Search

Your search keyword '"Rajasekaran, N."' showing total 222 results
Start Over Author "Rajasekaran, N."
Sorry, I don't understand your search. ×
222 results on '"Rajasekaran, N."'

9. Toripalimab: A Next Generation Designed Anti-PD-1 Antibody for Treatment of Nasopharyngeal Carcinoma

Author

Rajasekaran, N., primary, Ravindranathan, S., additional, Wang, X., additional, Chin, D.J., additional, Tseng, S.Y., additional, Klakamp, S., additional, Widmann, K., additional, Young, G., additional, Yu, B., additional, Kapoor, V., additional, Vexler, V., additional, Keegan, P., additional, Yao, S., additional, Khare, S.D., additional, and LaVallee, T., additional

Published
2024
Full Text
View/download PDF

11. Structure and Giant Magnetoresistance of Electrodeposited Co/Cu Multilayers Prepared by Two-Pulse (G/P) and Three-Pulse (G/P/G) Plating

Author

Rajasekaran, N., Pogány, L., Révész, Á., Tóth, B. G., Mohan, S., Péter, L., and Bakonyi, I.

Subjects
Condensed Matter - Materials Science
Abstract

The giant magnetoresistance (GMR) was investigated for electrodeposited Co/Cu multilayers. In order to better understand the formation of individual layers and their influence on GMR, multilayers produced by two different deposition strategies were compared. One series of Co(2 nm)/Cu(tCu) multilayers with tCu ranging from 0.5 nm to 6 nm was produced with the conventional two-pulse plating by using a galvanostatic/potentiostatic (G/P) pulse combination for the magnetic/non-magnetic layer deposition, respectively, whereby the Cu layer deposition was carried out at the electrochemically optimized potential. Another Co(2 nm)/Cu(tCu) multilayer series with the same tCu range was prepared with the help of a G/P/G pulse combination. In this latter case, first a bilayer of Co(2 nm)/Cu(6 nm) was deposited in each cycle as in the G/P mode after which a third G pulse was applied with a small anodic current to dissolve part of the 6 nm thick Cu layer in order to ensure the targeted tCu value. The comparison of the two series revealed that the G/P/G pulse combination yields multilayers for which GMR can be obtained even at such low nominal Cu layer thicknesses where G/P multilayers already exhibit bulk-like anisotropic magnetoresistance only. Surface roughness measurements by atomic force microscopy revealed that the two kinds of pulse combination yield different surface roughness values which correlate with the structural quality of the multilayers as indicated by the absence or presence of multilayer satellite reflections in the X-ray diffraction patterns. The results of multilayer chemical analysis revealed that mainly an increased Cu content of the magnetic layer is responsible for the onset of SPM regions in the form of Co segregations in the G/P/G multilayers with small Cu layer thicknesses., Comment: 32 pages, 10 figures

Published
2017
Full Text
View/download PDF

12. Giant magnetoresistance and structure of electrodeposited Co/Cu multilayers: the influence of layer thicknesses and Cu deposition potential

Author

Rajasekaran, N., Mani, J., Tóth, B. G., Molnár, G., Mohan, S., Péter, L., and Bakonyi, I.

Subjects
Condensed Matter - Materials Science
Abstract

The giant magnetoresistance (GMR) and structure was investigated for electrodeposited Co/Cu multilayers prepared by a conventional galvanostatic/potentiostatic pulse combination from a pure sulfate electrolyte with various layer thicknesses, total multilayer thickness and Cu deposition potential. X-ray diffraction (XRD) measurements revealed superlattice satellite reflections for many of the multilayers having sufficiently large thickness (at least 2 nm) of both constituent layers. The bilayer repeats derived from the positions of the visible superlattice reflections were typically 10-20% higher than the nominal values.The observed GMR was found to be dominated by the multilayer-like ferromagnetic (FM) contribution even for multilayers without visible superlattice satellites. There was always also a modest superparamagnetic (SPM) contribution to the GMR and this term was the largest for multilayers with very thin (0.5 nm) magnetic layers containg apparently a small amount of magnetically decoupled SPM regions. No oscillatory GMR behavior with spacer thickness was observed at any magnetic layer thickness. The saturation of the coercivity as measured by the peak position of the MR(H) curves indicated a complete decoupling of magnetic layers for large spacer thicknesses. The GMR increased with total multilayer thickness which could be ascribed to an increasing SPM contribution to the GMR due to an increasing surface roughness, also indicated by the increasing coercivity. For multilayers with Cu layers deposited at more and more positive potentials, the GMRFM term increased and the GMRSPM term decreased. At the same time, a corresponding reduction of surface roughness measured with atomic force microscopy indicated an improvement of the multilayer structural quality which was, however, not accompanied by an increase of the superlattice reflection intensities., Comment: 29 pages, 10 figures

Published
2017
Full Text
View/download PDF

14. Electrodeposited Ni-Fe alloy as a cost-effective material for harnessing hydrogen via the oxygen evolution and urea oxidation reactions.

Author

Venkatachalam, Ananth, Senthilnathan, Venkatesan, Veerapandian, Murugan, and Rajasekaran, N.

Subjects
OXYGEN evolution reactions, ENERGY conversion, UREA, ALLOYS, OXIDATION of water, OXYGEN
Abstract

Electrochemical energy conversion for hydrogen production is a crucial method to address the global energy demand. Here, a cost-effective approach for the preparation of a transition metal-based alloy electrode through electrodeposition with composition-modulated binary alloy electrodes is achieved using various electrolyte concentrations. An alloy electrode formed from the synergistic combination of Ni-Fe acted as a dual-path energy conversion anode in two different energy conversion systems, the oxygen evolution reaction (OER) and urea oxidation reaction (UOR). Under the optimal conditions, the Ni5-Fe3 alloy electrode consumes 1.48 V and 1.45 V vs. RHE for the OER and UOR, respectively. Evidential information from solar-powered water and urea oxidation with a low cell voltage (1.52 V) supports the feasibility of the prepared electrode materials. A lab scale direct oxidation of human urine has also been conducted and the obtained results are a promising cornerstone for waste-to-energy achievement. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

21. Electrodeposition of Copper Thin Films on Screen Printed Carbon Electrodes towards Electrochemical Sensing of Nitrate

Author

Sethupathi Murugan, Boobalan Thulasinathan, Mathiyarasu J, Rajasekaran N, and Pandiaraj Manickam

Subjects
Electronic, Optical and Magnetic Materials
Abstract

Accurate and frequent monitoring of NO3− levels in water bodies is crucial for human health and environment. Here, copper (Cu) thin films electrodeposited on screen-printed carbon electrodes (SPCEs) were explored as an electrochemical sensing platform for the detection of NO3− in water. Scanning electron microscopy with energy-dispersive X-Ray analysis, X-Ray diffraction analysis, and X-ray photoelectron spectroscopy was employed to characterize the morphology and composition of the thin film modified electrode. The electrochemical response of Cu thin film deposited SPCE under different pH conditions (4 to 10) and various temperature (20-60°C) was assessed using linear sweep voltammetry. The developed electrochemical sensor allowed the measurement of NO3− levels ranging from 50 to 750 µM with a sensitivity of 0.1042 µA mM-1. The sensor exhibited good detection limit in fish culture water (120 nM), reverse osmosis processed water (91 nM) and borewell water (98 nM). The sensor response was found to be stable in the presence of other interfering analytes (NO2-, K+, Na+, SO42-, Mg2+, Cl-, Fe3+, Fe2+, Mn2+, Cu2+, Zn2+). The performance of the sensor was demonstrated in water samples collected from various sources and the sensor showed an acceptable performance rates for practical applications.

