Your search keyword '"Garini Yuval"' showing total 11 results

1. Chromatin dynamics governed by a set of nuclear structural proteins.

Author

Vivante, Anat, Brozgol, Eugene, Bronshtein, Irena, Levi, Vered, and Garini, Yuval

Published

2019

2. The proteolysis adaptor, NblA, is essential for degradation of the core pigment of the cyanobacterial light-harvesting complex.

Author

Sendersky, Eleonora, Kozer, Noga, Levi, Mali, Moizik, Michael, Garini, Yuval, Shav‐Tal, Yaron, and Schwarz, Rakefet

Subjects

PROTEOLYSIS, LIGHT-harvesting complex (Photosynthesis), EFFECT of light on cyanobacteria, PHYCOBILISOMES, BIODEGRADATION, PLANT pigments, PLANTS

Abstract

The cyanobacterial light-harvesting complex, the phycobilisome, is degraded under nutrient limitation, allowing the cell to adjust light absorbance to its metabolic capacity. This large light-harvesting antenna comprises a core complex of the pigment allophycocyanin, and rod-shaped pigment assemblies emanating from the core. NblA, a low-molecular-weight protein, is essential for degradation of the phycobilisome. NblA mutants exhibit high absorbance of rod pigments under conditions that generally elicit phycobilisome degradation, implicating NblA in degradation of these pigments. However, the vast abundance of rod pigments and the substantial overlap between the absorbance spectra of rod and core pigments has made it difficult to directly associate NblA with proteolysis of the phycobilisome core. Furthermore, lack of allophycocyanin degradation in an NblA mutant may reflect a requirement for rod degradation preceding core degradation, and does not prove direct involvement of NblA in proteolysis of the core pigment. Therefore, in this study, we used a mutant lacking phycocyanin, the rod pigment of Synechococcus elongatus PCC7942, to examine whether NblA is required for allophycocyanin degradation. We demonstrate that NblA is essential for degradation of the core complex of the phycobilisome. Furthermore, fluorescence lifetime imaging microscopy provided in situ evidence for the interaction of NblA with allophycocyanin, and indicated that NblA interacts with allophycocyanin complexes that are associated with the photosynthetic membranes. Based on these data, as well as previous observations indicating interaction of NblA with phycobilisomes attached to the photosynthetic membranes, we suggest a model for sequential phycobilisome disassembly by NblA. [ABSTRACT FROM AUTHOR]

Published

2015

3. The proteolysis adaptor, Nbl A, initiates protein pigment degradation by interacting with the cyanobacterial light-harvesting complexes.

Author

Sendersky, Eleonora, Kozer, Noga, Levi, Mali, Garini, Yuval, Shav‐Tal, Yaron, and Schwarz, Rakefet

Subjects

PROTEOLYSIS, ADAPTOR proteins, PLANT pigments, CYANOBACTERIA, PHYCOBILISOMES, PLANTS

Abstract

Degradation of the cyanobacterial protein pigment complexes, the phycobilisomes, is a central acclimation response that controls light energy capture. The small protein, NblA, is essential for proteolysis of these large complexes, which may reach a molecular mass of up to 4 MDa. Interactions of NblA in vitro supported the suggestion that NblA is a proteolysis adaptor that labels the pigment proteins for degradation. The mode of operation of NblA in situ, however, remained unresolved. Particularly, it was unclear whether NblA interacts with phycobilisome proteins while part of the large complex, or alternatively interaction with NblA, necessitates dissociation of pigment subunits from the assembly. Fluorescence intensity profiles demonstrated the preferential presence of NblA:: GFP (green fluorescent protein) at the photosynthetic membranes, indicating co-localization with phycobilisomes. Furthermore, fluorescence lifetime imaging microscopy provided in situ evidence for interaction of NblA with phycobilisome protein pigments. Additionally, we demonstrated the role of NblA in vivo as a proteolysis tag based on the rapid degradation of the fusion protein NblA:: GFP compared with free GFP. Taken together, these observations demonstrated in vivo the role of NblA as a proteolysis adaptor. Additionally, the interaction of NblA with phycobilisomes indicates that the dissociation of protein pigment subunits from the large complex is not a prerequisite for interaction with this adaptor and, furthermore, implicates NblA in the disassembly of the protein pigment complex. Thus, we suggest that, in the case of proteolysis of the phycobilisome, the adaptor serves a dual function: undermining the complex stability and designating the dissociated pigments for degradation. [ABSTRACT FROM AUTHOR]

