Citation: Gs. Prasad et al., Structures of feline immunodeficiency virus dUTP pyrophosphatase and its nucleotide complexes in three crystal forms, ACT CRYST D, 56, 2000, pp. 1100-1109
Citation: N. Kresge et al., 1.35 and 2.07 angstrom resolution structures of the red abalone sperm lysin monomer and dimer reveal features involved in receptor binding, ACT CRYST D, 56, 2000, pp. 34-41
Authors:
Agalarov, SC
Prasad, GS
Funke, PM
Stout, CD
Williamson, JR
Citation: Sc. Agalarov et al., Structure of the S15,S18-rRNA complex: Assembly of the 30S ribosome central domain, SCIENCE, 288(5463), 2000, pp. 107-112
Authors:
Chen, KS
Hirst, J
Camba, R
Bonagura, CA
Stout, CD
Burgess, BK
Armstrong, FA
Citation: Ks. Chen et al., Atomically defined mechanism for proton transfer to a buried redox centre in a protein (vol 405, pg 814, 2000), NATURE, 407(6800), 2000, pp. 110-110
Authors:
Chen, KS
Hirst, J
Camba, R
Bonagura, CA
Stout, CD
Burgess, BK
Armstrong, FA
Citation: Ks. Chen et al., Atomically defined mechanism for proton transfer to a buried redox centre in a protein, NATURE, 405(6788), 2000, pp. 814-817
Citation: N. Kresge et al., The high resolution crystal structure of green abalone sperm lysin: Implications for species-specific binding of the egg receptor, J MOL BIOL, 296(5), 2000, pp. 1225-1234
Citation: J. Nowakowski et al., Crystal structure of an 82-nucleotide RNA-DNA complex formed by the 10-23 DNA enzyme, NAT ST BIOL, 6(2), 1999, pp. 151-156
Citation: Sj. Lloyd et al., The mechanism of aconitase: 1.8 angstrom resolution crystal structure of the S642A : citrate complex, PROTEIN SCI, 8(12), 1999, pp. 2655-2662
Authors:
Nowakowski, J
Shim, PJ
Joyce, GF
Stout, CD
Citation: J. Nowakowski et al., Crystallization of the 10-23 DNA enzyme using a combinatorial screen of paired oligonucleotides, ACT CRYST D, 55, 1999, pp. 1885-1892
Authors:
Lund, FE
Muller-Steffner, HM
Yu, NX
Stout, CD
Schuber, F
Howard, MC
Citation: Fe. Lund et al., CD38 signaling in B lymphocytes is controlled by its ectodomain but occursindependently of enzymatically generated ADP-ribose or cyclic ADP-ribose, J IMMUNOL, 162(5), 1999, pp. 2693-2702
Authors:
Chen, KS
Tilley, GJ
Sridhar, V
Prasad, GS
Stout, CD
Armstrong, FA
Burgess, BK
Citation: Ks. Chen et al., Alteration of the reduction potential of the [4Fe-4S](2+/+) cluster of Azotobacter vinelandii ferredoxin I, J BIOL CHEM, 274(51), 1999, pp. 36479-36487
Authors:
Jung, YS
Roberts, VA
Stout, CD
Burgess, BK
Citation: Ys. Jung et al., Complex formation between Azotobacter vinelandii ferredoxin I and its physiological electron donor NADPH-ferredoxin reductase, J BIOL CHEM, 274(5), 1999, pp. 2978-2987
Authors:
Schipke, CG
Goodin, DB
McRee, DE
Stout, CD
Citation: Cg. Schipke et al., Oxidized and reduced Azotobacter vinelandii ferredoxin I at 1.4 angstrom resolution: Conformational change of surface residues without significant change in the [3Fe-4S](+/0) cluster, BIOCHEM, 38(26), 1999, pp. 8228-8239
Authors:
Prasad, GS
Kresge, N
Muhlberg, AB
Shaw, A
Jung, YS
Burgess, BK
Stout, CD
Citation: Gs. Prasad et al., The crystal structure of NADPH : ferredoxin reductase from Azotobacter vinelandii, PROTEIN SCI, 7(12), 1998, pp. 2541-2549
Authors:
Gao-Sheridan, HS
Kemper, MA
Khayat, R
Tilley, GJ
Armstrong, FA
Sridhar, V
Prasad, GS
Stout, CD
Burgess, BK
Citation: Hs. Gao-sheridan et al., A T14C variant of Azotobacter vinelandii ferredoxin I undergoes facile [3Fe-4S]degrees to [4Fe-4S](2+) conversion in vitro but not in vivo, J BIOL CHEM, 273(50), 1998, pp. 33692-33701