Your search keyword '"Satyajit Mayor"' showing total 8 results

1. Correction: Population Distribution Analyses Reveal a Hierarchy of Molecular Players Underlying Parallel Endocytic Pathways.

Author

Gagan D Gupta, Gautam Dey, Swetha Mg, Balaji Ramalingam, Khader Shameer, Joseph Jose Thottacherry, Joseph Mathew Kalappurakkal, Mark T Howes, Ruma Chandran, Anupam Das, Sindhu Menon, Robert G Parton, R Sowdhamini, Mukund Thattai, and Satyajit Mayor

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0100554.].

Published

2018

2. Tailor-made ezrin actin binding domain to probe its interaction with actin in-vitro.

Author

Rohini Shrivastava, Darius Köster, Sheetal Kalme, Satyajit Mayor, and Muniasamy Neerathilingam

Subjects

Medicine, Science

Abstract

Ezrin, a member of the ERM (Ezrin/Radixin/Moesin) protein family, is an Actin-plasma membrane linker protein mediating cellular integrity and function. In-vivo study of such interactions is a complex task due to the presence of a large number of endogenous binding partners for both Ezrin and Actin. Further, C-terminal actin binding capacity of the full length Ezrin is naturally shielded by its N-terminal, and only rendered active in the presence of Phosphatidylinositol bisphosphate (PIP2) or phosphorylation at the C-terminal threonine. Here, we demonstrate a strategy for the design, expression and purification of constructs, combining the Ezrin C-terminal actin binding domain, with functional elements such as fusion tags and fluorescence tags to facilitate purification and fluorescence microscopy based studies. For the first time, internal His tag was employed for purification of Ezrin actin binding domain based on in-silico modeling. The functionality (Ezrin-actin interaction) of these constructs was successfully demonstrated by using Total Internal Reflection Fluorescence Microscopy. This design can be extended to other members of the ERM family as well.

Published

2015

3. Exploiting cell-to-cell variability to detect cellular perturbations.

Author

Gautam Dey, Gagan D Gupta, Balaji Ramalingam, Mugdha Sathe, Satyajit Mayor, and Mukund Thattai

Subjects

Medicine, Science

Abstract

Any single-cell-resolved measurement generates a population distribution of phenotypes, characterized by a mean, a variance, and a shape. Here we show that changes in the shape of a phenotypic distribution can signal perturbations to cellular processes, providing a way to screen for underlying molecular machinery. We analyzed images of a Drosophila S2R+ cell line perturbed by RNA interference, and tracked 27 single-cell features which report on endocytic activity, and cell and nuclear morphology. In replicate measurements feature distributions had erratic means and variances, but reproducible shapes; RNAi down-regulation reliably induced shape deviations in at least one feature for 1072 out of 7131 genes surveyed, as revealed by a Kolmogorov-Smirnov-like statistic. We were able to use these shape deviations to identify a spectrum of genes that influenced cell morphology, nuclear morphology, and multiple pathways of endocytosis. By preserving single-cell data, our method was even able to detect effects invisible to a population-averaged analysis. These results demonstrate that cell-to-cell variability contains accessible and useful biological information, which can be exploited in existing cell-based assays.

Published

2014

4. Population distribution analyses reveal a hierarchy of molecular players underlying parallel endocytic pathways.

Author

Gagan D Gupta, Gautam Dey, M G Swetha, Balaji Ramalingam, Khader Shameer, Joseph Jose Thottacherry, Joseph Mathew Kalappurakkal, Mark T Howes, Ruma Chandran, Anupam Das, Sindhu Menon, Robert G Parton, R Sowdhamini, Mukund Thattai, and Satyajit Mayor

Subjects

Medicine, Science

Abstract

Single-cell-resolved measurements reveal heterogeneous distributions of clathrin-dependent (CD) and -independent (CLIC/GEEC: CG) endocytic activity in Drosophila cell populations. dsRNA-mediated knockdown of core versus peripheral endocytic machinery induces strong changes in the mean, or subtle changes in the shapes of these distributions, respectively. By quantifying these subtle shape changes for 27 single-cell features which report on endocytic activity and cell morphology, we organize 1072 Drosophila genes into a tree-like hierarchy. We find that tree nodes contain gene sets enriched in functional classes and protein complexes, providing a portrait of core and peripheral control of CD and CG endocytosis. For 470 genes we obtain additional features from separate assays and classify them into early- or late-acting genes of the endocytic pathways. Detailed analyses of specific genes at intermediate levels of the tree suggest that Vacuolar ATPase and lysosomal genes involved in vacuolar biogenesis play an evolutionarily conserved role in CG endocytosis.