Published
2023

25. Enhancement of antibody-dependent cell mediated cytotoxicity: a new era in cancer treatment

Author

Rajasekaran N, Chester C, Yonezawa A, Zhao X, and Kohrt HE

Subjects
ADCC, NK cell, Reovirus, TLR, CD137, Immunologic diseases. Allergy, RC581-607
Abstract

Narendiran Rajasekaran,1,* Cariad Chester,1,* Atsushi Yonezawa,1,2 Xing Zhao,1,3 Holbrook E Kohrt1 1Division of Oncology, Stanford School of Medicine, Stanford University, Stanford, CA, USA; 2Department of Clinical Pharmacology and Therapeutics, Kyoto University Hospital, Kyoto, Japan; 3Tissue Engineering and Stem Cells Research Center, Department of Immunology, Guiyang Medical University, Guiyang, Guizhou Province, People's Republic of China *These authors contributed equally to this work Abstract: The therapeutic efficacy of some anti-tumor monoclonal antibodies (mAbs) depends on the capacity of the mAb to recognize the tumor-associated antigen and induce cytotoxicity via a network of immune effector cells. This process of antibody-dependent cell-mediated cytotoxicity (ADCC) against tumor cells is triggered by the interaction of the fragment crystallizable (Fc) portion of the mAb with the Fc receptors on effector cells like natural killer cells, macrophages, γδ T cells, and dendritic cells. By augmenting ADCC, the antitumor activity of mAbs can be significantly increased. Currently, identifying and developing therapeutic agents that enhance ADCC is a growing area of research. Combining existing tumor-targeting mAbs and ADCC-promoting agents that stimulate effector cells will translate to greater clinical responses. In this review, we discuss strategies for enhancing ADCC and emphasize the potential of combination treatments that include US Food and Drug Administration-approved mAbs and immunostimulatory therapeutics. Keywords: ADCC, NK cell, reovirus, TLR, CD137

Published
2015

26. Abstract P3091: Transgenic Expression Of Nrf2 Induces A Pro-reductive Stress And Adaptive Cardiac Remodeling In Mice

Author

Arun Jyothidasan, Saravanakumar Murugesan, Justin Quiles, Anil Kumar Challa, Senthil Kumar Cinghu, Vivek Nanda, and Rajasekaran N Namakkal-Soorappan

Subjects
Physiology, Cardiology and Cardiovascular Medicine
Abstract

Background: NFE2L2, nuclear factor, erythroid 2 like 2 (Nrf2), is a transcription factor that protects cells through maintaining a homeostatic redox state during stress. Constitutive expression of Nrf2 (CaNrf2-TG) was previously shown to be pathological to the heart over time. We tested a hypothesis that the cardiac-specific expression of full length Nrf2 (mNrf2-TG) would moderately increase the basal antioxidant defense, triggering a pro-reductive environment leading to adaptive cardiac remodeling. Methods: Cardiac-specific full-length Nrf2 transgenic (mNrf2-TG) and non-transgenic (NTG) mice hearts on the C57/BL6 background at 7-8 months of age were used to analyze the transcriptome and cardiac structure/function. Next generation sequencing (NGS) for RNA profiling (n=3/group) and qPCR-based validation (n=5/group) of the NGS data were accomplished. Myocardial redox levels and imaging (echocardiography) were performed. Results: Transcriptomic analysis revealed that out of 14665 identified mRNAs, 679 were differently expressed (DEG) in TG hearts. Of 679 DEGs, 429 were upregulated and 251 were downregulated significantly (FC>2, P Conclusion: The effects of excess Nrf2-driven antioxidant transcriptome revealed a pro-reductive condition in the myocardium leading to an adaptive cardiac remodeling. While pre-conditioning the myocardial redox with excess antioxidants (i.e. pro-reductive state) could be beneficial against oxidative stress, a chronic pro-reductive environment in the myocardium might transition the adaptation to pathological remodeling.

Published
2022

27. Abstract P2045: Transcriptome Versus Proteomic Discrepancy Is Associated With Structural-functional Dys-synchrony In Reductive Stress Myocardium

Author

Sini Sunny, Cynthia L David, Krishna Parsawar, Steven pogwizd, and Rajasekaran N Namakkal-Soorappan

Subjects
Physiology, Cardiology and Cardiovascular Medicine
Abstract

Background: A real-time action of Nrf2 in response to a stress is vital to preserve the redox homeostasis, but its activation under unstressed settings tilt the redox balance towards the reductive arm, leading to reductive stress (RS). In this study, we identified that >50% mismatch between mRNA and protein levels in RS myocardium undergoing structural/functional dys-synchrony. Methods: NGS-RNA Seq (for RNA), Tandem Mass Tagging (TMT) Mass spectrometry (for proteins) and speckle tracking strain echocardiography (STE) using Vevo2100 system was performed in the cardiac-specific constitutively active Nrf2 transgenic (CaNrf2-TG/TG) and non-transgenic (NTG) mice (n=4/group) at ~6-7 months of age. Results: Comparison of NGS and TMT data in TG vs. NTG hearts showed surprising results. Out of 104 commonly found gene products in NGS and proteins at a FC≥1.5, the levels of 50 proteins are not consistent with their RNA expression. The proteins that are steadily expressed according to their respective mRNA levels are classified as “transcription-sync proteins (T-SP)” and the ones that do not match are termed as “transcription-nonsync proteins. While changes in Nrf2-driven antioxidant genes ( Nqo1, Gsr, Gsta1-4, and Gstm1 ) were grouped under “T-SP”, other transcripts including Atp5pb, Ces1d, Cmbl, Cox7a1, Cpt1b, Fah and Gstk1 did not quantitatively match with their translated products in TG hearts. Further, STE demonstrated an impaired wall motion (diastolic and systolic velocity), increased fractional shortening (20% vs 50%; p Conclusions: Our comparative analysis of RNA and protein in RS hearts demonstrated that 50% of the proteins do not match with the quantitative changes of their transcripts. We highlight that the RS could be a novel mechanism for disproportionate transcription vs translation, which leads to structural and functional dys-synchrony in the TG hearts.

