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Journal articles on the topic 'Rigidification'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Pickel, Bryan. "Rigidification and attitudes." Philosophical Studies 158, no. 1 (December 1, 2010): 43–58. http://dx.doi.org/10.1007/s11098-010-9666-1.

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2

Dugger, Daniel, and David I. Spivak. "Rigidification of quasi-categories." Algebraic & Geometric Topology 11, no. 1 (January 7, 2011): 225–61. http://dx.doi.org/10.2140/agt.2011.11.225.

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3

Casey, James. "The principle of rigidification." Archive for History of Exact Sciences 43, no. 4 (1992): 329–83. http://dx.doi.org/10.1007/bf00374763.

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4

Caviglia, Giovanni, and Geoffroy Horel. "Rigidification of higher categorical structures." Algebraic & Geometric Topology 16, no. 6 (December 15, 2016): 3533–62. http://dx.doi.org/10.2140/agt.2016.16.3533.

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5

Bonventre, Peter, and Luís A. Pereira. "Rigidification of dendroidal infinity-operads." Homology, Homotopy and Applications 23, no. 2 (2021): 349–72. http://dx.doi.org/10.4310/hha.2021.v23.n2.a18.

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6

Andrade, Saulo F., Claudia S. Teixeira, Jonas P. Ramos, Marcela S. Lopes, Rodrigo M. Pádua, Mônica C. Oliveira, Elaine M. Souza-Fagundes, and Ricardo J. Alves. "Synthesis of a novel series of 2,3,4-trisubstituted oxazolidines designed by isosteric replacement or rigidification of the structure and cytotoxic evaluation." Med. Chem. Commun. 5, no. 11 (2014): 1693–99. http://dx.doi.org/10.1039/c4md00136b.

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7

Tahir, M. Nazir, Audithya Nyayachavadi, Jean-François Morin, and Simon Rondeau-Gagné. "Recent progress in the stabilization of supramolecular assemblies with functional polydiacetylenes." Polymer Chemistry 9, no. 22 (2018): 3019–28. http://dx.doi.org/10.1039/c8py00536b.

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8

Bergner, Julia E. "Rigidification of algebras over multi-sorted theories." Algebraic & Geometric Topology 6, no. 4 (November 14, 2006): 1925–55. http://dx.doi.org/10.2140/agt.2006.6.1925.

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9

Ruggiero, Matteo. "Rigidification of holomorphic germs with noninvertible differential." Michigan Mathematical Journal 61, no. 1 (March 2012): 161–85. http://dx.doi.org/10.1307/mmj/1331222853.

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10

Rosický, J. "Rigidification of Algebras Over Essentially Algebraic Theories." Applied Categorical Structures 23, no. 2 (September 6, 2013): 159–75. http://dx.doi.org/10.1007/s10485-013-9329-4.

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11

Urban, Mateusz, Krzysztof Durka, Patrycja Górka, Gabriela Wiosna-Sałyga, Krzysztof Nawara, Piotr Jankowski, and Sergiusz Luliński. "The effect of locking π-conjugation in organoboron moieties in the structures of luminescent tetracoordinate boron complexes." Dalton Transactions 48, no. 24 (2019): 8642–63. http://dx.doi.org/10.1039/c9dt01332f.

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12

Onder, Serap Sahin, A. Ishii, and K. Sandu. "Surgical options in suprastomal collapse-induced severe airway obstruction." European Archives of Oto-Rhino-Laryngology 277, no. 12 (September 10, 2020): 3415–21. http://dx.doi.org/10.1007/s00405-020-06339-3.

