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365 results on '"Yang, D. S."'

2. Improved Vehicle Scanning Method for Bridge Damage Detection

Author

Yang, D. S., Wang, C. M., Duan, W. H., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Geng, Guoqing, editor, Qian, Xudong, editor, Poh, Leong Hien, editor, and Pang, Sze Dai, editor

Published
2023
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5. Enhanced photocatalytic activity and ferromagnetic ordering in hydrogenated Zn1−xCoxO.

Author

Petrov, Dimitar N., Dang, N. T., Co, N. D., Tu, B. D., Lam, N. D., Quang, T. V., Nguyen, V. Q., Lee, J. H., Huy, B. T., Yang, D. S., Khan, D. T., and Phan, T. L.

Subjects
PHOTOCATALYSTS, BAND gaps, X-ray powder diffraction, ELECTRONIC structure, RIETVELD refinement, SILVER, IRRADIATION, MAGNETIC entropy
Abstract

Impacts of hydrogen annealing on crystallographic characterization, electronic structure, and optical, photocatalytic, and magnetic properties of polycrystalline Zn1−xCoxO (x = 0.01–0.06) samples have been considered. Structural analyses based on powder X-ray diffraction, Rietveld refinement, and Raman spectroscopy prove all materials having the P63mc wurtzite-type structure. The Co-doping and hydrogenation changed the concentration of Zn– and O–related defects whose energy levels occupy the band gap. This also enhanced photocatalytic performance of hydrogenated samples with x > 0.02. X-ray and UV–Vis absorption analyses indicate the substitution of Co2+ for Zn2+ in the wurtzite-type ZnO lattice, leading to irregularly changed the unit-cell parameters. While all the as-prepared samples are paramagnetic, the hydrogenated ones exhibit weak ferromagnetism. Ferromagnetic (FM) ordering increases when x increases, particularly for x ≥ 0.02. According to the results achieved from studying crystalline and electronic structures, we believe that oxygen-vacancies-mediated interactions between Co2+ ions and H–Co–H exchange dimers enhanced FM ordering in hydrogenated Zn1−xCoxO. Computational investigations have also indicated that the magnetization value of H–Zn1−xCoxO is influenced by the positioning of the H dopant, meaning that the couplings between Co and H play an essential role in establishing FM order in H–Zn1−xCoxO. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Direct Role of Structural Dynamics in Electron-Lattice Coupling of Superconducting Cuprates

Author

Carbone, F., Yang, D. -S., Giannini, E., and Zewail, A. H.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

The mechanism of electron pairing in high-temperature superconductors is still the subject of intense debate. Here, we provide direct evidence of the role of structural dynamics, with selective atomic motions (buckling of copper-oxygen planes), in the anisotropic electronlattice coupling. The transient structures were determined using time-resolved electron diffraction, following carrier excitation with polarized femtosecond heating pulses, and examined for different dopings and temperatures. The deformation amplitude reaches 0.5 % of the c-axis value of 30 A when the light polarization is in the direction of the copper-oxygen bond, but its decay slows down at 45 degrees. These findings suggest a selective dynamical lattice involvement with the anisotropic electron-phonon coupling being on a time scale (1 to 3.5 ps depending on direction) of the same order of magnitude as that of the spin exchange of electron pairing in the high-temperature superconducting phase., Comment: 26 pages, 7 pages

Published
2009
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10. Immunomodulatory effects of interferon-alpha on T cell subsets in Behcet's disease ex vivo, and the in vitro effects of treatment on healthy donor cells

Author

Yang, D. S.-F.

