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Publications IGFL

This folder holds the following references to publications, sorted by year and author.

There are 55 references in this bibliography folder.

Zekri, Y, Agnol, LD, Flamant, F, and Guyot, R (2021).
Assessment of pesticides capacity to act as agonists/antagonists of the thyroid hormone nuclear receptors
iScience, 24(9):102957.

Zekri, Y, Flamant, F, and Gauthier, K (2021).
Central vs. Peripheral Action of Thyroid Hormone in Adaptive Thermogenesis: A Burning Topic
Cells, 10(6).

Le Maire, A, Bouhours-Nouet, N, Soamalala, J, Delphine, M, Paloni, M, Guee, L, Heron, D, Mignot, C, Illouz, F, Joubert, F, Briet, C, Rodien, P, Bourguet, W, Flamant, F, and Guyot, R (2020).
Two novel cases of resistance to thyroid hormone due to THRA mutation (RTHα)

Malbeteau, L, Poulard, C, Languilaire, C, Mikaelian, I, Flamant, F, Le Romancer, M, and Corbo, L (2020).
PRMT1 Is Critical for the Transcriptional Activity and the Stability of the Progesterone Receptor.
iScience, 23(6):101236.

Richard, S, Guyot, R, Rey-Millet, M, Prieux, M, Markossian, S, Aubert, D, and Flamant, F (2020).
A Pivotal Genetic Program Controlled by Thyroid Hormone during the Maturation of GABAergic Neurons
iScience, 23(3):100899.

Gauthier, K (2018).
Protocols for Studying How Thyroid Hormone Receptors Trigger Adaptive Thermogenesis in Mice.
Methods Mol Biol, 1801:105-110.

Guan, W, Guyot, R, and Flamant, F (2018).
Two Protocols to Study the Interactions of Thyroid Hormone Receptors with Other Proteins and Chromatin
, 1801:9-16.

Manka, P, Coombes, JD, Boosman, R, Gauthier, K, Papa, S, and Syn, WK (2018).
Thyroid hormone in the regulation of hepatocellular carcinoma and its microenvironment.
Cancer Lett, 419:175-186.

CRISPR/Cas9 Editing of the Mouse Thra Gene Produces Models with Variable Resistance to Thyroid Hormone
Thyroid, 28(1):139-150.

Neggazi, S, Canaple, L, Hamlat, N, Gauthier, K, Samarut, J, Bricca, G, Aouichat-Bouguerra, S, and Beylot, M (2018).
Thyroid Hormone Receptor Alpha Deletion in ApoE-/- Mice Alters the Arterial Renin-Angiotensin System and Vascular Smooth Muscular Cell Cholesterol Metabolism
J Vasc Res, 55(4):224-234.

Richard, S and Flamant, F (2018).
Regulation of T3 Availability in the Developing Brain: The Mouse Genetics Contribution
Frontiers in Endocrinology, 9.

Teixeira, M, Py, BF, Bosc, C, Laubreton, D, Moutin, M, Marvel, J, Flamant, F, and Markossian, S (2018).
Electroporation of mice zygotes with dual guide RNA/Cas9 complexes for simple and efficient cloning-free genome editing.
Sci Rep, 8(1):474.

Flamant, F, Cheng, SY, Hollenberg, AN, Moeller, LC, Samarut, J, Wondisford, FE, Yen, PM, and Refetoff, S (2017).
Thyroid hormone signaling pathways. Time for a more precise nomenclature

Flamant, F, Gauthier, K, and Richard, S (2017).
Genetic Investigation of Thyroid Hormone Receptor Function in the Developing and Adult Brain
Curr Top Dev Biol, 125:303-335.

Guan, W, Guyot, R, Samarut, J, Flamant, F, Wong, J, and Gauthier, KC (2017).
Methylcytosine dioxygenase TET3 interacts with thyroid hormone nuclear receptors and stabilizes their association to chromatin
Proc Natl Acad Sci U S A, 114(31):8229-8234.

Richard, S, Aguilera, N, Thevenet, M, Dkhissi-Benyahya, O, and Flamant, F (2017).
Neuronal expression of a thyroid hormone receptor alpha mutation alters mouse behaviour
Behav Brain Res, 321:18-27.

Arbogast, P, Flamant, F, Godement, P, Glosmann, M, and Peichl, L (2016).
Thyroid Hormone Signaling in the Mouse Retina
PLoS One, 11(12):e0168003.