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Abstract Purpose A single institutions experience with various surgical options in the treatment of severe suprastomal collapse (SSC). Methods The study included 18 tracheostomized children with SSC treated between January 2012 and December 2018. Data included: patient demography, initial airway lesions, comorbidities, indication and age at tracheostomy, prior airway surgery, stomal demography, type of surgery, postoperative management, complications and treatment outcomes. Results Four techniques were used to correct SSC. The surgical choice was dependent on stoma demography and associated airway lesions. Excision was done in eight patients and rib cartilage augmentation in five. Three patients had single stage tracheal resection and anastomosis. Two patients received stomal rigidification and temporary placement of Montgomery T tube. Three patients with anterior rib graft augmentation required additional lateral tracheal wall rigidification. Three patients (two with cartilage augmentation, and one with stomal rigidification) developed minimal granulation tissue in the postoperative period. Complete SSC resolution was seen in all except two patients who had a partial response to the treatment. All patients were successful decannulated and are currently asymptomatic. Conclusion Decannulation failures may be due to severe suprastomal collapse that could be either unique or associated with obstructing laryngotracheal lesions. Therefore, it is essential to select the most appropriate surgical treatment to obtain overall favorable outcomes.
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13

Pernas, Marina, Beatriz Blanco, Emilio Lence, Paul Thompson, Alastair R. Hawkins, and Concepción González-Bello. "Synthesis of rigidified shikimic acid derivatives by ring-closing metathesis to imprint inhibitor efficacy against shikimate kinase enzyme." Organic Chemistry Frontiers 6, no. 14 (2019): 2514–28. http://dx.doi.org/10.1039/c9qo00562e.

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14

Huang, Manna, Ruina Yu, Ke Xu, Shuxian Ye, Shi Kuang, Xinhai Zhu, and Yiqian Wan. "An arch-bridge-type fluorophore for bridging the gap between aggregation-caused quenching (ACQ) and aggregation-induced emission (AIE)." Chemical Science 7, no. 7 (2016): 4485–91. http://dx.doi.org/10.1039/c6sc01254j.

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15

Campos, Antonio, Neil Oxtoby, Sergi Galindo, Raphael Pfattner, Jaume Veciana, Stefan T. Bromley, Concepció Rovira, and Marta Mas-Torrent. "Structural and electronic characterisation of π-extended tetrathiafulvalene derivatives as active components in field-effect transistors." CrystEngComm 18, no. 33 (2016): 6149–52. http://dx.doi.org/10.1039/c6ce01200k.

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The rigidification of the molecule in π-extended tetrathiafulvalenes is beneficial for reducing the reorganisation energy but has an unfavorable impact on the electronic dimensionality, as observed in the resulting transistors.
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16

Elmes, Robert B. P., and Katrina A. Jolliffe. "Anion recognition by cyclic peptides." Chemical Communications 51, no. 24 (2015): 4951–68. http://dx.doi.org/10.1039/c4cc10095f.

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Cyclic peptides provide excellent scaffolds for anion recognition and improved binding affinity and selectivity has been achieved through peptide backbone rigidification and the introduction of side chains bearing anion recognition groups.
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17

Purba, Prioti Choudhury, Soumalya Bhattacharyya, Manoranjan Maity, Sujay Mukhopadhyay, Prodip Howlader, and Partha Sarathi Mukherjee. "Linkage induced enhancement of fluorescence in metal–carbene bond directed metallacycles and metallacages." Chemical Communications 55, no. 57 (2019): 8309–12. http://dx.doi.org/10.1039/c9cc04444b.

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Four new metal–carbene based metallacycles and metallocages have been obtained using non-AIE active 1,4-dihydropyrrolo[3,2-b]pyrrole based imidazolium ligands. These final assemblies show linkage induced enhanced emission via rigidification.
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18

Al Isawi, Wisam A., Austin Z. Salome, Basil M. Ahmed, Matthias Zeller, and Gellert Mezei. "Selective binding of anions by rigidified nanojars: sulfate vs. carbonate." Organic & Biomolecular Chemistry 19, no. 35 (2021): 7641–54. http://dx.doi.org/10.1039/d1ob01318a.

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By using nanojars as anion binding agents, selectivity for either carbonate or sulfate can be achieved upon rigidification of the nanojar outer-shell with tethers of varying lengths between pairs of pyrazole ligands.
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19

Assadieskandar, Amir, Caiqun Yu, Pierre Maisonneuve, Igor Kurinov, Frank Sicheri, and Chao Zhang. "Rigidification Dramatically Improves Inhibitor Selectivity for RAF Kinases." ACS Medicinal Chemistry Letters 10, no. 7 (June 4, 2019): 1074–80. http://dx.doi.org/10.1021/acsmedchemlett.9b00194.

