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5. An efficient protocol for extracting thylakoid membranes and total leaf proteins from Posidonia oceanica and other polyphenol-rich plants

Author

Quentin Charras, Pascal Rey, Dorian Guillemain, Fabian Dourguin, Hugo Laganier, Sacha Peschoux, Roland Molinié, Marwa Ismaël, Stefano Caffarri, Catherine Rayon, and Colette Jungas

Subjects
Seagrasses, Wild plants, Thylakoid membranes, Polyphenols, Ascorbic acid (vitamin C), Polyethylene glycol, Plant culture, SB1-1110, Biology (General), QH301-705.5
Abstract

Abstract Background The extraction of thylakoids is an essential step in studying the structure of photosynthetic complexes and several other aspects of the photosynthetic process in plants. Conventional protocols have been developed for selected land plants grown in controlled conditions. Plants accumulate defensive chemical compounds such as polyphenols to cope with environmental stresses. When the polyphenol levels are high, their oxidation and cross-linking properties prevent thylakoid extraction. Results In this study, we developed a method to counteract the hindering effects of polyphenols by modifying the grinding buffer with the addition of both vitamin C (VitC) and polyethylene glycol (PEG4000). This protocol was first applied to the marine plant Posidonia oceanica and then extended to other plants synthesizing substantial amounts of polyphenols, such as Quercus pubescens (oak) and Vitis vinifera (grapevine). Native gel analysis showed that photosynthetic complexes (PSII, PSI, and LHCII) can be extracted from purified membranes and fractionated comparably to those extracted from the model plant Arabidopsis thaliana. Moreover, total protein extraction from frozen P. oceanica leaves was also efficiently carried out using a denaturing buffer containing PEG and VitC. Conclusions Our work shows that the use of PEG and VitC significantly improves the isolation of native thylakoids, native photosynthetic complexes, and total proteins from plants containing high amounts of polyphenols and thus enables studies on photosynthesis in various plant species grown in natural conditions.

Published
2024
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9. AMPK is a mechano-metabolic sensor linking cell adhesion and mitochondrial dynamics to Myosin-dependent cell migration

Author

Crosas-Molist, Eva, Graziani, Vittoria, Maiques, Oscar, Pandya, Pahini, Monger, Joanne, Samain, Remi, George, Samantha L., Malik, Saba, Salise, Jerrine, Morales, Valle, Le Guennec, Adrien, Atkinson, R. Andrew, Marti, Rosa M., Matias-Guiu, Xavier, Charras, Guillaume, Conte, Maria R., Elosegui-Artola, Alberto, Holt, Mark, and Sanz-Moreno, Victoria

Published
2023
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11. P2RX7 gene variants associate with altered inflammasome assembly and reduced pyroptosis in chronic nonbacterial osteomyelitis (CNO)

Author

Charras, Amandine, Hofmann, Sigrun R., Cox, Allison, Schulze, Felix, Russ, Susanne, Northey, Sarah, Liu, Xuan, Fang, Yongxiang, Haldenby, Sam, Hartmann, Hella, Bassuk, Alexander G., Carvalho, Ana, Sposito, Francesca, Grinstein, Lev, Rösen-Wolff, Angela, Meyer-Bahlburg, Almut, Beresford, Michael W., Lainka, Elke, Foell, Dirk, Wittkowski, Helmut, Girschick, Hermann J., Morbach, Henner, Uebe, Steffen, Hüffmeier, Ulrike, Ferguson, Polly J., and Hedrich, Christian M.

Published
2024
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13. Neuropsychiatric involvement in juvenile-onset systemic lupus erythematosus (jSLE)

Author

Valentina Natoli, Amandine Charras, Gabriele Hahn, and Christian M. Hedrich

Subjects
SLE, jSLE, NP-jSLE, Juvenile, Lupus, Neuropsychiatric, Pediatrics, RJ1-570
Abstract

Abstract Systemic lupus erythematosus (SLE) is a rare autoimmune/inflammatory disease with significant morbidity and mortality. Approximately 15–20% of SLE patients develop the disease during childhood or adolescence (juvenile-onset SLE/jSLE). Patients with jSLE exhibit more variable and severe disease when compared to patients with disease-onset during adulthood. Neuropsychiatric (NP) involvement is a clinically heterogenous and potentially severe complication. Published reports on the incidence and prevalence of NP-jSLE are scarce, and the exact pathophysiology is poorly understood. This manuscript provides a review of the existing literature, suggesting NP involvement in 13.5–51% of jSLE patients. Among patients with NP-jSLE affecting the CNS, we propose two main subgroups: (i) a chronic progressive, predominantly type 1 interferon-driven form that poorly responds to currently used treatments, and (ii) an acutely aggressive form that usually presents early during the disease that may be primarily mediated by auto-reactive effector lymphocytes. While this hypothesis requires to be tested in large collaborative international cohort studies, it may offer future patient stratification and individualised care.

Published
2023
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14. Mechanics of the cellular actin cortex: from signalling to shape change

Author

Kelkar, Manasi, Bohec, Pierre, and Charras, Guillaume

Subjects
Quantitative Biology - Cell Behavior, Quantitative Biology - Biomolecules
Abstract

The actin cortex is a thin layer of actin, myosin, and actin binding proteins that underlies the membrane of most animal cells. It is highly dynamic and can undergo remodelling on time-scales of tens of seconds thanks to protein turnover and myosin-mediated contractions. The cortex enables cells to resist external mechanical stresses, controls cell shape, and allows cells to exert forces on their neighbours. Thus, its mechanical properties are key to its physiological function. Here, we give an overview of how cortex composition, structure, and dynamics control cortex mechanics and cell shape. We use mitosis as an example to illustrate how global and local regulation of cortex mechanics give rise to a complex series of cell shape changes., Comment: Review

Published
2020

15. Fractional viscoelastic models for power-law materials

Author

Bonfanti, Alessandra, Kaplan, Jonathan Louis, Charras, Guillaume, and Kabla, Alexandre J

Subjects
Condensed Matter - Soft Condensed Matter, Physics - Biological Physics, Quantitative Biology - Quantitative Methods, Quantitative Biology - Tissues and Organs, 26A33
Abstract

