D. A. Bobak, R. G. Washburn, and M. M. Frank, C1q enhances the phagocytosis of Cryptococcus neoformans blastospores by human monocytes, J Immunol, vol.141, pp.592-599, 1988.

S. D. Webster, M. D. Galvan, E. Ferran, W. Garzon-rodriguez, C. G. Glabe et al., Antibody-mediated phagocytosis of the amyloid beta-peptide in microglia is differentially modulated by C1q, J Immunol, vol.166, pp.7496-503, 2001.

A. Nayak, L. Pednekar, K. B. Reid, and U. Kishore, Complement and non-complement activating functions of C1q: a prototypical innate immune molecule, Innate Immun, vol.18, pp.350-63, 2012.

S. S. Bohlson, O. Conner, S. D. Hulsebus, H. J. Ho, M. Fraser et al., Complement, C1q, and C1q-related molecules regulate macrophage polarization, Front Immunol, vol.5, p.402, 2014.

C. Gaboriaud, P. Frachet, N. M. Thielens, and G. J. Arlaud, The human C1q globular domain: structure and recognition of non-immune self ligands, Front Immunol, vol.2, p.92, 2012.

L. Kouser, S. P. Madhukaran, A. Shastri, A. Saraon, J. Ferluga et al., Emerging and novel functions of complement protein C1q, Front Immunol, vol.6, p.317, 2015.

S. S. Bohlson, D. A. Fraser, and A. J. Tenner, Complement proteins C1q and MBL are pattern recognition molecules that signal immediate and long-term protective immune functions, Mol Immunol, vol.44, pp.33-43, 2007.

S. E. Degn and S. Thiel, Humoral pattern recognition and the complement system, Scand J Immunol, vol.78, pp.181-93, 2013.

B. Ghebrehiwet, K. K. Hosszu, A. Valentino, Y. Ji, and E. Peerschke, Monocyte expressed macromolecular C1 and C1q receptors as molecular sensors of danger: implications in SLE, Front Immunol, vol.5, p.278, 2014.

N. M. Thielens, F. Tedesco, S. S. Bohlson, C. Gaboriaud, and A. J. Tenner, C1q: a fresh look upon an old molecule, Mol Immunol, vol.89, pp.73-83, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01592495

H. Paidassi, P. Tacnet-delorme, G. J. Arlaud, and P. Frachet, How phagocytes track down and respond to apoptotic cells, Crit Rev Immunol, vol.29, pp.111-141, 2009.

M. Son, F. Santiago-schwarz, A. , Y. Diamond, and B. , C1q limits dendritic cell differentiation and activation by engaging LAIR-1, Proc Natl Acad Sci U S A, vol.109, pp.3160-3167, 2012.

M. Son, B. Diamond, B. T. Volpe, C. B. Aranow, M. C. Mackay et al., Evidence for C1q-mediated crosslinking of CD33/LAIR-1 inhibitory immunoreceptors and biological control of CD33/LAIR-1 expression, vol.7, p.270, 2017.

P. Eggleton, A. J. Tenner, and K. Reid, C1q receptors, Clin Exp Immunol, vol.120, pp.406-418, 2000.

L. B. Klickstein, S. F. Barbashov, T. Liu, R. M. Jack, and A. Nicholson-weller, Complement receptor type 1 (CR1, CD35) is a receptor for C1q, Immunity, vol.7, pp.80356-80364, 1997.

S. W. Tas, L. B. Klickstein, S. F. Barbashov, and A. Nicholson-weller, C1q and C4b bind simultaneously to CR1 and additively support erythrocyte adhesion, J Immunol, vol.163, pp.5056-63, 1999.

D. Fearon, Identification of the membrane glycoprotein that is the C3b receptor of the human erythrocyte, polymorphonuclear leukocyte, B lymphocyte, and monocyte, J Exp Med, vol.152, pp.20-30, 1980.