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20

Cecchi, Antonella, and Nicola L. Rizzi. "Heterogeneous elastic solids: a mixed homogenization-rigidification technique." International Journal of Solids and Structures 38, no. 1 (January 2001): 29–36. http://dx.doi.org/10.1016/s0020-7683(00)00018-4.

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21

Baroncini, Massimo, Giacomo Bergamini, and Paola Ceroni. "Rigidification or interaction-induced phosphorescence of organic molecules." Chemical Communications 53, no. 13 (2017): 2081–93. http://dx.doi.org/10.1039/c6cc09288h.

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This feature article presents the principles and most recent examples of organic molecules in which long lived and highly intense room-temperature phosphorescence is switched on by rigidification of the matrix in a crystal or in a polymer or by interaction with other molecules.
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22

Corrigan-Salter, Bruce R. "Rigidification of homotopy algebras over finite product sketches." Journal of Pure and Applied Algebra 219, no. 6 (June 2015): 1962–91. http://dx.doi.org/10.1016/j.jpaa.2014.07.019.

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23

Chartagnac, P. F. "RIGIDIFICATION SOUS CHOC D'UNE SOLUTION AQUEUSE DE GLYCÉROL." Le Journal de Physique Colloques 46, no. C5 (August 1985): C5–475—C5–480. http://dx.doi.org/10.1051/jphyscol:1985559.

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24

Wallinder, Charlotta, Christian Sköld, Sara Sundholm, Marie-Odile Guimond, Samir Yahiaoui, Gunnar Lindeberg, Nicole Gallo-Payet, Mathias Hallberg, and Mathias Alterman. "High affinity rigidified AT2 receptor ligands with indane scaffolds." MedChemComm 10, no. 12 (2019): 2146–60. http://dx.doi.org/10.1039/c9md00402e.

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Rigidification of the isobutyl side chain of drug-like AT2 receptor agonists and antagonists that are structurally related to the first reported selective AT2 receptor agonist 1 (C21) delivered bioactive indane derivatives.
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25

Camacho, Cláudia S., Marta Urgellés, Helena Tomás, Fernando Lahoz, and João Rodrigues. "New insights into the blue intrinsic fluorescence of oxidized PAMAM dendrimers considering their use as bionanomaterials." Journal of Materials Chemistry B 8, no. 45 (2020): 10314–26. http://dx.doi.org/10.1039/d0tb01871f.

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The fluorescence intensity of oxidized PAMAM dendrimers is not only dependent on the number of HASLs in the dendrimer scaffold (i.e., on dendrimer generation), but also on the rigidification suffered by the dendrimer due to the acidic environment.
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26

Hui, Wang. "Das Vergessen der sechziger Jahre." PROKLA. Zeitschrift für kritische Sozialwissenschaft 38, no. 152 (September 1, 2008): 459–77. http://dx.doi.org/10.32387/prokla.v38i152.465.

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After the end of the "Cultural Revolution" an increasing process of depoliticized politics took place in China combined with a state-party rigidification. This process is analyzed and some similarities and parallels to developments in Western countries are shown.
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27

Lustig, William P., Simon J. Teat, and Jing Li. "Improving LMOF luminescence quantum yield through guest-mediated rigidification." Journal of Materials Chemistry C 7, no. 46 (2019): 14739–44. http://dx.doi.org/10.1039/c9tc05216j.

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Rotation of a specific pyridyl ring in LMOF-236 is locked by loading guest molecules into the MOF's pore, improving quantum yield by nearly 400%–an example of a generalizable strategy for maximizing quantum yield via guest-packing rigidification.
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28

Pezeshkian, Weria, Vitaly V. Chaban, Ludger Johannes, Julian Shillcock, John H. Ipsen, and Himanshu Khandelia. "The effects of globotriaosylceramide tail saturation level on bilayer phases." Soft Matter 11, no. 7 (2015): 1352–61. http://dx.doi.org/10.1039/c4sm02456g.