Soft materials often exhibit a distinctive power-law viscoelastic response arising from broad distribution of time-scales present in their complex internal structure. A promising tool to accurately describe the rheological behaviour of soft materials is fractional calculus. However, its use in the scientific community remains limited due to the unusual notation and non-trivial properties of fractional operators. This review aims to provide a clear and accessible description of fractional viscoelastic models for a broad audience, and to demonstrate the ability of these models to deliver a unified approach for the characterisation of power-law materials. The use of a consistent framework for the analysis of rheological data would help classify the empirical behaviours of soft and biological materials, and better understand their response., Comment: 28 pages, 12 figures. Soft Matter (2020)

Published
2020
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16. A tug-of-war between stretching and bending in living cell sheets

Author

Recho, Pierre, Fouchard, Jonathan, Wyatt, Tom, Khalilgharibi, N., Charras, Guillaume, and Kabla, Alexandre

Subjects
Physics - Biological Physics, Condensed Matter - Soft Condensed Matter
Abstract

The balance between stretching and bending deformations characterizes shape transitions of thin elastic sheets. While stretching dominates the mechanical response in tension, bending dominates in compression after an abrupt buckling transition. Recently, experimental results in suspended living epithelial monolayers have shown that, due to the asymmetry in surface stresses generated by molecular motors across the thickness $e$ of the epithelium, the free edges of such tissues spontaneously curl out-of-plane, stretching the sheet in-plane as a result. This suggests that a competition between bending and stretching sets the morphology of the tissue margin. In this study, we use the framework of non-euclidean plates to incorporate active pre-strain and spontaneous curvature to the theory of thin elastic shells. We show that, when the spontaneous curvature of the sheet scales like $1/e$, stretching and bending energies have the same scaling in the limit of a vanishingly small thickness and therefore both compete, in a way that is continuously altered by an external tension, to define the three-dimensional shape of the tissue.

Published
2020
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18. AMPK is a mechano-metabolic sensor linking cell adhesion and mitochondrial dynamics to Myosin-dependent cell migration

Author

Eva Crosas-Molist, Vittoria Graziani, Oscar Maiques, Pahini Pandya, Joanne Monger, Remi Samain, Samantha L. George, Saba Malik, Jerrine Salise, Valle Morales, Adrien Le Guennec, R. Andrew Atkinson, Rosa M. Marti, Xavier Matias-Guiu, Guillaume Charras, Maria R. Conte, Alberto Elosegui-Artola, Mark Holt, and Victoria Sanz-Moreno

Subjects
Science
Abstract

Abstract Cell migration is crucial for cancer dissemination. We find that AMP-activated protein kinase (AMPK) controls cell migration by acting as an adhesion sensing molecular hub. In 3-dimensional matrices, fast-migrating amoeboid cancer cells exert low adhesion/low traction linked to low ATP/AMP, leading to AMPK activation. In turn, AMPK plays a dual role controlling mitochondrial dynamics and cytoskeletal remodelling. High AMPK activity in low adhering migratory cells, induces mitochondrial fission, resulting in lower oxidative phosphorylation and lower mitochondrial ATP. Concurrently, AMPK inactivates Myosin Phosphatase, increasing Myosin II-dependent amoeboid migration. Reducing adhesion or mitochondrial fusion or activating AMPK induces efficient rounded-amoeboid migration. AMPK inhibition suppresses metastatic potential of amoeboid cancer cells in vivo, while a mitochondrial/AMPK-driven switch is observed in regions of human tumours where amoeboid cells are disseminating. We unveil how mitochondrial dynamics control cell migration and suggest that AMPK is a mechano-metabolic sensor linking energetics and the cytoskeleton.

Published
2023
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19. Identification of unknown impurities J, RRT 2.2, 2.4, 2.6 and 3.4 in tetralysal® capsules

Author

Billié, Stéphan, Reversé, Kevin, Arlabosse, Jean-Marie, Bertin, Didier, Boulier, Antoine, Cachot, Tony, Chambon, Sandrine, Charras, Karine, Cren, Cécile, Furnes, Bjarte, Gerfaud, Thibaud, Joly-Battaglini, Marine, Longoni, Davide, Mouis, Gregoire, Pierre, Romain, Raynard, Héloïse, Texier, Thomas, Trognon, Caroline, Zanelli, Ugo, Boiteau, Jean-Guy, and Harris, Craig S.

Published
2023
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20. Single-cell approaches to cell competition: high-throughput imaging, machine learning and simulations

Author

Gradeci, Daniel, Bove, Anna, Charras, Guillaume, Lowe, Alan R., and Banerjee, Shiladitya

Subjects
Quantitative Biology - Tissues and Organs, Physics - Biological Physics, Quantitative Biology - Cell Behavior, Quantitative Biology - Populations and Evolution
Abstract

Cell competition is a quality control mechanism in tissues that results in the elimination of less fit cells. Over the past decade, the phenomenon of cell competition has been identified in many physiological and pathological contexts, driven either by biochemical signaling or by mechanical forces within the tissue. In both cases, competition has generally been characterized based on the elimination of loser cells at the population level, but significantly less attention has been focused on determining how single-cell dynamics and interactions regulate population-wide changes. In this review, we describe quantitative strategies and outline the outstanding challenges in understanding the single cell rules governing tissue-scale competition dynamics. We propose quantitative metrics to characterize single cell behaviors in competition and use them to distinguish the types and outcomes of competition. We describe how such metrics can be measured experimentally using a novel combination of high-throughput imaging and machine learning algorithms. We outline the experimental challenges to quantify cell fate dynamics with high-statistical precision, and describe the utility of computational modeling in testing hypotheses not easily accessible in experiments. In particular, cell-based modeling approaches that combine mechanical interaction of cells with decision-making rules for cell fate choices provide a powerful framework to understand and reverse-engineer the diverse rules of cell competition., Comment: Review article

Published
2019

24. Structural and Managerial Risk Factors for COVID-19 Occurrence in French Nursing Homes

Author

Aline Corvol, Kevin Charras, Joaquim Prud'homm, Fabien Lemoine, Fabien Ory, Jean François Viel, and Dominique Somme