Published
2022

29. 1174P The MET inhibitor ABN401 in combination with the third-generation EGFR-TKI is effective MET-amplified and EGFR-mutant NSCLC with acquired resistance to third-generation EGFR-TKI in preclinical models

Author

Yu, M.R., primary, Yun, M.R., additional, Lee, S., additional, Rajasekaran, N., additional, Park, K.E., additional, Kim, N.Y., additional, Hong, S., additional, Oh, S.Y., additional, Lee, Y.W., additional, Lee, E.J., additional, Kim, C.G., additional, Lim, S.M., additional, Choi, J., additional, and Cho, B.C., additional

Published
2022
Full Text
View/download PDF

37. 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, Djavaheri-Mergny, M, Dobrinski, I, Dobrovinskaya, O, Dobrowolski, R, Dobson, RCJ, Đokić, J, Dokmeci Emre, S, Donadelli, M, Dong, B, Dong, X, Dong, Z, Dorn Ii, GW, Dotsch, V, Dou, H, Dou, J, Dowaidar, M, Dridi, S, Drucker, L, Du, A, Du, C, Du, G, Du, H-N, Du, L-L, du Toit, A, Duan, S-B, Duan, X, Duarte, SP, Dubrovska, A, Dunlop, EA, Dupont, N, Durán, RV, Dwarakanath, BS, Dyshlovoy, SA, Ebrahimi-Fakhari, D, Eckhart, L, Edelstein, CL, Efferth, T, Eftekharpour, E, Eichinger, L, Eid, N, Eisenberg, T, Eissa, NT, Eissa, S, Ejarque, M, El Andaloussi, A, El-Hage, N, El-Naggar, S, Eleuteri, AM, El-Shafey, ES, Elgendy, M, Eliopoulos, AG, Elizalde, MM, Elks, PM, Elsasser, H-P, Elsherbiny, ES, Emerling, BM, Emre, NCT, Eng, CH, Engedal, N, Engelbrecht, A-M, Engelsen, AST, Enserink, JM, Escalante, R, Esclatine, A, Escobar-Henriques, M, Eskelinen, E-L, Espert, L, Eusebio, M-O, Fabrias, G, Fabrizi, C, Facchiano, A, Facchiano, F, Fadeel, B, Fader, C, Faesen, AC, Fairlie, WD, Falcó, A, Falkenburger, BH, Fan, D, Fan, J, Fan, Y, Fang, EF, Fang, Y, Fanto, M, Farfel-Becker, T, Faure, M, Fazeli, G, Fedele, AO, Feldman, AM, Feng, D, Feng, J, Feng, L, Feng, Y, Feng, W, Fenz Araujo, T, Ferguson, TA, Fernández, ÁF, Fernandez-Checa, JC, Fernández-Veledo, S, Fernie, AR, Ferrante, AW, Ferraresi, A, Ferrari, MF, Ferreira, JCB, Ferro-Novick, S, Figueras, A, Filadi, R, Filigheddu, N, Filippi-Chiela, E, Filomeni, G, Fimia, GM, Fineschi, V, Finetti, F, Finkbeiner, S, Fisher, EA, Fisher, PB, Flamigni, F, Fliesler, SJ, Flo, TH, Florance, I, Florey, O, Florio, T, Fodor, E, Follo, C, Fon, EA, Forlino, A, Fornai, F, Fortini, P, Fracassi, A, Fraldi, A, Franco, B, Franco, R, Franconi, F, Frankel, LB, Friedman, SL, Fröhlich, LF, Frühbeck, G, Fuentes, JM, Fujiki, Y, Fujita, N, Fujiwara, Y, Fukuda, M, Fulda, S, Furic, L, Furuya, N, Fusco, C, Gack, MU, Gaffke, L, Galadari, S, Galasso, A, Galindo, MF, Gallolu Kankanamalage, S, Galluzzi, L, Galy, V, Gammoh, N, Gan, B, Ganley, IG, Gao, F, Gao, H, Gao, M, Gao, P, Gao, S-J, Gao, W, Gao, X, Garcera, A, Garcia, MN, Garcia, VE, García-Del Portillo, F, Garcia-Escudero, V, Garcia-Garcia, A, Garcia-Macia, M, García-Moreno, D, Garcia-Ruiz, C, García-Sanz, P, Garg, AD, Gargini, R, Garofalo, T, Garry, RF, Gassen, NC, Gatica, D, Ge, L, Ge, W, Geiss-Friedlander, R, Gelfi, C, Genschik, P, Gentle, IE, Gerbino, V, Gerhardt, C, Germain, K, Germain, M, Gewirtz, DA, Ghasemipour Afshar, E, Ghavami, S, Ghigo, A, Ghosh, M, Giamas, G, Giampietri, C, Giatromanolaki, A, Gibson, GE, Gibson, SB, Ginet, V, Giniger, E, Giorgi, C, Girao, H, Girardin, SE, Giridharan, M, Giuliano, S, Giulivi, C, Giuriato, S, Giustiniani, J, Gluschko, A, Goder, V, Goginashvili, A, Golab, J, Goldstone, DC, Golebiewska, A, Gomes, LR, Gomez, R, Gómez-Sánchez, R, Gomez-Puerto, MC, Gomez-Sintes, R, Gong, Q, Goni, FM, González-Gallego, J, Gonzalez-Hernandez, T, Gonzalez-Polo, RA, Gonzalez-Reyes, JA, González-Rodríguez, P, Goping, IS, Gorbatyuk, MS, Gorbunov, NV, Görgülü, K, Gorojod, RM, Gorski, SM, Goruppi, S, Gotor, C, Gottlieb, RA, Gozes, I, Gozuacik, D, Graef, M, Gräler, MH, Granatiero, V, Grasso, D, Gray, JP, Green, DR, Greenhough, A, Gregory, SL, Griffin, EF, Grinstaff, MW, Gros, F, Grose, C, Gross, AS, Gruber, F, Grumati, P, Grune, T, Gu, X, Guan, J-L, Guardia, CM, Guda, K, Guerra, F, Guerri, C, Guha, P, Guillén, C, Gujar, S, Gukovskaya, A, Gukovsky, I, Gunst, J, Günther, A, Guntur, AR, Guo, C, Guo, H, Guo, L-W, Guo, M, Gupta, P, Gupta, SK, Gupta, S, Gupta, VB, Gupta, V, Gustafsson, AB, Gutterman, DD, H B, R, Haapasalo, A, Haber, JE, Hać, A, Hadano, S, Hafrén, AJ, Haidar, M, Hall, BS, Halldén, G, Hamacher-Brady, A, Hamann, A, Hamasaki, M, Han, W, Hansen, M, Hanson, PI, Hao, Z, Harada, M, Harhaji-Trajkovic, L, Hariharan, N, Haroon, N, Harris, J, Hasegawa, T, Hasima Nagoor, N, Haspel, JA, Haucke, V, Hawkins, WD, Hay, BA, Haynes, CM, Hayrabedyan, SB, Hays, TS, He, C, He, Q, He, R-R, He, Y-W, He, Y-Y, Heakal, Y, Heberle, AM, Hejtmancik, JF, Helgason, GV, Henkel, V, Herb, M, Hergovich, A, Herman-Antosiewicz, A, Hernández, A, Hernandez, C, Hernandez-Diaz, S, Hernandez-Gea, V, Herpin, A, Herreros, J, Hervás, JH, Hesselson, D, Hetz, C, Heussler, VT, Higuchi, Y, Hilfiker, S, Hill, JA, Hlavacek, WS, Ho, EA, Ho, IHT, Ho, PW-L, Ho, S-L, Ho, WY, Hobbs, GA, Hochstrasser, M, Hoet, PHM, Hofius, D, Hofman, P, Höhn, A, Holmberg, CI, Hombrebueno, JR, Yi-Ren