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The globotriaosylceramide acyl chains from one leaflet interdigitate into the opposing leaflet and lead to significant bilayer rigidification and immobilisation of the lipid tails. Globotriaosylceramide with saturated acyl chains can form a highly ordered, relatively immobile phase which is resistant to bending.
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29

Briehl, RW, and AE Guzman. "Fragility and structure of hemoglobin S fibers and gels and their consequences for gelation kinetics and rheology." Blood 83, no. 2 (January 15, 1994): 573–79. http://dx.doi.org/10.1182/blood.v83.2.573.573.

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Abstract Pathogenesis in sickle cell disease depends on whether red blood cells can pass the microvasculature during the delay time before hemoglobin S gelation and cell rigidification occur. Here we observe individual hemoglobin S fibers by differential interference contrast (DIC) microscopy and show that hemoglobin S gels and fibers are fragile and easily broken by mechanical perturbation, and that breakage results in vast acceleration of gelation kinetics due to the creation of new, growing fiber-ends. Hence, in vivo this may be an important factor, in addition to hemoglobin concentration and degree of deoxygenation, that governs delay time and pathogenesis. Pathogenesis also depends on gel rheology and cell rigidification, which depend on fiber cross-linking. We show different mechanisms by which X-shaped, Y-shaped, and “zippering” cross-links form. Finally, we estimate the “on” rate constant for fiber growth to be about 200 mmol/(L.s) and obtain a value for the heterogeneous nucleation rate at 13.5 mmol/L heme.
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30

Briehl, RW, and AE Guzman. "Fragility and structure of hemoglobin S fibers and gels and their consequences for gelation kinetics and rheology." Blood 83, no. 2 (January 15, 1994): 573–79. http://dx.doi.org/10.1182/blood.v83.2.573.bloodjournal832573.

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Pathogenesis in sickle cell disease depends on whether red blood cells can pass the microvasculature during the delay time before hemoglobin S gelation and cell rigidification occur. Here we observe individual hemoglobin S fibers by differential interference contrast (DIC) microscopy and show that hemoglobin S gels and fibers are fragile and easily broken by mechanical perturbation, and that breakage results in vast acceleration of gelation kinetics due to the creation of new, growing fiber-ends. Hence, in vivo this may be an important factor, in addition to hemoglobin concentration and degree of deoxygenation, that governs delay time and pathogenesis. Pathogenesis also depends on gel rheology and cell rigidification, which depend on fiber cross-linking. We show different mechanisms by which X-shaped, Y-shaped, and “zippering” cross-links form. Finally, we estimate the “on” rate constant for fiber growth to be about 200 mmol/(L.s) and obtain a value for the heterogeneous nucleation rate at 13.5 mmol/L heme.
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31

Glenister, Fiona K., Ross L. Coppel, Alan F. Cowman, Narla Mohandas, and Brian M. Cooke. "Contribution of parasite proteins to altered mechanical properties of malaria-infected red blood cells." Blood 99, no. 3 (February 1, 2002): 1060–63. http://dx.doi.org/10.1182/blood.v99.3.1060.

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Abstract Red blood cells (RBCs) parasitized by Plasmodium falciparum are rigid and poorly deformable and show abnormal circulatory behavior. During parasite development, knob-associated histidine-rich protein (KAHRP) and P falciparum erythrocyte membrane protein 3 (PfEMP3) are exported from the parasite and interact with the RBC membrane skeleton. Using micropipette aspiration, the membrane shear elastic modulus of RBCs infected with transgenic parasites (with kahrp or pfemp3 genes deleted) was measured to determine the contribution of these proteins to the increased rigidity of parasitized RBCs (PRBCs). In the absence of either protein, the level of membrane rigidification was significantly less than that caused by the normal parental parasite clone. KAHRP had a significantly greater effect on rigidification than PfEMP3, contributing approximately 51% of the overall increase that occurs in PRBCs compared to 15% for PfEMP3. This study provides the first quantitative information on the contribution of specific parasite proteins to altered mechanical properties of PRBCs.
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32

BONNEAU, PHILIPPE. "TOPOLOGICAL QUANTUM DOUBLE." Reviews in Mathematical Physics 06, no. 02 (April 1994): 305–18. http://dx.doi.org/10.1142/s0129055x94000146.

