Adsorption of bacterial cells to crystal particles of heavy metals: Role of electrostatic interaction

[1]  J. Sambrook,et al.  Molecular Cloning: A Laboratory Manual , 2001 .

[2]  P. Hamlyn,et al.  Efficient protoplast isolation from fungi using commercial enzymes , 1981 .

[3]  J. A. Bass,et al.  Role of pili in adherence of Pseudomonas aeruginosa to mammalian buccal epithelial cells , 1980, Infection and immunity.

[4]  R. Yoon,et al.  Predicting points of zero charge of oxides and hydroxides , 1979 .

[5]  M. Egashira,et al.  Temperature programmed desorption study of water adsorbed on metal oxides. I. Anatase and rutile. , 1978 .

[6]  W. Brill,et al.  Simple, Rapid Assay for Screening Nitrogen‐fixing Ability in Soybean1 , 1976 .

[7]  Dale R. Smith,et al.  Comparison of the Growth Responses of Spring and Summer Plants of Alfalfa Red Clover, and Birdsfoot Trefoil 1 , 1975 .

[8]  W. G. Characklis Attached microbial growths—I. Attachment and growth , 1973 .

[9]  K. Marshall,et al.  Selective sorption of bacteria from seawater. , 1971, Canadian journal of microbiology.

[10]  H. Boehm,et al.  Titanium dioxide catalyzed photooxidation of mercury , 1971 .

[11]  Ralph Mitchell,et al.  Mechanism of the Initial Events in the Sorption of Marine Bacteria to Surfaces , 1970 .

[12]  G. Munuera A study of the mechanisms of formic acid dehydration on TiO2 , 1970 .

[13]  D. Macphee,et al.  Transduction in Klebsiella , 1969, Nature.

[14]  K. Marshall Electrophoretic properties of fast- and slow-growing species of Rhizobium. , 1967, Australian journal of biological sciences.

[15]  A. Yokota,et al.  Enterobacter cloacae A105, isolated from the surface of root nodules of Astragalus sinicus cv. Japan, stimulates nodulation by Rhizobium huakuii bv. renge , 1994 .

[16]  A. Yokota,et al.  Formation of root nodules by Rhizobium huakuii biovar. renge bv. nov. on Astragalus sinicus cv. Japan , 1993 .

[17]  N. Yoshida,et al.  Isolation and characterization of a heavy metal-binding protein from a heavy metal-resistant strain of Thiobacillus sp. , 1993 .

[18]  N. Yoshida,et al.  Characterization and identification of bacterial strains isolated from corroded concrete in the accumulation stratum and their resistance levels to heavy metals , 1993 .

[19]  K. Marshall Adsorption and adhesion processes in microbial growth at interfaces. , 1986, Advances in colloid and interface science.

[20]  C. Yanisch-Perron,et al.  Improved M13 phage cloning vectors and host strains: nucleotide sequences of the M13mp18 and pUC19 vectors. , 1985, Gene.

[21]  P. Rutter,et al.  Physicochemical Interactions of the Substratum, Microorganisms, and the Fluid Phase , 1984 .

[22]  Y. Sakurai,et al.  Bacterial pyrite oxidation III. Adsorption of Thiobacillus ferrooxidans cells on solid surfaces and its effect on iron release from pyrite , 1984 .

[23]  C. J. Oss,et al.  Phagocytosis as a Surface Phenomenon , 1978 .

[24]  B. Atkinson,et al.  The significance of microbial film in fermenters , 1974 .

[25]  M. Primet,et al.  Infrared study of the surface of titanium dioxides. I. Hydroxyl groups , 1971 .