Hong, C-WH, Hooper, LV, Hoppe, T, Horos, R, Hoshida, Y, Hsin, I-L, Hsu, H-Y, Hu, B, Hu, D, Hu, L-F, Hu, MC, Hu, R, Hu, W, Hu, Y-C, Hu, Z-W, Hua, F, Hua, J, Hua, Y, Huan, C, Huang, C, Huang, H, Huang, K, Huang, MLH, Huang, R, Huang, S, Huang, T, Huang, X, Huang, YJ, Huber, TB, Hubert, V, Hubner, CA, Hughes, SM, Hughes, WE, Humbert, M, Hummer, G, Hurley, JH, Hussain, S, Hussey, PJ, Hutabarat, M, Hwang, H-Y, Hwang, S, Ieni, A, Ikeda, F, Imagawa, Y, Imai, Y, Imbriano, C, Imoto, M, Inman, DM, Inoki, K, Iovanna, J, Iozzo, RV, Ippolito, G, Irazoqui, JE, Iribarren, P, Ishaq, M, Ishikawa, M, Ishimwe, N, Isidoro, C, Ismail, N, Issazadeh-Navikas, S, Itakura, E, Ito, D, Ivankovic, D, Ivanova, S, Iyer, AKV, Izquierdo, JM, Izumi, M, Jäättelä, M, Jabir, MS, Jackson, WT, Jacobo-Herrera, N, Jacomin, A-C, Jacquin, E, Jadiya, P, Jaeschke, H, Jagannath, C, Jakobi, AJ, Jakobsson, J, Janji, B, Jansen-Dürr, P, Jansson, PJ, Jantsch, J, Januszewski, S, Jassey, A, Jean, S, Jeltsch-David, H, Jendelova, P, Jenny, A, Jensen, TE, Jessen, N, Jewell, JL, Ji, J, Jia, L, Jia, R, Jiang, L, Jiang, Q, Jiang, R, Jiang, T, Jiang, X, Jiang, Y, Jimenez-Sanchez, M, Jin, E-J, Jin, F, Jin, H, Jin, L, Jin, M, Jin, S, Jo, E-K, Joffre, C, Johansen, T, Johnson, GVW, Johnston, SA, Jokitalo, E, Jolly, MK, Joosten, LAB, Jordan, J, Joseph, B, Ju, D, Ju, J-S, Ju, J, Juárez, E, Judith, D, Juhász, G, Jun, Y, Jung, CH, Jung, S-C, Jung, YK, Jungbluth, H, Jungverdorben, J, Just, S, Kaarniranta, K, Kaasik, A, Kabuta, T, Kaganovich, D, Kahana, A, Kain, R, Kajimura, S, Kalamvoki, M, Kalia, M, Kalinowski, DS, Kaludercic, N, Kalvari, I, Kaminska, J, Kaminskyy, VO, Kanamori, H, Kanasaki, K, Kang, C, Kang, R, Kang, SS, Kaniyappan, S, Kanki, T, Kanneganti, T-D, Kanthasamy, AG, Kanthasamy, A, Kantorow, M, Kapuy, O, Karamouzis, MV, Karim, MR, Karmakar, P, Katare, RG, Kato, M, Kaufmann, SHE, Kauppinen, A, Kaushal, GP, Kaushik, S, Kawasaki, K, Kazan, K, Ke, P-Y, Keating, DJ, Keber, U, Kehrl, JH, Keller, KE, Keller, CW, Kemper, JK, Kenific, CM, Kepp, O, Kermorgant, S, Kern, A, Ketteler, R, Keulers, TG, Khalfin, B, Khalil, H, Khambu, B, Khan, SY, Khandelwal, VKM, Khandia, R, Kho, W, Khobrekar, NV, Khuansuwan, S, Khundadze, M, Killackey, SA, Kim, D, Kim, DR, Kim, D-H, Kim, D-E, Kim, EY, Kim, E-K, Kim, H-R, Kim, H-S, Hyung-Ryong Kim, Kim, JH, Kim, JK, Kim, J-H, Kim, J, Kim, KI, Kim, PK, Kim, S-J, Kimball, SR, Kimchi, A, Kimmelman, AC, Kimura, T, King, MA, Kinghorn, KJ, Kinsey, CG, Kirkin, V, Kirshenbaum, LA, Kiselev, SL, Kishi, S, Kitamoto, K, Kitaoka, Y, Kitazato, K, Kitsis, RN, Kittler, JT, Kjaerulff, O, Klein, PS, Klopstock, T, Klucken, J, Knævelsrud, H, Knorr, RL, Ko, BCB, Ko, F, Ko, J-L, Kobayashi, H, Kobayashi, S, Koch, I, Koch, JC, Koenig, U, Kögel, D, Koh, YH, Koike, M, Kohlwein, SD, Kocaturk, NM, Komatsu, M, König, J, Kono, T, Kopp, BT, Korcsmaros, T, Korkmaz, G, Korolchuk, VI, Korsnes, MS, Koskela, A, Kota, J, Kotake, Y, Kotler, ML, Kou, Y, Koukourakis, MI, Koustas, E, Kovacs, AL, Kovács, T, Koya, D, Kozako, T, Kraft, C, Krainc, D, Krämer, H, Krasnodembskaya, AD, Kretz-Remy, C, Kroemer, G, Ktistakis, NT, Kuchitsu, K, Kuenen, S, Kuerschner, L, Kukar, T, Kumar, A, Kumar, D, Kumar, S, Kume, S, Kumsta, C, Kundu, CN, Kundu, M, Kunnumakkara, AB, Kurgan, L, Kutateladze, TG, Kutlu, O, Kwak, S, Kwon, HJ, Kwon, TK, Kwon, YT, Kyrmizi, I, La Spada, A, Labonté, P, Ladoire, S, Laface, I, Lafont, F, Lagace, DC, Lahiri, V, Lai, Z, Laird, AS, Lakkaraju, A, Lamark, T, Lan, S-H, Landajuela, A, Lane, DJR, Lane, JD, Lang, CH, Lange, C, Langel, Ü, Langer, R, Lapaquette, P, Laporte, J, LaRusso, NF, Lastres-Becker, I, Lau, WCY, Laurie, GW, Lavandero, S, Law, BYK, Law, HK-W, Layfield, R, Le, W, Le Stunff, H, Leary, AY, Lebrun, J-J, Leck, LYW, Leduc-Gaudet, J-P, Lee, C, Lee, C-P, Lee, D-H, Lee, EB, Lee, EF, Lee, GM, Lee, H-J, Lee, HK, Lee, JM, Lee, JS, Lee, J-A, Lee, J-Y, Lee, JH, Lee, M, Lee, MG, Lee, MJ, Lee, M-S, Lee, SY, Lee, S-J, Lee, SB, Lee, WH, Lee, Y-R, Lee, Y-H, Lee, Y, Lefebvre, C, Legouis, R, Lei, YL, Lei, Y, Leikin, S, Leitinger, G, Lemus, L, Leng, S, Lenoir, O, Lenz, G, Lenz, HJ, Lenzi, P, León, Y, Leopoldino, AM, Leschczyk, C, Leskelä, S, Letellier, E, Leung, C-T, Leung, PS, Leventhal, JS, Levine, B, Lewis, PA, Ley, K, Li, B, Li, D-Q, Li, J, Li, K, Li, L, Li, M, Li, P-L, Li, M-Q, Li, Q, Li, S, Li, T, Li, W, Li, X, Li, Y-P, Li, Y, Li, Z, Lian, J, Liang, C, Liang, Q, Liang, W, Liang, Y, Liao, G, Liao, L, Liao, M, Liao, Y-F, Librizzi, M, Lie, PPY, Lilly, MA, Lim, HJ, Lima, TRR, Limana, F, Lin, C, Lin, C-W, Lin, D-S, Lin, F-C, Lin, JD, Lin, KM, Lin, K-H, Lin, L-T, Lin, P-H, Lin, Q, Lin, S, Lin, S-J, Lin, W, Lin, X, Lin, Y-X, Lin, Y-S, Linden, R, Lindner, P, Ling, S-C, Lingor, P, Linnemann, AK, Liou, Y-C, Lipinski, MM, Lipovšek, S, Lira, VA, Lisiak, N, Liton, PB, Liu, C, Liu, C-H, Liu, C-F, Liu, CH, Liu, F, Liu, H, Liu, H-S, Liu, H-F, Liu, J, Liu, L, Liu, M, Liu, Q, Liu, W, Liu, X-H, Liu, X, Liu, Y, Livingston, JA, Lizard, G, Lizcano, JM, Ljubojevic-Holzer, S, LLeonart, ME, Llobet-Navàs, D, Llorente, A, Lo, CH, Lobato-Márquez, D, Long, Q, Long, YC, Loos, B, Loos, JA, López, MG, López-Doménech, G, López-Guerrero, JA, López-Jiménez, AT, López-Pérez, Ó, López-Valero, I, Lorenowicz, MJ, Lorente, M, Lorincz, P, Lossi, L, Lotersztajn, S, Lovat, PE, Lovell, JF, Lovy, A, Lőw, P, Lu, G, Lu, H, Lu, J-H, Lu, J-J, Lu, M, Lu, S, Luciani, A, Lucocq, JM, Ludovico, P, Luftig, MA, Luhr, M, Luis-Ravelo, D, Lum, JJ, Luna-Dulcey, L, Lund, AH, Lund, VK, Lünemann, JD, Lüningschrör, P, Luo, H, Luo, R, Luo, S, Luo, Z, Luparello, C, Lüscher, B, Luu, L, Lyakhovich, A, Lyamzaev, KG, Lystad, AH, Lytvynchuk, L, Ma, AC, Ma, C, Ma, M