Javier Porta

The piscine SAF-1 cell line: genetic stability and labeling.

Fish cell lines are increasingly important research tools. The SAF-1 cell line, fibroblast-like culture derived from the marine fish gilthead seabream (Sparus aurata), has proved useful in many applications, especially in viral research. For cell lines intended as in vitro models, characterization of their properties and authentication are essential for deeper understanding of their performance and thus more precise experimental design and applicability. In this study we characterized the SAF-1 cell line in terms of genetic stability through time and genetic labeling. Methods for determining stability include telomerase activity, karyotyping, mapping of ribosomal RNA regions, and DNA content. For genetic labeling 12 microsatellite loci were used. The results indicate that telomerase has been activated in the course of SAF-1 development, and the highest levels of telomerase activity correlate with an increase in cell proliferation, thus supporting a permanent cell line. This stability is in agreement with the normal situation presented by the cytogenetic traits and DNA content values, and the genotypic profile allows SAF-1 authentication at the single individual level. This study increases the value of SAF-1 as an in vitro system, which is now one of the few well-characterized cell lines from a marine fish.

Characterization of two Synechococcus sp. PCC7002‐related cyanobacterial strains in relation to 16S rDNA, crtR gene, lipids and pigments

Two Synechococcus strains from the Culture Collection of the Institute for Marine Sciences of Andalusia (Cádiz, Spain), namely Syn01 and Syn02, were found to be closely related to the model strain Synechococcus sp. PCC7002 according to 16S rDNA (99% identity). Pigment and lipid profiles and crtR genes of these strains were ascertained and compared. The sequences of the crtR genes of these strains were constituted by 888 bp, and showed 99% identity between Syn01 and Syn02, and 94% identity of Syn01 and Syn02 to Synechococcus sp. PCC7002. There was coincidence in photosynthetic pigments between the three strains apart from the pigment synechoxanthin, which could be only observed in Synechococcus sp. PCC7002. Species of sulfoquinovosyl‐diacyl‐glycerol (SQDG), phosphatidyl‐glycerol (PG), mono‐ and di‐galactosyl‐diacyl‐glycerol (MGDG and DGDG) were detected by high performance liquid chromatography‐mass spectrometry analysis of lipid extracts. The most abundant species within each lipid class were those containing C18:3 together with C16:0 fatty acyl substituents in the glycerol backbone of the same molecule. From these results it is concluded that these cyanobacterial strains belong to group 2 of the lipid classification of cyanobacteria.