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Following a preceding paper showing how the introduction of a t.v.s. topology on quantum groups led to a remarkable unification and rigidification of the different definitions, we adapt here, in the same way, the definition of quantum double. This topological double is dualizable and reflexive (even for infinite dimensional algebras). In a simple case we show, considering the double as the "zero class" of an extension theory, the uniqueness of the double structure as a quasi-Hopf algebra. A la suite d'un précédent article montrant comment l'introduction d'une topologie d'e.v.t. sur les groupes quantiques permet une unification et une rigidification remarquables des différentes définitions, on adapte ici de la même manière la définition du double quantique. Ce double topologique est alors dualisable et reflexif (même pour des algèbres de dimension infinie). Dans un cas simple on montre, en considérant le double comme la "classe zéro" d'une théorie d'extensions, l'unicité de cette structure comme algèbre quasi-Hopf.
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33

Lixa, Carolina, Michael W. Clarkson, Anwar Iqbal, Thomas M. Moon, Fabio C. L. Almeida, Wolfgang Peti, and Anderson S. Pinheiro. "Retinoic Acid Binding Leads to CRABP2 Rigidification and Dimerization." Biochemistry 58, no. 41 (September 30, 2019): 4183–94. http://dx.doi.org/10.1021/acs.biochem.9b00672.

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34

Gorostidi, François, Antoine Reinhard, Philippe Monnier, and Kishore Sandu. "External bioresorbable airway rigidification to treat refractory localized tracheomalacia." Laryngoscope 126, no. 11 (March 12, 2016): 2605–10. http://dx.doi.org/10.1002/lary.25918.

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35

Glaser, Radek, Vincent Caccese, and Mohsen Shahinpoor. "Development of magneto-rheological fluid composites with rigidification characteristics." Smart Materials and Structures 20, no. 4 (March 28, 2011): 045018. http://dx.doi.org/10.1088/0964-1726/20/4/045018.

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36

Varol, N., N. Delpouve, S. Araujo, S. Domenek, A. Guinault, R. Golovchak, A. Ingram, L. Delbreilh, and E. Dargent. "Amorphous rigidification and cooperativity drop in semi−crystalline plasticized polylactide." Polymer 194 (April 2020): 122373. http://dx.doi.org/10.1016/j.polymer.2020.122373.

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37

Pabst, Georg, Aden Hodzic, Janez Štrancar, Sabine Danner, Michael Rappolt, and Peter Laggner. "Rigidification of Neutral Lipid Bilayers in the Presence of Salts." Biophysical Journal 93, no. 8 (October 2007): 2688–96. http://dx.doi.org/10.1529/biophysj.107.112615.

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38

Rivera, Manuel, and Mahmoud Zeinalian. "Cubical rigidification, the cobar construction and the based loop space." Algebraic & Geometric Topology 18, no. 7 (December 11, 2018): 3789–820. http://dx.doi.org/10.2140/agt.2018.18.3789.

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39

Baun, Anna, Zuyuan Wang, Svenja Morsbach, Zijie Qiu, Akimitsu Narita, George Fytas, and Klaus Müllen. "Rigidification of Poly(p-phenylene)s through ortho-Phenyl Substitution." Macromolecules 53, no. 14 (June 23, 2020): 5756–62. http://dx.doi.org/10.1021/acs.macromol.0c00810.

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40

Gill, Jasmita, Praapti Jayaswal, and Dinakar M. Salunke. "Antigen exposure leads to rigidification of germline antibody combining site." Journal of Bioinformatics and Computational Biology 12, no. 03 (June 2014): 1450006. http://dx.doi.org/10.1142/s0219720014500061.

