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Profile Publications(72)
ECB-PERS-4232

Publications By Valeria Matranga

Results 1 - 50 of 72 results

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Living in future ocean acidification, physiological adaptive responses of the immune system of sea urchins resident at a CO2 vent system., Migliaccio O, Pinsino A, Maffioli E, Smith AM, Agnisola C, Matranga V, Nonnis S, Tedeschi G, Byrne M, Gambi MC, Palumbo A., Sci Total Environ. July 1, 2019; 672 938-950.


Response to metals treatment of Fra1, a member of the AP-1 transcription factor family, in P. lividus sea urchin embryos., Russo R, Bonaventura R, Chiaramonte M, Costa C, Matranga V, Zito F., Mar Environ Res. August 1, 2018; 139 99-112.


Overview of the molecular defense systems used by sea urchin embryos to cope with UV radiation., Bonaventura R, Matranga V., Mar Environ Res. July 1, 2017; 128 25-35.


Effects of exposure to gadolinium on the development of geographically and phylogenetically distant sea urchins species., Martino C, Bonaventura R, Byrne M, Roccheri M, Matranga V., Mar Environ Res. July 1, 2017; 128 98-106.


Amino-modified polystyrene nanoparticles affect signalling pathways of the sea urchin (Paracentrotus lividus) embryos., Pinsino A, Bergami E, Della Torre C, Vannuccini ML, Addis P, Secci M, Dawson KA, Matranga V, Corsi I., Nanotoxicology. March 1, 2017; 11 (2): 201-209.


Characterization of an Alpha Type Carbonic Anhydrase from Paracentrotus lividus Sea Urchin Embryos., Karakostis K, Costa C, Zito F, Brümmer F, Matranga V., Mar Biotechnol (NY). June 1, 2016; 18 (3): 384-95.


Proteomic dataset of the sea urchin Paracentrotus lividus adhesive organs and secreted adhesive., Lebesgue N, da Costa G, Ribeiro RM, Ribeiro-Silva C, Martins GG, Matranga V, Scholten A, Cordeiro C, Heck AJ, Santos R., Data Brief. April 22, 2016; 7 1497-505.          


Deciphering the molecular mechanisms underlying sea urchin reversible adhesion: A quantitative proteomics approach., Lebesgue N, da Costa G, Ribeiro RM, Ribeiro-Silva C, Martins GG, Matranga V, Scholten A, Cordeiro C, Heck AJ, Santos R., J Proteomics. April 14, 2016; 138 61-71.


A minimal molecular toolkit for mineral deposition? Biochemistry and proteomics of the test matrix of adult specimens of the sea urchin Paracentrotus lividus., Karakostis K, Zanella-Cléon I, Immel F, Guichard N, Dru P, Lepage T, Plasseraud L, Matranga V, Marin F., J Proteomics. March 16, 2016; 136 133-44.


Development of a new integrative toxicity index based on an improvement of the sea urchin embryo toxicity test., Morroni L, Pinsino A, Pellegrini D, Regoli F, Matranga V., Ecotoxicol Environ Saf. January 1, 2016; 123 2-7.


Heterologous expression of newly identified galectin-8 from sea urchin embryos produces recombinant protein with lactose binding specificity and anti-adhesive activity., Karakostis K, Karakostis K, Costa C, Zito F, Matranga V., Sci Rep. December 7, 2015; 5 17665.            


Titanium dioxide nanoparticles stimulate sea urchin immune cell phagocytic activity involving TLR/p38 MAPK-mediated signalling pathway., Pinsino A, Russo R, Bonaventura R, Brunelli A, Marcomini A, Matranga V., Sci Rep. September 28, 2015; 5 14492.            


Carbonic anhydrase inhibition blocks skeletogenesis and echinochrome production in Paracentrotus lividus and Heliocidaris tuberculata embryos and larvae., Zito F, Koop D, Byrne M, Matranga V., Dev Growth Differ. September 1, 2015; 57 (7): 507-14.


A member of the Tlr family is involved in dsRNA innate immune response in Paracentrotus lividus sea urchin., Russo R, Chiaramonte M, Matranga V, Arizza V., Dev Comp Immunol. August 1, 2015; 51 (2): 271-7.