Subjects
covid-19, nursing home, lockdown, communal dining, personal protective equipment, france, Public aspects of medicine, RA1-1270
Abstract

Background Nursing home (NH) residents accounted for half of the deaths during the 2020 spring wave of the coronavirus disease 2019 (COVID-19) epidemic in France. Our objective was to identify structural and managerial factors associated with COVID-19 outbreaks in NHs.Methods We conducted in July 2020 a retrospective study by questionnaire addressed to NH directors in the Brittany region of France. The questions related to structural characteristics of the establishment, human resources, and crisis management decisions. The primary endpoint was the occurrence of at least one confirmed case of COVID-19 among residents between March 1, 2020 and May 31, 2020. The secondary endpoint was total mortality during this period. We used multivariate regressions to identify factors associated with these outcomes.Results Responses were collected from 231 NHs hosting 20,881 residents, representing a participation rate of 47%. In 24 (10%) NHs, at least one resident presented confirmed COVID-19. NHs often implemented stringent protective measures, with 65% of them choosing to confine residents to their rooms. In multivariate analysis, factors associated with a reduced risk of case occurrence were in-room meal service, early ban of family visits, and daily access to an outdoor space. No association was found between mortality and the factors studied. Our results show an early and strict implementation of lockdown measures, with good epidemiological results in a context of shortage of personal protective equipment (PPE) and non-vaccination. Nevertheless, it raises ethical questions concerning respect of residents’ wellbeing and rights.Conclusion Cessation of communal dining seems to be the main measure likely to be effective in preventive terms. It does not seem that room lockdown and cessation of group activities should be recommended, particularly if mask wearing is possible.

Published
2022
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25. Force propagation between epithelial cells depends on active coupling and mechano-structural polarization

Author

Artur Ruppel, Dennis Wörthmüller, Vladimir Misiak, Manasi Kelkar, Irène Wang, Philippe Moreau, Adrien Méry, Jean Révilloud, Guillaume Charras, Giovanni Cappello, Thomas Boudou, Ulrich S Schwarz, and Martial Balland

Subjects
mechanobiology, optogenetics, epithelium, polarity, force propagation, micropattern, Medicine, Science, Biology (General), QH301-705.5
Abstract

Cell-generated forces play a major role in coordinating the large-scale behavior of cell assemblies, in particular during development, wound healing, and cancer. Mechanical signals propagate faster than biochemical signals, but can have similar effects, especially in epithelial tissues with strong cell–cell adhesion. However, a quantitative description of the transmission chain from force generation in a sender cell, force propagation across cell–cell boundaries, and the concomitant response of receiver cells is missing. For a quantitative analysis of this important situation, here we propose a minimal model system of two epithelial cells on an H-pattern (‘cell doublet’). After optogenetically activating RhoA, a major regulator of cell contractility, in the sender cell, we measure the mechanical response of the receiver cell by traction force and monolayer stress microscopies. In general, we find that the receiver cells show an active response so that the cell doublet forms a coherent unit. However, force propagation and response of the receiver cell also strongly depend on the mechano-structural polarization in the cell assembly, which is controlled by cell–matrix adhesion to the adhesive micropattern. We find that the response of the receiver cell is stronger when the mechano-structural polarization axis is oriented perpendicular to the direction of force propagation, reminiscent of the Poisson effect in passive materials. We finally show that the same effects are at work in small tissues. Our work demonstrates that cellular organization and active mechanical response of a tissue are key to maintain signal strength and lead to the emergence of elasticity, which means that signals are not dissipated like in a viscous system, but can propagate over large distances.

Published
2023
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26. DNA methylation patterns in CD4+ T-cells separate psoriasis patients from healthy controls, and skin psoriasis from psoriatic arthritis

Author

Valentina Natoli, Amandine Charras, Sigrun R. Hofmann, Sarah Northey, Susanne Russ, Felix Schulze, Liza McCann, Susanne Abraham, and Christian M. Hedrich

Subjects
psoriasis, psoriatic arthritis, CD4+ T-cell, epigenetics, methylation, interferon, Immunologic diseases. Allergy, RC581-607
Abstract

BackgroundPsoriasis is an autoimmune/inflammatory disorder primarily affecting the skin. Chronic joint inflammation triggers the diagnosis of psoriatic arthritis (PsA) in approximately one-third of psoriasis patients. Although joint disease typically follows the onset of skin psoriasis, in around 15% of cases it is the initial presentation, which can result in diagnostic delays. The pathophysiological mechanisms underlying psoriasis and PsA are not yet fully understood, but there is evidence pointing towards epigenetic dysregulation involving CD4+ and CD8+ T-cells.ObjectivesThe aim of this study was to investigate disease-associated DNA methylation patterns in CD4+ T-cells from psoriasis and PsA patients that may represent potential diagnostic and/or prognostic biomarkers.MethodsPBMCs were collected from 12 patients with chronic plaque psoriasis and 8 PsA patients, and 8 healthy controls. CD4+ T-cells were separated through FACS sorting, and DNA methylation profiling was performed (Illumina EPIC850K arrays). Bioinformatic analyses, including gene ontology (GO) and KEGG pathway analysis, were performed using R. To identify genes under the control of interferon (IFN), the Interferome database was consulted, and DNA Methylation Scores were calculated.ResultsNumbers and proportions of CD4+ T-cell subsets (naïve, central memory, effector memory, CD45RA re-expressing effector memory cells) did not vary between controls, skin psoriasis and PsA patients. 883 differentially methylated positions (DMPs) affecting 548 genes were identified between controls and “all” psoriasis patients. Principal component and partial least-squares discriminant analysis separated controls from skin psoriasis and PsA patients. GO analysis considering promoter DMPs delivered hypermethylation of genes involved in “regulation of wound healing, spreading of epidermal cells”, “negative regulation of cell-substrate junction organization” and “negative regulation of focal adhesion assembly”. Comparing controls and “all” psoriasis, a majority of DMPs mapped to IFN-related genes (69.2%). Notably, DNA methylation profiles also distinguished skin psoriasis from PsA patients (2,949 DMPs/1,084 genes) through genes affecting “cAMP-dependent protein kinase inhibitor activity” and “cAMP-dependent protein kinase regulator activity”. Treatment with cytokine inhibitors (IL-17/TNF) corrected DNA methylation patterns of IL-17/TNF-associated genes, and methylation scores correlated with skin disease activity scores (PASI).ConclusionDNA methylation profiles in CD4+ T-cells discriminate between skin psoriasis and PsA. DNA methylation signatures may be applied for quantification of disease activity and patient stratification towards individualized treatment.

