Andrea Germini

Effect of ionic strength on PNA-DNA hybridization on surfaces and in solution

Peptide nucleic acids (PNAs) are mimics of oligonucleotides containing a neutral peptidelike backbone and are able to bind complementary DNA targets with high affinity and selectivity. In order to investigate the effect of the ionic strength of the buffer solution, hybridization experiments with PNAs as (catcher) probes and DNAs as target oligonucleotides were performed in different salt solutions. Surface plasmon field-enhanced fluorescence spectroscopy was employed for real-time monitoring of DNA hybridizations to surface bound PNA. Probes with three different strand lengths were immobilized by self-assembly on the sensor surface. By introducing Cy5-labeled DNA targets the affinity constants, KA=kon (association)/koff (dissociation), were determined for fully complementary (MM0) as well as for single base mismatched (MM1) duplexes. Furthermore, the thermal stability of each duplex was determined by measuring melting curves in solution which was then compared to the kinetic and affinity parameters determined for the surface hybridization reactions. The results indicate that ions do not play a significant role for the PNA/DNA hybridization kinetics at surfaces. However, changes in the configuration of the PNA/DNA duplex due to the ionic strength variations influence the fluorescence yield drastically.

Recognition and strand displacement of DNA oligonucleotides by peptide nucleic acids (PNAs). High-performance ion-exchange chromatographic analysis.

Peptide nucleic acids (PNAs) are oligonucleotide mimics containing a pseudopeptide chain, which are able to bind complementary DNA tracts with high affinity and selectivity. Two mixed-sequence PNA undecamers (1 and 2) were synthesized and their double-stranded adducts with the complementary oligonucleotides (3 and 4) were revealed by the appearance of the corresponding peak in anion-exchange HPLC. A DEAE column was used and elution was performed with aqueous Tris buffer (pH 8) and an ionic strength gradient (0-0.5 M NaCl). The same effect was not observed with non-complementary oligonucleotides. The stability of the PNA-DNA adducts under the conditions used in the chromatographic system was studied as a function of temperature. Furthermore, in competition experiments double-stranded oligonucleotides were challenged by a PNA complementary to one strand: the formation of the PNA-DNA hybrid and the displacement of the non-complementary strand were observed with high specificity. The results suggest a possible use of ion-exchange HPLC for studying PNA-DNA interactions, and indicate the efficiency of PNA probes in the chromatographic analysis of DNA.

Kinetic and affinity analyses of hybridization reactions between peptide nucleic acid probes and dna targets using surface plasmon field-enhanced fluorescence spectroscopy

Peptide nucleic acid (PNA), a polyamide DNA mimic, has inspired the development of a variety of hybridization-based methods for the detection, quantification, purification, and characterization of nucleic acids owing to the stability of the PNA/DNA duplex. In this work, PNA probes complementary to a specific sequence of Roundup Ready® soybean were immobilized onto a sensor surface via a self-assembled matrix employing streptavidin/biotin binding. The specific hybridization of PNA and DNA has been monitored by applying the chromophore-labeled DNA target oligonucleotides to the PNA modified Au sensor surface in real time using surface plasmon field-enhanced fluorescence spectroscopy. The authors demonstrate three kinds of experiments called global, titration, and kinetic analyses for the determination of rate constants for the association (kon) and dissociation processes (koff, and the affinity constant (KA) of the PNA/DNA duplex formation by fitting the data to a simple Langmuir model. Discrimination of a single base mismatched DNA (15mer) target on a 15mer PNA probe was documented, with a difference of the affinity constant of two orders of magnitude. Finally, the affinity constant for the hybridization of a long polymerase chain reaction product (169mer) obtained by amplification of DNA extracted from genetically modified soybean reference material has been determined by a kinetic-titration analysis. The results show the influence of a Coulomb barrier at high target surface coverage even for the hybridization to PNA at low ionic strength.

Safety of d‐ribose as a novel food pursuant to Regulation (EU) 2015/2283

Abstract Following a request from the European Commission, the EFSA Panel on Dietetic Products, Nutrition and Allergies (NDA) was asked to deliver an opinion on D‐ribose as a novel food (NF) pursuant to Regulation (EU) 2015/2283. The applicant intends to market the NF as ingredient in a variety of foods, food supplements and in certain foods for specific groups. The NF is produced by fermentation using a transketolase‐deficient strain of Bacillus subtilis and marketed as Bioenergy Ribose™. The information provided on the batch‐to‐batch variability, specifications, stability, production process and history of the organism used as a source of the NF is sufficient and does not raise safety concerns. The Panel considers that the effects observed in a subchronic toxicity study in rats could be the consequence of nutritional imbalances, but toxicological effects could not be ruled out; from this study, the Panel derived a No observed adverse effect level (NOAEL) of 3.6 g/kg body weight (bw) per day. From the human studies indicating a potential decrease in glucose levels and/or the occurrence of transient symptomatic hypoglycaemia at intakes of 10 g of d‐ribose, the Panel defined 70 mg/kg bw per day as the NOAEL with respect to hypoglycaemia that can be considered applicable for adults. For children, the Panel acknowledges the lack of human data directly relevant for this population group. Based on the NOAEL derived from the subchronic toxicity study in rats, an acceptable level of intake of 36 mg/kg bw per day was defined that would also take into account the potentially increased sensitivity of certain population groups to hypoglycaemia. The Panel concludes that the NF is safe for the general population at intake levels up to 36 mg/kg bw per day and considers that the safety of the NF at the intended uses and use levels as proposed by the applicant has not been established.