nach oben

Erschienen in:

2014 | OriginalPaper | Buchkapitel

2. Fundamentals of Peptide-Materials Interfaces

verfasst von : Tiffany R. Walsh

Erschienen in: Bio-Inspired Nanotechnology

Verlag: Springer New York

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

The investigation of the binding, dynamics and properties of peptides adsorbed on inorganic surfaces is an inherently multidisciplinary endeavor. This chapter is primarily aimed at new researchers in this field, to introduce the basic concepts that span physical chemistry, surface science, structural biology, computational techniques, and materials science; all of which are necessary for gaining a comprehensive overview of peptide-materials interfaces. What are the key insights that can be determined from these interfaces? Usually, this will comprise a blend of thermodynamics, kinetics and structural characterizations. Typically, we might wish to compare the binding strength of a peptide, and concomitantly, the structure(s) assumed by the peptide upon adsorption. We might also seek to characterize the surface diffusion, and/or aggregation (or assembly) of these surface-adsorbed biomolecules. These observations serve to facilitate connections between the composition and sequence of the peptide, and its behavior and properties at the interface. Such connections could be subsequently exploited in bioinformatics models to enable the prediction of new peptide sequences, with designed, predictable interfacial properties.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Vorheriges Kapitel Peptide-Nanoparticle Strategies, Interactions, and Challenges

Nächstes Kapitel Experimental Characterization of Peptide–Surface Interactions

Atkins PW, de Paula J (2010) Physical chemistry, 9th edn. OUP, Oxford

Binnig G, Rohrer H, Gerber CH, Weibel E (1983) 7 × 7 Reconstruction on Si(111) resolved in real space. Phys Rev Lett 50:120–123CrossRef

Brown S (1997) Metal-recognition by repeating polypeptides. Nat Biotechnol 15:269–272CrossRef

Bryngelson JD, Onuchic JN, Socci ND, Wolynes PG (1995) Funnels pathways, and the energy landscape of protein-folding—a synthesis. Proteins 21:167–195CrossRef

Crookes-Goodson WJ, Slocik JM, Naik RR (2008) Bio-directed synthesis and assembly of nanomaterials. Chem Soc Rev 37:2403–2412CrossRef

Chiu CY, Li Y, Huang Y (2010) Size-controlled synthesis of Pd nanocrystals using a specific multifunctional peptide. Nanoscale 2:927–930CrossRef

Collino S, Evans JS (2008) Molecular specifications of a mineral modulation sequence derived from the aragonite-promoting protein n16. Biomacromolecules 9:1909–1918CrossRef

Cui Y, Kim SN, Jones SE, Wissler LL, Naik RR, McAlpine MC (2010) Chemical functionalization of graphene enabled by phage displayed peptides. Nano Lett 10:4559–4565CrossRef

Delak K, Harcup C, Lakshminarayanan R, Sun Z, Fan YW, Moradian-Oldak J, Evans JS (2009) The tooth enamel protein, porcine amelogenin, is an intrinsically disordered protein with an extended molecular configuration in the monomeric form. Biochemistry 48:2272–2281CrossRef

Dickerson MB, Sandhage KH, Naik RR (2008a) Protein- and peptide-directed syntheses of inorganic materials. Chem Rev 108:4935–4978CrossRef

Dickerson MB, Jones SJ, Cai Y, Ahmad G, Naik RR, Kroeger N, Sandhage KH (2008b) Identification and design of peptides for the rapid, high-yield formation of nanoparticulate TiO₂ from aqueous solutions at room temperature. Chem Mater 20:1578–1584

Dunker AK, Silman I, Uversky VN, Sussman JL (2008) Function and structure of inherently disordered proteins. Curr Opin Struct Biol 18:756–764CrossRef

Eliezer D (2009) Biophysical characterization of intrinsically disordered proteins. Curr Opin Struct Biol 19:23–30CrossRef

Estephan E, Saab MB, Martin M, Larroque C, Cuisinier FJG, Briot O, Ruffenach S, Moret M, Gergely C (2011) Phages recognizing the indium nitride semiconductor surface via their peptides. J Pept Sci 17:143–147

Fang Y, Poulsen N, Dickerson MB, Cai Y, Jones SJ, Naik RR, Kroeger N, Sandhage KH (2008) Identification of peptides capable of inducing the formation of titania but not silica via a subtractive bacteriophage display approach. J Mater Chem 18:3871–3875CrossRef

Fisher CK, Stultz CM (2011) Constructing ensembles for intrinsically disordered proteins. Curr Opin Struct Biol 21:426–431CrossRef

