Your search keyword '"Zelinger, Einat"' showing total 10 results

1. Latex-Bridged Inverse Pickering Emulsion for Durable Superhydrophobic Coatings with Dual Antibacterial Activity

Author

Cohen, Raz, Pirmatova, Madina, Ananth, Karthik Mani, Jacobi, Gila, Zelinger, Einat, Belausov, Eduard, Samara, Mohamed, Shoshani, Sivan, Banin, Ehud, and Mechrez, Guy

Abstract

There is agreement that every colloidal structure produces its own set of unique characteristics, properties, and applications. A colloidal phenomenon of latex-bridged water in a dimethyl carbonate (DMC) Pickering emulsion stabilized by R202 hydrophobic silica was investigated for its ability to act as a superhydrophobic coating (SHC) for cellulose substrates. First, various emulsion compositions were screened for their stability and droplet size. The final composition was then cross-examined by cryogenic scanning electron microscopy and optical and fluorescent microscopy to verify the colloidal structure. The drying pattern of the coating was investigated by using labeled samples under a fluorescent microscope and by scanning electron microscopy on a paper substrate. After the final ∼3 μm of dry coating was applied, it exhibited superhydrophobicity (advancing contact angle = 155°) and full functionality after 5 min at room temperature (RT). Coated samples maintained superhydrophobicity after 20 abrasion cycles and mechanical integrity after 50 s of water immersion. The SHC-coated paper demonstrated compatibility with a standard laser printer, and the coated paper demonstrated superhydrophobicity after printing. Finally, a propolis/DMC extract was produced and then analyzed by gas chromatography–mass spectroscopy (GC-MS) and infused into the SHC (PSHC). The newly formed PSHC demonstrated its ability to act effectively against E. colibiofilm and S. aureusplanktonic cells and reduce their viability by over 90% and 99.99%, respectively.

Published

2024

2. Individual Coating of Entomopathogenic Nematodes with Titania (TiO2) Nanoparticles Based on Oil-in-Water Pickering Emulsion: A New Formulation for Biopesticides.

Author

Kotliarevski, Liliya, Cohen, Raz, Ramakrishnan, Jayashree, Wu, Shaohui, Mani, Karthik Ananth, Amar-Feldbaum, Reut, Yaakov, Noga, Zelinger, Einat, Belausov, Eduard, Shapiro-Ilan, David, Glazer, Itamar, Ment, Dana, and Mechrez, Guy

Published

2022

3. A standardized nomenclature and atlas of the female terminalia of Drosophila melanogaster

Author

McQueen, Eden W., Afkhami, Mehrnaz, Atallah, Joel, Belote, John M., Gompel, Nicolas, Heifetz, Yael, Kamimura, Yoshitaka, Kornhauser, Shani C., Masly, John P., O’Grady, Patrick, Peláez, Julianne, Rebeiz, Mark, Rice, Gavin, Sánchez-Herrero, Ernesto, Santos Nunes, Maria Daniela, Santos Rampasso, Augusto, Schnakenberg, Sandra L., Siegal, Mark L., Takahashi, Aya, Tanaka, Kentaro M., Turetzek, Natascha, Zelinger, Einat, Courtier-Orgogozo, Virginie, Toda, Masanori J., Wolfner, Mariana F., and Yassin, Amir

Abstract

ABSTRACTThe model organism Drosophila melanogasterhas become a focal system for investigations of rapidly evolving genital morphology as well as the development and functions of insect reproductive structures. To follow up on a previous paper outlining unifying terminology for the structures of the male terminalia in this species, we offer here a detailed description of the female terminalia of D. melanogaster. Informative diagrams and micrographs are presented to provide a comprehensive overview of the external and internal reproductive structures of females. We propose a collection of terms and definitions to standardize the terminology associated with the female terminalia in D. melanogasterand we provide a correspondence table with the terms previously used. Unifying terminology for both males and females in this species will help to facilitate communication between various disciplines, as well as aid in synthesizing research across publications within a discipline that has historically focused principally on male features. Our efforts to refine and standardize the terminology should expand the utility of this important model system for addressing questions related to the development and evolution of animal genitalia, and morphology in general.

Published

2022

4. Platform for Active Vaccine Formulation Using a Two-Mode Enhancement Mechanism of Epitope Presentation by Pickering Emulsion.

