F. Sizaire and M. Tramier, FRET-Based Biosensors: Genetically Encoded Tools to Track Kinase Activity in Living Cells, Protein Phosphorylation, 2017.

E. C. Greenwald, S. Mehta, and J. Zhang, Genetically Encoded Fluorescent Biosensors Illuminate the Spatiotemporal Regulation of Signaling Networks, Chem. Rev, vol.118, issue.24, pp.11707-11794, 2018.

A. E. Palmer, Y. Qin, J. G. Park, and J. E. Mccombs, Design and Application of Genetically Encoded Biosensors, Trends Biotechnol, vol.29, issue.3, pp.144-152, 2011.

A. Piljic and C. Schultz, Simultaneous Recording of Multiple Cellular Events by FRET, ACS Chem. Biol, vol.3, issue.3, pp.156-160, 2008.

H. J. Carlson and R. E. Campbell, Genetically Encoded FRET-Based Biosensors for Multiparameter Fluorescence Imaging, Curr. Opin. Biotechnol, vol.20, issue.1, pp.19-27, 2009.

H. Ai, K. L. Hazelwood, M. W. Davidson, and R. E. Campbell, Fluorescent Protein FRET Pairs for Ratiometric Imaging of Dual Biosensors, Nat. Methods, vol.5, issue.5, pp.401-403, 2008.

Y. Ding, H. Ai, H. Hoi, and R. E. Campbell, Förster Resonance Energy Transfer-Based Biosensors for Multiparameter Ratiometric Imaging of Ca2+ Dynamics and Caspase-3 Activity in Single Cells, Anal. Chem, vol.83, issue.24, pp.9687-9693, 2011.

T. Su, S. Pan, Q. Luo, and Z. Zhang, Monitoring of Dual Bio-Molecular Events Using FRET Biosensors Based on MTagBFP/SfGFP and MVenus/MKO? Fluorescent Protein Pairs, Biosens. Bioelectron, vol.46, pp.97-101, 2013.

C. Demeautis, F. Sipieter, J. Roul, C. Chapuis, S. Padilla-parra et al., Multiplexing PKA and ERK1&2 Kinases FRET Biosensors in Living Cells Using Single Excitation Wavelength Dual Colour FLIM, vol.7, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01478382

B. L. Ross, B. Tenner, M. L. Markwardt, A. Zviman, G. Shi et al., Ratiometric Biosensors for Detecting Signaling Activities in Live Cells, vol.7, 2018.

A. S. Nikonova, I. Astsaturov, I. G. Serebriiskii, R. L. Dunbrack, E. A. Golemis et al., AURKA) in Normal and Pathological Cell Division. Cell. Mol. Life Sci, vol.2013, issue.4, pp.661-687

D. Mori, M. Yamada, Y. Mimori-kiyosue, Y. Shirai, A. Suzuki et al., An Essential Role of the APKC-Aurora A-NDEL1 Pathway in Neurite Elongation by Modulation of Microtubule Dynamics, Nat. Cell Biol, vol.11, issue.9, pp.1057-1068, 2009.

F. Zheng, C. Yue, G. Li, B. He, W. Cheng et al., Nuclear AURKA Acquires Kinase-Independent Transactivating Function to Enhance Breast Cancer Stem Cell Phenotype, Nat. Commun, vol.7, 2016.

G. Bertolin, A. Bulteau, M. Alves-guerra, A. Burel, M. Lavault et al., Aurora Kinase A Localises to Mitochondria to Control Organelle Dynamics and Energy Production, 2018.

R. Grant, A. Abdelbaki, A. Bertoldi, M. P. Gavilan, J. Mansfeld et al., Constitutive Regulation of Mitochondrial Morphology by Aurora A Kinase Depends on a Predicted Cryptic Targeting Sequence at the N-Terminus, Open Biol, vol.8, issue.6, p.170272, 2018.

G. Bertolin, F. Sizaire, G. Herbomel, D. Reboutier, C. Prigent et al., A FRET Biosensor Reveals Spatiotemporal Activation and Functions of Aurora Kinase A in Living Cells, Nat. Commun, vol.7, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01394773

M. Tramier and M. Coppey-moisan, Fluorescence Anisotropy Imaging Microscopy for Homo-FRET in Living Cells, In Methods in Cell Biology
URL : https://hal.archives-ouvertes.fr/hal-00205079

, , vol.85, pp.395-414, 2008.

H. Murakoshi, A. C. Shibata, Y. Nakahata, and J. Nabekura, A Dark Green Fluorescent Protein as an Acceptor for Measurement of Förster Resonance Energy Transfer, Sci. Rep, vol.5, p.15334, 2015.

H. Murakoshi and A. C. Shibata, ShadowY: A Dark Yellow Fluorescent Protein for FLIM-Based FRET Measurement, Sci. Rep, vol.2017, issue.1, p.6791

M. Mastop, D. S. Bindels, N. C. Shaner, M. Postma, T. W. Gadella et al., Characterization of a Spectrally Diverse Set of Fluorescent Proteins as FRET Acceptors for MTurquoise2, vol.7, p.11999, 2017.

