Fabrication and characterization of gold nano-wires templated on virus-like arrays of tobacco mosaic virus coat proteins

Nanotechnology

Volumn 24, Issue 2, 2013, Pages

  Wnek M ^a   Gorzny M l ^a   Ward, M B ^a   Walti C ^a   Davies, A G ^a   Brydson, R ^a   Evans, S D ^a   Stockley, P G ^a  

^a UNIVERSITY OF LEEDS   (United Kingdom)

Author keywords

[No Author keywords available]

Indexed keywords

ACIDIC PH; BACTERIAL EXPRESSION SYSTEMS; C-TERMINAL PEPTIDES; CHIMERIC PEPTIDES; COAT PROTEINS; EXPRESSION CONSTRUCTS; GOLD ATOMS; GOLD NANOPARTICLES; HIS-TAG; PLANT VIRUS; POTENTIAL APPLICATIONS; PROTEIN SURFACE; RAPID PURIFICATION; ROD-SHAPED; SELF-ASSEMBLE; TARGET SPECIES; TEMPLATED; THERMAL-ANNEALING; TOBACCO MOSAIC VIRUS; TOBACCO MOSAIC VIRUS COAT PROTEIN;

AUTOMOBILE MANUFACTURE; GOLD; NANORODS; NANOWIRES; PEPTIDES; RECOMBINANT PROTEINS; RNA; TOBACCO;

VIRUSES;

CAPSID PROTEIN; GOLD; METAL NANOPARTICLE;

ARTICLE; CHEMISTRY; CONFORMATION; CRYSTALLIZATION; MACROMOLECULE; MATERIALS TESTING; METHODOLOGY; MOLECULAR IMPRINTING; PARTICLE SIZE; SURFACE PROPERTY; TOBACCO MOSAIC VIRUS; ULTRASTRUCTURE;

CAPSID PROTEINS; CRYSTALLIZATION; GOLD; MACROMOLECULAR SUBSTANCES; MATERIALS TESTING; METAL NANOPARTICLES; MOLECULAR CONFORMATION; MOLECULAR IMPRINTING; PARTICLE SIZE; SURFACE PROPERTIES; TOBACCO MOSAIC VIRUS;

EID: 84871008116     PISSN: 09574484     EISSN: 13616528     Source Type: Journal    
DOI: 10.1088/0957-4484/24/2/025605     Document Type: Article

References (39)

