Your search keyword '"Cherbas, Lucy"' showing total 11 results

1. Diverse Hormone Response Networks in 41 Independent Drosophila Cell Lines.

Author

Stoiber M, Celniker S, Cherbas L, Brown B, and Cherbas P

Subjects

Animals, Cell Line, Cluster Analysis, Ecdysone metabolism, Ecdysone pharmacology, Gene Expression Profiling, Hormones pharmacology, Protein Isoforms, Receptors, Steroid metabolism, Steroids metabolism, Transcription Factors metabolism, Transcription, Genetic drug effects, Transcriptome, Drosophila genetics, Drosophila metabolism, Gene Expression Regulation drug effects, Hormones metabolism, Signal Transduction

Abstract

Steroid hormones induce cascades of gene activation and repression with transformative effects on cell fate . Steroid transduction plays a major role in the development and physiology of nearly all metazoan species, and in the progression of the most common forms of cancer. Despite the paramount importance of steroids in developmental and translational biology, a complete map of transcriptional response has not been developed for any hormone . In the case of 20-hydroxyecdysone (ecdysone) in Drosophila melanogaster, these trajectories range from apoptosis to immortalization. We mapped the ecdysone transduction network in a cohort of 41 cell lines, the largest such atlas yet assembled. We found that the early transcriptional response mirrors the distinctiveness of physiological origins: genes respond in restricted patterns, conditional on the expression levels of dozens of transcription factors. Only a small cohort of genes is constitutively modulated independent of initial cell state. Ecdysone-responsive genes tend to organize into directional same-stranded units, with consecutive genes induced from the same strand. Here, we identify half of the ecdysone receptor heterodimer as the primary rate-limiting step in the response, and find that initial receptor isoform levels modulate the activated cohort of target transcription factors. This atlas of steroid response reveals organizing principles of gene regulation by a model type II nuclear receptor and lays the foundation for comprehensive and predictive understanding of the ecdysone transduction network in the fruit fly., (Copyright © 2016 Stoiber et al.)

Published

2016

2. Diversity of miRNAs, siRNAs, and piRNAs across 25 Drosophila cell lines.

Author

Wen J, Mohammed J, Bortolamiol-Becet D, Tsai H, Robine N, Westholm JO, Ladewig E, Dai Q, Okamura K, Flynt AS, Zhang D, Andrews J, Cherbas L, Kaufman TC, Cherbas P, Siepel A, and Lai EC

Subjects

Animals, Base Sequence, Cell Line, Computational Biology methods, Gene Expression, Genetic Loci, Germ Cells, High-Throughput Nucleotide Sequencing, MicroRNAs chemistry, Molecular Sequence Annotation, Molecular Sequence Data, Nucleic Acid Conformation, RNA, Small Interfering chemistry, Sequence Alignment, Drosophila genetics, Genetic Variation, MicroRNAs genetics, RNA, Small Interfering genetics

Abstract

We expanded the knowledge base for Drosophila cell line transcriptomes by deeply sequencing their small RNAs. In total, we analyzed more than 1 billion raw reads from 53 libraries across 25 cell lines. We verify reproducibility of biological replicate data sets, determine common and distinct aspects of miRNA expression across cell lines, and infer the global impact of miRNAs on cell line transcriptomes. We next characterize their commonalities and differences in endo-siRNA populations. Interestingly, most cell lines exhibit enhanced TE-siRNA production relative to tissues, suggesting this as a common aspect of cell immortalization. We also broadly extend annotations of cis-NAT-siRNA loci, identifying ones with common expression across diverse cells and tissues, as well as cell-restricted loci. Finally, we characterize small RNAs in a set of ovary-derived cell lines, including somatic cells (OSS and OSC) and a mixed germline/somatic cell population (fGS/OSS) that exhibits ping-pong piRNA signatures. Collectively, the ovary data reveal new genic piRNA loci, including unusual configurations of piRNA-generating regions. Together with the companion analysis of mRNAs described in a previous study, these small RNA data provide comprehensive information on the transcriptional landscape of diverse Drosophila cell lines. These data should encourage broader usage of fly cell lines, beyond the few that are presently in common usage., (© 2014 Wen et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2014

3. Cell lines.

Author

Cherbas L and Gong L

Subjects

Animals, Drosophila growth & development, Genomics, Cell Line, Developmental Biology methods, Drosophila genetics

Abstract

We review the properties and uses of cell lines in Drosophila research, emphasizing the variety of lines, the large body of genomic and transcriptional data available for many of the lines, and the variety of ways the lines have been used to provide tools for and insights into the developmental, molecular, and cell biology of Drosophila and mammals., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2014

4. Transformation of Drosophila cell lines: an alternative approach to exogenous protein expression.

Author

Cherbas L and Cherbas P

Subjects

Animals, Cell Line, Drosophila cytology, Drosophila genetics, Gene Expression, Genetic Vectors genetics, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Plasmids genetics, Promoter Regions, Genetic genetics, Recombinant Fusion Proteins genetics, Transfection methods, Baculoviridae genetics, Drosophila metabolism, Recombinant Fusion Proteins metabolism

Abstract

Techniques and experimental applications are described for exogenous protein expression in Drosophila cell lines. Ways in which the Drosophila cell lines and the baculovirus expression vector system differ in their applications are emphasized.

