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Hofmeister series

January 07, 2023

The Hofmeister series or lyotropic series is a classification of ions in order of their lyotrophic properties, which is the ability to salt out or salt in proteins.[1][2] The effects of these changes were first worked out by Franz Hofmeister, who studied the effects of cations and anions on the solubility of proteins.[3]

Memorial plaque to the Hofmeister series in Prague

Hofmeister discovered a series of salts that have consistent effects on the solubility of proteins and (it was discovered later) on the stability of their secondary and tertiary structure. Anions appear to have a larger effect than cations,[4] and are usually ordered

(This is a partial listing; many more salts have been studied.) The order of cations is usually given as

The mechanism of the Hofmeister series is not entirely clear, but does not seem to result from changes in general water structure, instead more specific interactions between ions and proteins and ions and the water molecules directly contacting the proteins may be more important.[5] Recent simulation studies have shown that the variation in solvation energy between the ions and the surrounding water molecules underlies the mechanism of the Hofmeister series.[6][7] More recently, a quantum chemical investigation suggests an electrostatic origin to the Hofmeister series.[8] This work provides site-centred radial charge densities of the ions' interacting atoms (to approximate the electrostatic potential energy of interaction), and these appear to quantitatively correlate with many reported Hofmeister series for electrolyte properties, reaction rates and macromolecular stability (such as polymer solubility, and virus and enzyme activities).

Early members of the series increase solvent surface tension and decrease the solubility of nonpolar molecules ("salting out"); in effect, they strengthen the hydrophobic interaction. By contrast, later salts in the series increase the solubility of nonpolar molecules ("salting in") and decrease the order in water; in effect, they weaken the hydrophobic effect.[9][10] The salting out effect is commonly exploited in protein purification through the use of ammonium sulfate precipitation.

However, these salts also interact directly with proteins (which are charged and have strong dipole moments) and may even bind specifically (e.g., phosphate and sulfate binding to ribonuclease A). Ions that have a strong 'salting in' effect such as I and SCN are strong denaturants, because they salt in the peptide group, and thus interact much more strongly with the unfolded form of a protein than with its native form. Consequently, they shift the chemical equilibrium of the unfolding reaction towards unfolded protein.[11]

The denaturing of proteins by an aqueous solution containing many types of ions is more complicated as all the ions can act, according to their Hofmeister activity, i.e., a fractional number specifying the position of the ion in the series (given previously) in terms of its relative efficiency in denaturing a reference protein. The concept of Hofmeister ionicity Ih has been invoked by Dharma-wardana et al.[12] where it is proposed to define Ih as a sum over all ionic species, of the product of the ionic concentration (mole fraction) and a fractional number specifying the "Hofmeister strength" of the ion in denaturing a given reference protein. The concept of ionicity (as a measure of the Hofmeister strength) used here has to be distinguished from ionic strength as used in electrochemistry, and also from its use in the theory of solid semiconductors [13]

