- Rossmann, M.G. and Blow, D.M.
The detection of sub-units within the crystallographic asymmetric unit
Acta Cryst., 15 (1962), 24-31.
- Rossmann, M.G. (Ed.)
The Molecular Replacement Method
Gordon & Breach, New York (1972).
- Green, D.W., Ingram, V.M., and Perutz, M. F.
The structure of haemoglobin IV. Sign determination by the isomorphous replacement
method
Proc. Roy. Soc. (London), A225 (1954), 287-307.
- Perutz, M.F.
Isomorphous replacement and phase detrmination in noncentrosymmetric space groups
Acta Cryst., 9 (1956), 867-873.
- Blow, D.M. and Rossmann, M.G.
The single isomorphous replacement method
Acta Cryst., 14 (1961), 1195-1202.
- Harker, D.
The determination of the phases of the structure factors of noncentrosymmetric crystals by the method of double iomorphous replacement
Acta Cryst., 9 (1956) 1-9.
- Karle, J
Some developments in anomalous dispersion for the structural investigation
of macromolecular systems in biology
Int. J. Quant. Chem.: Quant. Biol. Symp., 7 (1980), 357-367
- Direct phase determi
Direct phase determination based on anomalous diffraction measurements
Meth. Enzymol., 115 (1985), 41-55.
- Smith. J.K.
Multiwavelength anomalous diffraction in macromolecular crystallography
in: Wilson, K.S., Davies, G., Ashton, A.W. and Bailey, S. (Ed.) Recent Advances in Phasing
Proceedings of the CCP4 Study Weekend , Daresbury Laboratory (1997)
- Sun, D.P., Alber, T., Bell, J.A., Weaver, L., Mathews, B.W.
Use site-directed mutagenesis to obtain isomorphous heavy-atom derivatives for protein crystallography - cysteine-containing mutants of phage T4 lysozyme
Protein Eng., 1 (1987) 115-123.
- Hatfull, G.F., Sanderson, M.R., Freemont, P.S., Raccuia, P.R., Grindley, N.D.F., Steitz, T.A.
Preparation of heavy-atom derivatives using site-directed mutagenesis - introduction of cysteine residues into gamma-delta resolvase
J. Mol. Biol., 208 (1989) 661-667.
- Golden, B.L., Ramakrishnan, V., White, S.W.
Ribosomal protein L6 structural evidence of gene duplication from a primative RNA binding protein
EMBO J., 12 (1993) 4901-4908.
- Hoffman, D.W., Davies, C., Gerchman, S.E., Kycia, J.H., Porter, S.J., White, S.W., Ramakrishnan, V.
Crystal structure of procaryotic ribosomal protein L9: a bi-lobed RNA-binding protein
EMBO J., 13 (1994) 205-212.
- Martinez, C., De Geus, P., Lauwereys, M., Matthyssens, G., Cambillau, C.
Fusarium solani cutinase is a lipolytic enzyme with a catalytic serine accessible to solvent
Nature, 356 (1992) 615-618.
- Ji, X., Zhang, P., Armstrong, R.N., Gilliland, G.L.
The three-dimensional structure of a glutathione S-transferase from mu gene class. Structural analysis of the binary complex of isoenzyme 3-3 and glutathione at 2.2 A resolution.
Biochemistry, 31 (1992) 10169-10184.
- Cook, W.J., Jeffrey, L.C., Sullivan, M.L. and Vierstra, R.D.
The three-dimensional structure of a ubiquitin conjugating enzyme (E2).
J. Biol. Chem., 267 (1992), 15116-15121
- Oubridge, C., Ito, N., Evans, P.R., Teo, C.H. and Nagai, K.
Crystal structure at 1.92 A resolution of the RNA-binding domain of the U1A spliceosomal
protein complexed with an RNA hairpin.
Nature, 372 (1994), 432-438
- Lee Y.H., Ogata C., Pflugrath J.W., Levitt D.G., Sarma R., Banaszak
L.J., Pilkis S.J.
Crystal structure of the rat liver fructose-2,6-fosphatase based on
selenomethionine multiwavelength anomalous dispersion phases
Biochemistry, 35 (1996), 6010-6019
- Wu H; Lustbader JW; Liu Y; Canfield RE; Hendrickson WA
Structure of human chorionic gonadotropin at 2.6 A resolution from MAD
analysis of the selenomethionyl protein.
Structure, 2 (1994), 545-558
- Hädener A; Matzinger PK; Malashkevich VN; Louie GV; Wood SP; Oliver
P; Alefounder PR; Pitt AR; Abell C;Battersby AR
Purification, characterization, crystallisation and X-ray analysis of
selenomethionine-labelled hydroxymethylbilane synthase from Escherichia
coli.