Author

Mechrez, Guy, Mani, Karthik Ananth, Saha, Abhijit, Lachman, Oded, Luria, Neta, Molad, Ori, Kotliarevski, Liliya, Zelinger, Einat, Smith, Elisheva, Yaakov, Noga, Stone, Dalia Shabashov, Reches, Meital, and Dombrovsky, Aviv

Published

2022

5. Individual Coating of Entomopathogenic Nematodes with Titania (TiO2) Nanoparticles Based on Oil-in-Water Pickering Emulsion: A New Formulation for Biopesticides

Author

Kotliarevski, Liliya, Cohen, Raz, Ramakrishnan, Jayashree, Wu, Shaohui, Mani, Karthik Ananth, Amar-Feldbaum, Reut, Yaakov, Noga, Zelinger, Einat, Belausov, Eduard, Shapiro-Ilan, David, Glazer, Itamar, Ment, Dana, and Mechrez, Guy

Abstract

This study presents a new eco-friendly formulation of entomopathogenic nematodes (EPNs) based on individual coating of EPNs with titanium dioxide (TiO2) nanoparticles (NPs) and mineral oil via oil-in-water Pickering emulsions. Mineral oil-in-water emulsions stabilized by amine-functionalized titanium dioxide (TiO2-NH2) particles were prepared. 40:60 and 50:50 oil–water volume ratios using 2 wt % TiO2-NH2particles were found to be the most stable emulsions with a droplet size suitable for the formulation and were further studied for their toxicity against the incorporated EPNs. Carboxyfluorescein was covalently bonded to TiO2-NH2NPs, and the resulting composite was observed via fluorescence confocal microscopy. The dry coating was evaluated using SEM and confocal microscopy, which showed significant nematode coverage by the particles and oil. The final formulation was biocompatible with the studied EPNs, where the viability of the EPNs in the formulation was equivalent to control aqueous suspension after 120 days. Finally, yields of nematodes from infected Galleria mellonellacadavers collected for 150 days showed no significant differences (P> 0.05) using the tested emulsions compared to the control containing nematodes in water.

Published

2022

6. The magnetic stir bar as a source of impurities in laboratory blank solutions of the environmental samples subjected to microwave-assisted acid digestion

Author

Rosen, Vasiliy V., Andrushchenko, Yuliana, Zelinger, Einat, and Garber, Orit Gal

Abstract

Abstract: Teflon-coated magnetic stir bars are suspected to be a source of impurities for the laboratory blank solutions. To evaluate the ability of magnetic bars to absorb and release different elements at sub-ppb and above-ppb (µg L−1) level, the experiment with new and used bars was conducted. The bars were subjected to microwave-assisted acid digestion with the soil sample and a series of successive cleaning procedures. The spectrometry analysis of the obtained extracts revealed that most of the elements may be released during subsequent extractions in the ppb-level concentrations, whereas the following elements: Cr, Cu, Sb, Sn, and Pb may be extracted even in elevated concentrations. Electronic microscope inspection of Teflon surfaces demonstrated the multiple defects that probably increase the absorption of the elements. We concluded that the concentration of mineral impurities in the laboratory blank solution prepared in the randomly selected one vessel per sample preparation batch is hardly propagated to the other used vessels. The alternative concept "blank per vessel" was proposed especially for ultra-trace analysis. Also, an additional step in the bar washing procedure was proposed. Graphical abstract:

Published

2022

7. Fluorine-Free Superhydrophobic Coating with Antibiofilm Properties Based on Pickering Emulsion Templating.

Author

Maayan, Mor, Mani, Karthik Ananth, Yaakov, Noga, Natan, Michal, Jacobi, Gila, Atkins, Ayelet, Zelinger, Einat, Fallik, Elazar, Banin, Ehud, and Mechrez, Guy

Published

2021

8. Microscopic and metabolic investigations disclose the factors that lead to skin cracking in chili-type pepper fruit varieties

Author

Marinov, Ofir, Nomberg, Gal, Sarkar, Sutanni, Arya, Gulab Chand, Karavani, Eldad, Zelinger, Einat, Manasherova, Ekaterina, and Cohen, Hagai

