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Summary Expression Gene Literature (15) GO Terms (3) Nucleotides (16) Proteins (9) Interactants (101) Wiki
ECB-GENEPAGE-23192757

Papers associated with arid3a



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Coup-TF: A maternal factor essential for differentiation along the embryonic axes in the sea urchin Paracentrotus lividus., Tsironis I, Paganos P, Gouvi G, Tsimpos P, Stamopoulou A, Arnone MI, Flytzanis CN., Dev Biol. July 1, 2021; 475 131-144.

Primary structure and anticoagulant activity of fucoidan from the sea cucumber Holothuria polii., Mansour MB, Balti R, Yacoubi L, Ollivier V, Chaubet F, Maaroufi RM., Int J Biol Macromol. January 1, 2019; 121 1145-1153.

Physico-chemical characterization and pharmacological activities of sulfated polysaccharide from sea urchin, Paracentrotus lividus., Salem YB, Amri S, Hammi KM, Abdelhamid A, Cerf DL, Bouraoui A, Majdoub H., Int J Biol Macromol. April 1, 2017; 97 8-15.

Large-scale gene expression study in the ophiuroid Amphiura filiformis provides insights into evolution of gene regulatory networks., Dylus DV, Czarkwiani A, Stångberg J, Ortega-Martinez O, Dupont S, Oliveri P., Evodevo. January 1, 2016; 7 2.            

Sub-circuits of a gene regulatory network control a developmental epithelial-mesenchymal transition., Saunders LR, McClay DR., Development. April 1, 2014; 141 (7): 1503-13.

The impact of gene expression variation on the robustness and evolvability of a developmental gene regulatory network., Garfield DA, Runcie DE, Babbitt CC, Haygood R, Nielsen WJ, Wray GA., PLoS Biol. October 1, 2013; 11 (10): e1001696.            

Heterochronic activation of VEGF signaling and the evolution of the skeleton in echinoderm pluteus larvae., Morino Y, Koga H, Tachibana K, Shoguchi E, Kiyomoto M, Wada H., Evol Dev. January 1, 2012; 14 (5): 428-36.

Ancestral regulatory circuits governing ectoderm patterning downstream of Nodal and BMP2/4 revealed by gene regulatory network analysis in an echinoderm., Saudemont A, Haillot E, Mekpoh F, Bessodes N, Quirin M, Lapraz F, Duboc V, Röttinger E, Range R, Oisel A, Besnardeau L, Wincker P, Lepage T., PLoS Genet. December 23, 2010; 6 (12): e1001259.                      

Monte Carlo analysis of an ODE Model of the Sea Urchin Endomesoderm Network., Kühn C, Wierling C, Kühn A, Klipp E, Panopoulou G, Lehrach H, Poustka AJ., BMC Syst Biol. August 23, 2009; 3 83.                      

The surprising complexity of the transcriptional regulation of the spdri gene reveals the existence of new linkages inside sea urchin''s PMC and Oral Ectoderm Gene Regulatory Networks., Mahmud AA, Amore G., Dev Biol. October 15, 2008; 322 (2): 425-34.

Compositional genome contexts affect gene expression control in sea urchin embryo., Mahmud AA, Amore G, Bernardi G., PLoS One. January 1, 2008; 3 (12): e4025.      

cis-Regulatory control of cyclophilin, a member of the ETS-DRI skeletogenic gene battery in the sea urchin embryo., Amore G, Davidson EH., Dev Biol. May 15, 2006; 293 (2): 555-64.

CBFbeta is a facultative Runx partner in the sea urchin embryo., Robertson AJ, Dickey-Sims C, Ransick A, Rupp DE, McCarthy JJ, Coffman JA., BMC Biol. February 9, 2006; 4 4.            

Expression of an NK2 homeodomain gene in the apical ectoderm defines a new territory in the early sea urchin embryo., Takacs CM, Amore G, Oliveri P, Poustka AJ, Wang D, Burke RD, Peterson KJ., Dev Biol. May 1, 2004; 269 (1): 152-64.

Spdeadringer, a sea urchin embryo gene required separately in skeletogenic and oral ectoderm gene regulatory networks., Amore G, Yavrouian RG, Peterson KJ, Ransick A, McClay DR, Davidson EH., Dev Biol. September 1, 2003; 261 (1): 55-81.

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