Published
2023
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32. Seasonal Variation in Cell Wall Composition and Carbohydrate Metabolism in the Seagrass Posidonia oceanica Growing at Different Depths

Author

Marwa Ismael, Quentin Charras, Maïté Leschevin, Damien Herfurth, Romain Roulard, Anthony Quéro, Christine Rusterucci, Jean-Marc Domon, Colette Jungas, Wilfred Vermerris, and Catherine Rayon

Subjects
cell wall polysaccharides, leaves, lignin, non-structural sugars, rhizomes, summer, Botany, QK1-989
Abstract

Posidonia oceanica is a common seagrass in the Mediterranean Sea that is able to sequester large amounts of carbon. The carbon assimilated during photosynthesis can be partitioned into non-structural sugars and cell-wall polymers. In this study, we investigated the distribution of carbon in starch, soluble carbohydrates and cell-wall polymers in leaves and rhizomes of P. oceanica. Analyses were performed during summer and winter in meadows located south of the Frioul archipelago near Marseille, France. The leaves and rhizomes were isolated from plants collected in shallow (2 m) and deep water (26 m). Our results showed that P. oceanica stores more carbon as starch, sucrose and cellulose in summer and that this is more pronounced in rhizomes from deep-water plants. In winter, the reduction in photoassimilates was correlated with a lower cellulose content, compensated with a greater lignin content, except in rhizomes from deep-water plants. The syringyl-to-guaiacyl (S/G) ratio in the lignin was higher in leaves than in rhizomes and decreased in rhizomes in winter, indicating a change in the distribution or structure of the lignin. These combined data show that deep-water plants store more carbon during summer, while in winter the shallow- and deep-water plants displayed a different cell wall composition reflecting their environment.

Published
2023
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41. Working Memory Resource Depletion Effect in Academic Learning: Steps to an Integrated Approach

Author

Tricot, André, Puma, Sébastien, Capa, Rémi, Audiffren, Michel, André, Nathalie, Lespiau, Florence, Roussel, Stéphanie, Jeunet, Camille, Massa, Emilie, Bellec, Dominique, Fonteneau, Elisabeth, Charras, Pom, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Longo, Luca, editor, and Leva, Maria Chiara, editor

Published
2020
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42. Extent of myosin penetration within the actin cortex regulates cell surface mechanics

Author

Binh An Truong Quang, Ruby Peters, Davide A. D. Cassani, Priyamvada Chugh, Andrew G. Clark, Meghan Agnew, Guillaume Charras, and Ewa K. Paluch

Subjects
Science
Abstract

Cellular deformations are largely driven by contractile forces generated by myosin motors in the submembraneous actin cortex. Here we show that these forces are controlled not simply by cortical myosin levels, but rather by myosins spatial arrangement, specifically the extent of their overlap with cortical actin.

Published
2021
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43. Socioeconomic inequalities in low birth weight risk before and during the COVID-19 pandemic in Argentina: A cross-sectional study

Author

Cuestas, Eduardo, Gómez-Flores, Martha E, Charras, María D., Peyrano, Alberto J., Montenegro, Clara, Sosa-Boye, Ignacio, Burgos, Verónica, Giusti, Graciela, Espósito, Mario, Blanco-Pool, Silvyana S., Gurevich, Debora P., Ahumada, Luis A., Pontoriero, Ricardo D., Rizzotti, Alina, Bas, José I., Vaca, María B., Miranda, María J., Ferreyra, Mirta E., Moreno, Gabriela C., Pedicino, Héctor, and Rojas-Rios, Melvy

Published
2021
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45. Association between COVID-19 mandatory lockdown and decreased incidence of preterm births and neonatal mortality

Author

Cuestas, Eduardo, Gómez-Flores, Martha E., Charras, María D., Peyrano, Alberto J., Montenegro, Clara, Sosa-Boye, Ignacio, Burgos, Verónica, Giusti, Graciela, Espósito, Mario, Blanco-Pool, Silvyana S., Gurevich, Debora P., Ahumada, Luis A., Pontoriero, Ricardo D., Rizzotti, Alina, Bas, José I., Vaca, María B., Miranda, María J., Ferreyra, Mirta E., Moreno, Gabriela C., Pedicino, Héctor, and Rojas-Rios, Melvy

Published
2021
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46. Mortality from gastrointestinal congenital anomalies at 264 hospitals in 74 low-income, middle-income, and high-income countries: a multicentre, international, prospective cohort study