Abstract

The hydrophobic cuticle encasing the fruit skin surface plays critical roles during fruit development and post-harvest. Skin failure often results in the fruit surface cracking and forming a wound-periderm tissue made of suberin and lignin. The factors that make the fruit skin susceptible to cracking have yet to be fully understood. Herein, we investigated two varieties of chili peppers (Capsicum annuumL.), Numex Garnet, whose fruit has intact skin, and Vezena Slatka, whose fruit has cracked skin. Microscopical observations, gas chromatography–mass spectrometry, biochemical and gene expression assays revealed that Vezena Slatka fruit form a thicker cuticle with greater levels of cutin monomers and hydroxycinnamic acids, and highly express key cutin-related genes. The skin of these fruit also had a lower epidermal cell density due to cells with very large perimeters, and highly express genes involved in epidermal cell differentiation. We demonstrate that skin cracking in the Vezena Slatka fruit is accompanied by a spatial accumulation of lignin-like polyphenolic compounds, without the formation of a typical wound-periderm tissues made of suberized cells. Lastly, we establish that skin cracking in chili-type pepper significantly affects fruit quality during post-harvest storage in a temperature-dependent manner. In conclusion, our data highlight cuticle thickness and epidermal cell density as two critical factors determining fruit skin susceptibility to cracking in chili-type pepper fruit.

Published

2023

9. Architecture of GnRH-Gonadotrope-Vasculature Reveals a Dual Mode of Gonadotropin Regulation in Fish

Author

Golan, Matan, Zelinger, Einat, Zohar, Yonathan, and Levavi-Sivan, Berta

Abstract

The function and components of the hypothalamic-pituitary axis are conserved among vertebrates; however, in fish, a neuroglandular mode of delivery (direct contact between axons and endocrine cells) was considered dominant, whereas in tetrapods hypothalamic signals are relayed to their targets via the hypophysial portal blood system (neurovascular delivery mode). By using a transgenic zebrafish model we studied the functional and anatomical aspects of gonadotrope regulation thus revisiting the existing model. FSH cells were found to be situated close to the vasculature whereas the compact organization of LH cells prevented direct contact of all cells with the circulation. GnRH3 fibers formed multiple boutons upon reaching the pituitary, but most of these structures were located in the neurohypophysis rather than adjacent to gonadotropes. A close association was observed between FSH cells and GnRH3 boutons, but only a fifth of the LH cells were in direct contact with GnRH3 axons, suggesting that FSH cells are more directly regulated than LH cells. GnRH3 fibers closely followed the vasculature in the neurohypophysis and formed numerous boutons along these tracts. These vessels were found to be permeable to relatively large molecules, suggesting the uptake of GnRH3 peptides. Our findings have important implications regarding the differential regulation of LH and FSH and contradict the accepted notion that fish pituitary cells are mostly regulated directly by hypothalamic fibers. Instead, we provide evidence that zebrafish apply a dual mode of gonadotrope regulation by GnRH3 that combines both neuroglandular and neurovascular components.

Published

2015

10. Fluorine-Free Superhydrophobic Coating with Antibiofilm Properties Based on Pickering Emulsion Templating

Author

Maayan, Mor, Mani, Karthik Ananth, Yaakov, Noga, Natan, Michal, Jacobi, Gila, Atkins, Ayelet, Zelinger, Einat, Fallik, Elazar, Banin, Ehud, and Mechrez, Guy

Abstract

This study presents antibiofilm coating formulations based on Pickering emulsion templating. The coating contains no bioactive material because its antibiofilm properties stem from passive mechanisms that derive solely from the superhydrophobic nature of the coating. Moreover, unlike most of the superhydrophobic formulations, our system is fluorine-free, thus making the method eminently suitable for food and medical applications. The coating formulation is based on water in toluene or xylene emulsions that are stabilized using commercial hydrophobic silica, with polydimethylsiloxane (PDMS) dissolved in toluene or xylene. The structure of the emulsions and their stability was characterized by confocal microscopy and cryogenic-scanning electron microscopy (cryo-SEM). The most stable emulsions are applied on polypropylene (PP) surfaces and dried in an oven to form PDMS/silica coatings in a process called emulsion templating. The structure of the resulting coatings was investigated by atomic force microscopy (AFM) and SEM. The surface of the coatings shows a honeycomb-like structure that exhibits a combination of micron-scale and nanoscale roughness, which endows it with its superhydrophobic properties. After tuning, the superhydrophobic properties of the coatings demonstrated highly efficient passive antibiofilm activity. In vitro antibiofilm trials with E. coliindicate that the coatings reduced the biofilm accumulation by 83% in the xylene–water-based surfaces and by 59% in the case of toluene–water-based surfaces.

Published

2021