Elemental Ge nanophases are obtained in silica starting from a sol–gel synthesis. The process comprises the preparation of silica xerogel doped by Ge(IV), substituting for Si(IV) in the oxide ...network, followed by reduction and phase separation during the sintering process by reaction with H
2 or CO. X-ray diffraction, Raman spectroscopy and high resolution transmission electron microscopy show that reactions with H
2 give rise in the porous silica network to nanometer-sized crystallization of elemental cubic germanium.
The affinity of three square-planar nickel(ii) (1), copper(ii) (2) and zinc(ii) (3) Schiff-base complexes for wild-type human telomeric (h-Telo) and protooncogene c-mycG-quadruplex (G4) DNA was ...investigated by UV-visible absorption spectroscopy and circular dichroism. DNA-binding constants (K sub(b)) were determined by spectrophotometric titrations for both G4-DNA and B-DNA. The results obtained point out that the three metal complexes selectively bind G4-DNA with higher affinity, up to two orders of magnitude, with respect to B-DNA. The nickel(ii) complex 1 was found to be the most effective G4-DNA stabilizer and the K sub(b) values decrease in the order 1 > 2 approximately 3. Innovative computational investigations, consisting of molecular dynamics (MD) simulations followed by density functional theory/molecular mechanics (DFT/MM) calculations, provide atomistic support for the interpretation of the binding mechanism to G4-DNA by end stacking and also of the experimental affinity order. Interestingly, 1 is able to induce G4-DNA formation of h-Telosequences, also in the absence of K super(+) cations. This last result is nicely confirmed and highlighted by polymerase chain reaction (PCR) stop assays, which show the ability of the title compounds to induce and stabilize G4 structures inhibiting the amplification of PCR products. Finally, compounds 1-3 showed concentration and time-dependent cytotoxicity towards HeLa and MCF-7 human cancer cell lines, inducing significant effects on cell cycle distribution with G2/M arrest in HeLa cells and G0/G1 arrest in MCF-7 cells. Overall, the PCR inhibition and anticancer activity of the three compounds decreases in the same order 1 > 2 approximately 3, in excellent correlation with the G4-DNA-binding affinity, implying that G4-DNA is the biotarget for their biological activity.
The cryopreservation of female gametes is still an open problem because of their structural sensitivity to the cooling-and-freezing process and to the exposure to cryoprotectants. The present work ...was aimed to study the effect of vitrification on immature bovine oocytes freed of cumulus cell investment before freezing. To verify the feasibility and efficiency of denuded oocyte (DO) cryopreservation, the cytoplasmic alterations eventually induced either by cell removal or by the vitrification process were analyzed. In particular, the migration of cortical granules and Ca++ localization were studied. In addition, the localization and distribution of microtubules and microfilaments in immature fresh and vitrified DOs were evaluated. Finally, to establish whether the removal of cumulus cells influenced developmental competence, DOs were thawed after vitrification, matured in vitro and fertilized; then presumptive zygotes were cultured to reach the blastocyst stage. The results indicate that mechanical removal of cumulus cells from immature bovine oocytes does not affect their maturation competence but reduces the blastocyst rate when compared with intact cumulus oocyte complexes (COCs). The findings indicate further that the vitrification process induces changes of cytoplasmic components. However, the composition of the manipulation medium used to remove cumulus cells plays a crucial role in reducing the injuries caused by cryopreservation in both cytoplasmic and nuclear compartments. In fact, the presence of serum exerts a sort of protection, significantly improving both oocyte maturation and blastocyst rates. In conclusion, we demonstrate that denuded immature oocytes can be vitrified after cumulus cells removal and successfully develop up, after thawing, to the blastocyst stage, following in vitro maturation and fertilization.
The effects of epidermal growth factor (EGF) and insulin-like growth factor I (IGF-I) on the maturation and subsequent development of cattle oocytes in vitro were evaluated in three experiments. ...Cumulus-oocyte complexes (COC) were collected from cattle ovaries and matured for 20-24 in control medium or in medium containing 50 ng EGF ml-1, 100 ng IGF-I ml-1, EGF + IGF-I, or 10% (v/V) fetal calf serum plus 0.1 i.u. human menopausal gonadotrophin ml-1 (hMG). In Expt 1, treatment with EGF + IGF-I stimulated cumulus expansion, the metabolism of pyruvate and glutamine, and nuclear maturation. In Expt 2, only the metabolic measurements from oocytes that reached metaphase II were considered, and EGF + IGF-I stimulated pyruvate metabolism to the same extent as serum + hMG. In Expt 3, the oocytes were fertilized after maturation culture, and the resultant embryos cultured for up to 8 days. The cleavage was greater in the EGF and EGF + IGF-I groups than in the controls but less than in the serum + hMG group. Moreover, the number of blastocyst cells at 7 days after insemination and the proportion of cleaved embryos that developed to the blastocyst stage by day 8 was greater in the serum + hMG group than in the control group indicating that maturation treatment can affect early embryonic development. In conclusion, EGF + IGF-I can stimulate cumulus expansion, oxidative metabolism, nuclear maturation and cleavage after fertilization of bovine oocytes in vitro. The relative effects of the treatments on oocyte pyruvate metabolism in Expts 1 and 2 generally paralleled their effects on cleavage and subsequent development in Expt 3, suggesting that mitochondrial function is related to developmental potential. Further investigation is required to determine which component(s) of serum or gonadotrophin treatment is responsible for the effects on subsequent embryonic development.
Background
Systemic vascular involvement in COVID-19 has been identified in several patients: not only endothelial derangement and increased permeability are reported to be early hallmarks of organ ...damage in patients with COVID-19 but are also the most important cause of worsening of clinical conditions in severe cases of SARS-CoV-2 infection. There are several reasons to hypothesize that the eye, and the retina in particular, could be a target of organ damage in SARS-CoV-2 infection.
Methods
This cohort observational study analyzes OCT angiography and structural OCT of 70 post-COVID-19 patients evaluated at 1-month hospital discharge and 22 healthy control subjects. Primary outcomes were macular vessel density (VD) and vessel perfusion (VP); structural OCT features were evaluated as secondary outcomes. In addition, patients and healthy volunteers were evaluated for best corrected visual acuity, slit lamp photograph, and fundus photo image.
Results
VD and VP in 3 × 3 and 6 × 6 mm scans for SCP and DCP showed no significant differences between the groups. Similarly, CMT and GCL did not reveal significant differences between post-COVID-19 and healthy patients. Nine patients (12.9%) featured retinal cotton wool spots and 10 patients had vitreous fibrillary degeneration. The prevalence of epiretinal membrane and macular hole was similar in the two groups. One case of extra papillary focal retinal hemorrhage was reported in the post-COVID-19 group.
Conclusions
Macula and perimacular vessel density and perfusion resulted unaltered in mild post-COVID-19 patients at 1-month hospital discharge, suggesting no or minimal retinal vascular involvement by SARS-CoV-2.
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