Published

2014

5. Analysis of endocytic pathways in Drosophila cells reveals a conserved role for GBF1 in internalization via GEECs.

Author

Gagan D Gupta, M G Swetha, Sudha Kumari, Ramya Lakshminarayan, Gautam Dey, and Satyajit Mayor

Subjects

Medicine, Science

Abstract

In mammalian cells, endocytosis of the fluid phase and glycosylphosphatidylinositol-anchored proteins (GPI-APs) forms GEECs (GPI-AP enriched early endosomal compartments) via an Arf1- and Cdc42-mediated, dynamin independent mechanism. Here we use four different fluorescently labeled probes and several markers in combination with quantitative kinetic assays, RNA interference and high resolution imaging to delineate major endocytic routes in Drosophila cultured cells. We find that the hallmarks of the pinocytic GEEC pathway are conserved in Drosophila and identify garz, the fly ortholog of the GTP exchange factor GBF1, as a novel component of this pathway. Live confocal and TIRF imaging reveals that a fraction of GBF1 GFP dynamically associates with ABD RFP (a sensor for activated Arf1 present on nascent pinosomes). Correspondingly, a GTP exchange mutant of GBF1 has altered ABD RFP localization in the evanescent field and is impaired in fluid phase uptake. Furthermore, GBF1 activation is required for the GEEC pathway even in the presence of Brefeldin A, implying that, like Arf1, it has a role in endocytosis that is separable from its role in secretion.

Published

2009

6. Correction: Population Distribution Analyses Reveal a Hierarchy of Molecular Players Underlying Parallel Endocytic Pathways

Author

Ruma Chandran, Joseph Mathew Kalappurakkal, B. Ramalingam, Sindhu Menon, Joseph Jose Thottacherry, Ramanathan Sowdhamini, M G Swetha, Satyajit Mayor, Mukund Thattai, Mark T. Howes, Gautam Dey, Gagan D. Gupta, Khader Shameer, Anupam Das, and Robert G. Parton

Subjects

Vacuolar Proton-Translocating ATPases, Hemocytes, Endocytic cycle, Population, Distribution (economics), lcsh:Medicine, CHO Cells, Cricetulus, Cricetinae, Statistics, Animals, Drosophila Proteins, Humans, RNA, Small Interfering, education, lcsh:Science, Eye Proteins, Cells, Cultured, Hierarchy, education.field_of_study, Multidisciplinary, business.industry, Qa-SNARE Proteins, Gene Expression Profiling, lcsh:R, Correction, Clathrin, Endocytosis, DNA-Binding Proteins, Geography, lcsh:Q, Drosophila, RNA Interference, business

Abstract

Single-cell-resolved measurements reveal heterogeneous distributions of clathrin-dependent (CD) and -independent (CLIC/GEEC: CG) endocytic activity in Drosophila cell populations. dsRNA-mediated knockdown of core versus peripheral endocytic machinery induces strong changes in the mean, or subtle changes in the shapes of these distributions, respectively. By quantifying these subtle shape changes for 27 single-cell features which report on endocytic activity and cell morphology, we organize 1072 Drosophila genes into a tree-like hierarchy. We find that tree nodes contain gene sets enriched in functional classes and protein complexes, providing a portrait of core and peripheral control of CD and CG endocytosis. For 470 genes we obtain additional features from separate assays and classify them into early- or late-acting genes of the endocytic pathways. Detailed analyses of specific genes at intermediate levels of the tree suggest that Vacuolar ATPase and lysosomal genes involved in vacuolar biogenesis play an evolutionarily conserved role in CG endocytosis.