Combined Effects of Cadmium and UVB Radiation on Sea Urchin Embryos: Skeleton Impairment Parallels p38 MAPK Activation and Stress Genes Overexpression., Bonaventura R, Russo R, Zito F, Matranga V., Chem Res Toxicol. May 18, 2015; 28 (5): 1060-9.


Sea urchin immune cells as sentinels of environmental stress., Pinsino A, Matranga V., Dev Comp Immunol. March 1, 2015; 49 (1): 198-205.


The newly characterized Pl-jun is specifically expressed in skeletogenic cells of the Paracentrotus lividus sea urchin embryo., Russo R, Pinsino A, Costa C, Bonaventura R, Matranga V, Zito F., FEBS J. September 1, 2014; 281 (17): 3828-43.


Manganese overload affects p38 MAPK phosphorylation and metalloproteinase activity during sea urchin embryonic development., Pinsino A, Roccheri MC, Matranga V., Mar Environ Res. February 1, 2014; 93 64-9.


Time- and dose-dependent gene expression in sea urchin embryos exposed to UVB., Russo R, Bonaventura R, Matranga V., Mar Environ Res. February 1, 2014; 93 85-92.


Tissue-specificity and phylogenetics of Pl-MT mRNA during Paracentrotus lividus embryogenesis., Russo R, Zito F, Matranga V., Gene. May 1, 2013; 519 (2): 305-10.


Phylogenetic analysis and expression patterns of p16 and p19 in Paracentrotus lividus embryos., Costa C, Karakostis K, Zito F, Matranga V., Dev Genes Evol. July 1, 2012; 222 (4): 245-51.


Long-term environmental exposure to metals (Cu, Cd, Pb, Zn) activates the immune cell stress response in the common European sea star (Asterias rubens)., Matranga V, Pinsino A, Randazzo D, Giallongo A, Dubois P., Mar Environ Res. May 1, 2012; 76 122-7.


Toxicity of metal oxide nanoparticles in immune cells of the sea urchin., Falugi C, Aluigi MG, Chiantore MC, Privitera D, Ramoino P, Gatti MA, Fabrizi A, Pinsino A, Matranga V., Mar Environ Res. May 1, 2012; 76 114-21.


Stress response gene activation protects sea urchin embryos exposed to X-rays., Bonaventura R, Zito F, Costa C, Giarrusso S, Celi F, Matranga V., Cell Stress Chaperones. November 1, 2011; 16 (6): 681-7.


Manganese interferes with calcium, perturbs ERK signaling, and produces embryos with no skeleton., Pinsino A, Roccheri MC, Costa C, Matranga V., Toxicol Sci. September 1, 2011; 123 (1): 217-30.


Echinoderms as blueprints for biocalcification: regulation of skeletogenic genes and matrices., Matranga V, Bonaventura R, Costa C, Karakostis K, Pinsino A, Russo R, Zito F., Prog Mol Subcell Biol. January 1, 2011; 52 225-48.


Phylogenetic analysis and homology modelling of Paracentrotus lividus nectin., Costa C, Cavalcante C, Zito F, Yokota Y, Matranga V., Mol Divers. November 1, 2010; 14 (4): 653-65.


Transcriptional increase and misexpression of 14-3-3 epsilon in sea urchin embryos exposed to UV-B., Russo R, Zito F, Costa C, Bonaventura R, Matranga V., Cell Stress Chaperones. November 1, 2010; 15 (6): 993-1001.


Pl-nectin, a discoidin family member, is a ligand for betaC integrins in the sea urchin embryo., Zito F, Burke RD, Matranga V., Matrix Biol. June 1, 2010; 29 (5): 341-5.


Sea urchin embryos as an in vivo model for the assessment of manganese toxicity: developmental and stress response effects., Pinsino A, Matranga V, Trinchella F, Roccheri MC., Ecotoxicology. March 1, 2010; 19 (3): 555-62.


Embryonic development and skeletogenic gene expression affected by X-rays in the Mediterranean sea urchin Paracentrotus lividus., Matranga V, Zito F, Costa C, Bonaventura R, Giarrusso S, Celi F., Ecotoxicology. March 1, 2010; 19 (3): 530-7.


Echinoderm immunity., Smith LC, Ghosh J, Buckley KM, Clow LA, Dheilly NM, Haug T, Henson JH, Li C, Lun CM, Majeske AJ, Matranga V, Nair SV, Rast JP, Raftos DA, Roth M, Sacchi S, Schrankel CS, Stensvåg K., Adv Exp Med Biol. January 1, 2010; 708 260-301.