Published

2007

5. Methylation at lysine 4 of histone H3 in ecdysone-dependent development of Drosophila.

Author

Sedkov Y, Cho E, Petruk S, Cherbas L, Smith ST, Jones RS, Cherbas P, Canaani E, Jaynes JB, and Mazo A

Subjects

Animals, Chromatin Assembly and Disassembly drug effects, Drosophila genetics, Drosophila metabolism, Drosophila Proteins genetics, Eye embryology, Eye metabolism, Female, Gene Expression Regulation, Developmental drug effects, Hedgehog Proteins, Histone-Lysine N-Methyltransferase genetics, Male, Methylation drug effects, Promoter Regions, Genetic genetics, Protein Binding, Receptors, Steroid metabolism, Drosophila drug effects, Drosophila embryology, Drosophila Proteins metabolism, Ecdysone pharmacology, Histone-Lysine N-Methyltransferase metabolism, Histones metabolism, Lysine metabolism

Abstract

Steroid hormones fulfil important functions in animal development. In Drosophila, ecdysone triggers moulting and metamorphosis through its effects on gene expression. Ecdysone works by binding to a nuclear receptor, EcR, which heterodimerizes with the retinoid X receptor homologue Ultraspiracle. Both partners are required for binding to ligand or DNA. Like most DNA-binding transcription factors, nuclear receptors activate or repress gene expression by recruiting co-regulators, some of which function as chromatin-modifying complexes. For example, p160 class coactivators associate with histone acetyltransferases and arginine histone methyltransferases. The Trithorax-related gene of Drosophila encodes the SET domain protein TRR. Here we report that TRR is a histone methyltransferases capable of trimethylating lysine 4 of histone H3 (H3-K4). trr acts upstream of hedgehog (hh) in progression of the morphogenetic furrow, and is required for retinal differentiation. Mutations in trr interact in eye development with EcR, and EcR and TRR can be co-immunoprecipitated on ecdysone treatment. TRR, EcR and trimethylated H3-K4 are detected at the ecdysone-inducible promoters of hh and BR-C in cultured cells, and H3-K4 trimethylation at these promoters is decreased in embryos lacking a functional copy of trr. We propose that TRR functions as a coactivator of EcR by altering the chromatin structure at ecdysone-responsive promoters.

Published

2003

6. Diverse Hormone Response Networks in 41 Independent Drosophila Cell Lines

Author

Stoiber, Marcus, Celniker, Susan, Cherbas, Lucy, Brown, Ben, and Cherbas, Peter

Subjects

Biochemistry and Cell Biology, Genetics, Biological Sciences, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Aetiology, Underpinning research, Animals, Cell Line, Cluster Analysis, Drosophila, Ecdysone, Gene Expression Profiling, Gene Expression Regulation, Hormones, Protein Isoforms, Receptors, Steroid, Signal Transduction, Steroids, Transcription Factors, Transcription, Genetic, Transcriptome, ecdysone, network biology, transcription, RNA-seq, bioinformatics, Biochemistry and cell biology, Statistics

Abstract

Steroid hormones induce cascades of gene activation and repression with transformative effects on cell fate . Steroid transduction plays a major role in the development and physiology of nearly all metazoan species, and in the progression of the most common forms of cancer. Despite the paramount importance of steroids in developmental and translational biology, a complete map of transcriptional response has not been developed for any hormone . In the case of 20-hydroxyecdysone (ecdysone) in Drosophila melanogaster, these trajectories range from apoptosis to immortalization. We mapped the ecdysone transduction network in a cohort of 41 cell lines, the largest such atlas yet assembled. We found that the early transcriptional response mirrors the distinctiveness of physiological origins: genes respond in restricted patterns, conditional on the expression levels of dozens of transcription factors. Only a small cohort of genes is constitutively modulated independent of initial cell state. Ecdysone-responsive genes tend to organize into directional same-stranded units, with consecutive genes induced from the same strand. Here, we identify half of the ecdysone receptor heterodimer as the primary rate-limiting step in the response, and find that initial receptor isoform levels modulate the activated cohort of target transcription factors. This atlas of steroid response reveals organizing principles of gene regulation by a model type II nuclear receptor and lays the foundation for comprehensive and predictive understanding of the ecdysone transduction network in the fruit fly.