Subjects
617.7
Abstract

Many patients with Behcet’s disease (BD) have disease that is severe and do not respond to the conventional treatment of systemic corticosteroids and immunosuppressive agents. Recently, IFN-α therapy has shown promise as an effective treatment that may also improve long-term outcome. This study aims to provide an insight into the mechanisms of action and disease-modifying ability of IFN-α by focussing on the impact on T cell subsets. In this study, I describe my investigation into the effects of an additional 6-month course of IFN-α therapy in modulating T cell subsets and their cytokine expression in BD patients ex vivo over the first 12 months. Investigation of T cell responses confirms previous findings on Th1 and Th2 cells and their associated cytokines following IFN-α treatment. Analysis of Th17 cells shows these cells are downregulated by IFN-α therapy in peripheral blood. On the other hand, Foxp3+ T cells are upregulated by IFN-α therapy which is a novel mechanism that may contribute substantially towards the disease-modifying ability of IFN-α treatment. Notably, most effects of IFN-α on T cells, including Th17 and Treg cells, persist even after cessation of treatment. Also, I report in details the responses of CD4+, CD8+ and γδ T cell subsets in vitro following treatment of healthy donor PBMCs with IFN-α. The findings are largely in agreement with the ex vivo study. Fopx3-expressing and IFN-γ-, IL-10-, and TGF-β- producing CD4+ and CD8+ T cells are all increased by IFN-α treatment. Whereas, IL-17-producing CD4+, CD8+ and γδ T cell are decreased following treatment with IFN-α. Our data may provide new inroads into elucidating the immunomodulatory mechanisms involved in the disease-modifying ability of IFN-α therapy. Which of the above mechanisms plays the most important role in the observed beneficial effects of IFN-α in the treatment of BD remains to be elucidated.

Published
2012

11. Loop corrections to sub-leading heavy quark currents in SCET

Author

Beneke, M., Kiyo, Y., and Yang, D. s.

Subjects
High Energy Physics - Phenomenology
Abstract

We compute the one-loop (hard) matching correction to heavy-to-light transition currents in soft-collinear effective theory (SCET) to sub-leading power in the SCET expansion parameter for an arbitrary Dirac structure of the QCD weak current., Comment: 17 pages

Published
2004
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14. Investigation of Spatial-Varying Frequencies Concerning Effects of Moving Mass on a Beam.

Author

Yang, Judy P., Su, Zhi-Yuan, Yau, J. D., and Yang, D. S.

Subjects
CENTRIFUGAL force, ANALYTICAL solutions, THREE-dimensional modeling, MOTOR vehicle springs & suspension
Abstract

The spatial-varying frequency of a vehicle-bridge interaction (VBI) system subjected to a moving mass is theoretically derived and numerically investigated through a three-dimensional VBI model, in which the effects of moving mass are introduced through the inertial force and centrifugal force in the equation of motion of the bridge. For a large vehicle-to-bridge mass ratio, it has been known that the frequency of a VBI system could change with respect to the location of a moving vehicle. As such, this study derives the analytical solution based on a moving mass-beam system to account for frequency variation and further builds the numerical model with detailed implementation for practical applications. The numerical results show the following findings: (1) The frequency of a VBI system is a function of velocity and location of a moving vehicle. (2) The reduction of spatial-varying frequency ratio for a particular mode decreases with respect to the mode of higher order. (3) The maximum reduction of spatial-varying frequency ratio of the first mode in a moving mass-beam system occurs in the location where the bridge has the maximum deflection as a result of local mode excitation. (4) For the VBI system with high suspension stiffness and large vehicle-to-bridge mass ratio, the absolute variation of spatial-varying frequency ratio of the first mode can be up to 30–40%. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Instability of the Crystal and Electronic Structures due to Hydrogenation Influenced the Magnetic Properties of a La2/3Ca1/3MnO3 Manganite.

Author

Bui, D. T., Ho, T. A., Hoang, N. N., Phan, T. L., Lee, B. W., Dang, N. T., Khan, D. T., Truong-Son, L. V., Petrov, D. N., Huy, B. T., and Yang, D. S.