Published

2014

4. Translocation frequencies and chromosomal proximities for selected mouse chromosomes in primary B lymphocytes.

Author

Righolt, Christiaan H., Wiener, Francis, Taylor-Kashton, Cheryl, Harizanova, Jana, Vermolen, Bart J., Garini, Yuval, Young, Ian T., and Mai, Sabine

Abstract

Chromosome positions within the nucleus of mammalian cells are nonrandom and it is assumed that chromosomal neighborhoods affect the probability of translocations. Four chromosomes can be involved in c-myc-activating chromosomal translocations in mouse plasmacytoma (PCT): the c-myc gene on mouse chromosome 15 can be juxtaposed to either one of the immunoglobulin ( Ig) loci on chromosomes 12 ( IgH), 16 ( Igλ), or 6 ( Igκ). In the BALB/c mouse, the translocation between chromosomes 12 and 15, T(12;15), is most common (90%) while the other two possible translocations, T(6;15) and T(16;15), are much less common (<10%). In contrast, in the BALB/cRb6.15 mouse, T(6;15) is found with the same frequency as T(12;15). We, therefore, examined the distance between chromosomes 15 and 12, 6, and 16 in primary mouse B lymphocytes in order to examine the effect of the chromosome proximity on the translocation frequency. We performed three-dimensional fluorescent in situ hybridization (3D-FISH) with chromosome paints. We acquired three-dimensional image stacks with 90 slices per stack and used constrained iterative deconvolution. The nucleus and chromosomes were segmented from this image stack and the interchromosomal distances were measured. Chromosomes 6 and 15 were found in close proximity in BALB/cRb6.15 mice (82%), whereas they did not share this neighborhood relationship in BALB/c mice. No other chromosome combinations showed such a high percentage of close proximities in either mouse strain. Chromosome positions contribute to translocation frequencies in mouse PCTs. The BALB/cRb6.15 mouse data argue for a proximity relationship of chromosomes that engage in illegitimate recombination. These positions are not, however, the only contributing factor as the T(12;15) translocation preference in BALB/c mice could not be supported by significantly elevated proximity of chromosomes 12 and 15 versus 12 and 16 or 12 and 6. Moreover, while there is a significant increase in T(6;15) in BALB/cRb6.15 mice, T(12;15) still occurs in this mouse strain. © 2011 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2011

5. Novel automated three-dimensional genome scanning based on the nuclear architecture of telomeres.

Author

Klewes, Ludger, Höbsch, Clemens, Katzir, Nir, Rourke, David, Garini, Yuval, and Mai, Sabine

Abstract

Telomeres, the end of chromosomes, are organized in a nonoverlapping fashion and form microterritories in nuclei of normal cells. Previous studies have shown that normal and tumor cell nuclei differ in their 3D telomeric organization. The differences include a change in the spatial organization of the telomeres, in telomere numbers and sizes and in the presence of telomeric aggregates. Previous attempts to identify the above parameters of 3D telomere organization were semi-automated. Here we describe the automation of 3D scanning for telomere signatures in interphase nuclei based on three-dimensional fluorescent in situ hybridization (3D-FISH) and, for the first time, define its sensitivity in tumor cell detection. The data were acquired with a high-throughput scanning/acquisition system that allows to measure cells and acquire 3D images of nuclei at high resolution with 40× or 60× oil and at a speed of 10,000-15,000 cells h−1, depending on the cell density on the slides. The automated scanning, TeloScan, is suitable for large series of samples and sample sizes. We define the sensitivity of this automation for tumor cell detection. The data output includes 3D telomere positions, numbers of telomeric aggregates, telomere numbers, and telomere signal intensities. We were able to detect one aberrant cell in 1,000 normal cells. In conclusions, we are able to detect tumor cells based on 3D architectural profiles of the genome. This new tool could, in the future, assist in patient diagnosis, in the detection of minimal residual disease, in the analysis of treatment response and in treatment decisions. © 2010 International Society for Advancement of Cytometry. [ABSTRACT FROM AUTHOR]

