A microarray study of carpet-shell Clam (Ruditapes decussatus) shows common and organ-specific growth-related gene expression differences in gills and digestive gland
Growth rate is one of the most important traits from the point of view of individual fitness and commercial production in mollusks, but its molecular and physiological basis is poorly known. We have studied differential gene expression related to differences in growth rate in adult individuals of the commercial marine clam Ruditapes decussatus. Gene expression in the gills and the digestive gland was analyzed in 5 fast-growing and five slow-growing animals by means of an oligonucleotide microarray containing 14,003 probes. A total of 356 differentially expressed genes (DEG) were found. We tested the hypothesis that differential expression might be concentrated at the growth control gene core (GCGC), i.e., the set of genes that underlie the molecular mechanisms of genetic control of tissue and organ growth and body size, as demonstrated in model organisms. The GCGC includes the genes coding for enzymes of the insulin/insulin-like growth factor signaling pathway (IIS), enzymes of four additional signaling pathways (Raf/Ras/Mapk, Jnk, TOR, and Hippo), and transcription factors acting at the end of those pathways. Only two out of 97 GCGC genes present in the microarray showed differential expression, indicating a very little contribution of GCGC genes to growth-related differential gene expression. Forty eight DEGs were shared by both organs, with gene ontology (GO) annotations corresponding to transcription regulation, RNA splicing, sugar metabolism, protein catabolism, immunity, defense against pathogens, and fatty acid biosynthesis. GO term enrichment tests indicated that genes related to growth regulation, development and morphogenesis, extracellular matrix proteins, and proteolysis were overrepresented in the gills. In the digestive gland overrepresented GO terms referred to gene expression control through chromatin rearrangement, RAS-related small GTPases, glucolysis, and energy metabolism. These analyses suggest a relevant role of, among others, some genes related to the IIS, such as the ParaHox gene Xlox, CCAR and the CCN family of secreted proteins, in the regulation of growth in bivalves ; This study was financed by grants AGL2010-16743 and AGL2013-49144-C3-3-R from the Dirección General de Investigación Científica y Técnica of the Spanish Government, and co-financed by COMPETE Program and by Portuguese National Funds through PEst-255 C/MAR/LA0015/2011 project and by the Portuguese FCT through UID/Multi/04326/2013 project. The stay of DC and CS in Faro in 2011 was funded by the transnational access program Assemble (Association of European Marine Biology Laboratories). The stays of CS in Padua in 2011 and 2016 were funded by a BEST 2011 fellowship from the Generalitat Valenciana and a fellowship from the Ministry of Education, Culture, and Sports of the Spanish Government, respectively ; Peer reviewed