Subjects
MAGNETIC entropy, MAGNETIC properties, ELECTRONIC structure, MANGANITE, CRYSTAL structure, HYDROGENATION
Abstract

We have investigated the hydrogen-annealing influence on the crystalline and electronic structures, and magnetic properties of La2/3Ca1/3MnO3 (LCMO). The results have indicated that the annealing at 700 and 900°C (labeled as LCMO-700 and LCMO-900, respectively) readily reduced single-phase LCMO, resulting in a complex phase composition of several isostructural oxygen-deficient perovskite-type phases coexisting with the Ruddlesden-Popper (La/Ca)2MnO4-type phase. While a Mn3+/Mn4+ mixed valence is present in LCMO, the hydrogenannealed samples mainly have Mn2+ and Mn3+ ions. Under such circumstance, large changes in magnetic parameters have been recorded, such as remarkable decreases in values of the magnetization, the Curie temperature (from 251 K for the as-prepared LCMO through 240 K for LCMO700 to ³221 K for LCMO-900), and the magnetic-entropy change. Particularly, the crystal and electronic-structure changes also enhance the magnetic inhomogeneity, resulting in a strong development of the Griffiths phase, and cause the first-to-second-order phase transformation. These results reflect the instability of the LCMO perovskite-type manganite versus hydrogenation. [ABSTRACT FROM AUTHOR]

Published
2023
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21. Magnetic and cryogenic magnetocaloric properties of NaGdF4 nanocrystals.

Author

Petrov, Dimitar N., Lovchinov, V., The Huy, Bui, The Long, Phan, Dang, N. T., and Yang, D. S.

Subjects
MAGNETOCALORIC effects, MAGNETIC entropy, HYSTERESIS loop, MAGNETIC properties, MAGNETIC fields, NANOCRYSTALS, ANTIFERROMAGNETIC materials, MANGANESE alloys
Abstract

We studied the magnetic and magnetocaloric properties of NaGdF4 nanocrystals (NCs), which are crystallized in the P63/m hexagonal structure. Analyzing M(T, H) data, we found an existence of ferromagnetic and antiferromagnetic interactions in NCs. This gives rise to a minor hysteresis loop at temperatures T ≤ 3 K and magnetic fields H = 1–40 kOe. Particularly, at temperatures T = 2–25 K, NaGdF4 NCs show a large magnetocaloric effect (MCE). For a field change ΔH = 60 kOe, the maximum magnetic entropy change (|ΔSmax|) at ∼3.2 K and the relative cooling power (RCP) are about 50.5 J/kg K and 410 J/kg, respectively. These values are larger than those obtained from conventional cryogenic materials reported previously. Having considered the MCE vs the internal field (Hi), we have found that |ΔSmax(Hi)| values increase about 8%–34% compared with the |ΔSmax(H)| values. Magnetic-field dependences of both |ΔSmax| and RCP obey the power law y = a x n. The assessments of a magnetic-order exponent n and the analyses of M 2 (H / M) and N (T , H) data proved NaGdF4 NCs exhibit a short-range magnetic order and undergo a second-order phase transition. [ABSTRACT FROM AUTHOR]

Published
2019
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22. Generation of Surface Roughness Profiles for Inclusion in Vehicle–Bridge Interaction Analysis and Test Application.

Author

Xu, H., Wang, M. H., Wang, Z. L., Yang, D. S., Liu, Y. H., and Yang, Y. B.

Subjects
SURFACE roughness, BRIDGE testing, TRAFFIC flow, PAVEMENTS
Abstract

Vehicle's wheels were mostly modeled as a point, which can touch the valleys of pavement roughness, creating unrealistic high-frequency oscillation. This can be avoided by using the disk model for the wheels, which however adds significant complexity to the vehicle–bridge interaction (VBI) analysis. In this paper, a refined roughness formula is generated to account for the wheel size effect such that it can be used by point model. Still, the low-frequency part of the roughness presents some masking effect on the bridge scanning by the test vehicle. To this end, two countermeasures are suggested, i.e. residual response and traffic flows. This study has demonstrated that: (1) the roughness generated by the refined formula can reflect the trace of the disk model; (2) the refined formula facilitates the VBI analysis by using the point model; and (3) the two countermeasures for roughness are effective for improving the scanning of bridge frequencies. [ABSTRACT FROM AUTHOR]

Published
2023
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23. Tunnel safety: A pilot study investigating drivers' fixation characteristics when approaching tunnel entrance at different driving speeds.