, Ma, N-F, Ma, Q-H, Ma, X, Ma, Y, Ma, Z, MacDougald, OA, Macian, F, MacIntosh, GC, MacKeigan, JP, Macleod, KF, Maday, S, Madeo, F, Madesh, M, Madl, T, Madrigal-Matute, J, Maeda, A, Maejima, Y, Magarinos, M, Mahavadi, P, Maiani, E, Maiese, K, Maiti, P, Maiuri, MC, Majello, B, Major, MB, Makareeva, E, Malik, F, Mallilankaraman, K, Malorni, W, Maloyan, A, Mammadova, N, Man, GCW, Manai, F, Mancias, JD, Mandelkow, E-M, Mandell, MA, Manfredi, AA, Manjili, MH, Manjithaya, R, Manque, P, Manshian, BB, Manzano, R, Manzoni, C, Mao, K, Marchese, C, Marchetti, S, Marconi, AM, Marcucci, F, Mardente, S, Mareninova, OA, Margeta, M, Mari, M, Marinelli, S, Marinelli, O, Mariño, G, Mariotto, S, Marshall, RS, Marten, MR, Martens, S, Martin, APJ, Martin, KR, Martin, S, Martín-Segura, A, Martín-Acebes, MA, Martin-Burriel, I, Martin-Rincon, M, Martin-Sanz, P, Martina, JA, Martinet, W, Martinez, A, Martinez, J, Martinez Velazquez, M, Martinez-Lopez, N, Martinez-Vicente, M, Martins, DO, Martins, JO, Martins, WK, Martins-Marques, T, Marzetti, E, Masaldan, S, Masclaux-Daubresse, C, Mashek, DG, Massa, V, Massieu, L, Masson, GR, Masuelli, L, Masyuk, AI, Masyuk, TV, Matarrese, P, Matheu, A, Matoba, S, Matsuzaki, S, Mattar, P, Matte, A, Mattoscio, D, Mauriz, JL, Mauthe, M, Mauvezin, C, Maverakis, E, Maycotte, P, Mayer, J, Mazzoccoli, G, Mazzoni, C, Mazzulli, JR, McCarty, N, McDonald, C, McGill, MR, McKenna, SL, McLaughlin, B, McLoughlin, F, McNiven, MA, McWilliams, TG, Mechta-Grigoriou, F, Medeiros, TC, Medina, DL, Megeney, LA, Megyeri, K, Mehrpour, M, Mehta, JL, Meijer, AJ, Meijer, AH, Mejlvang, J, Meléndez, A, Melk, A, Memisoglu, G, Mendes, AF, Meng, D, Meng, F, Meng, T, Menna-Barreto, R, Menon, MB, Mercer, C, Mercier, AE, Mergny, J-L, Merighi, A, Merkley, SD, Merla, G, Meske, V, Mestre, AC, Metur, SP, Meyer, C, Meyer, H, Mi, W, Mialet-Perez, J, Miao, J, Micale, L, Miki, Y, Milan, E, Milczarek, M, Miller, DL, Miller, SI, Miller, S, Millward, SW, Milosevic, I, Minina, EA, Mirzaei, H, Mirzaei, HR, Mirzaei, M, Mishra, A, Mishra, N, Mishra, PK, Misirkic Marjanovic, M, Misasi, R, Misra, A, Misso, G, Mitchell, C, Mitou, G, Miura, T, Miyamoto, S, Miyazaki, M, Miyazaki, T, Miyazawa, K, Mizushima, N, Mogensen, TH, Mograbi, B, Mohammadinejad, R, Mohamud, Y, Mohanty, A, Mohapatra, S, Möhlmann, T, Mohmmed, A, Moles, A, Moley, KH, Molinari, M, Mollace, V, Møller, AB, Mollereau, B, Mollinedo, F, Montagna, C, Monteiro, MJ, Montella, A, Montes, LR, Montico, B, Mony, VK, Monzio Compagnoni, G, Moore, MN, Moosavi, MA, Mora, AL, Mora, M, Morales-Alamo, D, Moratalla, R, Moreira, PI, Morelli, E, Moreno, S, Moreno-Blas, D, Moresi, V, Morga, B, Morgan, AH, Morin, F, Morishita, H, Moritz, OL, Moriyama, M, Moriyasu, Y, Morleo, M, Morselli, E, Moruno-Manchon, JF, Moscat, J, Mostowy, S, Motori, E, Moura, AF, Moustaid-Moussa, N, Mrakovcic, M, Muciño-Hernández, G, Mukherjee, A, Mukhopadhyay, S, Mulcahy Levy, JM, Mulero, V, Muller, S, Münch, C, Munjal, A, Munoz-Canoves, P, Muñoz-Galdeano, T, Münz, C, Murakawa, T, Muratori, C, Murphy, BM, Murphy, JP, Murthy, A, Myöhänen, TT, Mysorekar, IU, Mytych, J, Nabavi, SM, Nabissi, M, Nagy, P, Nah, J, Nahimana, A, Nakagawa, I, Nakamura, K, Nakatogawa, H, Nandi, SS, Nanjundan, M, Nanni, M, Napolitano, G, Nardacci, R, Narita, M, Nassif, M, Nathan, I, Natsumeda, M, Naude, RJ, Naumann, C, Naveiras, O, Navid, F, Nawrocki, ST, Nazarko, TY, Nazio, F, Negoita, F, Neill, T, Neisch, AL, Neri, LM, Netea, MG, Neubert, P, Neufeld, TP, Neumann, D, Neutzner, A, Newton, PT, Ney, PA, Nezis, IP, Ng, CCW, Ng, TB, Nguyen, HTT, Nguyen, LT, Ni, H-M, Ní Cheallaigh, C, Ni, Z, Nicolao, MC, Nicoli, F, Nieto-Diaz, M, Nilsson, P, Ning, S, Niranjan, R, Nishimune, H, Niso-Santano, M, Nixon, RA, Nobili, A, Nobrega, C, Noda, T, Nogueira-Recalde, U, Nolan, TM, Nombela, I, Novak, I, Novoa, B, Nozawa, T, Nukina, N, Nussbaum-Krammer, C, Nylandsted, J, O'Donovan, TR, O'Leary, SM, O'Rourke, EJ, O'Sullivan, MP, O'Sullivan, TE, Oddo, S, Oehme, I, Ogawa, M, Ogier-Denis, E, Ogmundsdottir, MH, Ogretmen, B, Oh, GT, Oh, S-H, Oh, YJ, Ohama, T, Ohashi, Y, Ohmuraya, M, Oikonomou, V, Ojha, R, Okamoto, K, Okazawa, H, Oku, M, Oliván, S, Oliveira, JMA, Ollmann, M, Olzmann, JA, Omari, S, Omary, MB, Önal, G, Ondrej, M, Ong, S-B, Ong, S-G, Onnis, A, Orellana, JA, Orellana-Muñoz, S, Ortega-Villaizan, MDM, Ortiz-Gonzalez, XR, Ortona, E, Osiewacz, HD, Osman, A-HK, Osta, R, Otegui, MS, Otsu, K, Ott, C, Ottobrini, L, Ou, J-HJ, Outeiro, TF, Oynebraten, I, Ozturk, M, Pagès, G, Pahari, S, Pajares, M, Pajvani, UB, Pal, R, Paladino, S, Pallet, N, Palmieri, M, Palmisano, G, Palumbo, C, Pampaloni, F, Pan, L, Pan, Q, Pan, W, Pan, X, Panasyuk, G, Pandey, R, Pandey, UB, Pandya, V, Paneni, F, Pang, SY, Panzarini, E, Papademetrio, DL, Papaleo, E, Papinski, D, Papp, D, Park, EC, Park, HT, Park, J-M, Park, J-I, Park, JT, Park, J, Park, SC, Park, S-Y, Parola, AH, Parys, JB, Pasquier, A, Pasquier, B, Passos, JF, Pastore, N, Patel, HH, Patschan, D, Pattingre, S, Pedraza-Alva, G, Pedraza-Chaverri, J, Pedrozo, Z, Pei, G, Pei, J, Peled-Zehavi, H, Pellegrini, JM, Pelletier, J, Peñalva, MA, Peng, D, Peng, Y, Penna, F, Pennuto, M, Pentimalli, F, Pereira, CM, Pereira, GJS, Pereira, LC, Pereira de