Eur J Biochem, 211 (1993), 615-624
- Bottomley MJ; Robinson RC; Driscoll PC; Harlos K; Stuart DI; Aplin
RT; Clements JM; Jones EY; Dudgeon TJ Crystallization and preliminary
X-ray diffraction characterisation of both a native and selenomethionyl
VLA-4 binding fragment of VCAM-1.
- Cowie, D.B., Cohen, G.N.
Biocim. Biophys. Acta 26 (1957), 252-261.
- Hendrickson, W.A.
Analysis of protein structure fromdiffraction measurement at multiple wavelenght
Transactions ACA 21 (1985), 11-21.
- Hendrickson, W.A., Pahler, A., Smith, J.L., Satow, Y., Merritt, E.A. and Phizackerley, R.P.
Crystal structure of core streptavidin determined from multiwavelenght anomalous diffraction of synchrotron radiation.
Proc. Natl. Acad. Sci. USA, 86 (1989), 2190-2194.
- Yang, W., Hendrickson, W.A., Crouch, R.J. and Satow, Y.
Structure of ribonuclease H phased at 2 A resolution by MAD analysis of the selenomethionyl protein
Science, 272 (1990), 1606-1614.
- Le Master, D.M and Richards, F.M.
1H-15N heteronuclear NMR studies of Escherichia coli thioredoxin in samples
isotopically labeled by residue type
Biochemistry, 24 (1985), 7263-7268
- Maniatis, T., Fritsche, E.F. and Sambrook, J. (Ed.)
Molecular cloning, a laboratory manual.
Cold Spring Harbor Press, (1982), Cols Spring Harbor, NY.
- Doublie, S., and Carter, C.W. Jr
Preparation of selenomethionyl protein crystals, in: Ducruix, A., and Giegg, R (Eds.)
Crystallization of Nucleic Acids and Proteins. A Pracitical Approach
(1992) Oxford University Press
- Benson, T.E., Filman, C.T., Waslsh, C.T. and Hogle, J.M.
An enzyme-substrate complex involved in bacterial cell wall biosynthesis.
Nature Struct. Biol., 2 (1995), 644-653
- Van Duyne, G.D., Standaert, P.A., Karplus, S.L., Schreiber, S.L. and Clardy, J.
Atomic structures of the human immunophilin FKBP-12 complexes with FK506 and
rapamycin.
J. Mol. Biol., 229 (1993), 105-125.
- Doublie, S., Kapp, U., Aberg, A., Brown, K., Strub, K. and Cusack, S.
Crystallization and preliminary X-ray analysis of the 9 kDa protein of the mouse
signal recognition particle and the selenomethionyl-SRP9.
FEBS Lett., 384 (1996), 219-221.
- Chen, W. and Bahl, O.P.
Recombinant carbohydrate and selenomethionyl variants of human choriogonadotropin.
J. Biol. Chem., 266 (1991), 8192-8197.
- Lustbader, J.W., Wu, H., Briken, S., Pollak, S., Kolkos-Gawinowicz, M.A., Pound, A.M., Austen, D., Hendrickson, W.A. and Canfield, R.E.
The expression, characterization and crystallization of wild-type and selenomethionyl human chorionic gonadotropin
Edocrinology, 136 (1995), 640-650.
- Lawson DM; Artymiuk PJ; Yewdall SJ; Smith JM; Livingstone JC; Treffry A;
Luzzago A; Levi S; Arosio P; Cesareni G
Solving the structure of human H ferritin by genetically engineering intermolecular
crystal contacts.,BR>
Nature, 349(1991),541-544
- Braig K; Otwinowski Z; Hegde R; Boisvert DC; Joachimiak A; Horwich AL; SiglerPB
The crystal structure of the bacterial chaperonin GroEL at 2.8 A resolution
Nature, 371(1994), 578-586.
- Ealick SE; Cook WJ; Vijay-Kumar S; Carson M; Nagabhushan TL; Trotta PP; Bugg CE
Three-dimensional structure of recombinant human interferon-gamma.
Science, 252(1991), 698-702
- Dyda F; Hickman AB; Jenkins TM; Engelman A; Craigie R; Davies DR
Crystal structure of the catalytic domain of HIV-1 integrase: similarity to other
polynucleotidyl transferases
Science, 266(1994), 1981-1986.
[Back]
[Index]
[PPS]
Maciej Kozak
Determination of Protein Structure with NMR Spectroscopy
last updated