Author

Wright, Naomi Jane, Leather, Andrew J.M., Ade-Ajayi, Niyi, Sevdalis, Nick, Davies, Justine, Poenaru, Dan, Ameh, Emmanuel, Ademuyiwa, Adesoji, Lakhoo, Kokila, Smith, Emily Rose, Douiri, Abdel, Elstad, Maria, Sim, Marcus, Riboni, Cristiana, Martinez-Leo, Bruno, Akhbari, Melika, Tabiri, Stephen, Mitul, Ashrarur, Aziz, Dayang Anita Abdul, Fachin, Camila, Niyukuri, Alliance, Arshad, Muhammad, Ibrahim, Fowzia, Moitt, Natalie, Doheim, Mohamed Fahmy, Thompson, Hannah, Ubhi, Harmony, Williams, Isabelle, Hashim, Sophia, Philipo, Godfrey Sama, Herrera, Laura, Yunus, Aayenah, Vervoort, Dominique, Parker, Samuel, Benaskeur, Yousra-Imane, Alser, Osaid H., Adofo-Ansong, Nana, Alhamid, Ahmad, Salem, Hosni khairy, Saleh, Mahmoud, Elrais, Safa Abdal, Abukhalaf, Sadi, Shinondo, Patricia, Nour, Ibrahim, Aydin, Emrah, Vaitkiene, Agota, Naranjo, Kelly, Dube, Andile Maqhawe, Ngwenya, Sodumisa, Yacoub, Mina A., Kwasau, Henang, Hyman, Gabriella, Elghazaly, Shrouk Mahmoud, Al-Slaibi, Ibrahim, Hisham, Intisar, Franco, Helena, Arbab, Hana, Samad, Lubna, Soomro, Aqil, Chaudhry, Muhammad Amjad, Karim, Safina, Khattak, Muhammad Adnan Khan, Nah, Shireen Anne, Dimatatac, Doris Mae, Choo, Candy SC, Maistry, Niveshni, Mitul, Ashrarur Rahman, Hasan, Samiul, Karim, Sabbir, Yousuf, Hina, Qureshi, Taimur, Nour, Ibrahim Rabi, Al-Taher, Raed Nael, Sarhan, Osama Abdul Kareem, Garcia-Aparicio, Luis, Prat, Jordi, Blazquez-Gomez, Eva, Tarrado, Xavier, Iriondo, Martí, Bragagnini, Paolo, Rite, Segundo, Hagander, Lars, Svensson, Emma, Owusu, Sheila, Abdul-Mumin, Alhassan, Bagbio, Dominic, Ismavel, Vijay Anand, Miriam, Ann, T, Shajin, Anaya Dominguez, Marlene, Ivanov, Monica, Serban, Andreea Madalina, Derbew, Miliard, Elfiky, Mahmoud, Olivos Perez, Maricarmen, Abrunhosa Matias, Marcia, Arnaud, Alexis P, Negida, Ahmed, King, Sebastian, Fazli, Mohamad Rafi, Hamidi, Nadia, Touabti, Souhem, Chipalavela, Rossana Francisco, Lobos, Pablo, Jones, Brendan, Ljuhar, Damir, Singer, Georg, Cordonnier, Annelien, Jáuregui, Lorena, Zvizdic, Zlatan, Wong, Janice, St-Louis, Etienne, Shu, Qiang, Lui, Yang, Correa, Catalina, Pos, Lucie, Alcántara, Elvyn, Féliz, Erick, Zea-Salazar, Luis Enrique, Ali, Liza, Peycelon, Matthieu, Anatole, Nzanzu Kipata, Jallow, Cherno S., Lindert, Judith, Ghosh, Dhruv, Adhiwidjaja, Cathline Freya, Tabari, Ahmad Khaleghnejad, Lotfollahzadeh, Saran, Mussein, Haidar Mohammad, Vatta, Fabrizio, Pasqua, Noemi, Kihiko, David, Gohil, Hetal, Nour, Ibrahim R., Elhadi, Muhammed, Almada, Suad Ahmed, Verkauskas, Gilvydas, Risteski, Toni, Peñarrieta Daher, Alejandro, Outani, Oumaima, Hamill, James, Lawal, Taiwo, Mulu, Jack, Yapo, Benjamin, Saldaña, Lily, Espineda, Beda, Toczewski, Krystian, Tuyishime, Eugene, Ndayishimiye, Isaac, Raboe, Enaam, Hammond, Philip, Walker, Gregor, Djordjevic, Ivona, Chitnis, Milind, Son, Joonhyuk, Lee, Sanghoon, Hussien, Muaad, Malik, Sawazen, Ismail, Enas Musa, Boonthai, Ampaipan, Dahman, Nesrine Ben Hadj, Hall, Nigel, Castedo Camacho, Fabiola Ruth, Sobrero, Helena, Butler, Marilyn, Makhmud, Aliev, Novotny, Nathan, Hammouri, Ahmad G., Al-Rayyes, Maisara, Bvulani, Bruce, Muraveji, Qais, Murzaie, Muhammad Yousuf, Sherzad, Ajmal, Haidari, Sayed Aman, Monawar, Abdul Baqi, Samadi, Dr. Ahmad Zia, Thiessen, Jesh, Venant, Ntakarutimana, Hospital, Sonia Inamuco, Jérémie, Niyonkuru, Mbonicura, Jean Claude, Vianney, Butoyi Jean Marie, Tadesse, Amezene, Negash, Samuel, Roberts, Charles A., Jabang, John N., Bah, Abdoulie, Camamra, Kajali, Correa, Armandou, Sowe, Babucarr, Gai, A., Jaiteh, Musa, Raymond, Kwizera Jean, Mvukiyehe, Jean Paul, Itangishaka, Innocent, Kayibanda, Emmanuel, Manirambona, Emery, Lule, Joseph, Costas-Chavarri, Ainhoa, Shyaka Gashugi, Ian, Ndata, Albert, Gasana, Georges, Nezerwa, Yves Castar, Simeon, Turatsinze, Muragijimana, Jean De Dieu, Rashid, Sakina, Msuya, David, Elisante, Joseph, Solanki, Meghna, Manjira, Emmanuel, Lodhia, Jay, Jusabani, Mubashir, Tarmohamed, Murad, Koipapi, Sengua, Souhem, Touabti, Sara, Nabti, Sihem, Brahimi, Dania, Bouguermouh, Toufik, Iaiche Achour, Mounira, Baghdadi Nour el islam, Habiba, Alouani, Aragão, Liliana, Gonçalves, Victor, Lino Urquizo, Marcelo Mauricio, Varela, Maria