Your search keyword '"Erber, Luke"' showing total 9 results

1. Defining the commonalities between post-transcriptional and post-translational modification communities.

Author

Baumer, Zachary T., Erber, Luke, Jolley, Elizabeth, Lawrence, Sheldon, Lin, Chuwei, Murakami, Shino, Perez, Veronica, Prall, Wil, Schaening-Burgos, Cassandra, Sylvia, Megan, Chen, Sixue, and Gregory, Brian D.

Subjects

*POST-translational modification, *RNA modification & restriction

Abstract

Post-transcriptional modifications of RNA (PRMs) and post-translational modifications of proteins (PTMs) are important regulatory mechanisms in biological processes and have many commonalities. However, the integration of these research areas is lacking. A recent discussion identified the priorities, areas of emphasis, and necessary technologies to advance and integrate these areas of study. [ABSTRACT FROM AUTHOR]

Published

2024

2. Invasive species may offer advanced phytoremediation of endocrine disrupting chemicals in aquatic ecosystems.

Author

Trueman, Rebecca J. and Erber, Luke

Subjects

*PHYTOREMEDIATION, *BIOREMEDIATION, *POLLUTANTS, *MACROPHYTES, *XENOESTROGENS, *ETHINYL estradiol, *AQUATIC ecology

Abstract

One of the major areas of advancement in environmental science is bioremediation. Researchers have been using bacteria, fungi, algae and now macrophytes to remove pollutants from aquatic and terrestrial ecosystems. Here we share the results of a study on the macrophyte uptake of xenoestrogens from an urban river. We found that the invasive curly leaf pond weed (Potamogeton illinoensis) accumulated an average of 66% higher levels of estrogenic compounds and 94% more Bisphenol-A than the native Illinois pondweed (Potamogeton crispus) in an urban river, in the watershed for the greater Chicago, IL area. The invasive species accumulated 76% more estrone, 55% more 17 β-estradiol and 31% more 17 α-ethynylestradiol than the native species. The Nonnative plants were also 72% larger than the native Illinois Pondweed. Managers may consider using invasive species to remove pollutants from ecosystems and restore ecosystem biogeochemistry [ABSTRACT FROM AUTHOR]

Published

2013

3. Quantitative Proteome and Transcriptome Dynamics Analysis Reveals Iron Deficiency Response Networks and Signature in Neuronal Cells.

Author

Erber, Luke, Liu, Shirelle, Gong, Yao, Tran, Phu, and Chen, Yue

Subjects

*NEURAL circuitry, *IRON deficiency, *TRANSCRIPTOMES, *NEUROLOGICAL disorders, *CELL communication, *TRANSCRIPTION factors

Abstract

Iron and oxygen deficiencies are common features in pathophysiological conditions, such as ischemia, neurological diseases, and cancer. Cellular adaptive responses to such deficiencies include repression of mitochondrial respiration, promotion of angiogenesis, and cell cycle control. We applied a systematic proteomics analysis to determine the global proteomic changes caused by acute hypoxia and chronic and acute iron deficiency (ID) in hippocampal neuronal cells. Our analysis identified over 8600 proteins, revealing similar and differential effects of each treatment on activation and inhibition of pathways regulating neuronal development. In addition, comparative analysis of ID-induced proteomics changes in cultured cells and transcriptomic changes in the rat hippocampus identified common altered pathways, indicating specific neuronal effects. Transcription factor enrichment and correlation analysis identified key transcription factors that were activated in both cultured cells and tissue by iron deficiency, including those implicated in iron regulation, such as HIF1, NFY, and NRF1. We further identified MEF2 as a novel transcription factor whose activity was induced by ID in both HT22 proteome and rat hippocampal transcriptome, thus linking iron deficiency to MEF2-dependent cellular signaling pathways in neuronal development. Taken together, our study results identified diverse signaling networks that were differentially regulated by hypoxia and ID in neuronal cells. [ABSTRACT FROM AUTHOR]

Published

2022

4. HypDB: A functionally annotated web-based database of the proline hydroxylation proteome.

Author

Gong, Yao, Behera, Gaurav, Erber, Luke, Luo, Ang, and Chen, Yue

Subjects

*PROLINE, *ORGANS (Anatomy), *HYDROXYLATION, *INTERNET servers, *RENAL cancer, *ONLINE databases