Author

Qin, L, Yang, D-S, Weng, Y-N, Leon, AS, and Shi, X-H

Subjects
*RAILROAD tunnels, *ENTRANCES & exits, *PILOT projects, *EXPONENTIAL functions, *TRAFFIC safety, *EYE tracking
Abstract

This study presents the results of a driving experiment study on spatiotemporal characteristics of drivers' fixation when entering a tunnel portal with different driving speeds. The study was performed during the daytime in a relatively long tunnel. Six experienced drivers were recruited to participate in the driving experiment. Experimental data of pupil area and fixation point position (from 200 m before the tunnel to the tunnel portal) were collected by non-intrusive eye-tracking equipment for three predetermined vehicle speeds (40 km/h, 60 km/h and 80 km/h). Fixation maps (color-coded maps showing distributed data) were created from fixation point position data to quantify visual behaviour changes. The results demonstrated that vehicle speed has a significant impact on pupil area and fixation zones. Fixation area and average pupil area had a significant negative correlation with vehicle speed during the daytime. Moreover, drivers concentrated more on the tunnel entrance portal, front road pavement and car control wheeling. The results revealed that the relationship between pupil area and vehicle speed fitted an exponential function. Limitations and future directions of the study are also discussed. [ABSTRACT FROM AUTHOR]

Published
2023
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31. Electronic structure and magnetism of SrTi1-xMnxO3 ceramics.

Author

Dang, N. T., Long, Phan The, Kozlenko, D. P., Petrov, Dimitar N., Ho, T. A., Tran, N., and Yang, D. S.

Subjects
ELECTRONIC structure, TITANIUM compounds, CERAMIC materials, MAGNETIC properties of metals, PARAMAGNETIC materials
Abstract

Having reviewed the previous studies on Mn-doped SrTiO3 materials, we found that Mn2+ and/or Mn4+ ions are usually present in the SrTiO3 host lattice and lead to paramagnetic, spin-glass, or ferromagnetic (FM) behavior. Mn2+ can occupy at both octahedral (Ti) and dodecahedral (Sr) sites, while Mn4+ only occupies the Ti site. To get more insight into this material system, we have prepared polycrystalline SrTi1-xMnxO3 (x = 0–0.10) samples by solid-state reactions. The results obtained from analyzing the powder X-ray diffraction patterns, and Raman scattering, X-ray absorption, and electron-spin-resonance spectra indicate an incorporation of Mn2+ and Mn3+ ions into the SrTiO3 host lattice. Isolated Mn2+ ions are dominant in the samples with x ≤ 0.02 and can occupy both Ti and Sr sites, leading to two sets of the hyperfine sextet lines. An increase in the Mn content with x > 0.02 enhances the Mn3+ concentration and stimulates the formation of a minor tetragonal phase besides the main cubic phase of SrTiO3. This enhances the Lorentzian-shaped broad background line of dipolar and magnetic interactions between Mn ions. Besides the resonant signals of isolated Mn2+ ions and dipolar/magnetic interactions between Mn ions, there is also the resonant signal associated with intrinsic defects. We believe that intrinsic defects together with the Mn doping at suitable concentrations (x > 0.02) are an important pivot for tailoring room-temperature FM order in SrTi1-xMnxO3 ceramics. [ABSTRACT FROM AUTHOR]

Published
2018
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33. On the evolution law of a contact normal-based fabric tensor for granular materials

