Skip to content. | Skip to navigation

Personal tools

You are here: Home / Publications avant IGFL / S. MERABET - Ontogenesis and molecular interactions

S. MERABET - Ontogenesis and molecular interactions

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

There are 21 references in this bibliography folder.

Boube, M, Hudry, B, Immarigeon, C, Carrier, Y, Bernat-Fabre, S, Merabet, S, Graba, Y, Bourbon, HM, and Cribbs, DL (2014).
Drosophila melanogaster Hox transcription factors access the RNA polymerase II machinery through direct homeodomain binding to a conserved motif of mediator subunit Med19
PLoS Genet, 10(5):e1004303.

Merabet, S and Hudry, B (2013).
Hox transcriptional specificity despite a single class of cofactors: are flexible interaction modes the key? Plasticity in Hox/PBC interaction modes as a common molecular strategy for shaping Hox transcriptional activities
Bioessays, 35(2):88-92.

Rivas, ML, Espinosa-Vazquez, JM, Sambrani, N, Greig, S, Merabet, S, Graba, Y, and Hombria, JC (2013).
Antagonism versus cooperativity with TALE cofactors at the base of the functional diversification of Hox protein function
PLoS Genet, 9(2):e1003252.

Sambrani, N, Hudry, B, Maurel-Zaffran, C, Zouaz, A, Mishra, R, Merabet, S, and Graba, Y (2013).
Distinct molecular strategies for Hox-mediated limb suppression in Drosophila: from cooperativity to dispensability/antagonism in TALE partnership
PLoS Genet, 9(3):e1003307.

Hudry, B, Remacle, S, Delfini, MC, Rezsohazy, R, Graba, Y, and Merabet, S (2012).
Hox proteins display a common and ancestral ability to diversify their interaction mode with the PBC class cofactors
PLoS Biol, 10(6):e1001351.

Hudry, B, Viala, S, Graba, Y, and Merabet, S (2011).
Visualization of protein interactions in living Drosophila embryos by the bimolecular fluorescence complementation assay
BMC Biol, 9:5.

Merabet, S and Hudry, B (2011).
On the border of the homeotic function: re-evaluating the controversial role of cofactor-recruiting motifs: the role of cofactor-recruiting motifs in conferring Hox evolutionary flexibility may critically depend on the protein environment
Bioessays, 33(7):499-507.

Merabet, S, Litim-Mecheri, I, Karlsson, D, Dixit, R, Saadaoui, M, Monier, B, Brun, C, Thor, S, Vijayraghavan, K, Perrin, L, Pradel, J, and Graba, Y (2011).
Insights into Hox protein function from a large scale combinatorial analysis of protein domains
PLoS Genet, 7(10):e1002302.

Saadaoui, M, Merabet, S, Litim-Mecheri, I, Arbeille, E, Sambrani, N, Damen, W, Brena, C, Pradel, J, and Graba, Y (2011).
Selection of distinct Hox-Extradenticle interaction modes fine-tunes Hox protein activity
Proc Natl Acad Sci U S A, 108(6):2276-81.

Merabet, S, Sambrani, N, Pradel, J, and Graba, Y (2010).
Regulation of Hox activity: insights from protein motifs
Adv Exp Med Biol, 689:3-16.

Merabet, S, Hudry, B, Saadaoui, M, and Graba, Y (2009).
Classification of sequence signatures: a guide to Hox protein function
Bioessays, 31(5):500-11.

Merabet, S, Saadaoui, M, Sambrani, N, Hudry, B, Pradel, J, Affolter, M, and Graba, Y (2007).
A unique Extradenticle recruitment mode in the Drosophila Hox protein Ultrabithorax
Proc Natl Acad Sci U S A, 104(43):16946-51.

Ebner, A, Cabernard, C, Affolter, M, and Merabet, S (2005).
Recognition of distinct target sites by a unique Labial/Extradenticle/Homothorax complex
Development, 132(7):1591-600.

Merabet, S, Ebner, A, and Affolter, M (2005).
The Drosophila Extradenticle and Homothorax selector proteins control branchless/FGF expression in mesodermal bridge-cells
EMBO Rep, 6(8):762-8.

Merabet, S, Hombria, JC, Hu, N, Pradel, J, and Graba, Y (2005).
Hox-controlled reorganisation of intrasegmental patterning cues underlies Drosophila posterior spiracle organogenesis
Development, 132(13):3093-102.

Merabet, S, Pradel, J, and Graba, Y (2005).
Getting a molecular grasp on Hox contextual activity
Trends Genet, 21(9):477-80.

Grienenberger, A, Merabet, S, Manak, J, Iltis, I, Fabre, A, Berenger, H, Scott, MP, Pradel, J, and Graba, Y (2003).
Tgfbeta signaling acts on a Hox response element to confer specificity and diversity to Hox protein function
Development, 130(22):5445-55.

Merabet, S, Kambris, Z, Capovilla, M, Berenger, H, Pradel, J, and Graba, Y (2003).
The hexapeptide and linker regions of the AbdA Hox protein regulate its activating and repressive functions
Dev Cell, 4(5):761-8.

Merabet, S, Catala, F, Pradel, J, and Graba, Y (2002).
A green fluorescent protein reporter genetic screen that identifies modifiers of Hox gene function in the Drosophila embryo
Genetics, 162(1):189-202.

Merabet, S, Grienenberger, A, Pradel, J, and Graba, Y (2001).
Modes d'action des protéines Hox: des interrogations nouvelles.
Médecine/Sciences, 7(17):781-786.

Chauvet, S, Merabet, S, Bilder, D, Scott, MP, Pradel, J, and Graba, Y (2000).
Distinct hox protein sequences determine specificity in different tissues
Proc Natl Acad Sci U S A, 97(8):4064-9.

Document Actions