Aplikasi Hamburan Neutron untuk Karakterisasi Nanostruktur Biomakromolekul
Keywords:
Hamburan neutron, hamburan sudut kecil, biomakromolekul, nanostruktur, Virus, Nano-BioteknologiSynopsis
Dalam rangka pemanfaatan metode hamburan sudut kecil SANS dan SAXS untuk penelitian biologi struktur, sebuah peta jalan (roadmap) telah didesain dalam rangka mendukung penelitian, pengembangan, dan inovasi dibidang nano-biotek-nologi di Indonesia sebagai bagian dari kegiatan penelitian di BATAN tahun 2010 hingga tahun 2019. Pemahaman terhadap mekanisme dan kinetika self-assembly makromolekul maupun biomakromolekul terhadap pembentukan struktur material pada skala nanometer, salah satunya dapat mendukung penelitian pengembangan obat dan vaksin. Pengembangan obat dan vaksin di Indonesia merupakan salah satu sasaran bidang fokus kesehatan dan bahan maju, yaitu riset dan teknologi kesehatan dan obat yang ada dalam Rencana Pembangunan Jangka Me-nengah Nasional (RPJMN) 2015–2019 maupun 2020–2024.
Downloads
Download data is not yet available.
References
Setiadi W, Rozi IE, Safari D, Daningrat WOD, Johar E, Yohan B, Yudhaputri FA, Lestari KD, Oktavianthi S, Myint KSA, Ma-lik SG, Soebandrio A. Prevalence and epidemiological charac-teristics of COVID-19 after one year of pandemic in Jakarta and neighbouring areas, Indonesia: A single center study. PLoS ONE 2022; 17(5): e0268241.
Rossa AGP, Croweb SM, Tyndallc MW. Planning for the next global pandemic. International Journal of Infectious Diseases 2015; 38: 89–94.
Burrell CJ, Howard CR, Murphy FA. Fenner and White's Medical Virology. 5th Edition, Academic Press 2016; 155–167.
Kelsall RW, Hamley IW, Geoghegan M, editors. Nanoscale sci-ence and technology. John Wiley & Sons, Ltd; 2005.
Subramani K, Ahmed W. Self-assembly of proteins and peptides and their applications in bionanotechnology and dentistry in emerging nanotechnologies in dentistry. Micro and Nano Tech-nologies 2018; 231–249.
Le DT, Müller KM. In vitro assembly of virus-like particles and their Applications. Life 2021; 11(4); 334.
Grillo I. Small-angle neutron scattering and applications in soft condensed matter. In Soft Matter Characterization. Springer; 2005: 723–782.
Melnichenko YB, Wignall GD. Small-angle neutron scattering in materials science: Recent Practical Applications. J. Appl. Phys. 2007; 102: 021101.
Narayanan T. Synchrotron small-angle x-ray scattering. In Soft Matter Characterization. Dordrecht: Springer; 2008.
Ikram A. Indonesia: Neutron scattering facility in Serpong. Neu-tron News 2006; 17(4); 12–11. Fajar A, Gunawan, Maulana A, Muslih MR, Priyanto TH, Putra EGR, Sumirat I, Sutiarso. Neutron scattering in Indonesia: The facility and activity. Hamon 2010; 20(4): 292–301.
Putra EGR, Seong BS, Shin E, Ikram A, Ani SA, Darminto. Fractal structures on Fe3O4 ferrofluid: A small-angle neutron scat-tering study. J. Phys.: Conf. Ser. 2010; 247: 012028.
Putra EGR, Ikram A, Seong BS. Micelle structural studies on oil solubilization studies by small-angle neutron scattering. Nucl. Instrum. Methods. Phys. Res. A 2009; 600(1): 291–293.
Putra EGR, Ikram A, Aswal VK. Effect of varying additives on aqueous solution of PEO-PPO-PEO tri-block copolymer. AIP Conference Proceeding 2008; 989: 273–276
Putra EGR, Ikram A. A 36 m SANS BATAN spectrometer (SMARTer): Probing n-dodecyl-b-D-maltoside micelles struc-tures by a contrast variation. Nucl. Instrum. Methods. Phys. Res. A 2009; 600(1): 288–290.