Author

Hu, N, Zhuang, P-Z, Yang, D-S, and Yu, H-S

Abstract

This paper presents a theoretical study on a hybrid fabric evolution law for modelling anisotropic behaviour of granular media. In the hybrid evolution law, the rate of a contact normal-based fabric tensor is related to the rates of both stress ratio tensor and plastic strain. Assumptions and principles that were adopted for the development of the fabric evolution law are presented and discussed at first. Its accuracy is then examined by comparing with discrete element modelling (DEM) results under proportional loading and experimental data under complex loading and unloading processes. It is found that fabric evolution at low stress ratios is closely related to the stress-rate driven term of the hybrid law, while the strain-rate driven term dominates at high stress ratios. The hybrid evolution law satisfies the uniqueness requirement of fabric at the critical state by introducing an ‘attractor’ concept. Overall, fabric evolutions predicted by the hybrid law show a close agreement with DEM simulation results and experimental data.

Published
2021

34. Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)

Author

Klionsky, DJ, Abdel-Aziz, AK, Abdelfatah, S, Abdellatif, M, Abdoli, A, Abel, S, Abeliovich, H, Abildgaard, MH, Abudu, YP, Acevedo-Arozena, A, Adamopoulos, IE, Adeli, K, Adolph, TE, Adornetto, A, Aflaki, E, Agam, G, Agarwal, A, Aggarwal, BB, Agnello, M, Agostinis, P, Agrewala, JN, Agrotis, A, Aguilar, PV, Ahmad, ST, Ahmed, ZM, Ahumada-Castro, U, Aits, S, Aizawa, S, Akkoc, Y, Akoumianaki, T, Akpinar, HA, Al-Abd, AM, Al-Akra, L, Al-Gharaibeh, A, Alaoui-Jamali, MA, Alberti, S, Alcocer-Gómez, E, Alessandri, C, Ali, M, Alim Al-Bari, MA, Aliwaini, S, Alizadeh, J, Almacellas, E, Almasan, A, Alonso, A, Alonso, GD, Altan-Bonnet, N, Altieri, DC, Álvarez, ÉMC, Alves, S, Alves da Costa, C, Alzaharna, MM, Amadio, M, Amantini, C, Amaral, C, Ambrosio, S, Amer, AO, Ammanathan, V, An, Z, Andersen, SU, Andrabi, SA, Andrade-Silva, M, Andres, AM, Angelini, S, Ann, D, Anozie, UC, Ansari, MY, Antas, P, Antebi, A, Antón, Z, Anwar, T, Apetoh, L, Apostolova, N, Araki, T, Araki, Y, Arasaki, K, Araújo, WL, Araya, J, Arden, C, Arévalo, M-A, Arguelles, S, Arias, E, Arikkath, J, Arimoto, H, Ariosa, AR, Armstrong-James, D, Arnauné-Pelloquin, L, Aroca, A, Arroyo, DS, Arsov, I, Artero, R, Asaro, DML, Aschner, M, Ashrafizadeh, M, Ashur-Fabian, O, Atanasov, AG, Au, AK, Auberger, P, Auner, HW, Aurelian, L, Autelli, R, Avagliano, L, Ávalos, Y, Aveic, S, Aveleira, CA, Avin-Wittenberg, T, Aydin, Y, Ayton, S, Ayyadevara, S, Azzopardi, M, Baba, M, Backer, JM, Backues, SK, Bae, D-H, Bae, O-N, Bae, SH, Baehrecke, EH, Baek, A, Baek, S-H, Baek, SH, Bagetta, G, Bagniewska-Zadworna, A, Bai, H, Bai, J, Bai, X, Bai, Y, Bairagi, N, Baksi, S, Balbi, T, Baldari, CT, Balduini, W, Ballabio, A, Ballester, M, Balazadeh, S, Balzan, R, Bandopadhyay, R, Banerjee, S, Bánréti, Á, Bao, Y, Baptista, MS, Baracca, A, Barbati, C, Bargiela, A, Barilà, D, Barlow, PG, Barmada, SJ, Barreiro, E, Barreto, GE, Bartek, J, Bartel, B, Bartolome, A, Barve, GR, Basagoudanavar, SH, Bassham, DC, Bast, RC, Basu, A, Batoko, H, Batten, I, Baulieu, EE, Baumgarner, BL, Bayry, J, Beale, R, Beau, I, Beaumatin, F, Bechara, LRG, Beck, GR, Beers, MF, Begun, J, Behrends, C, Behrens, GMN, Bei, R, Bejarano, E, Bel, S, Behl, C, Belaid, A, Belgareh-Touzé, N, Bellarosa, C, Belleudi, F, Belló