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Electrochemical Studies of the Benzoate Adsorption on Au (111) Electrode (2000)

Li, Hong-Qiang ; Roscoe, Sharon G. ; Lipkowski, Jacek

Springer

Journal of solution chemistry 29 (2000), S. 987-1005

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ISSN: 1572-8927

Keywords: Benzoate ; adsorption ; Au(111) electrode ; chronocoulometry

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Cyclic voltammetry (CV), differential capacity (DC), and charge densitymeasurements have been employed to study the benzoate (BZ) adsorption at the Au(111)electrode surface. Thermodynamic analysis of charge density (σM) data has beenperformed to describe the properties of the adsorbed benzoate ion. The Gibbsexcess Γ, Gibbs energy of adsorption ΔG, and the number of electrons flowingto the interface per adsorbed benzoate ion at a constant potential (electrosorptionvalency) and at a constant bulk concentration of the benzoate (reciprocal of theEsin—Markov coefficient) have been determined. The results demonstrate thatalthough benzoate adsorption starts at negative charge densities, it takes placepredominantly at a positively charged surface. At the most positive potentials,the surface concentration of benzoate attains a limiting value of about 7.3×10−10mol-cm−2, which is independent of the bulk benzoate concentration. This valueis consistent with packing density corresponding to a closed-packed monolayerof vertically adsorbed benzoate molecules. At negative charge densities, benzoateassumes a flat (π-bonded) surface coordination. The surface coordination ofbenzoate changes, by moving from a negatively to positively charged surface.At the negatively charged surface, the electrosorption bond is quite polar. Thepolarity of the chemisorption bond is significantly reduced due either to a chargetransfer or a screening of the charge on the anion by the charge on the metal.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1005190802238

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Identification and genetic mapping of Xenopus TAP2 genes (1999)

Ohta, Y. ; Powis, S. J. ; Coadwell, W. John ; [et al.]

Springer

Immunogenetics 49 (1999), S. 171-182

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ISSN: 1432-1211

Keywords: Key words MHC ; Transporter ; Evolution ; PCR cloning ; Allelic lineage

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Abstract The amphibian Xenopus laevis is one non-mammalian vertebrate in which the major histocompatibility complex (MHC) has been analyzed extensively. Class IIβ, class Ia, LMP2, LMP7, HSP70, C4, Factor B, and Ring3 genes have been identified and mapped to the MHC. Here, we report the isolation of a transporter associated with antigen processing (TAP) gene, TAP2, and demonstrate its linkage to the MHC. While the ATP-binding region of Xenopus TAP2 is highly conserved in evolution, amino acid identity to other vertebrate TAP proteins was not detected in the N-terminal region. Segregation analysis of 34 individuals from two families showed exact restriction fragment length polymorphism matching between the MHC class Ia gene and the one TAP2 gene demonstrating linkage conservation since the mammalian/amphibian divergence ∼350 million years ago. In addition, one non-MHC-linked TAP2–hybridizing fragment was detected in approximately half of the individuals tested. Interestingly, TAP2 allelic lineages appear to match those of LMP7 and classical class I, which previously were categorized into two highly divergent groups that emerged at least 60 million years ago. Similar to LMP7 and class Ia,TAP2 is expressed ubiquitously with highest levels in intestine and spleen.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002510050478

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