Putra EGR, Ikram A. Nanostructure and growth of cetyltrimeth-ylammonium bromide micelles determination using small angle neutron scattering (SANS) Technique. Journal of Nuclear and Re-lated Technology 2008; 5(1): 45–52.
Patriati A, Putra EGR. Ellipsoid to worm-like micelle structure transition revealed by small-angle neutron scattering technique. The Proceeding of the 2nd International Conference on Mathe-matics and Natural Sciences (ICMNS) 2008, Institut Teknologi Bandung, 2008; 805–811.
Putra EGR, Ikram A. Nanosize structure of self-assembly so-dium dodecyl sulfate: A study by small angle neutron scattering (SANS). Indones. J. Chem. 2006; 6(2): 117–120.
Patriati A, Putra EGR. Kajian transisi struktur misel pada larutan natrium dodesil sulfat konsentrasi rendah dengan teknik hambu-ran neutron sudut kecil. Jurnal Sains Materi Indonesia 2008; Edisi Khusus: 282–285.
Giri-Rachman EA, Pratama F, Aji OR, Patriati A, Ihsanawati I, Moeis MR, Putra EGR. Expression and purification of PhoR sensor-domain histidine kinase of mycobacterium tuberculosis in Escherichia coli. Microbiology Indonesia 2015; 9(2): 51–57.
Peraturan Presiden Republik Indonesia No. 2 Tahun 2015. Ren-cana Pembangunan Jangka Menengah Nasional Tahun 2015–2019; Buku II Agenda Pembangunan Bidang, dan Peraturan Pres-iden Republik Indonesia Nomor 18 Tahun 2020 tentang Rencana Pembangunan Jangka Menengah Nasional Tahun 2020–2024.
Buzón P, Maity S, Roos WH. Physical virology: From VI-RUS SELF-ASSEMBLY TO PARTICLE MEchanics. WIREs Nanomed Nanobiotechnol. 2020; 12(4): e1613.
Serdyuk IN, Zaccai NR, Zaccai J, editors. Methods in molecular biophysics: Structure, dynamics, function. 1st Edition. Cambridge University Press; 2007.
Fitter J, Gutberlet T, Katsaras J. editors. Neutron scattering in bi-ology techniques and applications. Springer-Verlag; 2006.
Svergun DI, Koch MHJ, Timmins PA, May RP, editors. Small angle x-ray and neutron scattering from solutions of biological macromolecules. IUCr Monographs on Crystallography. Oxford University Press; 2013.
Wang L, Sun Y, Li Z, Wu A, Wei G. Bottom-up synthesis and sen-sor applications of biomimetic nanostructures. Materials 2016; 9(1): 53.
Dahman Y. Self-assembling nanostructures in nano-technology and functional materials for engineers. Micro and Nano Technol-ogies 2017; 207–228.
Nobel Prize Outreach AB 2022. Nobel Prizes and Laureates. [Ac-cessed 2021 Jul 12]. Available from: https://www.nobelprize.org/prizes/
Guinier A, Fournet G. Small-angle scattering of x-rays. New York: Wiley; 1955.
Putra EGR, Patriati A, A new era of BATAN’s small-angle neu-tron scattering facility on nanoscience research in life science. Makalah dipresentasikan dalam International Conference on Ma-terials Science and Technology 2010; 2010 Okt 20–22; Graha Widya Bakti Puspiptek, Serpong (Indonesia).
Lombardo D, Kiselev MA, Magazù S, Calandra P. Amphiphiles self-assembly: Basic concepts and future perspectives of supra-molecular approaches. Advances in Condensed Matter Physics 2015; 151683.
Alford A, Kozlovskaya V, Kharlampieva E. Small angle scatter-ing for pharmaceutical applications: From drugs to drug delivery systems in biological small angle scattering: techniques, strate-gies and tips. Advances in Experimental Medicine and Biology. Springer Nature Singapore Pte Ltd.; 2017.