Published

2016

7. 26-[125I]Iodoponasterone A is a Potent Ecdysone and a Sensitive Radioligand for Ecdysone Receptors

Author

Cherbas, Peter, Cherbas, Lucy, Lee, Shoei-Sheng, and Nakanishi, Koji

Published

1988

8. The morphological response of Kc-H cells to ecdysteroids: Hormonal specificity

Author

Cherbas, Lucy, Yonge, Christopher D., Cherbas, Peter, and Williams, Carroll M.

Published

1980

9. Tools for Targeted Genome Engineering of Established Drosophila Cell Lines.

Author

Cherbas, Lucy, Hackney, Jennifer, Lei Gong, Salzer, Claire, Mauser, Eric, Dayu Zhang, and Cherbas, Peter

Subjects

*DROSOPHILA genetics, *GENE cassettes, *INTEGRASES, *CELL lines, *GREEN fluorescent protein, *GENETIC transformation, *INSECTS

Abstract

We describe an adaptation of фC31 integrase-mediated targeted cassette exchange for use in Drosophila cell lines. Single copies of an attP-bounded docking platform carrying a GFP-expression marker, with or without insulator elements flanking the attP sites, were inserted by P-element transformation into the Kc167 and Sg4 cell lines; each of the resulting docking-site lines carries a single mapped copy of one of the docking platforms. Vectors for targeted substitution contain a cloning cassette flanked by attB sites. Targeted substitution occurs by integrase-mediated substitution between the attP sites (integrated) and the attB sites (vector). We describe procedures for isolating cells carrying the substitutions and for eliminating the products of secondary off-target events. We demonstrate the technology by integrating a cassette containing a Cu2+-inducible mCherry marker, and we report the expression properties of those lines. When compared with clonal lines made by traditional transformation methods, which lead to the illegitimate insertion of tandem arrays, targeted insertion lines give more uniform expression, lower basal expression, and higher induction ratios. Targeted substitution, though intricate, affords results that should greatly improve comparative expression assays--a major emphasis of cell-based studies. [ABSTRACT FROM AUTHOR]

Published

2015

10. The Drosophila nucleosome remodeling factor NURF is required for Ecdysteroid signaling and metamorphosis.

Author

Badenhorst, Paul, Hua Xiao, Cherbas, Lucy, So Yeon Kwon, Voas, Matt, Rebay, Ilaria, Cherbas, Peter, and Wu, Carl

Subjects

*GENE targeting, *DROSOPHILA, *ADENOSINE triphosphate, *CHROMATIN, *GENOMES

Abstract

Drosophila NURF is an ISWI-containing ATP-dependent chromatin remodeling complex that regulates transcription by catalyzing nucleosome sliding. To determine in vivo gene targets of NURF, we performed whole genome expression analysis on mutants lacking the NURF-specific subunit NURF301. Strikingly, a large set of ecdysone-responsive targets is included among several hundred NURF-regulated genes. Null Nurf301 mutants do not undergo larval to pupal metamorphosis, and also enhance dominant-negative mutations in ecdysone receptor. Moreover, purified NURF binds EcR in an ecdysone-dependent manner, suggesting it is a direct effector of nuclear receptor activity. The conservation of NURF in mammals has broad implications for steroid signaling. [ABSTRACT FROM AUTHOR]

Published

2005

11. Development of High-Sensitivity Ion Trap Ion Mobility Spectrometry Time-of-Flight Techniques: A High-Throughput Nano-LC-IMS-TOF Separation of Peptides Arising from a Drosophila Protein Extract.

Author

Sunnie Myung, Josep, Young Jin Lee, Myeong Hee Moon, Taraszka, John, Sowell, Rena, Koeniger, Stormy, Hilderbrand, Amy E., Valentine, Stephen J., Cherbas, Lucy, Cherbas, Peter, Kaufmann, Thomas C., Miller, David F., Mechref, Yehia, Novotny, Milos V., Ewing, Michael A., Sporleder, C. Ray, and Clemmer, David E.

Subjects

*ION mobility spectroscopy, *DROSOPHILA, *PROTEINS, *IONIZATION (Atomic physics)

Abstract

A linear octopole trap interface for an ion mobility time of-flight mass spectrometer has been developed for focusing and accumulating continuous beams of ions produced by electrospray ionization. The interface improves experimental efficiencies by factors of ∼50-200 compared with an analogous configuration that utilizes a three-dimensional Paul geometry trap (Hoaglund-Hyzer, C. S.; Lee, Y. J.; Counterman, A. E.; Clemmer, D. E. Anal. Chem. 2002, 74, 992-1006). With these improvements, it is possible to record nested drift (flight) time distributions for complex mixtures in fractions of a second. We demonstrate the approach for several well-defined peptide mixtures and an assessment of the detection limits is given. Additionally, we demonstrate the utility of the approach in the field of proteomics by an on-line, three dimensional nano-LC-ion mobility-TOF separation of tryptic peptides from the Drosophila proteome. [ABSTRACT FROM AUTHOR]

Published

2003