References

  1. ^ Hyde, Alan M.; Zultanski, Susan L.; Waldman, Jacob H.; Zhong, Yong-Li; Shevlin, Michael; Peng, Feng (2017). "General Principles and Strategies for Salting-Out Informed by the Hofmeister Series". Organic Process Research & Development. 21 (9): 1355–1370. doi:10.1021/acs.oprd.7b00197.
  2. ^ Gregory, Kasimir P.; Elliott, Gareth R.; Robertson, Hayden; Kumar, Anand; Wanless, Erica J.; Webber, Grant B.; Craig, Vincent S. J.; Andersson, Gunther G.; Page, Alister J. (2022). "Understanding specific ion effects and the Hofmeister series". Physical Chemistry Chemical Physics. 24 (21): 12682–12718. doi:10.1039/D2CP00847E.
  3. ^ Hofmeister, F (1888). "Zur Lehre von der Wirkung der Salze". Arch. Exp. Pathol. Pharmakol. 24 (4–5): 247–260. doi:10.1007/bf01918191. S2CID 27935821.
  4. ^ Yang Z (2009). "Hofmeister effects: an explanation for the impact of ionic liquids on biocatalysis". Journal of Biotechnology. 144 (1): 12–22. doi:10.1016/j.jbiotec.2009.04.011. PMID 19409939.
  5. ^ Zhang Y, Cremer PS (2006). "Interactions between macromolecules and ions: The Hofmeister series". Current Opinion in Chemical Biology. 10 (6): 658–63. doi:10.1016/j.cbpa.2006.09.020. PMID 17035073.
  6. ^ M. Adreev; A. Chremos; J. de Pablo; J. F. Douglas (2017). "Coarse-Grained Model of the Dynamics of Electrolyte Solutions". J. Phys. Chem. B. 121 (34): 8195–8202. doi:10.1021/acs.jpcb.7b04297. PMID 28816050.
  7. ^ M. Adreev; J. de Pablo; A. Chremos; J. F. Douglas (2018). "Influence of Ion Solvation on the Properties of Electrolyte Solutions". J. Phys. Chem. B. 122 (14): 4029–4034. doi:10.1021/acs.jpcb.8b00518. PMID 29611710.
  8. ^ Kasimir P. Gregory; Erica J. Wanless; Grant B. Webber; Vince S. J. Craig; Alister J. Page (2021). "The Electrostatic Origins of Specific Ion Effects: Quantifying the Hofmeister Series for Anions". Chem. Sci. doi:10.1039/D1SC03568A.
  9. ^ Chaplin, Martin (August 6, 2014). . Water Structure and Science. London South Bank University. Archived from the original on August 2, 2014. Retrieved 2014-09-05.
  10. ^ Choudhary, Nilesh; Kushwaha, Omkar Singh; Bhattacharjee, Gaurav; Chakrabarty, Suman; Kumar, Rajnish (2020-11-25). "Macro and Molecular Level Insights on Gas Hydrate Growth in the Presence of Hofmeister Salts". Industrial & Engineering Chemistry Research. 59 (47): 20591–20600. doi:10.1021/acs.iecr.0c04389. ISSN 0888-5885.
  11. ^ Baldwin RL. (1996). "How Hofmeister ion interactions affect protein stability". Biophys J. 71 (4): 2056–63. Bibcode:1996BpJ....71.2056B. doi:10.1016/S0006-3495(96)79404-3. PMC 1233672. PMID 8889180.
  12. ^ Dharma-wardana, M. W. C.; et al. (2014). "Chronic kidney disease of unknown aetiology and ground-water ionicity: study based on Sri Lanka". Environmental Geochemistry and Health. 37 (2): 221–231. doi:10.1007/s10653-014-9641-4. PMID 25119535. S2CID 37388540.
  13. ^ Phillips, J. C. (1973). Bonds and Bands in Semi Conductors. New York: Academic.