Dierking I, Neto AMF. Novel trends in lyotropic liquid crystals. Crystals 2020; 10(7): 604.
McManus JJ, Charbonneau P, Zaccarelli E, Asherie N. The phys-ics of protein self-assembly. Current Opinion in Colloid & Inter-face Science 2016; 22: 73–79.
Ruigrok RWH, Krygsman PCJ, Mellema JE. Structure and com-position of influenza virus a small-angle neutron scattering study.
J. Mol. Biol. 1985; 186(3): 565–582.
Tagliamonte M, Tornesello ML, Buonaguro FM, Buonaguro L. Chapter eleven: Virus-like particles. Micro and Nano Technolo-gies, Micro and Nanotechnology in Vaccine Development. Wil-liam Andrew Publishing; 2017: 205–219.
Jacques DA, Trewhella J. Small-angle scattering for structural bi-ology-Expanding the frontier while avoiding the pitfalls. Protein Science 2010; 19(4): 642–657.
Chaudhuri BN. Emerging Applications of Small Angle Solution Scattering in Structural Biology. Protein Science 2015; 24(3): 267–276.
Heller WT, Littrell KC. Small-angle neutron scattering for mo-lecular biology: Basics and instrumentation. In Micro and Nano Technologies in Bioanalysis. Methods in Molecular Biology™, Totowa, NJ, Humana Press; 2009; 544: 293–305.
Thakral S, Kim K. Small-angle scattering for characterization of pharmaceutical materials. TrAC Trends in Analytical Chemistry 2021; 134: 116144.
Manalastas-Cantos K, Konarev PV, Hajizadeh NR, Kikhney AG, Petoukhov MV, Molodenskiy DS, Panjkovich A, Mertens HDT, Gruzinov A, Borges C, Jeffries CM, Svergun DI, Franke D. AT-SAS 3.0: Expanded functionality and new tools for small-angle scattering data analysis. J. Appl. Cryst. 2021; 54(1): 343–355.
Putra EGR, Bahrum ES, Maulana A, Sairun. Development of focusing neutron small-angle scattering spectrometer in Serpong, Indonesia for macromolecular structure investigation. Chinese Journal of Physics 2012; 50(2): 193–203.
Kyriakidis NC, López-Cortés A, González EV, Grimaldos AB, Prado EOP. SARS-CoV-2 vaccines strategies: a comprehensive review of phase 3 candidates. npj Vaccines 2021; 28.
Siewert CD, Haas H, Cornet V, Nogueira SS, Nawroth T, Uebbing L, Ziller A, Al-Gousous J, Radulescu A, Schroer MA, Blanchet CE, Svergun DI, Radsak MP, Sahin U, Langguth P. Hybrid bio-polymer and lipid nanoparticles with improved transfection effi-cacy for mRNA. Cells. 2020; 9(9): 2034.
Siewert C, Haas H, Nawroth T, Ziller A, Nogueira SS, Schroer MA, Blanchet CE, Svergun DI, Radulescu A, Bates F, Huesemann Y, Radsak MP, Sahin U, Langguth P. Investigation of charge ratio variation in mRNA–DEAE-dextran polyplex delivery systems, Biomaterials 2019; 192: 612–620.
Putra EGR, Bharoto, Santoso E, Ikram A. Improved Perfor-mances of 36 m small-angle neutron scattering spectrometer BATAN in Serpong Indonesia. Nucl. Instrum. Methods. Phys. Res. A 2009; 600(1): 198–202.
Santoso E, Putra EGR. Design and construction of the control system for BATAN small angle neutron scattering spectrometer (SMARTer). Atom Indonesia 2008; 34(2): 79–88.
Putra EGR, Ikram A, Bharoto, Santoso E. Wavelength calibra-tion and instrumental resolution of 36m SANS BATAN (SMART-er) using silver behenate powder. Journal of Nuclear and Related Technology 2008; 5(2): 57–65.
