DNA Extraction From Orthoptera Museum Specimens

We describe a procedure for rapid purification of high quality DNA from either fresh or dry Orthoptera, suitable for the PCR amplification of DNA regions more than 800 bp long (even from oldest specimens), which allows genetic analyses on animals from collections without the complete specimen disruption

Procedures for high quality RNA extraction from Paracentrotus lividus (LAMARCK, 1816) embryos and gonadal tissue

The extraction protocol described below is part of the CISAS project, aimed at the realization, within CNR, of an “International Centre of advanced study in environment, ecosystem and human health”. In this report we describe a RNA extraction protocol from Paracentrotus lividus embryos and gonadal tissue

Applicazione di un veloce metodo di estrazione del DNA per l’identificazione di prodotti ittici marini.

L'identificazione dei prodotti ittici è uno dei temi chiave in materia di sicurezza alimentare. L’errata etichettatura dei prodotti alimentari e la sostituzione di alcuni ingredienti rappresentano questioni emergenti in termini di qualità e sicurezza alimentare e nutrizionale. L'autenticazione e la tracciabilità dei prodotti alimentari, gli studi di tassonomia e di genetica di popolazione, così come l'analisi delle abitudini alimentari degli animali e la selezione delle prede, si basano su analisi genetiche tra cui la metodica molecolare del DNA barcoding, che consiste nell’amplificazione e nel sequenziamento di una specifica regione del gene mitocondriale chiamata COI. Questa tecnica biomolecolare è utilizzata per fronteggiare la richiesta di determinazione specifica e/o la reale provenienza dei prodotti commercializzati, nonché per smascherare errori di etichettatura e sostituzioni fraudolente, difficile da rilevare soprattutto nei prodotti ittici trasformati. Sul mercato sono disponibili differenti kit per l'estrazione del DNA da campioni freschi e conservati; l’impiego dei kit, aumenta drasticamente il costo dei progetti di caratterizzazione e di genotipizzazione dei campioni da analizzare. In questo scenario è stato messo a punto un metodo veloce di estrazione del DNA. Esso non prevede nessuna fase di purificazione per i prodotti ittici freschi e trasformati e si presta a qualsiasi analisi che preveda l’utilizzo della tecnica PCR. Il protocollo consente l'amplificazione efficiente del DNA da qualsiasi scarto industriale proveniente dalla lavorazione del pesce, indipendentemente dal metodo di conservazione del campione. L’applicazione di questo metodo di estrazione del DNA, combinato al successo e alla robustezza della amplificazione PCR (secondo protocollo barcode) ha permesso di ottenere, in tempi brevissimi e con costi minimi, il sequenziamento del DNA

The nucleic acid-binding protein PcCNBP is transcriptionally regulated during the immune response in red swamp crayfish Procambarus clarkii

Gene family encoding cellular nucleic acid binding proteins (CNBP) is well conserved among vertebrates; however, there is limited knowledge in lower organisms. In this study, a CNBP homolog from the red swamp crayfish Procambarus clarkii was characterised. The full-length cDNA of PcCNBP was of 1257 bp with a 5′-untranslated region (UTR) of 63 bp and a 3′-UTR of 331 bp with a poly (A) tail, and an open-reading frame (ORF) of 864 bp encoding a polypeptide of 287 amino acids with the predicted molecular weight of about 33 kDa. The predicted protein possesses 7 tandem repeats of 14 amino acids containing the CCHC zinc finger consensus sequence, two RGG-rich single-stranded RNA-binding domain and a nuclear localization signal, strongly suggesting that PcCNBP was a homolog of vertebrate CNBP. The PcCNBP transcript was constitutively expressed in all tested tissues of unchallenged crayfish, including hepatopancreas, gill, eyestalk, haemocytes, intestine, stomach and cuticle with highest expression in haemocytes, intestine, gills and hepatopancreas. The mRNA expression of PcCNBP in haemocytes was modulated at transcriptional level by different immune challenges, suggesting its involvement in the immune response of P. clarkii during both bacteria and viruses infection

Optimized RNA Extraction and Northern Hybridization in Streptomycetes

Northern blot hybridization is a useful tool for analyzing transcript patterns. To get a picture of what really occurs in vivo, it is necessary to use a protocol allowing full protection of the RNA integrity and recovery and unbiased transfer of the entire transcripts population. Many protocols suffer from severe limitations including only partial protection of the RNA integrity and/or loss of small sized molecules. Moreover, some of them do not allow an efficient and even transfer in the entire sizes range. These difficulties become more prominent in streptomycetes, where an initial quick lysis step is difficult to obtain. We present here an optimized northern hybridization protocol to purify, fractionate, blot, and hybridize Streptomyces RNA. It is based on grinding by a high-performance laboratory ball mill, followed by prompt lysis with acid phenol-guanidinium, alkaline transfer, and hybridization to riboprobes. Use of this protocol resulted in sharp and intense hybridization signals relative to long mRNAs previously difficult to detect

DNA Barcoding as a tool for Zoological Taxonomy: Identification of bony fish in the Mediterranean Sea

The description of all the species present in nature is a vast task to be fulfilled by using the classical approach of morphological description of the organisms. In recent years, the traditional taxonomy, based primarily on identification keys of species, has shown a number of limitations in the use of the distinctive features in many animal taxa and inconsistencies with the genetic data. Furthermore, the increasing need to get a true estimate of biodiversity has led Zoological Taxonomy to seek new approaches and methodologies to support the traditional methods. The classification procedure has added modern criteriasuch as the evolutionary relationships and the genetic, biochemical and morphological characteristics of the organisms.Until now the Linnean binomial was the only abbreviated code associated with the description of the morphology of a species. The new technologies aim to achieve a short nucleotide sequence of the DNA to be used as an unique and solely label for a particular species, a specific genetic barcode. For both morphological and genetic approaches, skills and experience are required. Taxonomy is one of zoological disciplines that has been benefited from the achievements reached by modern molecular biotechnology. Using a molecular approach it is possible to identify cryptic species, to establish a family relationship between species and their membership of taxonomic categories or to reconstruct the evolutionary history of a taxon