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Underwater high frequency noise: Biological responses in sea urchin Arbacia lixula (Linnaeus, 1758). , Vazzana M, Mauro M, Ceraulo M, Dioguardi M, Papale E, Mazzola S, Arizza V, Beltrame F, Inguglia L, Buscaino G., Comp Biochem Physiol A Mol Integr Physiol. April 1, 2020; 242 110650.
Genome-wide identification of HSP70/110 genes in sea cucumber Apostichopus japonicus and comparative analysis of their involvement in aestivation. , Gao L, Yuan Z, Yu S, Yang Y, Li Y, He C., Comp Biochem Physiol Part D Genomics Proteomics. December 1, 2018; 28 162-171.
Dual functions of a 4-hydroxyphenylpyruvate dioxygenase for Vibrio splendidus survival and infection. , Liang W, Zhang W , Shao Y , Zhao X, Li C., Microb Pathog. July 1, 2018; 120 47-54.
Differential expression of stress candidate genes for thermal tolerance in the sea urchin Loxechinus albus. , Vergara-Amado J, Silva AX, Manzi C, Nespolo RF, Cárdenas L., J Therm Biol. August 1, 2017; 68 (Pt A): 104-109.
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.
Histological, ultrastructural and heat shock protein 70 ( HSP70) responses to heat stress in the sea cucumber Apostichopus japonicus. , Xu D, Sun L, Liu S, Zhang L , Yang H ., Fish Shellfish Immunol. August 1, 2015; 45 (2): 321-6.
Cellular responses and HSP70 expression during wound healing in Holothuria tubulosa (Gmelin, 1788). , Vazzana M, Siragusa T, Arizza V, Buscaino G, Celi M., Fish Shellfish Immunol. February 1, 2015; 42 (2): 306-15.
Identification and assessment of differentially expressed genes involved in growth regulation in Apostichopus japonicus. , Zhu L, Li CH, Su XR, Guo CY, Wang Z, Jin CH, Li Y, Li TW., Genet Mol Res. August 20, 2013; 12 (3): 3028-37.
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.
[Novel compounds increasing chaperone Hsp70 expression and their biological activity]. , Eremenko EM, Antimonova OI, Shekalova OG, Polonik SG, Margulis BA, Guzhova IV., Tsitologiia. January 1, 2010; 52 (3): 235-41.
Coelomocyte numbers and expression of HSP70 in wounded sea stars during hypoxia. , Holm K, Hernroth B, Thorndyke M., Cell Tissue Res. November 1, 2008; 334 (2): 319-25.
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.
Extracellular heat shock protein 70 has novel functional effects on sea urchin eggs and coelomocytes. , Browne CL, Swan JB, Rankin EE, Calvert H, Griffiths S, Tytell M., J Exp Biol. April 1, 2007; 210 (Pt 7): 1275-87.
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.
Localization of HSP70, Cdc2, and cyclin B in sea urchin oocytes in non-stressed conditions. , Geraci F, Agueli C, Giudice G, Sconzo G., Biochem Biophys Res Commun. October 24, 2003; 310 (3): 748-53.
A constitutive 70 kDa heat-shock protein is localized on the fibres of spindles and asters at metaphase in an ATP-dependent manner: a new chaperone role is proposed. , Agueli C, Geraci F, Giudice G, Chimenti L, Cascino D, Sconzo G., Biochem J. December 1, 2001; 360 (Pt 2): 413-9.
Hsp70s contain a specific sulfogalactolipid binding site. Differential aglycone influence on sulfogalactosyl ceramide binding by recombinant prokaryotic and eukaryotic hsp70 family members. , Mamelak D, Mylvaganam M, Whetstone H, Hartmann E, Lennarz W , Wyrick PB, Raulston J, Han H, Hoffman P, Lingwood CA., Biochemistry. March 27, 2001; 40 (12): 3572-82.
Cellular and biochemical responses to environmental and experimentally induced stress in sea urchin coelomocytes. , Matranga V , Toia G, Bonaventura R, Müller WE., Cell Stress Chaperones. April 1, 2000; 5 (2): 113-20.
Studies on heat shock proteins in sea urchin development. , Giudice G, Sconzo G, Roccheri MC ., Dev Growth Differ. August 1, 1999; 41 (4): 375-80.
Constitutive hsp70 is essential to mitosis during early cleavage of Paracentrotus lividus embryos: the blockage of constitutive hsp70 impairs mitosis. , Sconzo G, Palla F, Agueli C, Spinelli G , Giudice G, Cascino D, Geraci F., Biochem Biophys Res Commun. June 24, 1999; 260 (1): 143-9.
Identification and characterization of a constitutive HSP75 in sea urchin embryos. , Sconzo G, Amore G, Capra G, Giudice G, Cascino D, Ghersi G., Biochem Biophys Res Commun. May 8, 1997; 234 (1): 24-9.
Activation by heat shock of hsp70 gene transcription in sea urchin embryos. , Sconzo G, Ferraro MG, Amore G, Giudice G, Cascino D, Scardina G., Biochem Biophys Res Commun. December 26, 1995; 217 (3): 1032-8.
Sea urchin egg receptor for sperm: sequence similarity of binding domain and hsp70. , Foltz KR , Partin JS, Lennarz WJ ., Science. March 5, 1993; 259 (5100): 1421-5.