The Arabidopsis SR45 splicing factor bridges the splicing machinery and the exon-exon junction complex.

The Arabidopsis splicing factor serine/arginine-rich 45 (SR45) contributes to several biological processes. The sr45-1 loss-of-function mutant exhibits delayed root development, late flowering, unusual numbers of floral organs, shorter siliques with decreased seed sets, narrower leaves and petals, and altered metal distribution. SR45 bears a unique RNA recognition motif (RRM) flanked by one serine/arginine-rich (RS) domain on both sides.

The Importance of RSV Epidemiological Surveillance: A Multicenter Observational Study of RSV Infection during the COVID-19 Pandemic.

The restrictive measures adopted worldwide against SARS-CoV-2 produced a drastic reduction in respiratory pathogens, including RSV, but a dramatic rebound was thereafter reported. In this multicenter retrospective observational study in 15 Pediatric Emergency Departments, all children <3 years old with RSV infection admitted between 1 September and 31 December 2021 were included and compared to those admitted in the same period of 2020 and 2019. The primary aim was to evaluate RSV epidemiology during and after the COVID-19 pandemic peak.

Weaning in neurally adjusted ventilatory assist: a prospective interventional study in neonates.

Background: Neurally adjusted ventilatory assist (NAVA) is a respiratory support triggered by the electrical activity of the diaphragm (EAdi). Only few studies evaluated NAVA short-term efficacy and safety in newborns. Aim of this study was to assess efficacy and safety of NAVA in a cohort of newborns and to analyze ventilation parameters helpful to guide weaning.

Exploring the suitability of RanBP2-type Zinc Fingers for RNA-binding protein design.

Transcriptomes consist of several classes of RNA that have wide-ranging but often poorly described functions and the deregulation of which leads to numerous diseases. Engineering of functionalized RNA-binding proteins (RBPs) could therefore have many applications. Our previous studies suggested that the RanBP2-type Zinc Finger (ZF) domain is a suitable scaffold to investigate the design of single-stranded RBPs.

Engineering RNA-Binding Proteins by Modular Assembly of RanBP2-Type Zinc Fingers.

Deciphering the function of the nonprotein-coding portion of genomes represents one of the major challenges that molecular biology is facing today. Numerous classes of RNAs have been discovered over the last past decade and appear to play important regulatory roles in gene expression and disease. The ability to study and manipulate these RNAs relies on the development of programmable RNA-binding molecules such as RNA-binding proteins.

Comparison of neurally-adjusted ventilator assist in infants before and after extubation.

Background: To compare invasive (iNAVA) and non-invasive (nivNAVA) neurally adjusted ventilatory assist in infants, respect to gas exchange, breathing pattern, respiratory drive, infant-ventilator interaction and synchrony, vital parameters and required sedation.

Methods: Ten consecutive intubated term infants admitted for respiratory failure of different etiology underwent to 2-hour not-randomized trials of iNAVA and, after extubation, nivNAVA, the latter with unchanged ventilator settings and with air-leaks compensating software. Arterialized capillary blood was sampled at the end of each trial.

RNA-binding and viral reverse transcriptase inhibitory activity of a novel cationic diamino acid-based peptide.

A novel cationic peptide based on L-lysine and L-diaminobutyric acid was prepared for the first time by solid phase synthesis. After HPLC purification and ESI MS characterization, we studied by CD and IR spectroscopy the structural features of the novel basic peptide, which is able to form a β-turn-like structure. Furthermore, its interaction with DNA and RNA was investigated by CD and UV spectroscopy, which revealed a preferential RNA-binding ability of the sequential peptide, whereas its inhibitory activity toward HIV and Moloney murine leukemia virus (MMLV) reverse transcriptase action was evaluated by semiquantitative PCR.

Synthesis of a novel Fmoc-protected nucleoaminoacid for the solid phase assembly of 4-piperidyl glycine/L-arginine-containing nucleopeptides and preliminary RNA: interaction studies.

In this work, we report the synthesis of a novel Fmoc-protected nucleoaminoacid, based on 4-piperidinyl glycine, carrying the DNA nucleobase on the secondary amino group, suitable for the solid-phase synthesis of nucleopeptides. After ESI-MS and NMR characterization this building block was used for the assembly of a thymine-functionalized tetrapeptide, composed of 4-piperidinyl glycine and L-arginine moieties alternated in the backbone. The ability to interact with RNA and the efficiency in interfering with the reverse transcription of eukaryotic mRNA of the novel nucleo-tetrapeptide found in this study are in favour of the employment of chiral nucleopeptides based on alternate 4-piperidinyl glycine/L-arginine backbone in biomedicine.