Published

2011

6. Studies of Single Molecules in their Natural Form.

Author

Lindner, Moshe, Nir, Guy, Dietrich, Heidelinde R. C., Young, Ian T., Tauber, Elad, Bronshtein, I., Altman, Liat, and Garini, Yuval

Subjects

NUCLEIC acids, MOLECULES, MONOMERS, MACROMOLECULES, FREE molecules

Abstract

Single molecule studies make possible the characterization of molecular processes and the identification of biophysical sub-populations that are not accessible through ensemble studies. We describe tethered particle motion, a method that allows one to study single molecules in their natural form without having to apply any external forces. The method combines darkfield microscopy with a metal nano-bead. It permits the study of the biophysical properties of the tethered particles, as well as protein–DNA interactions. The method is not suitable for in vivo studies, and we therefore describe two other methods that are appropriate for live-cell imaging [ABSTRACT FROM AUTHOR]

Published

2009

7. Centromeres in cell division, evolution, nuclear organization and disease.

Author

Gonçalves dos Santos Silva, Amanda, Sarkar, Rahul, Harizanova, Jana, Guffei, Amanda, Mowat, Michael, Garini, Yuval, and Mai, Sabine

Published

2008

8. Spectral imaging of multi-color chromogenic dyes in pathological specimens.

Author

Macville, Merryn V.E., Van der Laak, Jeroen A.W.M., Speel, Ernst J.M., Katzir, Nir, Garini, Yuval, Soenksen, Dirk, McNamara, George, de Wilde, Peter C.M., Hanselaar, Antonius G.J.M., Hopman, Anton H.N., and Ried, Thomas

Subjects

CHROMOGENIC compounds, CANCER cells, PATHOLOGY

Abstract

We have investigated the use of spectral imaging for multi-color analysis of permanent cytochemical dyes and enzyme precipitates on cytopathological specimens. Spectral imaging is based on Fourier-transform spectroscopy and digital imaging. A pixel-by-pixel spectrum-based color classification is presented of single-, double-, and triple-color in situ hybridization for centromeric probes in T24 bladder cancer cells, and immunocytochemical staining of nuclear antigens Ki-67 and TP53 in paraffin-embedded cervical brush material (AgarCyto). The results demonstrate that spectral imaging unambiguously identifies three chromogenic dyes in a single bright-field microscopic specimen. Serial microscopic fields from the same specimen can be analyzed using a spectral reference library. We conclude that spectral imaging of multi-color chromogenic dyes is a reliable and robust method for pixel color recognition and classification. Our data further indicate that the use of spectral imaging (a) may increase the number of parameters studied simultaneously in pathological diagnosis, (b) may provide quantitative data (such as positive labeling indices) more accurately, and (c) may solve segmentation problems currently faced in automated screening of cell- and tissue specimens.Figures on http://www.esacp.org/acp/2001/22-3/macville.htm. [ABSTRACT FROM AUTHOR]

Published

2001

9. Fourier Transform Multipixel Spectroscopy and Spectral Imaging of Protoporphyrin in Single Melanoma Cells.

Author

Malik, Zvi, Dishi, Michal, and Garini, Yuval

Published

1996

10. Confocal 3D DNA cytometry: Assessment of required coefficient of variation by computer simulation.

Author

Garini, Yuval

Subjects

*LETTERS to the editor, *CYTOMETRY

Abstract

A letter to the editor is presented in response to the article "Confocal 3D DNA cytometry: assessment of required coefficient of variation by computer simulation," by L.S. Ploeger and others in an issue in 2004.

Published

2006

11. Nano- and Biophotonics.

Author

Zalevsky, Zeev, Garini, Yuval, Popovtzer, Rachela, and Ferraro, Pietro

Subjects

*NANORODS, *NANOPARTICLES, *CANCER cells

Abstract

An introduction is presented in which the editors discuss various topics within the issue including disposing gold nanorods and nanoparticles on glass substrate, and utilization of magnetic nanoparticles to detect, cure and kill cancer cells.

Published

2012