Florencia, Mercado, Pedro, Horacio, Bonavia, Damiani, Andrea, Mac, Carlos, Putruele, Daniel, Liljesthrom, Karen, Bernaus, Marianela, Jauri, Cesar, Cripovich, Alejandrina, Bianchin, Ezequiel, Puig, Maria Gabriela, Andreussi, Lorna, Iracelay, Susana, Marcos, Dolores, Herrera, Carina, Palacios, Nelly, Avile, Romina, Serezo, Belen, Montoya, Debora, Cepeda, Rodrigo, Vaquila, Justo, Veronica, Sofficci, Pardo, Liliana, Valeria, Pelussi, Julio, Lapalma, Martin, Aranda Diego, Lucio, Palazzi, Gabriel, Comba, Marianella, Depetrini, Calderón Arancibia, José Alfredo, Huespe, Enrique, Losa, Gabriela Natalia, Arancibia Gutiérrez, Elsa, Scherl, Humberto, Gonzalez, Daniel Emilio, Baistrocchi, Valentina, Silva, Yanina, Galdeano, Marcelo, Medard, Pablo, Sueiras, Ines, Romero Manteola, Enrique, Defago, Victor Hugo, Mieres, Carlos, Alberto, Carlos, Cornelli, Fabio, Molina, Marcelo, Ravetta, Pablo, Patiño Gonzalez, Celeste Carolina, Dallegre, Maria Belen, Szklarz, Maria Tatiana, Leyba, Marcos Federico, Rivarola, Nahuel Ignacio, Charras, Maria Delia, Morales, Adriana, Caseb, Paloma, Toselli, Luzia, Millán, Carolina, Junes, Maria del Carmen, Di Siervi, Oscar, Gilardi, Jose, Simon, Soledad, Contreras, Carla Sofia, Rojas, Nair, Arnoletto, Lucia Beatriz, Blain, Otilia Eva, Bravo, Mauro Nicolas, Sanchez, Nancy, Herrera Pesara, Luciana Martina, Moreno, Maria Eugenia, Sferco, Carlos Ariel, Huq, Umama, Ferdousi, Tamanna, Al-Mamun, Abdullah, Sultana, Sadia, Mahmud, Refoyez, Mahmud, Khalid, Sayeed, Fatema, Svirsky, Alexander, Sempertegui, Denisse, Negrete, Amalia, Teran, Araceli, Sadagurschi, Mariana, Popovic, Nusret, Karavdic, Kenan, Milisic, Emir, Jonuzi, Asmir, Mesic, Amira, Terzic, Sabina, Dendusic, Nejra, Biber, Elna, Sehic, Anesa, Zvizdic, Nada, Letic, Emina, Saracevic, Adna, Hamidovic, Ajla, Selak, Nejra, Horozic, Dzan, Hukic, Lamija, Muhic, Amila, Vanis, Nedim, Sokolovic, Emir, Sabic, Adnan, Becker, Karin, Novochadlo Klüppel, Elis, dos Santos Dias, André Iván Bradley, Agulham, Miguel Angelo, Bischoff, Cristiano, Sabbatini, Stella, Fernandes de Souza, Rachel, Souza Machado, Ana Beatriz, Werneck Raposo, Juliana, da Silva Augusto, Maria Lucia, Martins, Bianca M.R., de Souza Santos Ferreira, Mariana, Fernandes de Oliveira, Darli, Silva dos Santos, Carla, Ribeiro de Fernández y Alcázar, Fernanda, Alves Dutra da Silva, Érika, Furtado, Mariana, Tamada, Horácio, Silva Ferreira dos Santos, Marília, Lopes de Almeida, Thayná, Oliveira de Andrade, Susy, Gurgel do Amaral, Antonio Cipriano, Jr, Sartori Giovanoni, Lais, de Deus Passos Leles, Kamila, Corrêa Costa, Eduardo, Feldens, Leticia, Ferraz Schopf, Luciano, Soares de Fraga, José Carlos, Colombo de Holanda, Felipe, Brolin Santis Isolan, Paola Maria, Loyola Ferreira, Julia, Bruxel, Carla Luisa, Lopes Teixeira Ferdinando, Danielle, Zottis Barcelos, Fabricio, Baseggio, Natalia, Knorr Brenner, Nicole, Trindade Deyl, Rafael, Dure, Carolina, Nunes Kist, Iuri, Bueno Mazzuca, Rafael, Bueno Motter, Sarah, Ramos, Yna, Suzana Trein, Cristine, Rezende Rosa, Bianca, de Assis Silva, Murilo, Menin, Flavio Augusto, Semensato Carloni, Isabela Cristina, Norberto da Silva, Juliana Antinarelli, Gomes, Adriano Luis, Girão Tauffer, Mariana, Bassan Gonçalves, Paulo César, Nogueira Marques, Geraldo Magela, Moriya, Eliane, Labonia, Carla, Carrasco, Ana Lucia, Furtado Meyer, Karine, Farion-Aguiar, Luiz, Amado, Fernando, Antunes, Amanda, Silva, Elisângela, Telles, Leila, Almeida, Giovana, Belmino Gadelha, Aluísio Augusto, de Azevedo Belesa, Flavia, Gonçalves da Cunha, Jr, Acimar, Souza Barros, Beatriz, Zanellato, Josiane Bernartt, Guimarães, Patricia, Silva, Karina Ilheu da, Ribas, Bianca, Reuter, Cristina, Casado, Francis Tanise, Correa Leite, Mila Torii, Testoni, Daniela, Guinsburg, Ruth, de Campos Vieira Abib, Simone, Khodor Cury, Edson, Dornellas do Nascimento, Suely, Almeida Aguiar, Arthur, Melo Gallindo, Rodrigo, Gonçalves Borges, Carolina, Liu, Yang, Duote, Cai, Wang, Jinhu, Gao, Zhigang, Liang, Liang, Luo, Wenjuan, Zhao, Xiaoxia, Chen, Rui, Wang, Peng, Han, Yijiang, Huang, Ting, Donglai, Hu, Xiaodong, Guo, Junjie, Chen, Zhu, Libin, Wu, Guowei, Bao, Xiaozhou, Li, Haijing, Lv, Junying, Li, Zhongrong, Yong, Feng, Gao, Zhou