Almeida, L, Perera, ND, Pérez-Lara, Á, Perez-Oliva, AB, Pérez-Pérez, ME, Periyasamy, P, Perl, A, Perrotta, C, Perrotta, I, Pestell, RG, Petersen, M, Petrache, I, Petrovski, G, Pfirrmann, T, Pfister, AS, Philips, JA, Pi, H, Picca, A, Pickrell, AM, Picot, S, Pierantoni, GM, Pierdominici, M, Pierre, P, Pierrefite-Carle, V, Pierzynowska, K, Pietrocola, F, Pietruczuk, M, Pignata, C, Pimentel-Muiños, FX, Pinar, M, Pinheiro, RO, Pinkas-Kramarski, R, Pinton, P, Pircs, K, Piya, S, Pizzo, P, Plantinga, TS, Platta, HW, Plaza-Zabala, A, Plomann, M, Plotnikov, EY, Plun-Favreau, H, Pluta, R, Pocock, R, Pöggeler, S, Pohl, C, Poirot, M, Poletti, A, Ponpuak, M, Popelka, H, Popova, B, Porta, H, Porte Alcon, S, Portilla-Fernandez, E, Post, M, Potts, MB, Poulton, J, Powers, T, Prahlad, V, Prajsnar, TK, Praticò, D, Prencipe, R, Priault, M, Proikas-Cezanne, T, Promponas, VJ, Proud, CG, Puertollano, R, Puglielli, L, Pulinilkunnil, T, Puri, D, Puri, R, Puyal, J, Qi, X, Qi, Y, Qian, W, Qiang, L, Qiu, Y, Quadrilatero, J, Quarleri, J, Raben, N, Rabinowich, H, Ragona, D, Ragusa, MJ, Rahimi, N, Rahmati, M, Raia, V, Raimundo, N, Rajasekaran, N-S, Ramachandra Rao, S, Rami, A, Ramírez-Pardo, I, Ramsden, DB, Randow, F, Rangarajan, PN, Ranieri, D, Rao, H, Rao, L, Rao, R, Rathore, S, Ratnayaka, JA, Ratovitski, EA, Ravanan, P, Ravegnini, G, Ray, SK, Razani, B, Rebecca, V, Reggiori, F, Régnier-Vigouroux, A, Reichert, AS, Reigada, D, Reiling, JH, Rein, T, Reipert, S, Rekha, RS, Ren, H, Ren, J, Ren, W, Renault, T, Renga, G, Reue, K, Rewitz, K, Ribeiro de Andrade Ramos, B, Riazuddin, SA, Ribeiro-Rodrigues, TM, Ricci, J-E, Ricci, R, Riccio, V, Richardson, DR, Rikihisa, Y, Risbud, MV, Risueño, RM, Ritis, K, Rizza, S, Rizzuto, R, Roberts, HC, Roberts, LD, Robinson, KJ, Roccheri, MC, Rocchi, S, Rodney, GG, Rodrigues, T, Rodrigues Silva, VR, Rodriguez, A, Rodriguez-Barrueco, R, Rodriguez-Henche, N, Rodriguez-Rocha, H, Roelofs, J, Rogers, RS, Rogov, VV, Rojo, AI, Rolka, K, Romanello, V, Romani, L, Romano, A, Romano, PS, Romeo-Guitart, D, Romero, LC, Romero, M, Roney, JC, Rongo, C, Roperto, S, Rosenfeldt, MT, Rosenstiel, P, Rosenwald, AG, Roth, KA, Roth, L, Roth, S, Rouschop, KMA, Roussel, BD, Roux, S, Rovere-Querini, P, Roy, A, Rozieres, A, Ruano, D, Rubinsztein, DC, Rubtsova, MP, Ruckdeschel, K, Ruckenstuhl, C, Rudolf, E, Rudolf, R, Ruggieri, A, Ruparelia, AA, Rusmini, P, Russell, RR, Russo, GL, Russo, M, Russo, R, Ryabaya, OO, Ryan, KM, Ryu, K-Y, Sabater-Arcis, M, Sachdev, U, Sacher, M, Sachse, C, Sadhu, A, Sadoshima, J, Safren, N, Saftig, P, Sagona, AP, Sahay, G, Sahebkar, A, Sahin, M, Sahin, O, Sahni, S, Saito, N, Saito, S, Saito, T, Sakai, R, Sakai, Y, Sakamaki, J-I, Saksela, K, Salazar, G, Salazar-Degracia, A, Salekdeh, GH, Saluja, AK, Sampaio-Marques, B, Sanchez, MC, Sanchez-Alcazar, JA, Sanchez-Vera, V, Sancho-Shimizu, V, Sanderson, JT, Sandri, M, Santaguida, S, Santambrogio, L, Santana, MM, Santoni, G, Sanz, A, Sanz, P, Saran, S, Sardiello, M, Sargeant, TJ, Sarin, A, Sarkar, C, Sarkar, S, Sarrias, M-R, Sarmah, DT, Sarparanta, J, Sathyanarayan, A, Sathyanarayanan, R, Scaglione, KM, Scatozza, F, Schaefer, L, Schafer, ZT, Schaible, UE, Schapira, AHV, Scharl, M, Schatzl, HM, Schein, CH, Scheper, W, Scheuring, D, Schiaffino, MV, Schiappacassi, M, Schindl, R, Schlattner, U, Schmidt, O, Schmitt, R, Schmidt, SD, Schmitz, I, Schmukler, E, Schneider, A, Schneider, BE, Schober, R, Schoijet, AC, Schott, MB, Schramm, M, Schröder, B, Schuh, K, Schüller, C, Schulze, RJ, Schürmanns, L, Schwamborn, JC, Schwarten, M, Scialo, F, Sciarretta, S, Scott, MJ, Scotto, KW, Scovassi, AI, Scrima, A, Scrivo, A, Sebastian, D, Sebti, S, Sedej, S, Segatori, L, Segev, N, Seglen, PO, Seiliez, I, Seki, E, Selleck, SB, Sellke, FW, Selsby, JT, Sendtner, M, Senturk, S, Seranova, E, Sergi, C, Serra-Moreno, R, Sesaki, H, Settembre, C, Setty, SRG, Sgarbi, G, Sha, O, Shacka, JJ, Shah, JA, Shang, D, Shao, C, Shao, F, Sharbati, S, Sharkey, LM, Sharma, D, Sharma, G, Sharma, K, Sharma, P, Sharma, S, Shen, H-M, Shen, H, Shen, J, Shen, M, Shen, W, Shen, Z, Sheng, R, Sheng, Z, Sheng, Z-H, Shi, J, Shi, X, Shi, Y-H, Shiba-Fukushima, K, Shieh, J-J, Shimada, Y, Shimizu, S, Shimozawa, M, Shintani, T, Shoemaker, CJ, Shojaei, S, Shoji, I, Shravage, BV, Shridhar, V, Shu, C-W, Shu, H-B, Shui, K, Shukla, AK, Shutt, TE, Sica, V, Siddiqui, A, Sierra, A, Sierra-Torre, V, Signorelli, S, Sil, P, Silva, BJDA, Silva, JD, Silva-Pavez, E, Silvente-Poirot, S, Simmonds, RE, Simon, AK, Simon, H-U, Simons, M, Singh, A, Singh, LP, Singh, R, Singh, SV, Singh, SK, Singh, SB, Singh, S, Singh, SP, Sinha, D, Sinha, RA, Sinha, S, Sirko, A, Sirohi, K, Sivridis, EL, Skendros, P, Skirycz, A, Slaninová, I, Smaili, SS, Smertenko, A, Smith, MD, Soenen, SJ, Sohn, EJ, Sok, SPM, Solaini, G, Soldati, T, Soleimanpour, SA, Soler, RM, Solovchenko, A, Somarelli, JA, Sonawane, A, Song, F, Song, HK, Song, J-X, Song, K, Song, Z, Soria, LR, Sorice, M, Soukas, AA, Soukup, S-F, Sousa, D, Sousa, N, Spagnuolo, PA, Spector, SA, Srinivas Bharath, MM, St