Further reading

January 07, 2023
hofmeister, series, lyotropic, series, classification, ions, order, their, lyotrophic, properties, which, ability, salt, salt, proteins, effects, these, changes, were, first, worked, franz, hofmeister, studied, effects, cations, anions, solubility, proteins, m. The Hofmeister series or lyotropic series is a classification of ions in order of their lyotrophic properties which is the ability to salt out or salt in proteins 1 2 The effects of these changes were first worked out by Franz Hofmeister who studied the effects of cations and anions on the solubility of proteins 3 Memorial plaque to the Hofmeister series in Prague Hofmeister discovered a series of salts that have consistent effects on the solubility of proteins and it was discovered later on the stability of their secondary and tertiary structure Anions appear to have a larger effect than cations 4 and are usually ordered F S O 4 2 gt H P O 4 2 gt C 2 H 3 O 2 gt C l gt B r gt N O 3 gt C l O 3 gt I gt C l O 4 gt S C N displaystyle mathrm F approx SO 4 2 gt HPO 4 2 gt C 2 H 3 O 2 gt Cl gt Br gt NO 3 gt ClO 3 gt I gt ClO 4 gt SCN This is a partial listing many more salts have been studied The order of cations is usually given as N H 4 gt K gt N a gt L i gt M g 2 gt C a 2 gt g u a n i d i n i u m displaystyle mathrm NH 4 gt K gt Na gt Li gt Mg 2 gt Ca 2 gt guanidinium The mechanism of the Hofmeister series is not entirely clear but does not seem to result from changes in general water structure instead more specific interactions between ions and proteins and ions and the water molecules directly contacting the proteins may be more important 5 Recent simulation studies have shown that the variation in solvation energy between the ions and the surrounding water molecules underlies the mechanism of the Hofmeister series 6 7 More recently a quantum chemical investigation suggests an electrostatic origin to the Hofmeister series 8 This work provides site centred radial charge densities of the ions interacting atoms to approximate the electrostatic potential energy of interaction and these appear to quantitatively correlate with many reported Hofmeister series for electrolyte properties reaction rates and macromolecular stability such as polymer solubility and virus and enzyme activities Early members of the series increase solvent surface tension and decrease the solubility of nonpolar molecules salting out in effect they strengthen the hydrophobic interaction By contrast later salts in the series increase the solubility of nonpolar molecules salting in and decrease the order in water in effect they weaken the hydrophobic effect 9 10 The salting out effect is commonly exploited in protein purification through the use of ammonium sulfate precipitation However these salts also interact directly with proteins which are charged and have strong dipole moments and may even bind specifically e g phosphate and sulfate binding to ribonuclease A Ions that have a strong salting in effect such as I and SCN are strong denaturants because they salt in the peptide group and thus interact much more strongly with the unfolded form of a protein than with its native form Consequently they shift the chemical equilibrium of the unfolding reaction towards unfolded protein 11 The denaturing of proteins by an aqueous solution containing many types of ions is more complicated as all the ions can act according to their Hofmeister activity i e a fractional number specifying the position of the ion in the series given previously in terms of its relative efficiency in denaturing a reference protein The concept of Hofmeister ionicity Ih has been invoked by Dharma wardana et al 12 where it is proposed to define Ih as a sum over all ionic species of the product of the ionic concentration mole fraction and a fractional number specifying the Hofmeister strength of the ion in denaturing a given reference protein The concept of ionicity as a measure of the Hofmeister strength used here has to be distinguished from ionic strength as used in electrochemistry and also from its use in the theory of solid semiconductors 13 References Edit Hyde Alan M Zultanski Susan L Waldman Jacob H Zhong Yong Li Shevlin Michael Peng Feng 2017 General Principles and Strategies for Salting Out Informed by the Hofmeister Series Organic Process Research amp Development 21 9 1355 1370 doi 10 1021 acs oprd 7b00197 Gregory Kasimir P Elliott Gareth R Robertson Hayden Kumar Anand Wanless Erica J Webber Grant B Craig Vincent S J Andersson Gunther G Page Alister J 2022 Understanding specific ion effects and the Hofmeister series Physical Chemistry Chemical Physics 24 21 12682 12718 doi 10 1039 D2CP00847E Hofmeister F 1888 Zur Lehre von der Wirkung der Salze Arch Exp Pathol Pharmakol 24 4 5 247 260 doi 10 1007 bf01918191 S2CID 27935821 Yang Z 2009 Hofmeister effects an explanation for the impact of ionic liquids on biocatalysis Journal of Biotechnology 144 1 12 22 doi 10 1016 j jbiotec 2009 04 011 PMID 19409939 Zhang Y Cremer PS 2006 Interactions between macromolecules and ions The Hofmeister series Current Opinion in Chemical Biology 10 6 658 63 doi 10 1016 j cbpa 2006 09 020 PMID 17035073 M Adreev A Chremos J de Pablo J F Douglas 2017 Coarse Grained Model of the Dynamics of Electrolyte Solutions J Phys Chem B 121 34 8195 8202 doi 10 1021 acs jpcb 7b04297 PMID 28816050 M Adreev J de Pablo A Chremos J F Douglas 2018 Influence of Ion Solvation on the Properties of Electrolyte Solutions J Phys Chem B 122 14 4029 4034 doi 10 1021 acs jpcb 8b00518 PMID 29611710 Kasimir P Gregory Erica J Wanless Grant B Webber Vince S J Craig Alister J Page 2021 The Electrostatic Origins of Specific Ion Effects Quantifying the Hofmeister Series for Anions Chem Sci doi 10 1039 D1SC03568A Chaplin Martin August 6 2014 Hofmeister Series Water Structure and Science London South Bank University Archived from the original on August 2 2014 Retrieved 2014 09 05 Choudhary Nilesh Kushwaha Omkar Singh Bhattacharjee Gaurav Chakrabarty Suman Kumar Rajnish 2020 11 25 Macro and Molecular Level Insights on Gas Hydrate Growth in the Presence of Hofmeister Salts Industrial amp Engineering Chemistry Research 59 47 20591 20600 doi 10 1021 acs iecr 0c04389 ISSN 0888 5885 Baldwin RL 1996 How Hofmeister ion interactions affect protein stability Biophys J 71 4 2056 63 Bibcode 1996BpJ 71 2056B doi 10 1016 S0006 3495 96 79404 3 PMC 1233672 PMID 8889180 Dharma wardana M W C et al 2014 Chronic kidney disease of unknown aetiology and ground water ionicity study based on Sri Lanka Environmental Geochemistry and Health 37 2 221 231 doi 10 1007 s10653 014 9641 4 PMID 25119535 S2CID 37388540 Phillips J C 1973 Bonds and Bands in Semi Conductors New York Academic Further reading EditBall Philip 1999 H2O A Biography of Water London Phoenix p 239 ISBN 0 7538 1092 1 Hofmeister Still Mystifies Chemical amp Engineering News July 16 2012 Retrieved from https en wikipedia org w index php title Hofmeister series amp oldid 1107245658, wikipedia, wiki, book, books, library,

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