krishna rajarathnam
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Solution structure and basis for functional activity of stromal cell‐derived factor‐1; dissociation of CXCR4 activation from binding and inhibition of HIV‐1
MP Crump, JH Gong, P Loetscher, K Rajarathnam, A Amara, ...
The EMBO journal, 1997
Structure‐activity relationships of chemokines
I Clark‐Lewis, KS Kim, K Rajarathnam, JH Gong, B Dewald, B Moser, ...
Journal of leukocyte biology 57 (5), 703-711, 1995
Neutrophil activation by monomeric interleukin-8
K Rajarathnam, B Sykes, C Kay, B Dewald, T Geiser, M Baggiolini, ...
Science 264, 90-92, 1994
13C NMR chemical shifts can predict disulfide bond formation
D Sharma, K Rajarathnam
Journal of biomolecular NMR 18, 165-171, 2000
Chemokine CXCL1 mediated neutrophil recruitment: Role of glycosaminoglycan interactions
KV Sawant, KM Poluri, AK Dutta, KM Sepuru, A Troshkina, RP Garofalo, ...
Scientific reports 6 (1), 33123, 2016
The purified myxoma virus gamma interferon receptor homolog M-T7 interacts with the heparin-binding domains of chemokines
AS Lalani, K Graham, K Mossman, K Rajarathnam, I Clark-Lewis, ...
Journal of virology 71 (6), 4356-4363, 1997
Differential activation and regulation of CXCR1 and CXCR2 by CXCL8 monomer and dimer
MW Nasser, SK Raghuwanshi, DJ Grant, VR Jala, K Rajarathnam, ...
The Journal of Immunology 183 (5), 3425-3432, 2009
Structural basis of chemokine receptor function—a model for binding affinity and ligand selectivity
L Rajagopalan, K Rajarathnam
Bioscience reports 26 (5), 325-339, 2006
How do chemokines navigate neutrophils to the target site: Dissecting the structural mechanisms and signaling pathways
K Rajarathnam, M Schnoor, RM Richardson, S Rajagopal
Cellular signalling 54, 69-80, 2019
Solution structure of eotaxin, a chemokine that selectively recruits eosinophils in allergic inflammation
MP Crump, K Rajarathnam, KS Kim, I Clark-Lewis, BD Sykes
Journal of Biological Chemistry 273 (35), 22471-22479, 1998
Monomeric and dimeric CXCL8 are both essential for in vivo neutrophil recruitment
ST Das, L Rajagopalan, A Guerrero-Plata, J Sai, A Richmond, ...
PloS one 5 (7), e11754, 2010
Isothermal titration calorimetry of membrane proteins—Progress and challenges
K Rajarathnam, J Rösgen
Biochimica et Biophysica Acta (BBA)-Biomembranes 1838 (1), 69-77, 2014
Ligand selectivity and affinity of chemokine receptor CXCR1: role of N-terminal domain
L Rajagopalan, K Rajarathnam
Journal of Biological Chemistry 279 (29), 30000-30008, 2004
Synthesis, location, and lateral mobility of fluorescently labeled ubiquinone 10 in mitochondrial and artificial membranes
K Rajarathnam, J Hochman, M Schindler, S Ferguson-Miller
Biochemistry 28 (8), 3168-3176, 1989
1H NMR solution structure of an active monomeric interleukin-8
K Rajarathnam, I Clark-Lewis, BD Sykes
Biochemistry 34 (40), 12983-12990, 1995
Structural characterization of a monomeric chemokine: Monocyte chemoattractant protein‐3
KS Kim, K Rajarathnam, I Clark-Lewis, BD Sykes
FEBS letters 395 (2-3), 277-282, 1996
Chemokine CXCL1-mediated neutrophil trafficking in the lung: role of CXCR2 activation
KV Sawant, R Xu, R Cox, H Hawkins, E Sbrana, D Kolli, RP Garofalo, ...
Journal of innate immunity 7 (6), 647-658, 2015
Solution NMR characterization of chemokine CXCL8/IL-8 monomer and dimer binding to glycosaminoglycans: structural plasticity mediates differential binding interactions
PRB Joseph, PD Mosier, UR Desai, K Rajarathnam
Biochemical Journal 472 (1), 121-133, 2015
Dimer dissociation is essential for interleukin-8 (IL-8) binding to CXCR1 receptor
H Fernando, C Chin, J Rösgen, K Rajarathnam
Journal of Biological Chemistry 279 (35), 36175-36178, 2004
Disulfide bridges in interleukin-8 probed using non-natural disulfide analogues: dissociation of roles in structure from function
K Rajarathnam, BD Sykes, B Dewald, M Baggiolini, I Clark-Lewis
Biochemistry 38 (24), 7653-7658, 1999
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