Research from 2016
CUREs in Biochemistry—Where We Are and Where We Should Go, Jessica K. Bell, Todd T. Eckdahl, David A. Hecht, Patrick J. Killion, Joachim Latzer, Tamara L. Mans, Joseph J. Provost, John F. Rakus, Erica A. Siebrasse, and J. Ellis Bell
Research from 2014
Mapping Posttranscriptional Regulation of the Human Glycome Uncovers microRNA Defining the Glycocode, Praveen Agrawal, Tomasz Kurcon, Kanoelani T. Pilobello, John F. Rakus, Sujeethraj Koppolu, Zhongyin Liu, Bianca S. Batista, William S. Eng, Ku-Lung Hsu, Yaxuan Liang, and Lara K. Maha
(η5‐Cyclopentadienyl)Tricarbonylmanganese(I) Complexes, Patrick N. Kirk and Michael P. Castellani
Research from 2012
Designing Tools for Studying the Dynamic Glycome, John F. Rakus
Judging a Book by its Cover: Using Lectin Microarrays to Identify How Glycosylation is Regulated, John F. Rakus
Microarray Analysis as a Strategy to Identify and Characterize Glycome Regulatory, John F. Rakus
Structural and Physicochemical Aspects of Dasatinib Hydrate and Anhydrate phases, Saikat Roy and Rosalynn Quiñones
Research from 2011
miR-30b/30d Regulation of GalNAc Transferases Enhances Invasion and Immunosuppression during Metastasis, Avital Gaziel-Sovran, Miguel F. Segura, Raffaella Di Micco, Mary K. Collins, Douglas Hanniford, Eleazar Vega-Saenz de Miera, John F. Rakus, John F. Dankert, Shulian Shang, Robert S. Kerbel, Nina Bhardwaj, Yongzhao Shao, Farbod Darvishian, Jiri Zavadil, Adrian Erlebacher, Lara K. Mahal, Iman Osman, and Eva Hernando
Polymorphs and Hydrates of Acyclovir, Katie M. Lutker, Rosalynn Quiñones-Fernández, Jiadi Xu, Ayyalusamy Ramamoorthy, and Adam J. Matzger
An Integrated Systems Approach to Deconstructing Glycosylation, L. K. Mahal, John F. Rakus, Kanoelani Pilobello, and P. Agrawal
Using LectinMicroarrays to Identify Regulatory Mechanisms for Mammalian Glycosylation, John F. Rakus
New Technologies for Glycomic Analysis: Toward a Systematic Understanding of the Glycome, John F. Rakus and Lara K. Mahal
A Systems Approach to Understanding the Role of Glycans in Cancer, John F. Rakus, Kaneolani T. Pilobello, and Laura K. Mahal
Understanding Organic Film Behavior on Alloy and Metal Oxides, Aparna Raman, Rosalynn Quiñones, Lisa Barriger, Rachel Eastman, Arash Parsi, and Ellen S. Gawalt
Research from 2009
Computation-Facilitated Assignment of the Function in the Enolase Superfamily: A Regiochemically Distinct Galactarate Dehydratase from Oceanobacillus iheyensis, John F. Rakus, Chakrapani Kalyanaraman, Alexander A. Fedorov, Elena V. Fedorov, Fiona P. Mills-Groninger, Rafael Toro, Jeffrey Bonanno, Kevin Bain, J. Michael Sauder, Stephen K. Burley, Steven C. Almo, Matthew P. Jacobson, and John A. Gerlt
Research from 2008
Polystyrene formation on monolayer-modified nitinol effectively controls corrosion, Rosalynn Quiñones-Fernández and Ellen S. Gawalt
Evolution of Enzymatic Activities in the Enolase Superfamily: L-Rhamnonate Dehydratase, John F. Rakus, Alexander A. Fedorov, Elena V. Fedorov, Margaret E. Glasner, Brian K. Hubbard, Joseph D. Delli, Patricia C. Babbitt, Steven C. Almo, and John A. Gerlt
Crystal Structure and Functional Assignment of YfaU, a Metal Ion Dependent Class II Aldolase from Escherichia coli K12, Dean Rea, Rebecca Hovington, John F. Rakus, John A. Gerlt, Vilmos Fu¨lo¨p, Timothy D. H. Bugg, and David I. Roper
Research from 2007
Synthesis and X-ray Crystal Structure of [(C5Ph5)CrCl(μ-Cl)2Tl]2: An Example of the Rare M-X-TlI Linkage (X = Halide), K. Brian Davis, T. David Harris, Michael Castellani, James A. Golen, and Arnold L. Rheingold
Research from 2006
1,1´-Diethyl-2,2´,3,3´,4,4´,5,5´-octamethylferrocenium Tetracyanoethylenide, [Fe(C5EtMe4)2]+[TCNE]–, a Charge-Transfer Salt Magnetic Solid with a Novel Structural Motif, T. David Harris, Michael Castellani, Arnold L. Rheingold, William M. Reiff, and Gordon T. Yee
Research from 2001
Halogen Oxidation Reactions of (C5Ph5)Cr(CO)3 and Lewis Base Addition To [(C5Ph5)Cr(μ-X)X]2: Electrochemical, Magnetic, and Raman Spectroscopic Characterization of [(C5Ph5)CrX2]2 and (C5Ph5)CrX2(THF) (X = Cl, Br, I). X-ray Crystal Structure of [(C5Ph5)Cr(μ-Cl)Cl]2, Marc A. Hutton, James C. Durham, Robert W. Grady, Brett E. Harris, Carter S. Jarrell, J. Matthew Mooney, Michael Castellani, Arnold L. Rheingold, Ulrich Kölle, Brenda J. Korte, Roger D. Sommer, Gordon T. Yee, J. Matthew Boggess, and Roman S. Czernuszewicz
Research from 1996
Substitution Reactions of (C5Ph5)Cr(CO)3: Structural, Electrochemical, and Spectroscopic Characterization of (C5Ph5)Cr(CO)2L, L = PMe3, PMe2Ph, P(OMe)3, D. John Hammack, Mills M. Dillard, Michael Castellani, Arnold L. Rheingold, Anne L. Rieger, and Philip H. Rieger
Research from 1995
Synthesis, Characterization, and Molecular Structure of Bis(tetraphenylcyclopentdienyl)rhodium(II)⊗, James E. Collins, Michael Castellani, Arnold L. Rheingold, Edward J. Miller, William E. Geiger, Anne L. Rieger, and Philip H. Rieger
Research from 1993
Synthesis, Characterization, and Crystal Structure of the (η5-C5Ph5)Cr(CO)3 Radical, Ray J. Hoobler, Marc A. Hutton, Mills M. Dillard, Michael Castellani, Arnold L. Rheingold, Anne L. Rieger, Philip H. Rieger, Thomas C. Richards, and William E. Geiger
Research from 1991
Synthesis, Molecular Structure, and 1H NMR Analysis of Bis(tetraphenylcyclopentadienyl)ruthenium(II), Ray J. Hoobler, John V. Adams, Mark C. Hutton, Troy W. Francisco, Brian S. Haggerty, Arnold L. Rheingold, and Michael P. Castellani
