis of Ferrocenylcarbonium Ion. II. Ferrocene Catalyzed Photochemistry; 10.7907/q6jv-7q59
- Nugent, Maurice Joseph (1965) Part I. β-Ferrocenylalkyl Carbonium Ions. Part II. The Stereospecific Syntheses of the Exo and Endo Isomers of α-Hydroxymethyl-I, 2-Tetramethyleneferrocene; 10.7907/8FWY-7415
- Levenberg, Milton Irwin (1965) I. Preliminary Studies of the Chain-Transfer Constant of Methylferrocene. II. Protonation of Metallocenes. III. An Analysis of the N.M.R. Spectra of Substituted Ferrocenes. IV. Experimental and Theoretical Studies of the Charge Distribution on the Ferrocenyl Carbinyl Carbonium Ion; 10.7907/EGD5-Z205
- Fisch, Michael Hamilton (1965) The Photochemistry of Santonin in Aprotic Solvent: Part l. Photoproducts. Part II. Mechanism; 10.7907/5EQE-4M55
- Olson, Edwin Soland (1964) I. The Structure of the Orange Pigment from Pseudomonas aureofaciens. II. The Biogenesis of Strychnine. III. Beckmann Fission of a γ-Keto Oxime; 10.7907/V3CJ-7176
- Shah, Usha (1964) α-Carbonium Ion Stabilization in Derivatives of Cyclopentadienylmanganese Tricarbonyl; 10.7907/GQ3E-6784
- Ulery, Harris E. (1963) I. Acid Catalyzed Reactions of 1,5-Epoxyolefins. II. The Alkylative Cyclization of 1,5-Hexadiene. III. The Acid Catalyzed Cyclizations of Cis/Cis-and Trans,Trans-2,6-Octadiene. IV. The Infrared Spectra of Cyclobutane Compounds; 10.7907/DH79-9M97
- Hall, David Warren (1963) I. Electrophilic Substitution Reactions of Some Substituted Ferrocenes. II. The Effects of Heteroannular Substituents on the Rates of Solvolyses of Methylferrocenylcarbinyl Acetates; a Comparison with Substituent Effects in Other Reactions of Ferrocene; 10.7907/D0MY-K780
- Carter, Robert Everett (1962) I. The Biogenesis of Phenazine Pigments. II. β-Ferrocenyl Carbonium Ions. III. Chemical Shift and π-Electron Densities; 10.7907/GM3C-6N32
- Garwood, Donald Charles (1962) [I. Electrophilic aromatic substitution of metallocenes. II. Stereochemistry of halogen addition to 4-t-butylcyclohexene. III. Lithium aluminum hydride reduction of cis-2,6-dimethylcyclohexanone.
I. Electrophilic Aromatic Substitution of Metallocenes. II. Stereochemistry of Halogen Addition to 4-t-Butylcyclohexene. III. Lithium Aluminum Hydride Reduction of CIS-2,6-DimethyIcyclohexanone](https://resolver.caltech.edu/CaltechTHESIS:08192011-155709631); 10.7907/1BRD-QP23