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

There are 18 references in this bibliography folder.

Lamiré, LA, Milani, P, Runel, G, Kiss, A, Arias, L, Vergier, B, de Bossoreille, S, Das, P, Cluet, D, Boudaoud, A, and Grammont, M (2020).
Gradient in cytoplasmic pressure in germline cells controls overlying epithelial cell morphogenesis
PLoS Biol, 18(11):e3000940.

Chlasta, J, Milani, P, Runel, G, Duteyrat, J, Arias, L, Lamiré, L, Boudaoud, A, and Grammont, M (2017).
Variations in basement membrane mechanics are linked to epithelial morphogenesis.
Development, 144 - Specific issue “On Growth and Form - 100 years on »:4350-4362.

Ducuing, A and Vincent, S (2016).
The actin cable is dispensable in directing dorsal closure dynamics but neutralizes mechanical stress to prevent scarring in the Drosophila embryo.
Nat Cell Biol, 18(11):1149-1160.

Dureau, M, Alessandri, A, Bagnerini, P, and Vincent, S (2016).
Modeling and Identification of Amnioserosa Cell Mechanical Behavior by Using Mass-Spring Lattices.
IEEE/ACM Trans Comput Biol Bioinform.

Brigaud, I, Duteyrat, J, Chlasta, J, Le Bail, S, Couderc, J, and Grammont, M (2015).
Transforming Growth Factor beta/activin signalling induces epithelial cell flattening during Drosophila oogenesis.
Biol Open, 4(3):345-54.

Ducuing, A, Keeley, C, Mollereau, B, and Vincent, S (2015).
A DPP-mediated feed-forward loop canalizes morphogenesis during Drosophila dorsal closure.
J Cell Biol, 208(2):239-48.

Ducuing, A, Mollereau, B, Axelrod, JD, and Vincent, S (2013).
Absolute requirement of cholesterol binding for Hedgehog gradient formation in Drosophila.
Biol Open, 2(6):596-604.

Abate, A, Vincent, S, Dobbe, R, Silletti, A, Master, N, Axelrod, JD, and Tomlin, CJ (2012).
A mathematical model to study the dynamics of epithelial cellular networks.
IEEE/ACM Trans Comput Biol Bioinform, 9(6):1607-20.

Vachias, C, Couderc, J, and Grammont, M (2010).
A two-step Notch-dependant mechanism controls the selection of the polar cell pair in Drosophila oogenesis.
Development, 137(16):2703-11.

Vincent, S, Perrimon, N, and Axelrod, JD (2008).
Hedgehog and Wingless stabilize but do not induce cell fate during Drosophila dorsal embryonic epidermal patterning.
Development, 135(16):2767-75.

Grammont, M (2007).
Adherens junction remodeling by the Notch pathway in Drosophila melanogaster oogenesis.
J Cell Biol, 177(1):139-50.

Bach, EA, Vincent, S, Zeidler, MP, and Perrimon, N (2003).
A sensitized genetic screen to identify novel regulators and components of the Drosophila janus kinase/signal transducer and activator of transcription pathway.
Genetics, 165(3):1149-66.

Grammont, M and Irvine, KD (2002).
Organizer activity of the polar cells during Drosophila oogenesis.
Development, 129(22):5131-40.

Debec, A, Grammont, M, Berson, G, Dastugue, B, Sullivan, W, and Couderc, JL (2001).
Toucan protein is essential for the assembly of syncytial mitotic spindles in Drosophila melanogaster.
Genesis, 31(4):167-75.

Grammont, M and Irvine, KD (2001).
fringe and Notch specify polar cell fate during Drosophila oogenesis.
Development, 128(12):2243-53.

Grammont, M, Berson, G, Dastugue, B, and Couderc, JL (2000).
Expression and cellular localization of the Toucan protein during Drosophila oogenesis.
Mech Dev, 90(2):289-92.

Liu, X, Grammont, M, and Irvine, KD (2000).
Roles for scalloped and vestigial in regulating cell affinity and interactions between the wing blade and the wing hinge.
Dev Biol, 228(2):287-303.

Grammont, M, Dastugue, B, and Couderc, JL (1997).
The Drosophila toucan (toc) gene is required in germline cells for the somatic cell patterning during oogenesis.
Development, 124(24):4917-26.

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