Atomic interactions in protein-carbohydrate complexes. Tryptophan residues in the periplasmic maltodextrin receptor for active transport and chemotaxis.
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[1] W. Hendrickson. Stereochemically restrained refinement of macromolecular structures. , 1985, Methods in enzymology.
[2] F. Quiocho,et al. The 2.3-A resolution structure of the maltose- or maltodextrin-binding protein, a primary receptor of bacterial active transport and chemotaxis. , 1992 .
[3] M. Teeter,et al. Water-protein interactions: theory and experiment. , 1991, Annual review of biophysics and biophysical chemistry.
[4] G. L. Hazelbauer. Maltose chemoreceptor of Escherichia coli , 1975, Journal of bacteriology.
[5] Winfried Boos,et al. Maltose Transport in Escherichia coli K12 , 1976 .
[6] M. Hofnung,et al. Sequence of gene malG in E. coli K12: homologies between integral membrane components from binding protein‐dependent transport systems. , 1985, The EMBO journal.
[7] M. N. Vyas,et al. Sugar and signal-transducer binding sites of the Escherichia coli galactose chemoreceptor protein. , 1988, Science.
[8] O. Kellermann,et al. Active transport of maltose in Escherichia coli K12. Involvement of a "periplasmic" maltose binding protein. , 1974, European journal of biochemistry.
[9] C. Higgins,et al. Nucleotide binding by membrane components of bacterial periplasmic binding protein‐dependent transport systems. , 1985, The EMBO journal.
[10] J. Beckwith,et al. The nucleotide sequence of the gene for malF protein, an inner membrane component of the maltose transport system of Escherichia coli. Repeated DNA sequences are found in the malE-malF intercistronic region. , 1984, The Journal of biological chemistry.
[11] F. Quiocho,et al. Genetic approach to the role of tryptophan residues in the activities and fluorescence of a bacterial periplasmic maltose-binding protein. , 1990, Journal of molecular biology.
[12] D. Koshland,et al. Global flexibility in a sensory receptor: a site-directed cross-linking approach. , 1987, Science.
[13] N. Xuong,et al. Software for a diffractometer with multiwire area detector. , 1985, Methods in enzymology.
[14] R. Hamlin,et al. [27] Multiwire area X-ray diffractometers , 1985 .
[15] J. Sack,et al. CHAIN — A crystallographic modeling program , 1988 .
[16] N. Vyas. Atomic features of protein-carbohydrate interactions , 1991 .
[17] Florante A. Quiocho,et al. Novel stereospecificity of the L-arabinose-binding protein , 1984, Nature.
[18] F A Quiocho,et al. Rates of ligand binding to periplasmic proteins involved in bacterial transport and chemotaxis. , 1983, The Journal of biological chemistry.
[19] E. Gilson,et al. Extensive homology between membrane-associated components of histidine and maltose transport systems of Salmonella typhimurium and Escherichia coli. , 1982, The Journal of biological chemistry.
[20] T. Silhavy,et al. Identification of the malK gene product. A peripheral membrane component of the Escherichia coli maltose transport system. , 1981, The Journal of biological chemistry.