Clair, D, Stagni, V, Staiano, L, Stalnecker, CA, Stankov, MV, Stathopulos, PB, Stefan, K, Stefan, SM, Stefanis, L, Steffan, JS, Steinkasserer, A, Stenmark, H, Sterneckert, J, Stevens, C, Stoka, V, Storch, S, Stork, B, Strappazzon, F, Strohecker, AM, Stupack, DG, Su, H, Su, L-Y, Su, L, Suarez-Fontes, AM, Subauste, CS, Subbian, S, Subirada, PV, Sudhandiran, G, Sue, CM, Sui, X, Summers, C, Sun, G, Sun, J, Sun, K, Sun, M-X, Sun, Q, Sun, Y, Sun, Z, Sunahara, KKS, Sundberg, E, Susztak, K, Sutovsky, P, Suzuki, H, Sweeney, G, Symons, JD, Sze, SCW, Szewczyk, NJ, Tabęcka-Łonczynska, A, Tabolacci, C, Tacke, F, Taegtmeyer, H, Tafani, M, Tagaya, M, Tai, H, Tait, SWG, Takahashi, Y, Takats, S, Talwar, P, Tam, C, Tam, SY, Tampellini, D, Tamura, A, Tan, CT, Tan, E-K, Tan, Y-Q, Tanaka, M, Tang, D, Tang, J, Tang, T-S, Tanida, I, Tao, Z, Taouis, M, Tatenhorst, L, Tavernarakis, N, Taylor, A, Taylor, GA, Taylor, JM, Tchetina, E, Tee, AR, Tegeder, I, Teis, D, Teixeira, N, Teixeira-Clerc, F, Tekirdag, KA, Tencomnao, T, Tenreiro, S, Tepikin, AV, Testillano, PS, Tettamanti, G, Tharaux, P-L, Thedieck, K, Thekkinghat, AA, Thellung, S, Thinwa, JW, Thirumalaikumar, VP, Thomas, SM, Thomes, PG, Thorburn, A, Thukral, L, Thum, T, Thumm, M, Tian, L, Tichy, A, Till, A, Timmerman, V, Titorenko, VI, Todi, SV, Todorova, K, Toivonen, JM, Tomaipitinca, L, Tomar, D, Tomas-Zapico, C, Tomić, S, Tong, BC-K, Tong, C, Tong, X, Tooze, SA, Torgersen, ML, Torii, S, Torres-López, L, Torriglia, A, Towers, CG, Towns, R, Toyokuni, S, Trajkovic, V, Tramontano, D, Tran, Q-G, Travassos, LH, Trelford, CB, Tremel, S, Trougakos, IP, Tsao, BP, Tschan, MP, Tse, H-F, Tse, TF, Tsugawa, H, Tsvetkov, AS, Tumbarello, DA, Tumtas, Y, Tuñón, MJ, Turcotte, S, Turk, B, Turk, V, Turner, BJ, Tuxworth, RI, Tyler, JK, Tyutereva, EV, Uchiyama, Y, Ugun-Klusek, A, Uhlig, HH, Ułamek-Kozioł, M, Ulasov, IV, Umekawa, M, Ungermann, C, Unno, R, Urbe, S, Uribe-Carretero, E, Üstün, S, Uversky, VN, Vaccari, T, Vaccaro, MI, Vahsen, BF, Vakifahmetoglu-Norberg, H, Valdor, R, Valente, MJ, Valko, A, Vallee, RB, Valverde, AM, Van den Berghe, G, van der Veen, S, Van Kaer, L, van Loosdregt, J, van Wijk, SJL, Vandenberghe, W, Vanhorebeek, I, Vannier-Santos, MA, Vannini, N, Vanrell, MC, Vantaggiato, C, Varano, G, Varela-Nieto, I, Varga, M, Vasconcelos, MH, Vats, S, Vavvas, DG, Vega-Naredo, I, Vega-Rubin-de-Celis, S, Velasco, G, Velázquez, AP, Vellai, T, Vellenga, E, Velotti, F, Verdier, M, Verginis, P, Vergne, I, Verkade, P, Verma, M, Verstreken, P, Vervliet, T, Vervoorts, J, Vessoni, AT, Victor, VM, Vidal, M, Vidoni, C, Vieira, OV, Vierstra, RD, Viganó, S, Vihinen, H, Vijayan, V, Vila, M, Vilar, M, Villalba, JM, Villalobo, A, Villarejo-Zori, B, Villarroya, F, Villarroya, J, Vincent, O, Vindis, C, Viret, C, Viscomi, MT, Visnjic, D, Vitale, I, Vocadlo, DJ, Voitsekhovskaja, OV, Volonté, C, Volta, M, Vomero, M, Von Haefen, C, Vooijs, MA, Voos, W, Vucicevic, L, Wade-Martins, R, Waguri, S, Waite, KA, Wakatsuki, S, Walker, DW, Walker, MJ, Walker, SA, Walter, J, Wandosell, FG, Wang, B, Wang, C-Y, Wang, C, Wang, D, Wang, F, Wang, G, Wang, H, Wang, H-G, Wang, J, Wang, K, Wang, L, Wang, MH, Wang, M, Wang, N, Wang, P, Wang, QJ, Wang, Q, Wang, QK, Wang, QA, Wang, W-T, Wang, W, Wang, X, Wang, Y, Wang, Y-Y, Wang, Z, Warnes, G, Warnsmann, V, Watada, H, Watanabe, E, Watchon, M, Wawrzyńska, A, Weaver, TE, Wegrzyn, G, Wehman, AM, Wei, H, Wei, L, Wei, T, Wei, Y, Weiergräber, OH, Weihl, CC, Weindl, G, Weiskirchen, R, Wells, A, Wen, RH, Wen, X, Werner, A, Weykopf, B, Wheatley, SP, Whitton, JL, Whitworth, AJ, Wiktorska, K, Wildenberg, ME, Wileman, T, Wilkinson, S, Willbold, D, Williams, B, Williams, RSB, Williams, RL, Williamson, PR, Wilson, RA, Winner, B, Winsor, NJ, Witkin, SS, Wodrich, H, Woehlbier, U, Wollert, T, Wong, E, Wong, JH, Wong, RW, Wong, VKW, Wong, WW-L, Wu, A-G, Wu, C, Wu, J, Wu, KK, Wu, M, Wu, S-Y, Wu, S, Wu, WKK, Wu, X, Wu, Y-W, Wu, Y, Xavier, RJ, Xia, H, Xia, L, Xia, Z, Xiang, G, Xiang, J, Xiang, M, Xiang, W, Xiao, B, Xiao, G, Xiao, H, Xiao, H-T, Xiao, J, Xiao, L, Xiao, S, Xiao, Y, Xie, B, Xie, C-M, Xie, M, Xie, Y, Xie, Z, Xilouri, M, Xu, C, Xu, E, Xu, H, Xu, J, Xu, L, Xu, WW, Xu, X, Xue, Y, Yakhine-Diop, SMS, Yamaguchi, M, Yamaguchi, O, Yamamoto, A, Yamashina, S, Yan, S, Yan, S-J, Yan, Z, Yanagi, Y, Yang, C, Yang, D-S, Yang, H, Yang, H-T, Yang, J-M, Yang, J, Yang, L, Yang, M, Yang, P-M, Yang, Q, Yang, S, Yang, S-F, Yang, W, Yang, WY, Yang, X, Yang, Y, Yao, H, Yao, S, Yao, X, Yao, Y-G, Yao, Y-M, Yasui, T, Yazdankhah, M, Yen, PM, Yi, C, Yin, X-M, Yin, Y, Yin, Z, Ying, M, Ying, Z, Yip, CK, Yiu, SPT, Yoo, YH, Yoshida, K, Yoshii, SR, Yoshimori, T, Yousefi, B, Yu, B, Yu, H, Yu, J, Yu, L, Yu, M-L, Yu, S-W, Yu, VC, Yu, WH, Yu, Z, Yuan, J, Yuan, L-Q, Yuan, S, Yuan, S-SF, Yuan, Y, Yuan, Z, Yue, J, Yue, Z, Yun, J, Yung, RL, Zacks, DN, Zaffagnini, G, Zambelli, VO, Zanella, I, Zang, QS, Zanivan, S, Zappavigna, S, Zaragoza, P, Zarbalis, KS, Zarebkohan, A, Zarrouk, A, Zeitlin, SO, Zeng, J, Zeng, J-D, Žerovnik, E, Zhan, L, Zhang, B, Zhang, DD, Zhang, H, Zhang, H-L, Zhang, J, Zhang, J-P, Zhang, KYB, Zhang, LW, Zhang, L, Zhang, M, Zhang, P, Zhang, S, Zhang, W, Zhang, X, Zhang, X-W, Zhang, XD, Zhang, Y, Zhang, Y-D, Zhang, Y-Y, Zhang, Z, Zhao, H, Zhao, L, Zhao, S, Zhao, T, Zhao, X-F, Zhao, Y, Zheng, G, Zheng, K, Zheng, L, Zheng, S, Zheng, X-L, Zheng, Y, Zheng, Z-G, Zhivotovsky, B, Zhong, Q, Zhou, A, Zhou, B, Zhou, C, Zhou, G, Zhou, H, Zhou, J, Zhou, K, Zhou, R, Zhou, X-J, Zhou, Y, Zhou, Z-Y, Zhou, Z, Zhu, B, Zhu, C, Zhu, G-Q, Zhu, H, Zhu, W-G, Zhu, Y, Zhuang, H, Zhuang, X, Zientara-Rytter, K, Zimmermann, CM, Ziviani, E, Zoladek, T, Zong, W-X, Zorov, DB, Zorzano, A, Zou, W, Zou, Z, Zuryn, S, Zwerschke, W, Brand-Saberi, B, Dong, XC, Kenchappa, CS, Lin, 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

