Готові списки джерел за темами / Bio-layer interferometry

Добірка наукової літератури з теми "Bio-layer interferometry"

Автор: Grafiati
Опубліковано: 10 грудня 2022
Оновлено: 28 січня 2023

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Статті в журналах з теми "Bio-layer interferometry"

1

Laigre, Eugénie, David Goyard, Claire Tiertant, Jérôme Dejeu, and Olivier Renaudet. "The study of multivalent carbohydrate–protein interactions by bio-layer interferometry." Organic & Biomolecular Chemistry 16, no. 46 (2018): 8899–903. http://dx.doi.org/10.1039/c8ob01664j.

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2

Волкова, М. В., В. В. Бояринцев, А. В. Трофименко, С. А. Бирюков, Е. В. Горина, Г. И. Фильков та М. О. Дурыманов. "АДАПТАЦИЯ МЕТОДА ИНТЕРФЕРОМЕТРИИ СЛОЯ БИОМОЛЕКУЛ ДЛЯ КОЛИЧЕСТВЕННОЙ ОЦЕНКИ СОДЕРЖАНИЯ ФАКТОРА РОСТА ЭНДОТЕЛИЯ СОСУДОВ В КОНДИЦИОНИРОВАННОЙ КЛЕТОЧНОЙ СРЕДЕ". Биофизика 65, № 6 (2020): 1099–106. http://dx.doi.org/10.31857/s0006302920060083.

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Quantitative analysis of cytokines, chemokines, growth factors and other soluble proteins in different biological liquids is routinely performed in contemporary diagnostics and biomedicine research. However, current methods of analysis are time-consuming and include multiple steps. In this study, we have developed a protocol that describes how bio-layer interferometry can be applied to quantify an analyte in several minutes. Conditioned growth media collected from mouse mesenchymal stem cells grown in normoxia or hypoxic conditions in a monolayer fashion, MSC-derived 3D cell sheets and 3D spheroids were used as a model system in which we determined a concentration of vascular endothelial growth factor (VEGF-A). This technique displayed a high sensitivity (down to 0.1 ng of VEGF-A per mL as a minimum). The measured concentrations of VEGF-A in the conditioned media from mesenchymal stem cells turned out to be similar with values determined by the enzyme-linked immunosorbent assay. Using bio-layer interferometry, it was shown that as compared to mesenchymal stem cells grown in monolayer, spheroids and 3D sheets of mesenchymal stem cells produce significantly more VEGF-A (by 2.5-3.0-fold). Thus, due to the developed protocol it was possible to adapt bio-layer interferometry for rapid quantification of growth factors in conditioned media.
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3

Sun, Tingwan, Felicia Reid, Yuqi Liu, Yuan Cao, Patricia Estep, Claire Nauman, and Yingda Xu. "High throughput detection of antibody self-interaction by bio-layer interferometry." mAbs 5, no. 6 (November 2013): 838–41. http://dx.doi.org/10.4161/mabs.26186.

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4

Petersen, Rejane. "Strategies Using Bio-Layer Interferometry Biosensor Technology for Vaccine Research and Development." Biosensors 7, no. 4 (October 31, 2017): 49. http://dx.doi.org/10.3390/bios7040049.

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5

Mostafa, Mahmoud, Nehal E. Elsadek, Sherif E. Emam, Hidenori Ando, Taro Shimizu, Hamdy Abdelkader, Yu Ishima, Usama Farghaly Aly, Hatem A. Sarhan, and Tatsuhiro Ishida. "Using Bio-Layer Interferometry to Evaluate Anti-PEG Antibody-Mediated Complement Activation." Biological and Pharmaceutical Bulletin 45, no. 1 (January 1, 2022): 129–35. http://dx.doi.org/10.1248/bpb.b21-00772.

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6

Wallner, Jakob, Gabriele Lhota, Dominik Jeschek, Alexander Mader, and Karola Vorauer-Uhl. "Application of Bio-Layer Interferometry for the analysis of protein/liposome interactions." Journal of Pharmaceutical and Biomedical Analysis 72 (January 2013): 150–54. http://dx.doi.org/10.1016/j.jpba.2012.10.008.

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7

Gut, Kazimierz. "Broadband differential interference in a waveguide with a gradient refractive index distribution." Photonics Letters of Poland 14, no. 3 (September 30, 2022): 53. http://dx.doi.org/10.4302/plp.v14i3.1157.