Putra EGR, Ikram A, Santoso E, Bharoto. Performance of 36 meter small angle neutron scattering at Batan–Serpong Indonesia.
J. Appl. Crystallogr. 2007; 40(s1): s447–s452.
Putra EGR, Ikram A, Kohlbrecher J. SMARTer for magnetic structure studies. Pramana 2008; 71(5): 1015–1020.
Putra EGR, Kono H, Tokuhisha A, Bahrum ES, Patriati A. Pro-tein Conformation and its dynamics in solution by molecular dy-namics simulation for small-angle neutron scattering data analy-sis. Makalah dipresentasikan dalam International Conference on Materials Science and Technology 2010; 2010 Okt 20–22; Graha Widya Bakti Puspiptek, Serpong (Indonesia).
Bharoto, Putra EGR. A new control system software for SANS BATAN spectrometer in Serpong, Indonesia. AIP Conference Proceedings 2010; 1244: 204–211.
Dewhurst CD. (2001) GRASansP: graphical reduction and analy-sis SANS program. Insitut Laue-langevin. Available from: http://www.ill.eu/lss/grasp/
Kline SR. Reduction and analysis of SANS and USANS data us-ing IGOR Pro. J. Appl. Cryst. 2006; 39: 895–900.
Breßler I, Kohlbrecher J, Thünemann AF. SASfit: A tool for small-angle scattering data analysis using a library of analytical expressions. J. Appl. Cryst. 2015; 48: 1587–1598.
Fitria G, Patriati A, Mujamilah, Prihatiningsih MC, Putra EGR, and Soontaranon S. Hierarchical structure of magnetic nanopar-ticles-Fe3O4-ferrofluids revealed by small angle x-ray scattering. Indones. J. Chem. 2021; 21(3): 635–643.
Hadi S, Suryajaya, Wijaya I, Rahmandari A, Prihatiningsih MC, Prasetyo I, Patriati A, Putra EGR, Soontaranon S. The analysis of hierarchical structure of mesoporous silica in nanometer scale by small angle scattering method. Atom Indonesia 2018; 44(1): 9–15.
Sari W, Fitriyani D, Putra EGR, Mohamed AA, Ibrahim N. Frac-tal structures on silica aerogels containing titanium: A small an-gle neutron scattering study. AIP Conference Proceedings 2010; 1202: 185–188.
Ani SA, Pratapa S, Purwaningsih S, Triwikantoro T, Darminto D, Putra EGR, Ikram A. Size and correlation analysis of Fe3O4 nanoparticles in magnetic fluids by small-angle neutron scatter-ing. AIP Conference Proceeding 2008; 989: 176–179.
Putra EGR, Ikram A, Bharoto, Santoso E, Chiar Fang T, Ibrahim B, Mohamed AA. Fractal studies on titanium-silica aerogels us-ing SMARTer. AIP Conference Proceeding 2008; 989: 130–133.
Razali R, Putra EGR, Mohamed AA, Abd. Majid WH, Wan Ab-dullah WAT, Ibrahim ZA. Investigations on fractal nanostructure of zinc oxide by small angle neutron scattering (SANS). Ad-vanced Materials Research 2014; 895: 531–534.
Ani SA, Darminto, and Putra EGR. Particle size distribution models of small angle neutron scattering pattern on ferrofluids. AIP Conference Proceedings 2010; 1202: 73–76.
Taufiq A, Sunaryono S, Hidayat N, Putra EGR, Okazawa A, Watanabe I, Kojima N, Pratapa S, Darminto D. Nanostructure and magnetic field ordering in aqueous Fe3O4 ferrofluids: A small-an-gle neutron scattering study. Atom Indonesia 2019; 45(3): 165–172.
Taufiq A, Sunaryono S, Hidayat N, Hidayat A, Putra EGR, Oka-zawa A, Wataabe I, Kojima N, Pratapa S, Darminto D. Studies on nanostructure and magnetic behaviors of Mn-doped black iron oxide magnetic fluids synthesized from iron sand. Nano 2017; 12(09): 1750110.