44. Electrodeposition of Co-Mo Alloys and Its Applications in Electrochemical Sensing of Phosphate

Author

Sethupathi, M., Mariappan, Siva Ananth, Alagesan, Muthukrishnan, Manickam, Pandiaraj, and Rajasekaran, N.

Abstract

Quantification of phosphate ions in water ecosystems is crucial for maintaining a healthy aquatic environment and optimizing aquaculture parameters. While cobalt (Co) thin film modified electrodes are widely used as phosphate sensors, their selectivity and stability often require improvements for on-site measurement. The present work addresses this challenge by introducing a novel phosphate sensing platform utilizing Cobalt-Molybdenum (Co-Mo) alloy film deposited on copper substrate. The developed Co-Mo thin film sensor exhibited a good thermal stability (up to 60 °C) and significantly improved the detection ranges (10−6M to 10−2M). The influence of electrolyte pH and temperature toward potentiometric sensing of phosphate were investigated and the conditions were optimized to improve the sensor sensitivity. The sensor showed a sensitivity of −56 mV.dec−1with a good correlation coefficient (0.988). The detection limit was determined to be 0.987 μM and the relative standard deviation (RSD) was 1.3% (n = 3). The Co-Mo thin film sensor exhibited negligible interference even in the presence of 10-fold excess concentrations of common interfering analytes, demonstrating its robust performance in real-world environment. To validate the field practicality, the sensor’s performance was successfully tested in real shrimp culture water samples, demonstrating its compatibility with complex environmental matrices.

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results