G. D. Ross, W. J. Yount, M. J. Walport, J. B. Winfield, C. J. Parker et al., Disease-associated loss of erythrocyte complement receptors (CR1, C3b receptors) in patients with systemic lupus erythematosus and other diseases involving autoantibodies and/or complement activation, J Immunol, vol.135, pp.2005-2019, 1985.

D. T. Fearon, L. B. Klickstein, W. W. Wong, J. G. Wilson, F. D. Moore et al., Immunoregulatory functions of complement: structural and functional studies of complement receptor type 1 (CR1; CD35)

, Prog Clin Biol Res, vol.297, pp.211-231, 1989.

D. J. Birmingham and L. A. Hebert, CR1 and CR1-like: the primate immune adherence receptors, Immunol Rev, vol.180, pp.100-111, 2001.

A. Java, M. K. Liszewski, D. E. Hourcade, F. Zhang, and J. P. Atkinson, Role of complement receptor 1 (CR1; CD35) on epithelial cells: a model for understanding complement-mediated damage in the kidney, Mol Immunol, vol.67, pp.584-95, 2015.

M. Krych-goldberg, R. E. Hauhart, V. B. Subramanian, B. M. Yurcisin, D. L. Crimmins et al., Decay accelerating activity of complement receptor type 1 (CD35). Two active sites are required for dissociating C5 convertases, J Biol Chem, vol.274, pp.31160-31168, 1999.

M. Krych-goldberg and J. P. Atkinson, Structure-function relationships of complement receptor type 1, Immunol Rev, vol.180, pp.112-134, 2001.

B. O. Smith, R. L. Mallin, M. Krych-goldberg, X. Wang, R. E. Hauhart et al., Structure of the C3b binding site of CR1 (CD35), the immune adherence receptor, Cell, vol.108, pp.769-80, 2002.

F. Forneris, J. Wu, X. Xue, D. Ricklin, Z. Lin et al., Regulators of complement activity mediate inhibitory mechanisms through a common C3b-binding mode, EMBO J, vol.35, pp.1133-1182, 2016.

M. Jacquet, M. Lacroix, S. Ancelet, E. Gout, C. Gaboriaud et al., Deciphering complement receptor type 1 interactions with recognition proteins of the lectin complement pathway, J Immunol, vol.190, pp.3721-3752, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01322429

G. J. Arlaud, R. B. Sim, A. M. Duplaa, and M. G. Colomb, Differential elution of Clq, Clr and Cls from human Cl bound to immune aggregates, Mol Immunol, vol.16, pp.90069-90074, 1979.

P. Tacnet-delorme, S. Chevallier, and G. J. Arlaud, Amyloid fibrils activate the C1 complex of complement under physiological conditions: evidence for a binding site for A on the C1q globular regions, J Immunol, vol.167, pp.6374-81, 2001.

F. Teillet, M. Lacroix, S. Thiel, D. Weilguny, T. Agger et al., Identification of the site of human Mannan-binding lectin involved in the interaction with its partner serine proteases: the essential role of Lys55, J Immunol, vol.178, pp.5710-5716, 2007.

W. Wang and B. A. Malcolm, Two-stage PCR protocol allowing introduction of multiple mutations, deletions and insertions using QuikChange Site-Directed Mutagenesis, Biotechniques, vol.26, pp.680-682, 1999.

M. E. Brennich, J. Kieffer, G. Bonamis, D. Maria-antolinos, A. Hutin et al., Online data analysis at the ESRF bioSAXS beamline, BM29, J Appl Crystallogr, vol.49, pp.203-215, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01283860

D. Franke, M. V. Petoukhov, P. V. Konarev, A. Panjkovich, A. Tuukkanen et al., ATSAS 2.8: a comprehensive data analysis suite for small-angle scattering from macromolecular solutions, J Appl Crystallogr, vol.50, pp.1212-1237, 2017.

P. Weinkam, Y. C. Chen, J. Pons, and A. Sali, Impact of mutations on the allosteric conformational equilibrium, J Mol Biol, vol.425, pp.647-61, 2013.