Pérez, M, Bello-Morales, R, Beltran, JSDO, Beltran, S, Benbrook, DM, Bendorius, M, Benitez, BA, Benito-Cuesta, I, Bensalem, J, Berchtold, MW, Berezowska, S, Bergamaschi, D, Bergami, M, Bergmann, A, Berliocchi, L, Berlioz-Torrent, C, Bernard, A, Berthoux, L, Besirli, CG, Besteiro, S, Betin, VM, Beyaert, R, Bezbradica, JS, Bhaskar, K, Bhatia-Kissova, I, Bhattacharya, R, Bhattacharya, S, Bhattacharyya, S, Bhuiyan, MS, Bhutia, SK, Bi, L, Bi, X, Biden, TJ, Bijian, K, Billes, VA, Binart, N, Bincoletto, C, Birgisdottir, AB, Bjorkoy, G, Blanco, G, Blas-Garcia, A, Blasiak, J, Blomgran, R, Blomgren, K, Blum, JS, Boada-Romero, E, Boban, M, Boesze-Battaglia, K, Boeuf, P, Boland, B, Bomont, P, Bonaldo, P, Bonam, SR, Bonfili, L, Bonifacino, JS, Boone, BA, Bootman, MD, Bordi, M, Borner, C, Bornhauser, BC, Borthakur, G, Bosch, J, Bose, S, Botana, LM, Botas, J, Boulanger, CM, Boulton, ME, Bourdenx, M, Bourgeois, B, Bourke, NM, Bousquet, G, Boya, P, Bozhkov, PV, Bozi, LHM, Bozkurt, TO, Brackney, DE, Brandts, CH, Braun, RJ, Braus, GH, Bravo-Sagua, R, Bravo-San Pedro, JM, Brest, P, Bringer, M-A, Briones-Herrera, A, Broaddus, VC, Brodersen, P, Brodsky, JL, Brody, SL, Bronson, PG, Bronstein, JM, Brown, CN, Brown, RE, Brum, PC, Brumell, JH, Brunetti-Pierri, N, Bruno, D, Bryson-Richardson, RJ, Bucci, C, Buchrieser, C, Bueno, M, Buitrago-Molina, LE, Buraschi, S, Buch, S, Buchan, JR, Buckingham, EM, Budak, H, Budini, M, Bultynck, G, Burada, F, Burgoyne, JR, Burón, MI, Bustos, V, Büttner, S, Butturini, E, Byrd, A, Cabas, I, Cabrera-Benitez, S, Cadwell, K, Cai, J, Cai, L, Cai, Q, Cairó, M, Calbet, JA, Caldwell, GA, Caldwell, KA, Call, JA, Calvani, R, Calvo, AC, Calvo-Rubio Barrera, M, Camara, NO, Camonis, JH, Camougrand, N, Campanella, M, Campbell, EM, Campbell-Valois, F-X, Campello, S, Campesi, I, Campos, JC, Camuzard, O, Cancino, J, Candido de Almeida, D, Canesi, L, Caniggia, I, Canonico, B, Cantí, C, Cao, B, Caraglia, M, Caramés, B, Carchman, EH, Cardenal-Muñoz, E, Cardenas, C, Cardenas, L, Cardoso, SM, Carew, JS, Carle, GF, Carleton, G, Carloni, S, Carmona-Gutierrez, D, Carneiro, LA, Carnevali, O, Carosi, JM, Carra, S, Carrier, A, Carrier, L, Carroll, B, Carter, AB, Carvalho, AN, Casanova, M, Casas, C, Casas, J, Cassioli, C, Castillo, EF, Castillo, K, Castillo-Lluva, S, Castoldi, F, Castori, M, Castro, AF, Castro-Caldas, M, Castro-Hernandez, J, Castro-Obregon, S, Catz, SD, Cavadas, C, Cavaliere, F, Cavallini, G, Cavinato, M, Cayuela, ML, Cebollada