Dharaiya N, Patriati A, Kuperkar K, Putra EGR, Bahadur P. Viscometric, DLS, SANS and 2D-NOESY study on the micellar growth in “12-s-12” gemini surfactants induced by p-Toluidine. Colloids Surf. A: Physicochem. Eng. Asp. 2012; 396: 1–7.
Kuperkar K, Patriati A, Putra EGR, Marangoni DG, Bahadur
P. Microstructural study of CTAB/1-Butanol/salt/water system: SANS and 2D-NOESY analysis. Can. J. Chem. 2012; 90(3): 314–320.
Alexander S, Smith GN, James C, Rogers SE, Guittard F, Sagisa-ka M, and Eastoe J. Low-surface energy surfactants with branched hydrocarbon architectures. Langmuir 2014; 30(12): 3413–3421.
Hill C, Czajka A, Hazell G, Grillo I, Rogers SE, Skoda MWA, Joslin N, Payne J, Eastoe J. Surface and bulk properties of sur-factants used in fire-fighting. J. Colloid Interface Sci. 2018; 530: 686–694.
Patel V, Ray D, Singh K, Abezgauz L, Marangoni G, Aswal VK, Bahadur P. 1-Hexanol triggered structural characterization of the worm-like micelle to vesicle transitions in cetyltrimethylammoni-um tosylate solutions. RSC Adv. 2015; 5: 87758–87768.
Singh K, Dharaiya K, Marangoni DG, Bahadur P. Dissimilar ef-fects of solubilized p-toluidine on the shape of micelles of differ-ently charged surfactants. Colloids Surf. A: Physicochem. Eng. Asp. 2013; 436: 521–529.
Karayil J, Talmon Y, Hassan PA, Tata BVR, Sreejith L. Tuning the solubilization behavior of the CTAB/C9OH-C12OH micel-lar system with quaternary ammonium salts. Colloid Polym Sci 2018; 296: 595–606.
Al Qaraghuli MM. Biotherapeutic antibodies for the treatment of head and neck cancer: current approaches and future consider-ations of photothermal therapies. Front. Oncol. 2020; 10: 559596.
Shakil-Hussain SM, Animashaun MA, Kamal MS, Ullah N, Hussein IA, Sultan AS. Synthesis, characterization and surface properties of amidosulfobetaine surfactants bearing odd-number hydrophobic tail. J. Surfact. Deterg. 2016; 19(2): 413–420.
Suwanto AS, Ihsanawati, Giri-Rachman EA. Molecular cloning of PhoR sensor domain from Mycobacterium tuberculosis for structure-based discovery of novel anti-tubercular. Journal of Life Science 2012; 6: 268–275.
Xing D, Ryndak MB, Wang L, Kolesnikova I, Smith I, Wang S. Asymmetric structure of the dimerization domain of PhoR, a sen-sor kinase important for the virulence of Mycobacterium tubercu-losis. ACS Omega 2017; 2(7): 3509–3517.
Oekar NK, Hanafiah A, Widyasari EM, Daruwati I, Pradana AT, Luthpi M. Aplikasi iptek nuklir dalam pengembangan obat bah-an alam. Prosiding Seminar Nasional Sains dan Teknologi Nuklir PTNBR–BATAN Bandung; 2013 Jul 4; 174–183.
Brower V. Proteomics: biology in the post-genomic era. Compa-nies all over the world rush to lead the way in the new post-ge-nomics race. EMBO Rep. 2001; 2(7): 558–560.
World Health Organization. ACT-accelerator strategic plan & budget: October 2021 to September 2022. 28 October 2021. Available from: https://www.who.int/publications/m/item/act-ac-celerator-strategic-plan-budget-october-2021-to-september-2022
Downloads
Published
December 7, 2022
Categories
HOW TO CITE
Copyright (c) 2022 Badan Riset dan Inovasi Nasional
License
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
Details about this monograph
ISBN-13 (15)
978-623-8052-42-4