Abstract

Proline hydroxylation (Hyp) regulates protein structure, stability, and protein–protein interaction. It is widely involved in diverse metabolic and physiological pathways in cells and diseases. To reveal functional features of the Hyp proteome, we integrated various data sources for deep proteome profiling of the Hyp proteome in humans and developed HypDB (https://www.HypDB.site), an annotated database and web server for Hyp proteome. HypDB provides site-specific evidence of modification based on extensive LC-MS analysis and literature mining with 14,413 nonredundant Hyp sites on 5,165 human proteins including 3,383 Class I and 4,335 Class II sites. Annotation analysis revealed significant enrichment of Hyp on key functional domains and tissue-specific distribution of Hyp abundance across 26 types of human organs and fluids and 6 cell lines. The network connectivity analysis further revealed a critical role of Hyp in mediating protein–protein interactions. Moreover, the spectral library generated by HypDB enabled data-independent analysis (DIA) of clinical tissues and the identification of novel Hyp biomarkers in lung cancer and kidney cancer. Taken together, our integrated analysis of human proteome with publicly accessible HypDB revealed functional diversity of Hyp substrates and provides a quantitative data source to characterize Hyp in pathways and diseases. This study presents a comprehensive online database and webserver of the proline hydroxylation proteome, using an exportable spectral library that enables deep profiling and label-free quantification of modification targets in cell lines and tissues. [ABSTRACT FROM AUTHOR]

Published

2022

5. Site‐Specific 5‐Formyl Cytosine Mediated DNA‐Histone Cross‐Links: Synthesis and Polymerase Bypass by Human DNA Polymerase η.

Author

Pujari, Suresh S., Wu, Mingxuan, Thomforde, Jenna, Wang, Zhipeng A., Chao, Christopher, Olson, Noelle M., Erber, Luke, Pomerantz, William C. K., Cole, Philip, and Tretyakova, Natalia Y.

Subjects

*HUMAN DNA, *DNA synthesis, *DNA replication, *DNA structure, *CYTOSINE, *POLYMERASES, *DNA polymerases

Abstract

DNA‐protein cross‐links (DPCs) between DNA epigenetic mark 5‐formylC and lysine residues of histone proteins spontaneously form in human cells. Such conjugates are likely to influence chromatin structure and mediate DNA replication, transcription, and repair, but are challenging to study due to their reversible nature. Here we report the construction of site specific, hydrolytically stable DPCs between 5fdC in DNA and K4 of histone H3 and an investigation of their effects on DNA replication. Our approach employs oxime ligation, allowing for site‐specific conjugation of histones to DNA under physiological conditions. Primer extension experiments revealed that histone H3‐DNA crosslinks blocked DNA synthesis by hPol η polymerase, but were bypassed following proteolytic processing. [ABSTRACT FROM AUTHOR]

Published

2021

6. Site‐Specific 5‐Formyl Cytosine Mediated DNA‐Histone Cross‐Links: Synthesis and Polymerase Bypass by Human DNA Polymerase η.

Author

Pujari, Suresh S., Wu, Mingxuan, Thomforde, Jenna, Wang, Zhipeng A., Chao, Christopher, Olson, Noelle M., Erber, Luke, Pomerantz, William C. K., Cole, Philip, and Tretyakova, Natalia Y.

Subjects

*HUMAN DNA, *DNA synthesis, *DNA replication, *DNA structure, *CYTOSINE, *POLYMERASES, *DNA polymerases

Abstract

DNA‐protein cross‐links (DPCs) between DNA epigenetic mark 5‐formylC and lysine residues of histone proteins spontaneously form in human cells. Such conjugates are likely to influence chromatin structure and mediate DNA replication, transcription, and repair, but are challenging to study due to their reversible nature. Here we report the construction of site specific, hydrolytically stable DPCs between 5fdC in DNA and K4 of histone H3 and an investigation of their effects on DNA replication. Our approach employs oxime ligation, allowing for site‐specific conjugation of histones to DNA under physiological conditions. Primer extension experiments revealed that histone H3‐DNA crosslinks blocked DNA synthesis by hPol η polymerase, but were bypassed following proteolytic processing. [ABSTRACT FROM AUTHOR]

Published

2021

7. A Quantitative Chemical Proteomics Approach for Site‐specific Stoichiometry Analysis of Ubiquitination.

Author

Li, Yunan, Evers, Jonathan, Luo, Ang, Erber, Luke, Postler, Zachary, and Chen, Yue

