Your search keyword '"Sarit Oriel"' showing total 4 results

1. Single-cell RNA sequencing reveals mRNA splice isoform switching during kidney development

Author

Yishai Yehuda, Peter Hohenstein, Yishay Wineberg, Anna Futorian, Sima Benjamin, Nissim Ben-Haim, Achia Urbach, Debby Ickowicz, Leah Armon, Naomi Pode-Shakked, Efrat Bucris, Tomer Kalisky, Tali Hana Bar-Lev, Sarit Oriel, Shlomit Gilad, and Benjamin Dekel

Subjects

0301 basic medicine, Cell type, Kidney development, Biology, Wt1, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, Gene expression, Single cell RNA sequencing, Gene, 030304 developmental biology, kidney development, 0303 health sciences, Messenger RNA, urogenital system, Alternative splicing, RNA, General Medicine, Cell biology, 030104 developmental biology, Nephrology, Mesenchymal to epithelial transition (MET), RNA splicing, 030217 neurology & neurosurgery

Abstract

Background During mammalian kidney development, nephron progenitors undergo a mesenchymal-to-epithelial transition and eventually differentiate into the various tubular segments of the nephron. Recently, Drop-seq single-cell RNA sequencing technology for measuring gene expression from thousands of individual cells identified the different cell types in the developing kidney. However, that analysis did not include the additional layer of heterogeneity that alternative mRNA splicing creates. Methods Full transcript length single-cell RNA sequencing characterized the transcriptomes of 544 individual cells from mouse embryonic kidneys. Results Gene expression levels measured with full transcript length single-cell RNA sequencing identified each cell type. Further analysis comprehensively characterized splice isoform switching during the transition between mesenchymal and epithelial cellular states, which is a key transitional process in kidney development. The study also identified several putative splicing regulators, including the genes Esrp1/2 and Rbfox1/2. Conclusions Discovery of the sets of genes that are alternatively spliced as the fetal kidney mesenchyme differentiates into tubular epithelium will improve our understanding of the molecular mechanisms that drive kidney development.

Published

2020

2. A brief review of single-cell transcriptomic technologies

Author

Itamar Kanter, Sarit Oriel, Nissim Ben-Haim, Tali Hana Bar-Lev, Ariel Trink, Shlomit Gilad, Yishay Wineberg, Tomer Kalisky, and Saumyadipta Pyne

Subjects

0301 basic medicine, Data Analysis, Emerging technologies, business.industry, Sequence Analysis, RNA, General Medicine, Biology, Biochemistry, Data science, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Genetics, Humans, RNA, Messenger, Single-Cell Analysis, business, Transcriptome, Molecular Biology, 030217 neurology & neurosurgery, Biomedicine

Abstract

In recent years, there has been an effort to develop new technologies for measuring gene expression and sequence information from thousands of individual cells. Large data sets that were obtained using these 'single cell' technologies have allowed scientists to address fundamental questions in biomedicine ranging from stems cells and development to cancer and immunology. Here, we provide a brief review of recent developments in single-cell technology. Our intention is to provide a quick background for newcomers to the field as well as a deeper description of some of the leading technologies to date.

Published

2017

3. Mechanistic aspects of photoinactivation of Candida albicans by exogenous porphyrins

Author

Yeshayahu Nitzan and Sarit Oriel

Subjects

Porphyrins, Microbial Sensitivity Tests, Photochemistry, Biochemistry, chemistry.chemical_compound, Microscopy, Electron, Transmission, Candida albicans, polycyclic compounds, medicine, heterocyclic compounds, Physical and Theoretical Chemistry, Cell damage, Blue light, chemistry.chemical_classification, Reactive oxygen species, Photosensitizing Agents, biology, Cationic polymerization, General Medicine, biology.organism_classification, medicine.disease, Porphyrin, Yeast, Corpus albicans, Spectrometry, Fluorescence, chemistry, Photochemotherapy, Reactive Oxygen Species, Electron Probe Microanalysis

Abstract

The mechanism of photoinactivation of Candida albicans by 3.5 μM uncharged, cationic or anionic porphyrins under blue light (407-420 nm) was found to be dependent on the uptake of porphyrins into yeast cells, and was also dependent on the presence or absence of proteins in the photosensitization medium. In a very protein-rich medium, a decrease in viability was observed only with the uncharged porphyrin. Photoinactivation by uncharged or cationic porphyrins in a protein-poorer medium resulted in total eradication, whereas no significant decrease was observed with the anionic porphyrin. Phototreatment in PBS resulted in eradication with all three porphyrins. X-ray microanalysis after phototreatment by the uncharged or cationic porphyrins in the protein-poor medium exhibited ion loss, indicating cell-membrane damage. Transmission electron microscopy indicated cellular and chromosomal damage. No ion loss or cell damage was observed in this medium with the anionic porphyrin. The efficiency of photoeradication of C. albicans is dependent on porphyrin uptake, which might lead (upon illumination) to processes that facilitate the formation of reactive oxygen species that damage the cells. Uptake of charged porphyrins is dependent on protein quantity and quality in the photosensitization microenvironment. This fact must be taken into account when using charged photosensitizers.

Published

2012

4. Photoinactivation of Candida albicans by its own endogenous porphyrins

Author

Yeshayahu Nitzan and Sarit Oriel

Subjects

Azoles, Antifungal Agents, Porphyrins, Light, Endogeny, Applied Microbiology and Biotechnology, Microbiology, chemistry.chemical_compound, Candida albicans, medicine, Inducer, chemistry.chemical_classification, Fungal protein, Microbial Viability, biology, General Medicine, Aminolevulinic Acid, biology.organism_classification, Porphyrin, Corpus albicans, chemistry, Biochemistry, Azole, Miconazole, medicine.drug

Abstract

The possibility of photoeradicating the prokaryotic microorganism Candida albicans by enhancing its endogenous porphyrin production and accumulation was investigated in this study. Induction of porphyrin synthesis was performed by the addition of delta-aminolevulinic acid (ALA), or its hydrophobic derivative ALA methyl ester (m-ALA). Photoinactivation of C. albicans was performed under blue light (407-420 nm) illumination. A decrease in viability of about 1.6 or 2.1 orders of magnitudes was obtained with a light dose of 36 J/cm(2) for an initial concentration of 100-mg/ml ALA or m-ALA, respectively. Endogenous porphyrins extracted from the cells showed that cultures incubated with m-ALA accumulated a relatively higher amount of endogenous porphyrins than ALA, indicating better transport through the yeast cell barriers. When a combination of miconazole and ketoconazole (antifungal agents) is given at a sub-inhibitory concentration (0.5 microg/ml each) with an inducer, a 2.1 or 3.2 orders of magnitude decrease in viability is caused with ALA or with m-ALA, respectively, upon illumination. Fluorescence intensities of the accumulated porphyrins as demonstrated by FACS indicate that the combination of the two azole drugs and an inducer cause a relatively high amount of endogenous porphyrins. Although the additive action of both azole drugs allow better penetration of the inducer, especially m-ALA photoeradication remained limited because of an acidic pH generated in the presence of the inducer. The acidic pH is probably the cause for the inefficiency of the photodynamic treatment. More hydrophobic inducers than m-ALA and less acidic must be investigated to improve the photodynamic treatment by endogenous-induced porphyrins.

Published

2009