The major yolk protein is synthesized in the digestive tract and secreted into the body cavities in sea urchin larvae., Unuma T, Konishi K, Kiyomoto M, Matranga V, Yamano K, Ohta H, Yokota Y., Mol Reprod Dev. February 1, 2009; 76 (2): 142-50.


Sea urchin coelomocytes as a novel cellular biosensor of environmental stress: a field study in the Tremiti Island Marine Protected Area, Southern Adriatic Sea, Italy., Pinsino A, Della Torre C, Sammarini V, Bonaventura R, Amato E, Matranga V., Cell Biol Toxicol. December 1, 2008; 24 (6): 541-52.


Environmentally relevant cadmium concentrations affect development and induce apoptosis of Paracentrotus lividus larvae cultured in vitro., Filosto S, Roccheri MC, Bonaventura R, Matranga V., Cell Biol Toxicol. December 1, 2008; 24 (6): 603-10.


Manganese effects on haematopoietic cells and circulating coelomocytes of Asterias rubens (Linnaeus)., Oweson C, Sköld H, Pinsino A, Matranga V, Hernroth B., Aquat Toxicol. August 29, 2008; 89 (2): 75-81.


Skeletogenesis by transfated secondary mesenchyme cells is dependent on extracellular matrix-ectoderm interactions in Paracentrotus lividus sea urchin embryos., Kiyomoto M, Zito F, Costa C, Poma V, Sciarrino S, Matranga V., Dev Growth Differ. December 1, 2007; 49 (9): 731-41.


The toposome, essential for sea urchin cell adhesion and development, is a modified iron-less calcium-binding transferrin., Noll H, Alcedo J, Daube M, Frei E, Schiltz E, Hunt J, Humphries T, Matranga V, Hochstrasser M, Aebersold R, Lee H, Noll M., Dev Biol. October 1, 2007; 310 (1): 54-70.


Coelomocytes and post-traumatic response in the common sea star Asterias rubens., Pinsino A, Thorndyke MC, Matranga V., Cell Stress Chaperones. January 1, 2007; 12 (4): 331-41.


The genome of the sea urchin Strongylocentrotus purpuratus., null null, Sodergren E, Weinstock GM, Davidson EH, Cameron RA, Gibbs RA, Angerer RC, Angerer LM, Arnone MI, Burgess DR, Burke RD, Coffman JA, Dean M, Elphick MR, Ettensohn CA, Foltz KR, Hamdoun A, Hynes RO, Klein WH, Marzluff W, McClay DR, Morris RL, Mushegian A, Rast JP, Smith LC, Thorndyke MC, Vacquier VD, Wessel GM, Wray G, Zhang L, Elsik CG, Ermolaeva O, Hlavina W, Hofmann G, Kitts P, Landrum MJ, Mackey AJ, Maglott D, Panopoulou G, Poustka AJ, Pruitt K, Sapojnikov V, Song X, Souvorov A, Solovyev V, Wei Z, Whittaker CA, Worley K, Durbin KJ, Shen Y, Fedrigo O, Garfield D, Haygood R, Primus A, Satija R, Severson T, Gonzalez-Garay ML, Jackson AR, Milosavljevic A, Tong M, Killian CE, Livingston BT, Wilt FH, Adams N, Bellé R, Carbonneau S, Cheung R, Cormier P, Cosson B, Croce J, Fernandez-Guerra A, Genevière AM, Goel M, Kelkar H, Morales J, Mulner-Lorillon O, Robertson AJ, Goldstone JV, Cole B, Epel D, Gold B, Hahn ME, Howard-Ashby M, Scally M, Stegeman JJ, Allgood EL, Cool J, Judkins KM, McCafferty SS, Musante AM, Obar RA, Rawson AP, Rossetti BJ, Gibbons IR, Hoffman MP, Leone A, Istrail S, Materna SC, Samanta MP, Stolc V, Tongprasit W, Tu Q, Bergeron KF, Brandhorst BP, Whittle J, Berney K, Bottjer DJ, Calestani C, Peterson K, Chow E, Yuan QA, Elhaik E, Graur D, Reese JT, Bosdet I, Heesun S, Marra MA, Schein J, Anderson MK, Brockton V, Buckley KM, Cohen AH, Fugmann SD, Hibino T, Loza-Coll M, Majeske AJ, Messier C, Nair SV, Pancer Z, Terwilliger DP, Agca C, Arboleda E, Chen N, Churcher AM, Hallböök F, Humphrey GW, Idris MM, Kiyama T, Liang S, Mellott D, Mu X, Murray G, Olinski RP, Raible F, Rowe M, Taylor JS, Tessmar-Raible K, Wang D, Wilson KH, Yaguchi S, Gaasterland T, Galindo BE, Gunaratne HJ, Juliano C, Kinukawa M, Moy GW, Neill AT, Nomura M, Raisch M, Reade A, Roux MM, Song JL, Su YH, Townley IK, Voronina E, Wong JL, Amore G, Branno M, Brown ER, Cavalieri V, Duboc V, Duloquin L, Flytzanis C, Gache C, Lapraz F, Lepage T, Locascio A, Martinez P, Matassi G, Matranga V, Range R, Rizzo F, Röttinger E, Beane W, Bradham C, Byrum C, Glenn T, Hussain S, Manning G, Miranda E, Thomason R, Walton K, Wikramanayke A, Wu SY, Xu R, Brown CT, Chen L, Gray RF, Lee PY, Nam J, Oliveri P, Smith J, Muzny D, Bell S, Chacko J, Cree A, Curry S, Davis C, Dinh H, Dugan-Rocha S, Fowler J, Gill R, Hamilton C, Hernandez J, Hines S, Hume J, Jackson L, Jolivet A, Kovar C, Lee S, Lewis L, Miner G, Morgan M, Nazareth LV, Okwuonu G, Parker D, Pu LL, Thorn R, Wright R., Science. November 10, 2006; 314 (5801): 941-52.


