Cations biology

Burt MB, Pridgen TD (2012) Structures and physical properties of gaseous metal cationized biological ions. Eur J Mass Spectrom 18 235-250... 

The first projective model is based on the vectorial summation of the produced anionic and cationic biological effects. In other words, this so-called 11+> model is constructed from the superposition of the anionic (subscripted with A) and cationic (subscripted with C) activities, and can be formally represented as (Lacrama et al., 2007 Putz, 2012b Putz Putz, 2013a) ... 

J. Cross and E. J. Singer, Cationic Suf actants Analytical and Biological Evaluation, Surfactant Science Series, Vol. 53, Marcel Dekker, Inc., New York, 1994. CSMA Detergents Division, Test Methods Compendium, 2nd ed., CSMA, Inc., Washington, D.C., 1985. 

MacrotetroHdes of the valinomycin group of electrically neutral antibiotics form stable 1 1 complexes with alkaH metal ions that increase the cation permeabiHty of some biological and artificial lipophilic membranes. This solubiHzation process appears to have implications in membrane transport research (30) (see Antibiotics, peptides). 

Isoporphyrin cation, 4, 395 Isoprene polymers, 1, 303 Isoprothiol ane biological activity, 6, 895 as fungicide, 1, 195... 

The concentration of salt in physiological systems is on the order of 150 mM, which corresponds to approximately 350 water molecules for each cation-anion pair. Eor this reason, investigations of salt effects in biological systems using detailed atomic models and molecular dynamic simulations become rapidly prohibitive, and mean-field treatments based on continuum electrostatics are advantageous. Such approximations, which were pioneered by Debye and Huckel [11], are valid at moderately low ionic concentration when core-core interactions between the mobile ions can be neglected. Briefly, the spatial density throughout the solvent is assumed to depend only on the local electrostatic poten-... 

Bradshaw and his coworkers have listed several motivations for their explorations in this area. One objective of [the] research program is to prepare and study a series of multi-dentate compounds which resemble naturally occurring macrocyclic compounds . Further, Bradshaw and his coworkers have said that it is our hope that we can prepare macrocycles to mimic the selectivities of the naturally occurring cyclic antibiotics and thereby make available models for the investigation of biological cation transportation and selectivity processes . These workers have presented a number of comparisons with valinomy-cin . The other expressly stated goal of their research is to prepare molecules which will allow us to systematically examine the parameters which affect complex stability and to understand that stability in terms of AH and TAS values for complex formation . 

Chaput, Jeminet and Juillard measured the association constants of several simple polyethylene glycols with Na", K", Cs", and Tl". Phase transfer catalytic processes and most biological processes are more likely to involve the first two cations rather than the latter two, so we will confine the discussion to these. Stability constants for the dimethyl ethers of tetra-, penta-, hexa-, and heptaethylene glycols were determined poten-tiometrically in anhydrous methanol solution and are shown in Table 7.1. In the third column of the table, the ratio of binding constants (Ks/K s) is calculated. Note that Simon and his coworkers have referred to this ratio as the selectivity constant. ... 

In other sections in this chapter, we have referred to a variety of macropolycyclic structures which are more elaborate than the simple three-stranded bicyclic cryptands. This includes bridged double-macrocycles " , in-out bicyclic amines and the macrotricyclic quaternary ammonium salts of Schmidtchen. In addition to these, there are two other types of compounds which deserve special note. The first of these is a stacked twin-ring cryptand, but it is a hybrid molecule rather than a double-cryptand . The species shown below as 20 is a crowned porphyrin, and was designed to provide a pair of metal cation binding sites similar to those which might be available in natural biological systems . 

Cationic Surfactants Analytical and Biological Evaluation, edited by John Cross and Edward J. Singer... 

So far, as in Equation (3.33), the hydrolyses of ATP and other high-energy phosphates have been portrayed as simple processes. The situation in a real biological system is far more complex, owing to the operation of several ionic equilibria. First, ATP, ADP, and the other species in Table 3.3 can exist in several different ionization states that must be accounted for in any quantitative analysis. Second, phosphate compounds bind a variety of divalent and monovalent cations with substantial affinity, and the various metal complexes must also be considered in such analyses. Consideration of these special cases makes the quantitative analysis far more realistic. The importance of these multiple equilibria in group transfer reactions is illustrated for the hydrolysis of ATP, but the principles and methods presented are general and can be applied to any similar hydrolysis reaction. 

The observation that very significant parts of the cocaine molecule could be deleted from synthetic analogs without loss of biologic activity led to the search for the minimal structural feature consistent with activity. This exercise, sometimes referred to as molecular dissection, not only led to great simpli-fi cation of the structure of local anesthetics but resulted fi-tially in the preparation of active molecules that bear only the remotest structural relation to the prototype, cocaine. 

Anyway, it is clear that the fmdings obtained in these artificial transport systems do contribute to the understanding of biological phenomena and point the way to possible practical applications, such as the separation of ions. Accordingly, the development of synthetic ionophores which possess high selectivity for specific cations is expected to gain importance in the future. 

Macrocyclic Polyamines as Biological Cation and Anion Complexones — An Application to Calculi Dissolution... 

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