Benoit, JB, Adelman, ZN, Reinhardt, K, Dolan, A, Poelchau, M, Jennings, EC, Szuter, EM, Hagan, RW, Gujar, H, Shukla, JN, Zhu, F, Mohan, M, Nelson, DR, Rosendale, AJ, Derst, C, Resnik, V, Wernig, S, Menegazzi, P, Wegener, C, Peschel, N, Hendershot, JM, Blenau, W, Predel, R, Johnston, PR, Ioannidis, P, Waterhouse, RM, Nauen, R, Schorn, C, Ott, MC, Maiwald, F, Johnston, JS, Gondhalekar, AD, Scharf, ME, Peterson, BF, Raje, KR, Hottel, BA, Armisen, D, Crumiere, AJ, Refki, PN, Santos, ME, Sghaier, E, Viala, S, Khila, A, Ahn, SJ, Childers, C, Lee, CY, Lin, H, Hughes, DS, Duncan, EJ, Murali, SC, Qu, J, Dugan, S, Lee, SL, Chao, H, Dinh, H, Han, Y, Doddapaneni, H, Worley, KC, Muzny, DM, Wheeler, D, Panfilio, KA, Vargas Jentzsch, IM, Vargo, EL, Booth, W, Friedrich, M, Weirauch, MT, Anderson, MA, Jones, JW, Mittapalli, O, Zhao, C, Zhou, JJ, Evans, JD, Attardo, GM, Robertson, HM, Zdobnov, EM, Ribeiro, JM, Gibbs, RA, Werren, JH, Palli, SR, Schal, C, and Richards, S (2016).
Unique features of a global human ectoparasite identified through sequencing of the bed bug genome
Nat Commun, 7:10165.

Finan, B, Clemmensen, C, Zhu, Z, Stemmer, K, Gauthier, K, Muller, L, De Angelis, M, Moreth, K, Neff, F, Perez-Tilve, D, Fischer, K, Lutter, D, Sanchez-Garrido, MA, Liu, P, Tuckermann, J, Malehmir, M, Healy, ME, Weber, A, Heikenwalder, M, Jastroch, M, Kleinert, M, Jall, S, Brandt, S, Flamant, F, Schramm, KW, Biebermann, H, Doring, Y, Weber, C, Habegger, KM, Keuper, M, Gelfanov, V, Liu, F, Kohrle, J, Rozman, J, Fuchs, H, Gailus-Durner, V, Hrabe de Angelis, M, Hofmann, SM, Yang, B, Tschop, MH, DiMarchi, R, and Muller, TD (2016).
Chemical Hybridization of Glucagon and Thyroid Hormone Optimizes Therapeutic Impact for Metabolic Disease
Cell, 167(3):843-857 e14.

Flamant, F (2016).
Futures Challenges in Thyroid Hormone Signaling Research
Front Endocrinol (Lausanne), 7:58.

Markossian, S and Flamant, F (2016).
CRISPR/Cas9: a breakthrough in generating mouse models for endocrinologists
J Mol Endocrinol, 57(2):R81-92.

Richard, S, Aguilera, N, Thevenet, M, Dkhissi-Benyahya, O, and Flamant, F (2016).
Neuronal expression of a thyroid hormone receptor alpha mutation alters mouse behaviour
Behav Brain Res, 321:18-27.

Chatonnet, F, Flamant, F, and Morte, B (2015).
A temporary compendium of thyroid hormone target genes in brain
Biochim Biophys Acta, 1849(2):122-9.

Espiard, S, Savagner, F, Flamant, F, Vlaeminck-Guillem, V, Guyot, R, Munier, M, d'Herbomez, M, Bourguet, W, Pinto, G, Rose, C, Rodien, P, and Wemeau, JL (2015).
A Novel Mutation in THRA Gene Associated With an Atypical Phenotype of Resistance to Thyroid Hormone
J Clin Endocrinol Metab, 100(8):2841-8.

Farges, JC, Bellanger, A, Ducret, M, Aubert-Foucher, E, Richard, B, Alliot-Licht, B, Bleicher, F, and Carrouel, F (2015).
Human odontoblast-like cells produce nitric oxide with antibacterial activity upon TLR2 activation
Front Physiol, 6:185.

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