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Immune complexes involving diverse antigens and corresponding antibodies were analyzed for mapping conformational transitions of an antibody before antigen binding, upon antigen binding and after antigen release. Molecular dynamics simulations of the two comprehensive datasets consisting of the antigen-free and antigen-bound structures of the germline antibodies 36-65 and BBE6.12H3 provided mechanistic model of antigen encounter by primary antibodies. While native germline antibodies exhibit substantial mobility in the antigen-combining sites, their antigen-bound states exhibit relatively rigid conformations, even in the absence of the antigen suggesting preservation of the structural state after antigen release. It is proposed that acquired rigidity by a germline antibody upon antigen binding may be the first step in affinity maturation in favor of that antigen.
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41

Nagar, Bhushan, Michael Overduin, Mitsuhiko Ikura, and James M. Rini. "Structural basis of calcium-induced E-cadherin rigidification and dimerization." Nature 380, no. 6572 (March 1996): 360–64. http://dx.doi.org/10.1038/380360a0.

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42

Nagar, B., M. Overduin, M. Ikura, and J. M. Rini. "Structural basis of calcium-induced E-cadherin rigidification and dimerization." Acta Crystallographica Section A Foundations of Crystallography 52, a1 (August 8, 1996): C174. http://dx.doi.org/10.1107/s0108767396092318.

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43

Lv, Xiu-Liang, Shuai Yuan, Lin-Hua Xie, Hannah F. Darke, Ya Chen, Tao He, Chen Dong, et al. "Ligand Rigidification for Enhancing the Stability of Metal–Organic Frameworks." Journal of the American Chemical Society 141, no. 26 (June 10, 2019): 10283–93. http://dx.doi.org/10.1021/jacs.9b02947.

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44

Pais, Tiago M., Pedro Lamosa, Bertrand Garcia-Moreno, David L. Turner, and Helena Santos. "Relationship between Protein Stabilization and Protein Rigidification Induced by Mannosylglycerate." Journal of Molecular Biology 394, no. 2 (November 2009): 237–50. http://dx.doi.org/10.1016/j.jmb.2009.09.012.

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45

Pozzi, Nicola, Raymond Chen, Zhiwei Chen, Alaji Bah, and Enrico Di Cera. "Rigidification of the autolysis loop enhances Na+ binding to thrombin." Biophysical Chemistry 159, no. 1 (November 2011): 6–13. http://dx.doi.org/10.1016/j.bpc.2011.04.003.

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46

Hishida, Mafumi, Ryuta Yanagisawa, Hatsuho Usuda, Yasuhisa Yamamura, and Kazuya Saito. "Communication: Rigidification of a lipid bilayer by an incorporated n-alkane." Journal of Chemical Physics 144, no. 4 (January 28, 2016): 041103. http://dx.doi.org/10.1063/1.4941059.

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47

Niebylski, Charles D., and Howard R. Petty. "Cyclosporine A Induces an Early and Transient Rigidification of Lymphocyte Membranes." Journal of Leukocyte Biology 49, no. 4 (April 1991): 407–15. http://dx.doi.org/10.1002/jlb.49.4.407.

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48

Lieber, A. L., C. Vesin, M. E. Safar, B. I. Levy, and J. Blacher. "P8.05DIABETES CONTROL QUALITY IS AN INDEPENDENT FACTOR OF ARTERIAL WALL RIGIDIFICATION." Artery Research 3, no. 4 (2009): 187. http://dx.doi.org/10.1016/j.artres.2009.10.111.

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49

Deleers, Michel, Jean-Paul Servais, and Ernst Wülfert. "Neurotoxic cations induce membrane rigidification and membrane fusion at micromolar concentrations." Biochimica et Biophysica Acta (BBA) - Biomembranes 855, no. 2 (February 1986): 271–76. http://dx.doi.org/10.1016/0005-2736(86)90174-4.

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50

Hanson, W. Miachel, Gretchen J. Domek, Martin P. Horvath, and David P. Goldenberg. "Rigidification of a Flexible Protease Inhibitor Variant upon Binding to Trypsin." Journal of Molecular Biology 366, no. 1 (February 2007): 230–43. http://dx.doi.org/10.1016/j.jmb.2006.11.003.

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