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The paper presents a model of a planar broadband differential waveguide interferometer with a gradient refractive index distribution. Its response to the change in the refractive index of the waveguide cover layer is presented. The analysis was performed for the wavelength range from 0.5um to 0.7um. The orthogonal TE0 and TM0 modes propagating in this wavelength range are considered. The influence of the coverage refractive index change on the output characteristics of the system is shown. Full Text: PDF ReferencesP. Kozma, F. Kehl, E.Ehrentreich-Forster, C. Stamm and F.F. Bier, "Integrated planar optical waveguide interferometer biosensors: A comparative review", Biosens. Bioelectron. 58, 287 (2014), CrossRef M. Kitsara, K. Misiakos, I. Raptis, and E. Makarona, "Integrated optical frequency-resolved Mach-Zehnder interferometers for label-free affinity sensing", Opt. Express 18, 8193 (2010). CrossRef K. Misiakos, I. Raptis, A. Salapatas, E. Makarona, A. Bostials, et al., "Broad-band Mach-Zehnder interferometers as high performance refractive index sensors: Theory and monolithic implementation", Opt. Express 22, 8856 (2014). CrossRef K. Misiakos, I. Raptis, E. Makarona, A. Botsialas, A. Salapatas, et al, "All-silicon monolithic Mach-Zehnder interferometer as a refractive index and bio-chemical sensor", Opt. Express 22, 26803 (2014) CrossRef K. Misiakos, E. Makarona, M. Hoekman, R. Fyrogenis, K. Tukkiniemi, et al., "All-Silicon Spectrally Resolved Interferometric Circuit for Multiplexed Diagnostics: A Monolithic Lab-on-a-Chip Integrating All Active and Passive Components", ACS Photonics 6, 1694 (2019). CrossRef E. Makarona, A. Salapatas, I. Raptis, P. Petrou, S. Kakabakos, et al., "Broadband Young interferometry for simultaneous dual polarization bioanalytics", J Opt Soc Am B 34, 1691 (2017). CrossRef K. Gut, "Broad-band difference interferometer as a refractive index sensor", Opt. Express 25, 3111 (2017), CrossRef K. Gut, "Study of a Broadband Difference Interferometer Based on Low-Cost Polymer Slab Waveguides", Nanomaterials 9, 729 (2019), CrossRef T. Pustelny, J. Ignac-Nowacka and Z. Opilski, "Optical investigations on layered metalphthalocyanine nanostructures affected by NO2 applying the surface plasmon resonance method", Opt. Appl. 34, 563 (2004). CrossRef W. Lukosz, Sensor Actuat. B-Chem. "Integrated optical chemical and direct biochemical sensors", 29, 37 (1995). CrossRef Z. Qi, S. Xia and N. Matsuda, "Spectropolarimetric interferometer based on single-mode glass waveguides", Opt. Express, 16, 2245 (2008). CrossRef K. Gut, A. Zakrzewski, T. Pustelny, "Sensitivity of Polarimetric Waveguide Interferometer for Different Wavelengths", Acta Phys. Pol. 118, 1140 (2010). CrossRef J.E. Broquin, S. Honkanen, "Integrated Photonics on Glass: A Review of the Ion-Exchange Technology Achievements", Appl.Sci. 11, 4472 (2021). CrossRef G.C. Righini, J. Linares, "Active and Quantum Integrated Photonic Elements by Ion Exchange in Glass", Appl.Sci. 11, 5222 (2021). CrossRef
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8

Groner, Myles, Taryn Ng, Weidong Wang, and Andrew K. Udit. "Bio-layer interferometry of a multivalent sulfated virus nanoparticle with heparin-like anticoagulant activity." Analytical and Bioanalytical Chemistry 407, no. 19 (May 10, 2015): 5843–47. http://dx.doi.org/10.1007/s00216-015-8735-x.

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9

Wu, Songhua, Weibiao Chen, Junwu Tang, Chaofang Zhao, and Ge Chen. "Lidar Concept of “Guanlan” Mission for Space Oceanography." EPJ Web of Conferences 237 (2020): 01012. http://dx.doi.org/10.1051/epjconf/202023701012.

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Анотація:
Among the various challenges in spaceborne radar observation of the ocean, the following two issues are probably of a higher priority: inadequate dynamic resolution, and ineffective vertical penetration. Two highly anticipated breakthroughs in the coming decade are likely to be associated with radar interferometry and ocean lidar technology, which are expected to make a substantial contribution to a sub-mesoscale-resolving and depth-resolving observation of the ocean. The planned “Guanlan” science mission comprises a dual-frequency (Ku and Ka) interferometric altimetry (IA) and a near-nadir pointing ocean lidar (OL). The spaceborne active OL will ensure a deeper penetration depth and an all-time detection which leads to a layered characterization of the optical properties of the subsurface ocean. The simultaneous functioning of the OL and a dual-frequency (Ku and Ka) interferometric altimetry system will allow an enhanced understanding of contributions of the atmosphere and the air-sea interface which in turn considerably reduce the error budgets of the two sensors. The OL payload is expected to partially reveal the marine food chain and ecosystem with 10-m vertical interval in the euphotic layer, moving a significant step down to the oceanic mixed layer both dynamically and bio-optically.
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10

Choy, Cindy J., and Clifford E. Berkman. "A method to determine the mode of binding for GCPII inhibitors using bio-layer interferometry." Journal of Enzyme Inhibition and Medicinal Chemistry 31, no. 6 (February 12, 2016): 1690–93. http://dx.doi.org/10.3109/14756366.2015.1132208.

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Більше джерел

Тези доповідей конференцій з теми "Bio-layer interferometry"

1

Bawa, Garima, and Saurabh Mani Tripathi. "Bio-Layer Sensing using Directional Coupler based Modal Interferometer." In Frontiers in Optics. Washington, D.C.: Optica Publishing Group, 2022. http://dx.doi.org/10.1364/fio.2022.jw4a.83.

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A Directional Coupler has been theoretically analysed to find the existence of a dispersion turning-point and has been utilized for bio-layer sensing. A surface sensitivity ∼11.2nm/nm has been achieved for adsorbed bio-layer of RI ∼1.45.
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2

Boyer, Jeffrey D., John W. Pyhtila, and Adam Wax. "Multi-layer scattering tissue phantom for assessing angle-resolved low coherence interferometry precancer diagnostic technique." In Biomedical Topical Meeting. Washington, D.C.: OSA, 2006. http://dx.doi.org/10.1364/bio.2006.me58.

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