Published

2018

7. Tailor-Made Ezrin Actin Binding Domain to Probe Its Interaction with Actin In-Vitro

Author

Satyajit Mayor, Darius Vasco Köster, Muniasamy Neerathilingam, Rohini Shrivastava, and Sheetal Kalme

Subjects

Models, Molecular, Moesin, Recombinant Fusion Proteins, Protein domain, lcsh:Medicine, macromolecular substances, In Vitro Techniques, environment and public health, Avian Proteins, Ezrin, Radixin, Fluorescence microscope, Animals, Protein Interaction Domains and Motifs, Actin-binding protein, lcsh:Science, Cytoskeleton, Multidisciplinary, biology, lcsh:R, Microfilament Proteins, Actins, Cell biology, Cytoskeletal Proteins, biology.protein, lcsh:Q, Chickens, Binding domain, Research Article

Abstract

Ezrin, a member of the ERM (Ezrin/Radixin/Moesin) protein family, is an Actin-plasma membrane linker protein mediating cellular integrity and function. In-vivo study of such interactions is a complex task due to the presence of a large number of endogenous binding partners for both Ezrin and Actin. Further, C-terminal actin binding capacity of the full length Ezrin is naturally shielded by its N-terminal, and only rendered active in the presence of Phosphatidylinositol bisphosphate (PIP2) or phosphorylation at the C-terminal threonine. Here, we demonstrate a strategy for the design, expression and purification of constructs, combining the Ezrin C-terminal actin binding domain, with functional elements such as fusion tags and fluorescence tags to facilitate purification and fluorescence microscopy based studies. For the first time, internal His tag was employed for purification of Ezrin actin binding domain based on in-silico modeling. The functionality (Ezrin-actin interaction) of these constructs was successfully demonstrated by using Total Internal Reflection Fluorescence Microscopy. This design can be extended to other members of the ERM family as well.

Published

2015

8. Exploiting Cell-To-Cell Variability To Detect Cellular Perturbations

Author

Mugdha Sathe, Gagan D. Gupta, Gautam Dey, B. Ramalingam, Satyajit Mayor, and Mukund Thattai

Subjects

Endocytic cycle, Population, lcsh:Medicine, Biostatistics, Biology, Cell morphology, 03 medical and health sciences, Model Organisms, 0302 clinical medicine, Genome Analysis Tools, RNA interference, Genome-Wide Association Studies, Animals, Statistical Methods, RNA, Small Interfering, lcsh:Science, education, Cell Shape, 030304 developmental biology, Genetics, 0303 health sciences, education.field_of_study, Multidisciplinary, Drosophila Melanogaster, Applied Mathematics, Statistics, lcsh:R, Computational Biology, Genomics, Animal Models, Replicate, Phenotype, Endocytosis, Functional Genomics, Feature (computer vision), Drosophila, RNA Interference, lcsh:Q, Biological system, Mathematics, 030217 neurology & neurosurgery, Research Article, Genetic screen

Abstract

Any single-cell-resolved measurement generates a population distribution of phenotypes, characterized by a mean, a variance, and a shape. Here we show that changes in the shape of a phenotypic distribution can signal perturbations to cellular processes, providing a way to screen for underlying molecular machinery. We analyzed images of a Drosophila S2R+ cell line perturbed by RNA interference, and tracked 27 single-cell features which report on endocytic activity, and cell and nuclear morphology. In replicate measurements feature distributions had erratic means and variances, but reproducible shapes; RNAi down-regulation reliably induced shape deviations in at least one feature for 1072 out of 7131 genes surveyed, as revealed by a Kolmogorov-Smirnov-like statistic. We were able to use these shape deviations to identify a spectrum of genes that influenced cell morphology, nuclear morphology, and multiple pathways of endocytosis. By preserving single-cell data, our method was even able to detect effects invisible to a population-averaged analysis. These results demonstrate that cell-to-cell variability contains accessible and useful biological information, which can be exploited in existing cell-based assays.

Published

2014