Rica, P, Cecarini, V, Cecconi, F, Cechowska-Pasko, M, Cenci, S, Ceperuelo-Mallafré, V, Cerqueira, JJ, Cerutti, JM, Cervia, D, Cetintas, VB, Cetrullo, S, Chae, H-J, Chagin, AS, Chai, C-Y, Chakrabarti, G, Chakrabarti, O, Chakraborty, T, Chami, M, Chamilos, G, Chan, DW, Chan, EYW, Chan, ED, Chan, HYE, Chan, HH, Chan, H, Chan, MTV, Chan, YS, Chandra, PK, Chang, C-P, Chang, C, Chang, H-C, Chang, K, Chao, J, Chapman, T, Charlet-Berguerand, N, Chatterjee, S, Chaube, SK, Chaudhary, A, Chauhan, S, Chaum, E, Checler, F, Cheetham, ME, Chen, C-S, Chen, G-C, Chen, J-F, Chen, LL, Chen, L, Chen, M, Chen, M-K, Chen, N, Chen, Q, Chen, R-H, Chen, S, Chen, W, Chen, X-M, Chen, X-W, Chen, X, Chen, Y, Chen, Y-G, Chen, Y-J, Chen, Y-Q, Chen, ZS, Chen, Z, Chen, Z-H, Chen, ZJ, Cheng, H, Cheng, J, Cheng, S-Y, Cheng, W, Cheng, X, Cheng, X-T, Cheng, Y, Cheng, Z, Cheong, H, Cheong, JK, Chernyak, BV, Cherry, S, Cheung, CFR, Cheung, CHA, Cheung, K-H, Chevet, E, Chi, RJ, Chiang, AKS, Chiaradonna, F, Chiarelli, R, Chiariello, M, Chica, N, Chiocca, S, Chiong, M, Chiou, S-H, Chiramel, AI, Chiurchiù, V, Cho, D-H, Choe, S-K, Choi, AMK, Choi, ME, Choudhury, KR, Chow, NS, Chu, CT, Chua, JP, Chua, JJE, Chung, H, Chung, KP, Chung, S, Chung, S-H, Chung, Y-L, Cianfanelli, V, Ciechomska, IA, Cifuentes, M, Cinque, L, Cirak, S, Cirone, M, Clague, MJ, Clarke, R, Clementi, E, Coccia, EM, Codogno, P, Cohen, E, Cohen, MM, Colasanti, T, Colasuonno, F, Colbert, RA, Colell, A, Čolić, M, Coll, NS, Collins, MO, Colombo, MI, Colón-Ramos, DA, Combaret, L, Comincini, S, Cominetti, MR, Consiglio, A, Conte, A, Conti, F, Contu, VR, Cookson, MR, Coombs, KM, Coppens, I, Corasaniti, MT, Corkery, DP, Cordes, N, Cortese, K, Costa, MDC, Costantino, S, Costelli, P, Coto-Montes, A, Crack, PJ, Crespo, JL, Criollo, A, Crippa, V, Cristofani, R, Csizmadia, T, Cuadrado, A, Cui, B, Cui, J, Cui, Y, Culetto, E, Cumino, AC, Cybulsky, AV, Czaja, MJ, Czuczwar, SJ, D'Adamo, S, D'Amelio, M, D'Arcangelo, D, D'Lugos, AC, D'Orazi, G, da Silva, JA, Dafsari, HS, Dagda, RK, Dagdas, Y, Daglia, M, Dai, X, Dai, Y, Dal Col, J, Dalhaimer, P, Dalla Valle, L, Dallenga, T, Dalmasso, G, Damme, M, Dando, I, Dantuma, NP, Darling, AL, Das, H, Dasarathy, S, Dasari, SK, Dash, S, Daumke, O, Dauphinee, AN, Davies, JS, Dávila, VA, Davis, RJ, Davis, T, Dayalan Naidu, S, De Amicis, F, De Bosscher, K, De Felice, F, De Franceschi, L, De Leonibus, C, de Mattos Barbosa, MG, De Meyer, GRY, De Milito, A, De Nunzio, C, De Palma, C, De Santi, M, De Virgilio, C, De Zio, D, Debnath, J, DeBosch, BJ, Decuypere, J-P, Deehan, MA, Deflorian, G, DeGregori, J, Dehay, B, Del Rio, G, Delaney, JR, Delbridge, LMD, Delorme-Axford, E, Delpino, MV, Demarchi, F, Dembitz, V, Demers, ND, Deng, H, Deng, Z, Dengjel, J, Dent, P, Denton, D, DePamphilis, ML, Der, CJ, Deretic, V, Descoteaux, A, Devis, L, Devkota, S, Devuyst, O, Dewson, G, Dharmasivam, M, Dhiman, R, di Bernardo, D, Di Cristina, M, Di Domenico, F, Di Fazio, P, Di Fonzo, A, Di Guardo, G, Di Guglielmo, GM, Di Leo, L, Di Malta, C, Di Nardo, A, Di Rienzo, M, Di Sano, F, Diallinas, G, Diao, J, Diaz-Araya, G, Díaz-Laviada, I, Dickinson, JM, Diederich, M, Dieudé, M, Dikic, I, Ding, S, Ding, W-X, Dini, L, Dinić, J, Dinic, M, Dinkova-Kostova, AT, Dionne, MS, Distler, JHW, Diwan, A, Dixon, IMC, 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Y, Oshima, S, Rong, Y, Sluimer, JC, Stallings, CL, and Tong, C-K

