SARS-CoV-2 Survival on Surfaces. Measurements Optimisation for an Enthalpy-Based Assessment of the Risk.

The present work, based on the results found in the literature, yields a consistent model of SARS-CoV-2 survival on surfaces as environmental conditions, such as temperature and relative humidity, change simultaneously. The Enthalpy method, which has recently been successfully proposed to investigate the viability of airborne viruses using a holistic approach, is found to allow us to take a reasoned reading of the data available on surfaces in the literature. This leads us to identify the domain of conditions of lowest SARS-CoV-2 viability, in a specific enthalpy range between 50 and 60 kJ/Kg.

Novel molecular insights and potential approaches for targeting hypertrophic cardiomyopathy: Focus on coronary modulators.

Hypertrophic cardiomyopathy (HCM) is an autosomal dominant disorder that associates with nucleotide sequence variants in genes encoding sarcomere related proteins, and is recognized as the most common heritable cardiac diseases. Clinically, HCM can be extremely variable and this makes the diagnosis difficult until the development of serious or fatal events. Nevertheless, the main hallmark of HCM is represented by left ventricle hypertrophy that can be occasionally associated to cardiac arrhythmias, chest pain, diastolic dysfunction, obstruction of left ventricular outflow tract.

Predicting SARS-CoV-2 Weather-Induced Seasonal Virulence from Atmospheric Air Enthalpy.

Following the coronavirus disease 2019 (COVID-19) pandemic, several studies have examined the possibility of correlating the virulence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), the virus that causes COVID-19, to the climatic conditions of the involved sites; however, inconclusive results have been generally obtained. Although neither air temperature nor humidity can be independently correlated with virus viability, a strong relationship between SARS-CoV-2 virulence and the specific enthalpy of moist air appears to exist, as confirmed by extensive data analysis. Given this framework, the present study involves a detailed investigation based on the first 20-30 days of the epidemic before public health interventions in 30 selected Italian provinces with rather different climates, here assumed as being representative of what happened in the country from North to South, of the relationship between COVID-19 distributions and the climatic conditions recorded at each site before the pandemic outbreak.

On the Optimal Indoor Air Conditions for SARS-CoV-2 Inactivation. An Enthalpy-Based Approach.

In the CoViD-19 pandemic, the precautionary approach suggests that all possible measures should be established and implemented to avoid contagion, including through aerosols. For indoor spaces, the virulence of SARS-CoV-2 could be mitigated not only via air changes, but also by heating, ventilation, and air conditioning (HVAC) systems maintaining thermodynamic conditions possibly adverse to the virus. However, data available in literature on virus survival were never treated aiming to this.

Modulation of the coronary tone in the expanding scenario of Chromogranin-A and its derived peptides.

The cardiac function critically depends on an adequate myocardial oxygenation and on a correct coronary blood flow. Endothelial, hormonal and extravascular factors work together generating a fine balance between oxygen supply and oxygen utilization through the coronary circulation. Among the regulatory factors that contribute to the coronary tone, increasing attention is paid to the cardiac endocrines, such as chromogranin A, a prohormone for many biologically active peptides, including vasostatin and catestatin.

Leopoldia comosa prevents metabolic disorders in rats with high-fat diet-induced obesity.

Purpose: Obesity is the main feature of a complex illness known as metabolic syndrome. Anti-obesogenic therapies are often associated with side effects and represent a high cost in conventional pharmacological approaches. New strategies based on natural remedies are under continuous investigation.

Biological Roles of the Eclectic Chromogranin-A-derived Peptide Catestatin.

Background: Research on Chromogranin A (CGA) and its derived fragments convincingly demonstrated the multifunctional activity of the 21 amino acid peptide named Catestatin (CST: human CGA352-372, bovine CGA344-364, rat CGA367-387). This review aims to provide a synopsis of the current information concerning the biological role of CST in health and disease.

Methods: Structured search of bibliographic databases for peer-reviewed research literature.