1. Mbindyo J K N, Mallouk T E, Mattzela J B, Kratochvilova I, Razavi B, Jackson T N and Mayer T S 2002 Template synthesis of metal nanowires containing monolayer molecular junctions J. Am. Chem. Soc. 124 4020-6
2. Zhang S 2003 Fabrication of novel biomaterials through molecular self-assembly Nature Biotechnol. 21 1171-8
3. Gu Q, Cheng C, Gonela R, Suryanarayanan S, Anabathula S, Dai K and Haynie D T 2006 DNA nanowire fabrication Nanotechnology 17 R14-25
4. Malisauskas M, Meskys R and Morozova-Roche L A 2008 Ultra thin silver nanowires produced by amyloid biotemplating Biotechnol. Prog. 24 1166-70
5. Zhou J C et al 2008 Microtubule-based gold nanowires and nanowire arrays Small 4 1507-15
6. Lee Y-J, Yi H, Kim W-J, Kang K, Yun D S, Strano M S, Ceder G and Belcher A M 2009 Fabricating genetically engineered high-power lithium-ion batteries using multiple virus genes Science 324 1051-5
7. Van Regenmortel M H V and Fraenkel-Conrat H 1986 The Plant Viruses: The Rod-shaped Plant Viruses vol 2 (Dordrecht: Kluwer Academic)
8. Butler P J G 1999 Self-assembly of tobacco mosaic virus: the role of an intermediate aggregate in generating both specificity and speed Phil. Trans. R. Soc. B 354 537-50
9. Shenton W, Douglas T, Young M, Stubbs G and Mann S 1999 Inorganic-organic nanotube composites from template mineralization of tobacco mosaic virus Adv. Mater. 11 253-6
10. Knez M, Sumser M, Bittner A M, Wege C, Jeske H, Martin T P and Kern K 2004 Spatially selective nucleation of metal clusters on the tobacco mosaic virus Adv. Funct. Mater. 14 116-24
11. Balci S, Bittner A M, Hahn K, Scheu C, Knez M, Kadri A, Wege C, Jeske H and Kern K 2006 Copper nanowires within the central channel of tobacco mosaic virus particles Electrochim. Acta 51 6251-7
12. Tseng R J, Tsai C, Ma L, Ouyang J, Ozkan C S and Yang Y 2006 Digital memory device based on tobacco mosaic virus conjugated with nanoparticles Nature Nanotechnol. 1 72-7
13. 3 nanowires using the central channel of tobacco mosaic virus as biotemplate Chem. Mater. 19 2389-91
14. Bromley K M, Patil A J, Perriman A W, Stubbs G and Mann S 2008 Preparation of high quality nanowires by tobacco mosaic virus templating of gold nanoparticles J. Mater. Chem. 18 4796-801
15. Royston E S, Brown A D, Harris M T and Culver J N 2009 Preparation of silica stabilized tobacco mosaic virus templates for the production of metal and layered nanoparticles J. Colloid Interface Sci. 332 402-7
16. Balci S, Hahn K, Kopold P, Kadri A, Wege C, Kern K and Bittner A B 2012 Electroless synthesis of 3 nm wide alloy nanowires inside tobacco mosaic virus Nanotechnology 23 045603
17. Lee S-Y, Royston E, Culver J N and Harris M T 2005 Improved metal cluster deposition on a genetically engineered tobacco mosaic virus template Nanotechnology 16 435-41
18. Lee S-Y, Choi J, Royston E, Janes D B, Culver J N and Harris M T 2006 Deposition of platinum clusters on surface-modified tobacco mosaic virus J. Nanosci. Nanotechnol. 6 974-81
19. Royston E, Ghosh A, Kofinas P, Harris M T and Culver J N 2008 Self-assembly of virus-structured nanomaterials and their application as battery electrodes Langmuir 24 906-12
20. Kadri A, Mai E, Amsharov N, Bittner A M, Balci S, Kern K, Jeske H and Wege C 2011 Engineered tobacco mosaic virus mutants with distinct physical characteristics in planta and enhanced metallization properties Virus Res. 157 35-46
21. Górzny M L, Walton A S, Wnȩk M, Stockley P G and Evans S D 2008 Four-probe electrical characterization of Pt-coated TMV-based nanostructures Nanotechnology 19 165704
22. Zhou J, Gao Y, Lau J, Hamasaki T, Hu E and Dunn B 2007 Nanoscale assembly of gold nanowires templated by microtubules J. Phys.: Conf. Ser. 61 1352-6
23. Filner B and Marcus A 1974 TMV coat protein synthesis in vivo: analysis of the N-terminal acetylation Virology 61 537-46
24. Hwang D-J, Roberts I M and Wilson M A 1994a Expression of tobacco mosaic virus coat protein and assembly of pseudovirus particles in Escherichia coli Proc. Natl Acad. Sci. USA 91 9067-71
25. Hwang D-J, Roberts I M and Wilson M A 1994b Assembly of tobacco mosaic virus and TMV-like pseudovirus particles Escherichia coli Arch. Virol. Suppl. 9 543-58
26. Polevoda B and Sherman F 2003 N-terminal acetyl transferases and sequence requirements for N-terminal acetylation of eukaryotic proteins J. Mol. Biol. 325 595-622
27. Butler P J G and Klug A 1971 Assembly of the particle of tobacco mosaic virus from RNA and disks of protein Nature New Biol. 229 47-50
28. Madelkow E, Stubbs G and Warren S 1981 Structures of the helical aggregates of tobacco mosaic virus protein J. Mol. Biol. 152 375-86
29. Peele B R, Krauland E M, Wittrup K D and Belcher A M 2005 Design criteria for engineering inorganic material-specific peptides Langmuir 21 6929-33
30. Huang Y, Chiang C-Y, Lee S K, Gao Y, Hu E L, Yoreo J D and Belcher A M 2005 Programmable assembly of nanoarchitectures using genetically engineered viruses Nano Lett. 5 1429-34
31. Joint Committee on Powder Diffraction Standards reference code 00-004-0784
32. Porath D, Goldstein Y, Grayevsky A and Millo O 1994 Scanning tunnelling microscopy studies of annealing of gold films Surf. Sci. 321 81-8
33. Joint Committee on Powder Diffraction Standards reference code 00-043-1039
34. McKendry J E, Allen C S, Critchley K, Górzny M Ł, Walton A S and Evans S D 2008 Magnetic field enhanced nano-tip fabrication for four-probe STM studies Nanotechnology 19 085201
35. Lin X, He X, Lu J, Gao L, Huan Q, Deng Z, Cheng Z, Shi D and Gao H 2006 Manipulation and four-probe analysis of nanowires in UHV by application of four tunneling microscope tips: a new method for the investigation of electrical transport through nanowires Surf. Interface Anal. 38 1096-102
36. Lide D R 1997 Handbook of Chemistry and Physics (Boca Raton, FL: CRC Press)
37. Valizadeh S, Abid M, Hernandez-Ramirez F, Rodriguez A R, Hjort K and Schweitz J A 2006 Template synthesis and forming electrical contacts to single Au nanowires by focused ion beam techniques Nanotechnology 17 1134-9
38. Joshi R K, West L, Kumar A, Joshi N, Alwarappan S and Kumar A 2010 Production of semiconducting gold-DNA nanowires by application of DC bias Nanotechnology 21 185604
39. Karim S, Maaz K and Ensinger W 2009 Diameter dependent failure current density of gold nanowires J. Phys. D: Appl. Phys. 42 185403