Abstract

In 2008, we published the first set of guidelines for standardizing research in autophagy. Since then, this topic has received increasing attention, and many scientists have entered the field. Our knowledge base and relevant new technologies have also been expanding. Thus, it is important to formulate on a regular basis updated guidelines for monitoring autophagy in different organisms. Despite numerous reviews, there continues to be confusion regarding acceptable methods to evaluate autophagy, especially in multicellular eukaryotes. Here, we present a set of guidelines for investigators to select and interpret methods to examine autophagy and related processes, and for reviewers to provide realistic and reasonable critiques of reports that are focused on these processes. These guidelines are not meant to be a dogmatic set of rules, because the appropriateness of any assay largely depends on the question being asked and the system being used. Moreover, no individual assay is perfect for every situation, calling for the use of multiple techniques to properly monitor autophagy in each experimental setting. Finally, several core components of the autophagy machinery have been implicated in distinct autophagic processes (canonical and noncanonical autophagy), implying that genetic approaches to block autophagy should rely on targeting two or more autophagy-related genes that ideally participate in distinct steps of the pathway. Along similar lines, because multiple proteins involved in autophagy also regulate other cellular pathways including apoptosis, not all of them can be used as a specific marker for bona fide autophagic responses. Here, we critically discuss current methods of assessing autophagy and the information they can, or cannot, provide. Our ultimate goal is to encourage intellectual and technical innovation in the field.

Published
2021

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