AUCSIA: an ancestral green plant miniprotein and the emergence of auxin transport.

Aucsia is a green plant gene family. In Angiosperms, Aucsia genes control several aspects of auxin biology, including polar auxin transport. AUCSIA miniproteins are produced via splicing of three exons.

Arabidopsis thaliana AUCSIA-1 regulates auxin biology and physically interacts with a kinesin-related protein.

Aucsia is a green plant gene family encoding 44-54 amino acids long miniproteins. The sequenced genomes of most land plants contain two Aucsia genes. RNA interference of both tomato (Solanum lycopersicum) Aucsia genes (SlAucsia-1 and SlAucsia-2) altered auxin sensitivity, auxin transport and distribution; it caused parthenocarpic development of the fruit and other auxin-related morphological changes.

Expression profile analysis of early fruit development in iaaM-parthenocarpic tomato plants.

Background: Fruit normally develops from the ovary after pollination and fertilization. However, the ovary can also generate seedless fruit without fertilization by parthenocarpy. Parthenocarpic fruit development has been obtained in tomato (Solanum lycopersicum) by genetic modification using auxin-synthesising gene(s) (DefH9-iaaM; DefH9-RI-iaaM) expressed specifically in the placenta and ovules.

Aucsia gene silencing causes parthenocarpic fruit development in tomato.

In angiosperms, auxin phytohormones play a crucial regulatory role in fruit initiation. The expression of auxin biosynthesis genes in ovules and placenta results in uncoupling of tomato (Solanum lycopersicum) fruit development from fertilization with production of parthenocarpic fruits. We have identified two newly described genes, named Aucsia genes, which are differentially expressed in auxin-synthesis (DefH9-iaaM) parthenocarpic tomato flower buds.

Molecular dissection of the role of auxin in fruit initiation.

Fruit set and growth usually requires fertilization. Fruit set and development without fertilization is called parthenocarpy. Feeding auxin to virgin flowers induces fruit development without fertilization.

Auxin and nitric oxide control indeterminate nodule formation.

Background: Rhizobia symbionts elicit root nodule formation in leguminous plants. Nodule development requires local accumulation of auxin. Both plants and rhizobia synthesise auxin.

Auxin synthesis-encoding transgene enhances grape fecundity.

Grape (Vitis vinifera) yield is largely dependent on the fecundity of the cultivar. The average number of inflorescences per shoot (i.e.

Cardiac morpho-dynamics in Rana esculenta: influence of sex and season.

Morpho-dynamic aspects of the frog (Rana esculenta) heart were correlated to seasonal and sexual traits. The statistical analysis of the data (696 frog specimens: 448 males and 248 females), collected during 8 years of routine research on frog cardiac physiology, indicated that cardiac biology is characterised by sexual dimorphism. The relative cardiac weight of males was higher than that of females of similar size.

Open field trial of genetically modified parthenocarpic tomato: seedlessness and fruit quality.

Background: Parthenocarpic tomato lines transgenic for the DefH9-RI-iaaM gene have been cultivated under open field conditions to address some aspects of the equivalence of genetically modified (GM) fruit in comparison to controls (non-GM).

Results: Under open field cultivation conditions, two tomato lines (UC 82) transgenic for the DefH9-RI-iaaM gene produced parthenocarpic fruits. DefH9-RI-iaaM fruits were either seedless or contained very few seeds.

The defH9-iaaM auxin-synthesizing gene increases plant fecundity and fruit production in strawberry and raspberry.

Background: The DefH9-iaaM gene fusion which is expressed specifically in placenta/ovules and promotes auxin-synthesis confers parthenocarpic fruit development to eggplant, tomato and tobacco. Transgenic DefH9-iaaM eggplants and tomatoes show increased fruit production due mainly to an improved fruit set. However, the weight of the fruits is also frequently increased.

Expression of self-complementary hairpin RNA under the control of the rolC promoter confers systemic disease resistance to plum pox virus without preventing local infection.