UVB radiation prevents skeleton growth and stimulates the expression of stress markers in sea urchin embryos., Bonaventura R, Poma V, Costa C, Matranga V., Biochem Biophys Res Commun. March 4, 2005; 328 (1): 150-7.


Cell adhesion and communication: a lesson from echinoderm embryos for the exploitation of new therapeutic tools., Zito F, Costa C, Sciarrino S, Cavalcante C, Poma V, Matranga V., Prog Mol Subcell Biol. January 1, 2005; 39 7-44.


Monitoring chemical and physical stress using sea urchin immune cells., Matranga V, Pinsino A, Celi M, Natoli A, Bonaventura R, Schröder HC, Müller WE., Prog Mol Subcell Biol. January 1, 2005; 39 85-110.


DNA damage and developmental defects after exposure to UV and heavy metals in sea urchin cells and embryos compared to other invertebrates., Schröder HC, Di Bella G, Janipour N, Bonaventura R, Russo R, Müller WE, Matranga V., Prog Mol Subcell Biol. January 1, 2005; 39 111-37.


Cadmium induces the expression of specific stress proteins in sea urchin embryos., Roccheri MC, Agnello M, Bonaventura R, Matranga V., Biochem Biophys Res Commun. August 13, 2004; 321 (1): 80-7.


''Nectosome'': a novel cytoplasmic vesicle containing nectin in the egg of the sea urchin, Temnopleurus hardwickii., Kato KH, Abe T, Nakashima S, Matranga V, Zito F, Yokota Y., Dev Growth Differ. June 1, 2004; 46 (3): 239-47.


Commitment and response to inductive signals of primary mesenchyme cells of the sea urchin embryo., Kiyomoto M, Zito F, Sciarrino S, Matranga V., Dev Growth Differ. February 1, 2004; 46 (1): 107-14.


Expression of univin, a TGF-beta growth factor, requires ectoderm-ECM interaction and promotes skeletal growth in the sea urchin embryo., Zito F, Costa C, Sciarrino S, Poma V, Russo R, Angerer LM, Matranga V., Dev Biol. December 1, 2003; 264 (1): 217-27.


Stress to cadmium monitored by metallothionein gene induction in Paracentrotus lividus embryos., Russo R, Bonaventura R, Zito F, Schröder HC, Müller I, Müller WE, Matranga V., Cell Stress Chaperones. January 1, 2003; 8 (3): 232-41.


Physiological and induced apoptosis in sea urchin larvae undergoing metamorphosis., Roccheri MC, Tipa C, Bonaventura R, Matranga V., Int J Dev Biol. September 1, 2002; 46 (6): 801-6.

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