Chong, Bai, Qiang, Tang, Weibing, Xie, Hua, Motee, Jethishka, Zhu, Jianming, Wen, Gang, Ruan, Weiwei, Li, Shungen, Chen, Lulu, Huang, Shungen, Lv, Zhibao, Lu, Jinjing, Huang, Liuming, Yu, Mengnan, Dajia, Wang, Bai, Yu Zuo, Rincon, Luis Carlos, Mancera, Juliana, Alzate Gallego, Edgar, Torres-Canchala, Laura, Silva Beltrán, Nathalia, Osorio Fory, Ghordana, Castaño Avila, Daniela, Forero Ladino, Angelica Maria, Gomez, Juanita, Jaramillo, Martha, Morales, Otto, Sanchez, Beatriz, Tinoco Guzmán, Nestor Julien, Castañeda Espinosa, Sergio, Prieto Vargas, Osbaldo, Pardo, Lina Maria, Toral, Eliana, Cáceres Aucatoma, Freud, Hinostroza, Daniel, Valencia, Santiago, Salinas, Vicente, Landivar Cino, Enrique, Ponce Fajardo, Gabriela Yulissa, Astudillo, Miguel, Garcia, Virginia, Muñoz, Guillermo, Verduga, Leonardo, Verduga, Ivan, Murillo, Ericka, Bucaram, Elena, Guayelema, Marisol, Marmol, Monica, Sanchez, Janina, Vergara, Carolina, Mena, Adriana, Velaña, Junior, Salazar, Karla, Lara, Sandra, Chiriboga, Elena, Silva, Julian, Gad, Dalia, Samy, Doaa, Elsadek, Menan Ahmed, Mohammed, Hanan Mahmoud, Abouheba, Mohamed, Ali, Karim Osamy, Rashwan, Hayssam, Fawzy, Omar Moustafa, Kamel, Tarek mohamed, Nemer, Rawan, Hassan, Mohamed Abada, Falah, Eyad Hassan, Abdelhady, Dina Sobhy, Zain, Mostafa, Ibrahim, Eman Abouzeid Abouzeid, Elsiraffy, Omar Ossama, Aboelela, Ahmed, Farag, Eman mohamed, Oshiba, Ahmed Mohamed, Emam, Omar Sameh, Attia, Alaa Mobarak, Laymouna, Moustafa A., Ghorab, Islam Abdelmonem, Mohammed, Mansour Mkayed, Soliman, Nourhan Akram, Ghaly, Khaled Abd elrahman, Sadek, Kareem, Elsherbiny, Mohamed, Saleh, Amr, Sheir, Hesham, Wafa, Tamer, Elmenam, Mohamed Abd, Abdelmaksoud, Sherif, Reda, Ahmed, Mansour, Islam, Elzohiri, Mohamed, Waseem, Basma, Elewaily, Mohamed, El-Ghazaly, Mohammed, Elhattab, Ahmad, Shalaby, Amr, Elsaied, Adham, Adawy, Ahmad, Sadek, Mirna, Ahmed, Mahmoud Abdelfattah, Herdan, Mohamed Omar, Elassall, Gena Mohamed Hamed, Mohammed, Azhar Arabi, Takrouney, Mohammed Hamada, Essa, Tarek Mohamed, Mahmoud, Ahmed Mokhtar, Saad, Alshaimaa M., Fouly, Mariam Albatoul Nageh, Ibrahim, Mahmoud abdelshakour, Nageh, Mohammad, Saad, Mahmoud M., Badr, Helmy, Fouda, Mohamed Fayez, Nofal, Ahmed Hassan, Almohamady, Hisham, Arafa, Mohamed Ahmed, Amad, Mohamed, Mansour, Mohamed Awad, O'Connor, Jennifer, O'Connor, Zachary, Anatole, Nzanzu, Nkunzimana, Elysé, Machemedze, Solomon, Dieudonné, Lemfuka, Appeadu-Mensah, William, Anyomih, Theophilus Teddy Kojo, Alhassan, Priscilla, Abantanga, Francis A., Michael, Vishal, Mary Koshy, Roshine, Raj, Ankit, Kumar, Vijay, PT, Sundeep, Prabhu, P Santosh, Vosoughi, Armin, Al-Mayoof, Ali Farooq, Fadhle, Muhamed Jassim, Joda, Ali Egab, Algabri, Hayder Nadhim Obaid, Abdelhamid, Sultan S., Al-Momani, Hashem M., Amarin, Marzouq, Zaghlol, Louay Y., Alsaadi, Nijmeh Nasser, Qwaider, Yasmeen Z., Qutishat, Hibah, Aliwisat, Ahmad Hasan, Arabiat, Esraa, Bsisu, Isam, Murshidi, Raghad M., Jabaiti, Mohammad S., Bataineh, Ziad A., Abuhayyeh, Husam Aldean, Quran, Thekraiat M. Al, Za'nouneh, Faris J. Abu, Alebbini, Mohanad Mutasem, Qudah, Hamzah Abullah, Hussein, Omar Ghazi, Murad, Amir M.I., Amarin, Justin Z., Suradi, Haya H., Alzraikat, Sayel H., Omari, Rand Y., Matour, Bashar M., Al-Halbouni, Layana, Zurikat, Rajai O., Yanis, Ahmad H., Hussein, Sara Al, Shoubaki, Ali, Ghanem, Waleed H., David, Kuria, Chitiavi, Soita Wycliffe, Mose, Moraa, Mugo, Robert, Ndungu, James, Mwai, Timothy, Shahbal, Swaleh, Malik, Janan, Chauhan, Nirav, Syovata, Francisa, Ochieng, Kevin, Omendo Liyenzero, Polycarp, Hussain, Syeda Ra'ana, Mugambi, Stanley, Ochieng, Roseline, Elkhazmi, Ebtesam Othman Abdulsalam, Khaled, Ala, Albozidi, Aya, Enbaya, Manal Ben, Elgammudi, Mala, Soula, Enas, Khalel, Wegden ibrahim almabrouk, Elhajjaji, Yasmine Ali, Alwaggaa, Nouriyah Ali, Ghayth, Sumayyah, Zreeg, Dafer abdulhakim .S., Tantush, Sara Abobaker, Bibas, Fatma, Layas, Tesneem, Sharif, Randa Alamen M, Aljadidi, Wesal Omar F. Saied, Tarek, Ahmed, Ahmed, Hazem, Essamilghi, Kamila Almabrouk Mohammed, Alfoghi, Mabroka, Abuhlega, Ma'aly A., Arrmali, Saddam, Abduljawad, Fatima Mousa, Alosta, Hasan