Flory PJ (1969) Statistical Mechanics of Chain Molecules. OUP, New York

Forbes LM, Goodwin AP, Cha JN (2010) Tunable size and shape control of platinum nanocrystals from a single peptide sequence. Chem Mater 24:6524–6528CrossRef

Goede K, Busch P, Grundmann M (2004) Binding specificity of a peptide on semiconductor surfaces. Nano Lett 4:2115–2120CrossRef

Gungormus M, Fong H, Kim IW, Evans JS, Tamerler C, Sarikaya M (2008) Regulation of in vitro calcium phosphate mineralization by combinatorially selected hydroxyapatite-binding peptides. Biomacromolecules 9:966–973CrossRef

Guo J, Catchmark JM, Mohamed MNA, Benesi AJ, Tien M, Kao TH, Watts HD, Kubicki JD (2013) Identification and characterization of a cellulose binding heptapeptide revealed by phage display. Biomacromolecules 14:1795–1805CrossRef

Hassenkam T, Mitchell AC, Pedersen CS, Skovbjerg LL, Bovet N, Stipp SLS (2012) The low salinity effect observed on sandstone model surfaces. Colloid Surf A 403:79–86

Heinz H, Farmer BL, Pandey RB, Slocik JM, Patnaik SS, Pachter R, Naik RR (2009) Nature of molecular interactions of peptides with gold, palladium and pd-au bimetal surfaces in aqueous solution. J Am Chem Soc 131:9704–9714CrossRef

Higo J, Nishimura Y, Nakamura H (2011) A free energy landscape for coupled folding and binding of an intrinsically disordered protein in explicit solvent from detailed all-atom simulations. J Am Chem Soc 133:10448–10458CrossRef

Hnilova M, Oren EE, Seker UOS, Wilson BR, Collino S, Evans JS, Tamerler C, Sarikaya M (2008) Effect of molecular conformations on the adsorption behavior of gold-binding peptides. Langmuir 24:12440–12445CrossRef

Jensen MR, Salmon L, Nodet G, Blackledge M (2010) Defining conformational ensembles of intrinsically disordered and partially folded proteins directly from chemical shifts. J Am Chem Soc 132:1270–1272CrossRef

Keene EC, Evans JS, Estroff LA (2010) Matrix interactions in biomineralization: aragonite nucleation by an intrinsically disordered nacre polypeptide, n16N, associated with a beta-chitin substrate. Cryst Growth Des 10:1383–1389CrossRef

Knott M, Best RB (2012) A preformed binding interface in the unbound ensemble of an intrinsically disordered protein: evidence from molecular simulations. PLoS Comp Biol 8:e1002605-1-10

Kulp JL, Shiba K, Evans JS (2005) Probing the conformational features of a phage display polypeptide sequence directed against single-walled carbon nanohorn surfaces. Langmuir 21:11907–11914CrossRef

Lee SW, Mao C, Flynn CE, Belcher AM (2002) Ordering of quantum dots using genetically engineered viruses. Science 296:892–895CrossRef

Li CM, Botsaris GD, Kaplan DL (2002) Selective in vitro effect of peptides on calcium carbonate crystallization. Cryst Growth Des 2:387–393CrossRef

Li YJ, Whyburn GB, Huang Y (2009) Specific peptide regulated synthesis of ultrasmall platinum nanocrystals. J Am Chem Soc 131:15998–15999CrossRef

Lindorff-Larsen K, Trbovic N, Maragakis P, Piana S, Shaw DE (2012) Structure and dynamics of an unfolded protein examined by molecular dynamics simulation. J Am Chem Soc 134:3787–3791CrossRef

Mao AH, Lyle N, Pappu RV (2013) Describing sequence-ensemble relationships for intrinsically disorderd proteins. Biochem J 449:307–318CrossRef

Masica DL, Gray JJ (2009) Solution- and adsorbed-state structural ensembles predicted for the statherin-hydroxyapatite system. Biophys J 96:3082–3091CrossRef

Masica DL, Schrier SB, Specht EA, Gray JJ (2010) De novo design of peptide-calcite biomineralization systems. J Am Chem Soc 132:12252–12262CrossRef

Mirau PA, Naik RR, Gehring P (2011) Structure of peptides on metal oxide surfaces probed by NMR. J Am Chem Soc 133:18243–18248CrossRef

Mittal J, Yoo TH, Georgiou G, Truskett TM (2013) Structural ensemble of an intrinsically disordered peptide. J Phys Chem B 117:118–124CrossRef

Moritsugu K, Terada T, Kidera A (2012) Disorder-to-order transition of an intrinsically disordered region of sortase revealed by multiscale enhanced sampling. J Am Chem Soc 134:7094–7101CrossRef