S. Padilla-parra, N. Audugé, M. Coppey-moisan, and M. Tramier, Quantitative Study of Protein-Protein Interactions in Live Cell by Dual-Color Fluorescence Correlation Spectroscopy, In Fluorescence Spectroscopy and Microscopy
URL : https://hal.archives-ouvertes.fr/hal-00951087

Y. Engelborghs and A. Visser, , vol.1076, pp.683-698, 2014.

S. Padilla-parra, N. Audugé, M. Coppey-moisan, and M. Tramier, Dual-Color Fluorescence Lifetime Correlation Spectroscopy to Quantify Protein-Protein Interactions in Live Cell, Microsc. Res. Tech, vol.74, issue.8, pp.788-793, 2011.
URL : https://hal.archives-ouvertes.fr/inserm-00604664

R. Bayliss, T. Sardon, I. Vernos, and E. Conti, Structural Basis of Aurora-A Activation by TPX2 at the Mitotic Spindle, Mol. Cell, vol.12, issue.4, pp.851-862, 2003.

G. M. Cheetham, Crystal Structure of Aurora-2, an Oncogenic Serine/Threonine Kinase, J. Biol. Chem, issue.45, pp.42419-42422, 2002.

Y. Zhang, J. Ni, Q. Huang, W. Ren, L. Yu et al., Identification of the Auto-Inhibitory Domains of Aurora-A Kinase, Biochem. Biophys. Res. Commun, vol.357, issue.2, pp.347-352, 2007.

R. Swaminathan, C. P. Hoang, and A. S. Verkman, Photobleaching Recovery and Anisotropy Decay of Green Fluorescent Protein GFP-S65T in Solution and Cells: Cytoplasmic Viscosity Probed by Green Fluorescent Protein Translational and Rotational Diffusion, Biophys. J, vol.72, issue.4, pp.1900-1907, 1997.

I. Gautier, M. Tramier, C. Durieux, J. Coppey, R. B. Pansu et al., Homo-FRET Microscopy in Living Cells to Measure Monomer-Dimer Transition of GFP-Tagged Proteins, Biophys. J, vol.80, issue.6, pp.3000-3008, 2001.

P. Ringer, A. Weißl, A. Cost, A. Freikamp, B. Sabass et al., Multiplexing Molecular Tension Sensors Reveals Piconewton Force Gradient across Talin-1, Nat. Methods, vol.2017, issue.11, pp.1090-1096
URL : https://hal.archives-ouvertes.fr/hal-01647129

M. Böhmer, M. Wahl, H. Rahn, R. Erdmann, and J. Enderlein, Time-Resolved Fluorescence Correlation Spectroscopy, Chem. Phys. Lett, vol.353, issue.5-6, pp.44-45, 2002.

Y. H. Foo, N. Naredi-rainer, D. C. Lamb, S. Ahmed, and T. Wohland, Factors Affecting the Quantification of Biomolecular Interactions by Fluorescence Cross-Correlation Spectroscopy, Biophys. J, vol.2012, issue.5, pp.1174-1183

T. Kohl, K. G. Heinze, R. Kuhlemann, A. Koltermann, and P. Schwille, A Protease Assay for Two-Photon Crosscorrelation and FRET Analysis Based Solely on Fluorescent Proteins, Proc. Natl. Acad. Sci, pp.12161-12166, 2002.

K. M. Dean, J. L. Lubbeck, J. K. Binder, L. R. Schwall, R. Jimenez et al., Analysis of Red-Fluorescent Proteins Provides Insight into Dark-State Conversion and Photodegradation, Biophys. J, vol.101, issue.4, pp.961-969, 2011.

L. Albertazzi, D. Arosio, L. Marchetti, F. Ricci, and F. Beltram, Quantitative FRET Analysis With the E 0 GFP-MCherry Fluorescent Protein Pair, Photochem. Photobiol, vol.85, issue.1, pp.287-297, 2009.

J. Goedhart, D. Von-stetten, M. Noirclerc-savoye, M. Lelimousin, L. Joosen et al., Structure-Guided Evolution of Cyan Fluorescent Proteins towards a Quantum Yield of 93%, Nat. Commun, vol.2012, issue.1, p.3

A. Leray, S. Padilla-parra, J. Roul, L. Héliot, M. Tramier et al., Temporal Quantification of FRET in Living Cells by Fast Time-Domain FLIM: A Comparative Study of Non-Fitting Methods
URL : https://hal.archives-ouvertes.fr/hal-00877143

, PloS One, vol.8, issue.7, 2013.

T. A. Nguyen, P. Sarkar, J. V. Veetil, S. V. Koushik, and S. S. Vogel, Fluorescence Polarization and Fluctuation Analysis Monitors Subunit Proximity, Stoichiometry, and Protein Complex Hydrodynamics, PloS One, vol.7, issue.5, 2012.

D. Nettels, D. Haenni, S. Maillot, M. Gueye, A. Barth et al., Excited-State Annihilation Reduces Power Dependence of Single-Molecule FRET Experiments, Phys. Chem. Chem. Phys, vol.2015, issue.48, pp.32304-32315