Subjects

*PROTEOMICS, *STOICHIOMETRY, *UBIQUITINATION, *POST-translational modification, *STABLE isotopes

Abstract

Stoichiometric analysis of post‐translational modifications is an emerging strategy for absolute quantification of the fractional abundance of the modification. Herein, a quantitative chemical proteomic workflow for stoichiometric analysis of ubiquitination is reported, named isotopically balanced quantification of ubiquitination (IBAQ‐Ub). The strategy utilizes a new amine‐reactive chemical tag (AcGG‐NHS) that is structurally homologous to the GG remnant of ubiquitin on modified lysine after trypsin cleavage and therefore enables the generation of structurally identical peptides from ubiquitinated and unmodified lysine residues following trypsin digestion and secondary stable isotopic labeling. The strategy is highly robust, sensitive, and accurate with a wide dynamic range using either protein standards or complex cell lysates. Thus, this work provides an efficient chemical proteomics tool for quantitative stoichiometric analysis of ubiquitination signaling pathways. How much is ubiquitinated: A quantitative chemical proteomics strategy has been developed to determine the absolute stoichiometry of ubiquitination. The approach is accurate, sensitive, and has a wide dynamic range of quantification at the site‐specific level. It can be applied to both targeted and untargeted analysis of complex protein mixture to quantify endogenous ubiquitination stoichiometries. [ABSTRACT FROM AUTHOR]

Published

2019

8. A Quantitative Chemical Proteomics Approach for Site‐specific Stoichiometry Analysis of Ubiquitination.

Author

Li, Yunan, Evers, Jonathan, Luo, Ang, Erber, Luke, Postler, Zachary, and Chen, Yue

Subjects

*STOICHIOMETRY, *PROTEOMICS, *UBIQUITINATION, *PROTEIN genetics, *PEPTIDES

Abstract

Stoichiometric analysis of post‐translational modifications is an emerging strategy for absolute quantification of the fractional abundance of the modification. Herein, a quantitative chemical proteomic workflow for stoichiometric analysis of ubiquitination is reported, named isotopically balanced quantification of ubiquitination (IBAQ‐Ub). The strategy utilizes a new amine‐reactive chemical tag (AcGG‐NHS) that is structurally homologous to the GG remnant of ubiquitin on modified lysine after trypsin cleavage and therefore enables the generation of structurally identical peptides from ubiquitinated and unmodified lysine residues following trypsin digestion and secondary stable isotopic labeling. The strategy is highly robust, sensitive, and accurate with a wide dynamic range using either protein standards or complex cell lysates. Thus, this work provides an efficient chemical proteomics tool for quantitative stoichiometric analysis of ubiquitination signaling pathways. [ABSTRACT FROM AUTHOR]

Published

2019

9. NRF2 Is a Major Target of ARF in p53-Independent Tumor Suppression.

Author

Chen, Delin, Tavana, Omid, Chu, Bo, Baer, Richard, Gu, Wei, Erber, Luke, and Chen, Yue

Subjects

*TUMOR growth, *TUMOR suppressor genes, *IMMUNOPRECIPITATION, *ADP ribosylation factor 1, *CELL death, *REACTIVE oxygen species, *OXIDATIVE stress

Abstract

Summary Although ARF can suppress tumor growth by activating p53 function, the mechanisms by which it suppresses tumor growth independently of p53 are not well understood. Here, we identified ARF as a key regulator of nuclear factor E2-related factor 2 (NRF2) through complex purification. ARF inhibits the ability of NRF2 to transcriptionally activate its target genes, including SLC7A11, a component of the cystine/glutamate antiporter that regulates reactive oxygen species (ROS)-induced ferroptosis. As a consequence, ARF expression sensitizes cells to ferroptosis in a p53-independent manner while ARF depletion induces NRF2 activation and promotes cancer cell survival in response to oxidative stress. Moreover, the ability of ARF to induce p53-independent tumor growth suppression in mouse xenograft models is significantly abrogated upon NRF2 overexpression. These results demonstrate that NRF2 is a major target of p53-independent tumor suppression by ARF and also suggest that the ARF-NRF2 interaction acts as a new checkpoint for oxidative stress responses. [ABSTRACT FROM AUTHOR]

Published

2017