000			10102cam a2200769 i 4500
001			on1038788699
003			OCoLC
005			20250702170937.0
006			m o d
007			cr cnu|||unuuu
008			180605t20182018nyua ob 001 0 eng d
040			_aRML _beng _epn _cRML _dRML _dOCLCO _dGW5XE _dYDX _dCOO _dOCLCF _dTFH _dUAB _dSTF _dOCLCO _dU3W _dOCLCO _dOCLCA _dLVT _dOCLCO _dCAUOI _dNLW _dOCLCO _dOCLCQ _dOCLCO _dOCL _dOCLCQ _dOCLCO _dOCLCL _dUKAHL _dEBLCP _dOCLCQ _dOCLCL
019			_a1043855315 _a1044719449
020			_a9781493978083 _q(electronic bk.)
020			_a149397808X _q(electronic bk.)
020			_z9781493978069 _q(print)
020			_z1493978063
035			_a(OCoLC)1038788699 _z(OCoLC)1043855315 _z(OCoLC)1044719449
050		4	_aTP248.25.N35
082	0	4	_a660.6 _223 _1https://id.oclc.org/worldcat/ddc/E3D9VwxgGwwXmRPH4fbcFbw7TX
049			_aMAIN
245	0	0	_aVirus-derived nanoparticles for advanced technologies : _bmethods and protocols / _cedited by Christina Wege, George P. Lomonossoff.
264		1	_aNew York, NY : _bHumana Press : _bSpringer, _c[2018]
264		4	_c©2018
300			_a1 online resource (xv, 671 pages) : _billustrations (some color)
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
490	1		_aMethods in molecular biology, _x1940-6029 ; _vvolume 1776
504			_aIncludes bibliographical references and index.
505	0	0	_tProduction of mosaic turnip crinkle virus-like particles derived by coinfiltration of wild-type and modified forms of virus coat protein in plants / _rRoger Castells-Graells, George P. Lomonossoff, and Keith Saunders -- _tIsolation and characterization of two distinct types of unmodified spherical plant sobemovirus-like particles for diagnostic and technical uses / _rIna Balke, Gunta Reseviča, and Andris Zeltins -- _tRNA-directed assembly of tobacco mosaic virus (TMV)-like carriers with tunable fractions of differently addressable coat proteins / _rSabine Eiben -- _tFabrication of tobacco mosaic virus-like nanorods for peptide display / _rEmily J. Larkin, Adam D. Brown, and James N. Culver -- _tIn planta production of fluorescent filamentous plant virus-based nanoparticles / _rSourabh Shukla, Christina Dickmeis, Rainer Fischer, Ulrich Commandeur, and Nicole F. Steinmetz -- _tSelf-assembling plant-derived vaccines against papillomaviruses / _rEmanuela Noris -- _tRecombinant expression of tandem-HBc virus-like particles (VLPs) / _rSam L. Stephen, Lucy Beales, Hadrien Peyret, Amy Roe, Nicola J. Stonehouse, and David J. Rowlands -- _tProduction and application of insect virus-based VLPs / _rRadhika Gopal and Anette Schneemann -- _tNanomanufacture of free-standing, porous, janus-type films of polymer-plant virus nanoparticle arrays / _rBrylee David B. Tiu, Rigoberto C. Advincula, and Nicole F. Steinmetz -- _tSelf-assembly of rod-like bionanoparticles at interfaces and in solution / _rYe Tian and Zhongwei Niu -- _tBottom-up assembly of TMV-based nucleoprotein architectures on solid supports / _rChristina Wege and Fabian J. Eber -- _tInternal deposition of cobalt metal and iron oxide within CPMV eVLPs / _rAlaa A. A. Aljabali and David J. Evans -- _tPlant virus-based nanoparticles for the delivery of agronomic compounds as a suspension concentrate / _rRichard H. Guenther, Steven A. Lommel, Charles H. Opperman, and Tim L. Sit -- _tNanowires and nanoparticle chains inside tubular viral templates / _rKun Zhou and Qiangbin Wang -- _tIn vitro-reassembled plant virus-like particles of hibiscus chlorotic ringspot virus (HCRSV) as nano-protein cages for drugs / _rSek-Man Wong and Yupeng Ren -- _tCCMV-Based enzymatic nanoreactors / _rMark V. de Ruiter, Rindia M. Putri, and Jeroen J. L. M. Cornelissen -- _tProtocol for efficient cell-free synthesis of cowpea chlorotic mottle virus-like particles containing heterologous RNAs / _rRees F. Garmann, Charles M. Knobler, and William M. Gelbart -- _tPackaging DNA origami into viral protein cages / _rVeikko Linko, Joona Mikkilä, and Mauri A. Kostiainen -- _tIn vitro assembly of virus-derived designer shells around inorganic nanoparticles / _rStella E. Vieweger, Irina B. Tsvetkova, and Bogdan G. Dragnea -- _tIn vivo packaging of protein cargo inside of virus-like particle P22 / _rKimberly McCoy and Trevor Douglas -- _tEncapsulation of negatively charged cargo in MS2 viral capsids / _rIoana L. Aanei, Jeff E. Glasgow, Stacy L. Capehart, and Matthew B. Francis -- _tDelivering cargo : plant-based production of bluetongue virus core-like and virus-like particles containing fluorescent proteins / _rEva C. Thuenemann and George P. Lomonossoff -- _tBioinspired silica mineralization on viral templates / _rChristina Dickmeis, Klara Altintoprak, Patrick van Rijn, Christina Wege, and Ulrich Commandeur -- _tPropagation and isolation of tobacco mosaic virus that surface displays metal binding and reducing peptides for generation of gold nanoparticles / _rAndrew J. Love and Michael E. Taliansky -- _tTMV-templated formation of metal and polymer nanotubes / _rAlexander M. Bittner -- _tSemiconducting hybrid layer fabrication scaffolded by virus shells / _rPetia Atanasova -- _tDual functionalization of rod-shaped viruses on single coat protein subunits / _rChristina Wege and Fania Geiger -- _tDrug-loaded plant-virus based nanoparticles for cancer drug delivery / _rMichael A. Bruckman, Anna E. Czapar, and Nicole F. Steinmetz -- _tConstruction of artificial enzymes on a virus surface / _rChunxi Hou and Junqiu Liu -- _tRedox-immunofunctionalized potyvirus nanoparticles for high- resolution imaging by AFM-SECM correlative microscopy / _rAgnès Anne, Arnaud Chovin, Christophe Demaille, and Thierry Michon -- _tPresenting peptides at the surface of potyviruses in planta / _rFlora Sánchez and Fernando Ponz -- _tEngineering of M13 bacteriophage for development of tissue engineering materials / _rHyo-Eon Jin and Seung-Wuk Lee -- _tDisplaying whole-chain proteins on hepatitis B virus capsid-like particles / _rJulia Heger-Stevic, Philipp Kolb, Andreas Walker, and Michael Nassal -- _tDual-functionalized virus-gold nanoparticle clusters for biosensing / _rCarissa M. Soto and Walter J. Dressick -- _tTMV-based adapter templates for enhanced enzyme loading in biosensor applications / _rClaudia Koch, Arshak Poghossian, Christina Wege, and Michael J. Schöning -- _tIntegrated methods to manufacture hydrogel microparticles containing viral-metal nanocomplexes with high catalytic activity / _rCuixian Yang, Eunae Kang, and Hyunmin Yi -- _tIntegrated methods to manufacture hydrogel microparticles with high protein conjugation capacity and binding kinetics via viral nanotemplate display / _rSukwon Jung, Christina L. Lewis, and Hyunmin Yi -- _tInteractions between plant viral nanoparticles (VNPs) and blood plasma proteins, and their impact on the VNP in vivo fates / _rAndrzej S. Pitek, Frank A. Veliz, Slater A. Jameson, and Nicole F. Steinmetz-- _tFabrication of plant virus-based thin films to modulate the osteogenic differentiation of mesenchymal stem cells / _rKamolrat Metavarayuth, Huong Giang Nguyen, and Qian Wang -- _tDual surface modification of genome-free MS2 capsids for delivery applications / _rIoana L. Aanei and Matthew B. Francis -- _tVirus-based cancer therapeutics for targeted photodynamic therapy / _rBinrui Cao, Hong Xu, Mingying Yang, and Chuanbin Mao -- _tAfterword.
588	0		_aOnline resource; title from PDF title page (SpringerProtocol, viewed June 5, 2018).
520	8		_aThis volume details protocols on virus-derived nanoparticles (VNPs) for a number of different applications. Chapters guide readers through the production of VNPs derived from plant, animal and bacterial viruses, prokaryotic and eukaryotic expression systems, encapsulation of heterologous materials within VNPs, and the modification of the outer surface of VNPs and how such modified VNPs can be developed into functional entities. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Virus-Derived Nanoparticles for Advanced Technologies: Methods and Protocols aims to ensure successful results in the further study of this vital field.
650		0	_aNanobiotechnology _vLaboratory manuals. _988976
650		0	_aViruses _vLaboratory manuals. _989178
650		0	_aNanoparticles. _96289
650		0	_aViruses. _980666
650		2	_aNanoparticles _96289
650		2	_aViruses _980666
650		2	_aBiotechnology _96627
650		6	_aNanobiotechnologie _vManuels de laboratoire. _9971177
650		6	_aVirus _vManuels de laboratoire. _9970764
650		6	_aNanoparticules. _9106862
650		6	_aVirus. _9134875
650		6	_aBiotechnologie.
650		7	_abioengineering. _2aat _985536
650		7	_aBiotechnology. _2bicssc _96627
650		7	_aScience _xBiotechnology. _2bisacsh _979890
650		7	_aNanoparticles _2fast _96289
650		7	_aNanobiotechnology _2fast _988978
650		7	_aViruses _2fast _980666
655		0	_aElectronic books. _9396
655		2	_aLaboratory Manual
655		7	_aLaboratory manuals _2fast
655		7	_aLaboratory manuals. _2lcgft
655		7	_aManuels de laboratoire. _2rvmgf _9966128
700	1		_aWege, Christina, _eeditor. _993916
700	1		_aLomonossoff, George P., _eeditor. _993917
758			_ihas work: _aVirus-derived nanoparticles for advanced technologies (Text) _1https://id.oclc.org/worldcat/entity/E39PCGbQqhfW34PhCd3Fvcc7BK _4https://id.oclc.org/worldcat/ontology/hasWork
776	0	8	_iPrint version: _z9781493978069
830		0	_aMethods in molecular biology (Clifton, N.J.) ; _vv. 1776. _x1064-3745
856	4	0	_uhttps://link-springer-com.libraryproxy.ist.ac.at/10.1007/978-1-4939-7808-3
938			_aProQuest Ebook Central _bEBLB _nEBL31097779
938			_aAskews and Holts Library Services _bASKH _nAH40390198
938			_aYBP Library Services _bYANK _n15586377
994			_a92 _bATIST
999			_c653674 _d653674