D. Durand, C. Vivès, D. Cannella, J. Pérez, E. Pebay-peyroula et al., NADPH oxidase activator p67(phox) behaves in solution as a multidomain protein with semi-flexible linkers, J Struct Biol, vol.169, pp.45-53, 2010.

I. Bally, S. Ancelet, C. Moriscot, F. Gonnet, A. Mantovani et al., Expression of recombinant human complement C1q allows identification of the C1r/C1s-binding sites, Proc Natl Acad Sci U S A, vol.110, pp.8650-8655, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01179709

L. B. Klickstein, T. J. Bartow, V. Miletic, L. D. Rabson, J. A. Smith et al., Identification of distinct C3b and C4b recognition sites in the human C3b/ C4b receptor (CR1, CD35) by deletion mutagenesis, J Exp Med, vol.168, pp.1699-717, 1988.

S. C. Makrides, S. M. Scesney, P. J. Ford, K. S. Evans, G. R. Carson et al., Cell surface expression of the C3b/C4b receptor (CR1) protects Chinese hamster ovary cells from lysis by human complement, J Biol Chem, vol.267, pp.24754-61, 1992.

M. Krych, D. Hourcade, and J. P. Atkinson, Sites within the complement C3b/C4b receptor important for the specificity of ligand binding, Proc Natl Acad Sci U S A, vol.88, pp.4353-4360, 1991.

I. Ghiran, S. F. Barbashov, L. B. Klickstein, S. W. Tas, J. C. Jensenius et al., Complement receptor 1/CD35 is a receptor for Mannan-binding lectin, J Exp Med, vol.192, pp.1797-808, 2000.

J. Chevalier and M. D. Kazatchkine, Distribution in clusters of complement receptor type one (CR1) on human erythrocytes, J Immunol, vol.142, pp.2031-2037, 1989.

Z. J. Lapin, C. Höppener, H. A. Gelbard, and L. Novotny, Near-field quantification of complement receptor 1 (CR1/CD35) protein clustering in human erythrocytes, J Neuroimmune Pharmacol, vol.7, pp.539-582, 2012.

P. B. Tetteh-quarcoo, C. Q. Schmidt, W. Tham, R. Hauhart, H. Mertens et al., Lack of evidence from studies of soluble protein fragments that knops blood group polymorphisms in complement receptor-type 1 are driven by malaria, PLoS One, vol.7, p.34820, 2012.

P. B. Furtado, C. Y. Huang, D. Ihyembe, R. A. Hammond, H. C. Marsh et al., The partly folded back solution structure arrangement of the 30 SCR domains in human complement receptor type 1 (CR1) permits access to its C3b and C4b ligands, J Mol Biol, vol.375, pp.102-120, 2008.

M. Lacroix, C. Dumestre-pérard, G. Schoehn, G. Houen, J. Cesbron et al., Residue Lys57 in the collagen-like region of human L-ficolin and its counterpart Lys47 in H-ficolin play a key role in the interaction with the Mannan-binding lectin-associated serine proteases and the collectin receptor calreticulin, J Immunol, vol.182, pp.456-65, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00354555

M. I. Fonseca, S. Chu, A. L. Pierce, W. D. Brubaker, R. E. Hauhart et al., Analysis of the putative role of CR1 in Alzheimer's disease: genetic association, expression and function, PLoS One, vol.11, 2016.

K. Reid, Isolation, by partial pepsin digestion, of the three collagen-like regions present in subcomponent Clq of the first component of human complement, Biochem J, vol.155, pp.5-17, 1976.

C. Gaboriaud, J. Juanhuix, A. Gruez, M. Lacroix, C. Darnault et al., The crystal structure of the globular head of complement protein C1q provides a basis for its versatile recognition properties, J Biol Chem, vol.278, pp.46974-82, 2003.

S. J. Gardai, Y. Xiao, M. Dickinson, J. A. Nick, D. R. Voelker et al., By binding SIRP? or calreticulin/CD91, lung collectins act as dual function surveillance molecules to suppress or enhance inflammation, Cell, vol.115, pp.13-23, 2003.