Contribución al estudio del patrimonio de Cacela: cartografía, arquitectura y paisaje en el contexto del algarve oriental en Portugal

El presente artículo estudia la cartografía de Cacela en el sur de Portugal con el propósito de interpretar su transformación a través del tiempo, considerando la arquitectura, el urbanismo y el paisaje de forma integrada. La lectura de esa transformación se lleva de la mano de las principales cartas de Cacela que coinciden con el inicio del siglo XVII, la aproximación al final del Antiguo Régimen y la transición del siglo XIX al XX, asociando cada uno de estos tiempos a un modo particular de representación. La interpretación de las diferentes cartas está organizada, en términos me- todológicos, a partir del recurso a fuentes escritas de la época, culminando con la elaboración de un dibujo final que contiene la representación del espacio edificado y del paisaje de Cacela a mediados del siglo pasado. Este trabajo se inscribe en una investigación más amplia sobre las aglomeraciones urbanas de pequeña dimensión en las diver- sas subunidades geográficas del sur de Portugal, comprendiendo el paisaje, la morfología urbana y el levantamiento integral de todo el núcleo edificado.

Exploring an uncommon host-parasite interaction to unveil the uniqueness of Perkinsus sp as a model organism

We report the exploration of some unique metabolic pathways in Perkinsus olseni a marine protist parasite, responsible to significant mortalities in mollusks, especially in bivalves all around the world. In Algarve, south of Portugal carpet shell clam Ruditapes decussatus mortalities can reach up to 70%, causing social and economic losses. The objective of studying those unique pathways, is finding new therapeutic strategies capable of controlling/eliminating P. olseni proliferation in clams. In that sense metabolic pathways, were explored, and drugs affecting these cycles were tested for activity. The first step involved the identification of the genes behind those pathways, the reconstitution of the main steps, and molecular characterization of those genes and later on, the identification of possible targets within the genes studied. Metabolic cycles were screened due to the fact of not being present in host or differ in a critical way, such as the following pathways: shikimate, MEP-­‐ isoprenoids, Leloir cycle for chitin production, purine biosynthesis (unique among protists), the de novo synthesis of folates (absent in metazoa) and some unique genes like, the alternative oxidase (a branch of respiratory chain) and the hypoxia sensor HPH. All those pathways were covered and possible chemical inhibition using therapeutic drugs was tested with positive results. The relation between the common host Ruditapes decussatus and P. olseni was also explored in a dimension not possible some years ago. With the accessibility to second generation sequencers and microarray analysis platforms, genes involved in host defense or parasite virulence and resistance to the host were deciphered, allowing aiming to new targets (mechanisms and pathways), offering new possibilities for the control of Perkinsus in close environments. The thousands of genes, generated by this work, sequenced and analyzed from this commercial valuable clam and for Perkinsus olseni will be an important and value tool for the scientific community, allowing a better understanding of host-­‐parasite interactions, promoting the usage of P. olseni as an emerging model for alveolata parasites.