Background: Homology-dependent selective degradation of RNA, or post-transcriptional gene silencing (PTGS), is involved in several biological phenomena, including adaptative defense mechanisms against plant viruses. Small interfering RNAs mediate the selective degradation of target RNA by guiding a multicomponent RNAse. Expression of self-complementary hairpin RNAs within two complementary regions separated by an intron elicits PTGS with high efficiency.

Genetically modified parthenocarpic eggplants: improved fruit productivity under both greenhouse and open field cultivation.

Background: Parthenocarpy, or fruit development in the absence of fertilization, has been genetically engineered in eggplant and in other horticultural species by using the DefH9-iaaM gene. The iaaM gene codes for tryptophan monoxygenase and confers auxin synthesis, while the DefH9 controlling regions drive expression of the gene specifically in the ovules and placenta. A previous greenhouse trial for winter production of genetically engineered (GM) parthenocarpic eggplants demonstrated a significant increase (an average of 33% increase) in fruit production concomitant with a reduction in cultivation costs.

Optimisation of transgene action at the post-transcriptional level: high quality parthenocarpic fruits in industrial tomatoes.

Background: Genetic engineering of parthenocarpy confers to horticultural plants the ability to produce fruits under environmental conditions that curtail fruit productivity and quality. The DefH9-iaaM transgene, whose predicted action is to confer auxin synthesis specifically in the placenta, ovules and derived tissues, has been shown to confer parthenocarpy to several plant species (tobacco, eggplant, tomato) and varieties.

Results: UC82 tomato plants, a typical cultivar used by the processing industry, transgenic for the DefH9-iaaM gene produce parthenocarpic fruits that are malformed.

The spliceosomal intron of the rolA gene of agrobacterium rhizogenes is a prokaryotic promoter.

Agrobacterium rhizogenes transfers DNA (T-DNA) from its Ri plasmid to plant cells. All T-DNA genes are expressed in plant cells. The rolA gene is the only T-DNA gene that contains an intron in the untranslated leader region of its mRNA.

Genetic engineering of parthenocarpic plants.

Transgenic tobacco and eggplants expressing the coding region of the iaaM gene from Pseudomonas syringae pv. savastanoi, under the control of the regulatory sequences of the ovule-specific DefH9 gene from Antirrhinum majus, showed parthenocarpic fruit development. Expression of the DefH9-iaaM chimeric transgene occurs during flower development in both tobacco and eggplant.

Mutational analysis of the rolA gene of Agrobacterium rhizogenes in tobacco: function of the rolA pre-mRNA intron and rolA proteins defective in their biological activity.

The rolA gene of Agrobacterium rhizogenes contains in its untranslated leader region a spliceosomal intron, which is spliced in Arabidopsis and in Nicotiana tabacum. Expression under the control of the 35S promoter from cauliflower mosaic virus of a rolA gene derivative defective in splicing still causes alterations of growth in transgenic tobacco plants. Splicing of rolA mRNA is required for efficient expression of the rolA phenotype in vivo.

Effects of a peptide fraction isolated from mitochondrial DNA on stationary rat hepatocyte culture.

In this research we have investigated the effects of mitochondrial peptide fraction bound to DNA on stationary rat hepatocyte cultures. The treatment with this peptide was responsible of cellular lysis, followed by significant proliferation after 46th day until 51st in which it is reestablished. In the present study it seems that peptides bound to hepatocyte mitochondrial DNA are involved in longer term cultural stabilization properties.

Low molecular weight peptide from calf's liver mitochondrial DNA: structure and effect on DNA as a template.

A peptide fraction from the mitochondrial DNA of calf's liver was isolated using Drouin's method (1). This peptide fraction, which was extracted at pH 9.5 from an extensively purified mitochondrial DNA (2), has been shown to exert an in vitro regulatory role on the transcription and duplication activity of DNA (3).