Naik RR, Brott L, Carlson SJ, Stone MO (2002a) Silica precipitating peptides isolated from a combinatorial phage display library. J Nanosci Nanotechnol 2:95–100CrossRef

Naik RR, Stringer SJ, Agarwal G, Jones SE, Stone MO (2002b) Biomimetic synthesis and patterning of silver nanoparticles. Nat Mater 1:169–172

Narayanan C, Weinstock DS, Wu KP, Baum J, Levy RM (2012) Investigation of the polymeric properties of α-synuclein and comparison with NMR experiments: a replica exchange molecular dynamics study. J Chem Theory Comput 8:3929–3942CrossRef

Nergiz SZ, Slocik JM, Naik RR, Singamaneni S (2013) Phys Chem Chem Phys 15:11629–11633CrossRef

Nygaard S, Wendelbo R, Brown S (2002) Surface-specific zeolite-binding proteins. Adv Mater 14:1853–1856CrossRef

Oren EE, Tamerler C, Sahin D, Hnilova M, Seker UOS, Sarikaya M, Samudrala R (2007) A novel knowledge-based approach to design inorganic binding peptides. Bioinformatics 23:2816–2822CrossRef

Oren EE, Notman R, Kim IW, Evans JS, Walsh TR, Samudrala R, Tamerler C, Sarikaya M (2010) Probing the molecular mechanisms of quartz-binding peptides. Langmuir 26:11003–11009CrossRef

Ostermeir K, Zacharias M (2013) Advanced replica-exchange sampling to study the flexibility and plasticity of peptides and proteins. Biochim Biophys Acta 1834:847–853CrossRef

Patwardhan SV, Emami FS, Berry RJ, Jones SE, Naik RR, Deschaume O, Heinz H, Perry CC (2012) Chemistry of aqueous silica nanoparticle surfaces and the mechanism of selective peptide adsorption. J Am Chem Soc 134:6244–6246CrossRef

Pender MJ, Sowards LA, Hartgerink JD, Stone MO, Naik RR (2006) Peptide-mediated formation of single-wall carbon nanotube composites. Nano Lett 6:40–44CrossRef

Pilling MJ, Seakins PW (2001) Reaction kinetics. OUP, Oxford

Puddu V, Perry CC (2012) Peptide adsorption on silica nanoparticles: evidence of hydrophobic interactions. ACS Nano 6:6356–6363CrossRef

Rothenstein D, Claasen B, Omiecienski B, Lammel P, Bill J (2012) Isolation of ZnO-Binding 12-mer peptides and determination of their binding epitopes by NMR spectroscopy. J Am Chem Soc 134:12547–12556

Roy MD, Stanley SK, Amis EJ, Becker ML (2008) Identification of a highly specific hydroxyapatite-binding peptide using phage display. Adv Mater 20:1830–1836CrossRef

Ruan LY, Ramezani-Dakhel H, Chiu CY, Zhu E, Li YJ, Heinz H, Huang Y (2013) Tailoring molecular specificity toward a crystal facet: a lesson from biorecognition toward Pt{111}. Nano Lett 13:840–846CrossRef

Sano KI, Shiba K (2003) A hexapeptide motif that electrostatically binds to the surface of titanium. J Am Chem Soc 125:14234–14235CrossRef

Sarikaya M, Tamerler C, Jen A-K, Schulten K, Baneyx F (2003) Molecular biomimetics: nanotechnology through biology. Nat Mater 2:577–585CrossRef

Sarikaya M, Tamerler C, Schwartz DT, Baneyx F (2004) Materials assembly and formation using engineered polypeptides. Annu Rev Mater Res 34:373–408CrossRef

Schneider J, Colombi Ciacchi L (2012) Specific material recognition by small peptides mediated by the interfacial solvent structure. J Am Chem Soc 134:2407–2413

Serizawa T, Techawanitchai P, Matsuno H (2007) Isolation of peptides that can recognize syndiotactic polystyrene. ChemBioChem 8:989–993CrossRef

Sethi A, Tian J, Vu DM, Gnanakaran S (2012) Identification of minimally interacting modules in an intrinsically disordered protein. Biophys J 103:748–757CrossRef

Skelton AA, Liang TN, Walsh TR (2009) Interplay of sequence, conformation, and binding at the peptide-titania interface as mediated by water. ACS Appl Mater Interfaces 1:1482–1491CrossRef

Slocik JM, Govorov AO, Naik RR (2011) Plasmonic circular dichroism of peptide-functionalized gold nanoparticles. Nano Lett 11:701–705CrossRef