Mustafa, Abuajaila, Abdulsalam, Abdelmutalib, Fakereldeen, Bashir, Fatma, Almengar, Inas, Annajjar, Mohammad hasan, Deyab, Abdelaziz, Elzowawi, Fathi, Krayem, Yousef, Drah, Weam, Meftah, Asma, Mohammed, Abobaker, Arrmalli, Lina Ali, Aljaboo, Hajir, Elayeb, Abdallah, Altomi, Mohamed, Altaweel, Ahmed, Tumi, Mohamed, Bazozi, Hana Milad, Shaklawoon, Aisha, Alglaib, Mohammed Meftah, Elkaloush, Abdullahn Abdousalam, Trainba, Sara, Swessi, Hisham, Alnaeri, Ali, Shnishah, Aya Essam, Mustufa, Hamassat, Gargum, Sondas Ali, Tarniba, Sara Ali, Shalluf, Hawa Ahmed, Shokri, Hajer Ali, Sarkaz, Taher L., Tababa, Osama, Elhadi, Ahmed, Naunova, Vesna Cvetanovska, Jovcheski, Laze, Kamilovski, Marjan, Gavrilovska-Brzanov, Aleksandra, Latiff, Zarina Abdul, Pauzi, Siti Farhan Moh, Osman, Marjmin, Lim, Felicia, Bakar, Ainal Huda Abu, Zaman, Azrina SK, Ishak, Shareena, Teo, Rufinah, Qi, Dr. Tammy Teoh Han, Othman, Mohd Yusran Bin, Zahari, Dato' Dr Zakaria bin, Hassan, Zulfitri bin Md, Shan, Cheah Hui, Lechmiannandan, Abhirrami, Tamaddun, Hafatin Fairos bt, Adanan, Mohd Fitri Shukri bin Mohamed, Abdullah, Mohd Yusof bin, Junyi, Wang, Nor, Mohd. Tarmizi Mohd, Noor, Wan Ruzaimie, Hassan, Mohd Razin bin, Dalek, Noor Fa'izatul Rahil Ambok, Hashim, Hidayah Hayati binti, Zarwawi, Ahmad Zulhisyam bin, Vellusamy, V Muthualhagi M, Yuen, Quah Soong, Kannessan, Hemasutha a/p, Ramli, Najua binti, Bujarimin, Ahmad Shafiee bin, Anntinea, Jessmine, Dass, Anthony, Khalid, Hazlina Mohd., Hanifah, Nur Atiqah binti Mohd, Jyun, Keily Wong Yue, Razak, Rahilah binti Abd, Naim, Nur Atifah binti Mohd, Hamzah, Siti Nur Aien binti Hamid, Vidal, Cristian R. Zalles, Bracho Blanchet, Eduardo, Dávila Perez, Roberto, Fernandez Portilla, Emilio, Villegas Silva, Raúl, Ibarra, Daniel, Calderon Moore, Antonio, Carrasco-Ortega, Cesar, Noguez Castillo, Monica, Herappe Mellado, Dorihela, Yanowsky Reyes, Guillermo, Gonzalez Cortez, Luis Fernando, Santana Ortiz, Rafael, Orozco Perez, Jamie, Corona C.Rivera, Jorge Román, Cardenas Ruiz Velasco, Juan Jose, Quiles Corona, Moises, Peña Padilla, Christian, Bobadilla Morales, Lucina, Corona Rivera, Alfredo, Rios Flores, Izabel Maryalexandra, Aranda Sánchez, Cristian Irela, Ambriz-González, Gabriela, Martínez Hernández Magro, Nestor, León Frutos, Francisco Javier, Cárdenas Barón, José de Jesús, González Ojeda, Alejandro, Yarza Fernández, Jessica, Porras, Juan Domingo, Aguirre-Lopez, Pastor, Sánchez Paredes, Vicente, Montalvo Marin, Arturo, Diaz Gomez, Jose Manuel, Caamal, Lorenzo Juvencio, Bulnes Mendizabal, David, Sanchez Valladares, Pablo, Garcia Martinez, Humberto, Adesanya, Opeoluwa, Olanrewaju, Moses, 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Alkareem, Raghad mohammad abdu, Lahlooh, Raghad abdullateef, Halabi, Yasmeen Adly, Baker, Wisam, Almusleh, Tasneem Fathi Hasan, Tahyneh, Abdulraheem Adnan Abdulraheem, Atatri, Yazid yousef mahmoud, Jamie, Najlaa Abu, Massry, Nasrallah Ashraf Al, Lubbad, Walaa, A.Nemer, Ayoub, Alser, Mohammed, Salha, Aya Azmi Shehda, Alnahhal, Khaled, Elmzyyen, Aya Mahmoud, Ghabayen, Amir Talat Sheda, Alamrain, Abdulwhhab Ayman Abu, Al-Shwaikh, Samar H., Elshaer, Omar Adly, Shaheen, Nureddin, Fares, Jehad, Dalloul, Hisham, Qawwash, Anas, Jayyab, Mustafa abu, Ashour, Dina Ayman, Shaheen, Ahmad Ashraf, Naim, Samy Rafat Ramadan, Shiha, Eman Abu, Dammagh, Nagham Mohammed Al, Almadhoun, Walaa, Al-Salhi, Ashraf Ayman, Hammato, Abdalkarim Yhya, Salim, Jamal Mohammed, Hasanain, Doaa Khalil, Alwadia, Soha Marwan Salem, Nassar, Ismail, Al-Attar, Hala M., Alshaikhkhalil, Haya Abdulnasser Ali, Jamie, Yasmin Mohammed Khalil Abu, Ashour, Yara shareef, Alijla, Sharif S., Tallaa, Mohamed Anwer El, Abuattaya, Adham 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Guigui, Sekyere, Owusu, Mbonisweni, Akhona, Syed, Shahnoor, Hyeon, Cho Seok, Pajouhandeh, Fatemeh, and Kunfah, Sheba Mary Pognaa

Published
2021
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47. Liquid crystals in living tissue

Author

Hirst, Linda S and Charras, Guillaume

Subjects
Engineering, Physical Sciences, Condensed Matter Physics, General Science & Technology
Published
2017

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