Adsorption of Aqueous Nucleobases, Nucleosides, and Nucleotides on Humic Acids. 3. Adsorption of Uracil, Uridine, and Uridine-5‘-Monophosphate on a German Peat-Derived Humic Acid and Its Tightly Bound Mercury(II) Form

Ghabbour, Elham A.; Davies, Geoffrey; Fataftah, Amjad; Ghali, Nadeem K.; Goodwillie, Melissa E.; Jansen, Susan A.; Smith, Nichole A.

doi:10.1021/jp970665w

Cited by 14 publications

(15 citation statements)

References 15 publications

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“…The slope of Fig. 6 is 313K (40°C) and the intercept is -4.5 kcal mol -1 , similar to parameters for nucleic acid constituent binding to HAs from different sources (Davies et al 1997a;Ghabbour et al 1997).…”

Section: Thermodynamic Considerationssupporting

confidence: 64%

“…HA samples GHA and NHA were isolated with the different protocols in Davies et al (1997b) and Ghabbour et al (1997). We verified that the HA products isolated with these methods from a given source are indistinguishable.…”

Section: Humic Acidsmentioning

confidence: 65%

“…Linear segments in plots of Eq. 2 indicate successive adsorption steps with increasing c (Khairy et al 1996a,b;Davies et al 1997a,b;Ghabbour et al 1997). Also, an adsorbent with a fixed number of sites per gram theoretically has v independent of solute molar mass and temperature (Adamson 1982;Ghabbour et al 1997).…”

Section: Isotherm Data Analysismentioning

confidence: 99%

“…We are studying the sorptive (Khairy et al 1996a,b;Davies et al 1997a;Ghabbour et al 1997) and metal binding (Davies et al 1997b;Ghabbour et al 2001) properties of solid HAs isolated from composts, peats and soils. Our objective is to establish how solid HAs perform these functions and whether HAs from different countries behave similarly or not.…”

mentioning

confidence: 99%

“…That is, they are free energy buffers. Free energy buffering is made possible by compensating enthalpy and entropy changes for adsorption (Davies et al 1997a;Ghabbour et al 1997) and metal binding (Ghabbour et al 2001). The sorption of solutes by a solid HA reflects its macroscopic properties.…”

mentioning

confidence: 99%

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Adsorption of nucleic acid constituent uracil on copper(II)-loaded, solid peat and soil-derived humic acids

Ghabbour¹,

Davies²,

Dunfee³

et al. 2001

Can. J. Soil. Sci.

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A. and Vozzella, M. E. 2001. Adsorption of nucleic acid constituent uracil on copper(II)-loaded, solid peat and soil-derived humic acids. Can. J. Soil Sci. 81: 309-316. Humic acids (HA) in compost, peats and soils sorb organic compounds selectively. This paper investigates the micro-and macroscopic properties of solid HAs isolated from a German peat (GHA) and a New Hampshire soil (NHA) using tightly bound copper(II) and nucleic acid constituent uracil adsorption as analytical probes. Isotherm measurements at 5.0-35.0°C show that tightly bound Cu(II) decreases the amount of uracil adsorbed by GHA at mM or lower uracil concentrations whereas previous work revealed the opposite effect for bound Hg(II). Site capacity comparisons are consistent with lower coordination numbers for HA-bound Hg(II) than for HA-bound Cu(II). Low coordination numbers leave Hg(II) sites open for uracil binding. Enthalpy and entropy changes for uracil adsorption on GHA, NHA, their Cu(II) and Hg(II)-loaded forms and on compost-derived HA are linearly correlated, indicating that HAs are free energy buffers. Water and bound metals evidently play major roles in HA-solute interactions and in HA aggregation/disaggregation.

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Section: Thermodynamic Considerationssupporting

confidence: 64%

Section: Humic Acidsmentioning

confidence: 65%