So CR, Kulp JL, Oren EE, Zareie H, Tamerler C, Evans JS, Sarikaya M (2009) Molecular recognition and supramolecular self-assembly of a genetically engineered gold binding peptide on Au{111}. ACS Nano 3:1525–1531CrossRef

Tamerler C, Duman M, Oren EE, Gungormus M, Xiong X, Kacar T, Parviz BA, Sarikaya M (2006) Materials specificity and directed assembly of a gold-binding peptide. Small 2:1372–1378CrossRef

Terakawa T, Takada S (2011) Multiscale ensemble modelling of intrinsically disordered proteins: p53 N-terminal domain. Biophys J 101:1450–1458CrossRef

Thai CK, Dai H, Sastry MSR, Sarikaya M, Schwartz DT, Baneyx F (2004) Identification and characterization of Cu₂O- and ZnO-binding polypeptides by Escherichia coli cell surface display. J Biotech Bioeng 87:129–137CrossRef

Tompa P (2012) Intrinsically disordered proteins: a 10-year recap. Trends Biochem Sci 37:509–516CrossRef

Vellore NA, Yancey JA, Collier G, Latour RA, Stuart SJ (2010) Assessment of the transferability of a protein force field for the simulation of peptide-surface interactions. Langmuir 26:7396–7404CrossRef

Wales DJ (2003) Energy landscapes. CUP, Cambridge

Wales DJ, Miller MA, Walsh TR (1998) Archetypal energy landscapes. Nature 394:758–760CrossRef

Wang SQ, Humphreys ES, Chung SY, Delduco DF, Lustig SR, Wang H, Parker KN, Rizzo NW, Subramoney S, Chiang YM, Jagota A (2003) Peptides with selective affinity for carbon nanotubes. Nat Mater 2:196–200CrossRef

Wang F, Stuart SJ, Latour RA (2008) Calculation of adsorption free energy for solute-surface interactions using biased replica-exchange molecular dynamics. Biointerphases 3:9–18CrossRef

Wei Y, Latour RA (2008) Determination of the adsorption free energy for peptide-surface interactions by SPR spectroscopy. Langmuir 24:6721–6729CrossRef

Whaley SR, English DS, Hu EL, Barbara PF, Belcher AM (2000) Selection of peptides with semiconductor binding specificity for directed nanocrystal assembly. Nature 405:665–668CrossRef

Whitford D (2005) Proteins: structure and function. Wiley, Chichester

Wright LB, Walsh TR (2012) Facet selectivity of binding on quartz surfaces: free energy calculations of amino-acid analogue adsorption. J Phys Chem C 116:2933–2945CrossRef

Wright LB, Walsh TR (2013) Efficient conformational sampling of peptides adsorbed onto inorganic surfaces: insights from a quartz binding peptide. Phys Chem Chem Phys 15:4715–4726CrossRef

Xie HB, Vucetic S, Iakoucheva LM, Oldfield CJ, Dunker AK, Uversky VN, Obradovic Z (2007) Functional anthology of intrinsic disorder. 1. Biological processes and functions of proteins with long disordered regions. J Proteome Res 6:1882–1898CrossRef

Titel: Fundamentals of Peptide-Materials Interfaces
verfasst von: Tiffany R. Walsh
Verlag: Springer New York
Buch: Bio-Inspired Nanotechnology
Print ISBN: 978-1-4614-9445-4

Electronic ISBN: 978-1-4614-9446-1

Copyright-Jahr: 2014
DOI: https://doi.org/10.1007/978-1-4614-9446-1_2

Neuer Inhalt

Bildnachweise

VDI-Icon, Profil Icon, inhalt2, Springer Professional Modul/© Springer Fachmedien Wiesbaden GmbH, Nachhaltigkeitsaward Key Visual/© Cometis AG/Global ESG Monitor | Daniel Rupp | Generiert mit KI, Search Icon, Banner Hanser, Frank Urbansky/© Peter Eichler / Leipzig, CO2-Fußabdruck/© Jenny Sturm / stock.adobe.com, Interview Entropie Bild 1/© Bernhard Weßling, Zeitschrift Wissensmanagement Cover, PatentFit-Logo/© Springer Fachmedien Wiesbaden GmbH, Sustainibility Finance/© Robert Kneschke / stock.adobe.com / Springer Fachmedien Wiesbaden GmbH, Zukunftswerkstatt Sales Excellence 2024/© AndreyPopov / Getty Images / iStock, 2023_Antrieb/© supervisuell

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Neuer Inhalt

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.