Your search keyword '"tandem affinity purification"' showing total 1,263 results

1. Protocol for establishing a protein-protein interaction network using tandem affinity purification followed by mass spectrometry in mammalian cells

Author

Bian, Weixiang, Jiang, Hua, Feng, Shan, Chen, Junjie, Wang, Wenqi, and Li, Xu

Subjects

Analytical Chemistry, Biochemistry and Cell Biology, Chemical Sciences, Biological Sciences, 2.1 Biological and endogenous factors, Animals, Chromatography, Affinity, Mammals, Protein Interaction Maps, Proteins, Tandem Affinity Purification, Tandem Mass Spectrometry, Bioinformatics, Mass Spectrometry, Molecular Biology, Protein Biochemistry, Proteomics

Abstract

Identification of protein interactors is fundamental to understanding their functions. Here, we describe a modified protocol for tandem affinity purification coupled with mass spectrometry (TAP/MS), which includes two-step purification. We detail the S-, 2×FLAG-, and Streptavidin-Binding Peptide (SBP)- tandem tags (SFB-tag) system for protein purification. This protocol can be used to identify protein interactors and establish a high-confidence protein-protein interaction network based on computational models. This is particularly useful for identifying bona fide interacting proteins for subsequent functional studies. For complete details on the use and execution of this protocol, please refer to Bian et al. (2021).

Published

2022

2. A protein interaction landscape of breast cancer

Author

Kim, Minkyu, Park, Jisoo, Bouhaddou, Mehdi, Kim, Kyumin, Rojc, Ajda, Modak, Maya, Soucheray, Margaret, McGregor, Michael J, O'Leary, Patrick, Wolf, Denise, Stevenson, Erica, Foo, Tzeh Keong, Mitchell, Dominique, Herrington, Kari A, Muñoz, Denise P, Tutuncuoglu, Beril, Chen, Kuei-Ho, Zheng, Fan, Kreisberg, Jason F, Diolaiti, Morgan E, Gordan, John D, Coppé, Jean-Philippe, Swaney, Danielle L, Xia, Bing, van 't Veer, Laura, Ashworth, Alan, Ideker, Trey, and Krogan, Nevan J

Subjects

Biotechnology, Breast Cancer, Cancer, Genetics, Aetiology, 2.1 Biological and endogenous factors, Breast Neoplasms, Cell Line, Tumor, Female, Humans, Mass Spectrometry, Mutation, Neoplasm Proteins, Protein Interaction Maps, Tandem Affinity Purification, General Science & Technology

Abstract

Cancers have been associated with a diverse array of genomic alterations. To help mechanistically understand such alterations in breast-invasive carcinoma, we applied affinity purification–mass spectrometry to delineate comprehensive biophysical interaction networks for 40 frequently altered breast cancer (BC) proteins, with and without relevant mutations, across three human breast cell lines. These networks identify cancer-specific protein-protein interactions (PPIs), interconnected and enriched for common and rare cancer mutations, that are substantially rewired by the introduction of key BC mutations. Our analysis identified BPIFA1 and SCGB2A1 as PIK3CA-interacting proteins, which repress PI3K-AKT signaling, and uncovered USP28 and UBE2N as functionally relevant interactors of BRCA1. We also show that the protein phosphatase 1 regulatory subunit spinophilin interacts with and regulates dephosphorylation of BRCA1 to promote DNA double-strand break repair. Thus, PPI landscapes provide a powerful framework for mechanistically interpreting disease genomic data and can identify valuable therapeutic targets.

Published

2021

3. Clinically relevant benzoxaboroles inhibit mRNA processing in Trypanosoma brucei

Author

Albina Waithaka and Christine Clayton

Subjects

CPSF73, Benzoxaboroles, Tandem affinity purification, mRNA processing, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective The cleavage and polyadenylation endonuclease CPSF73 is thought to be the target of the anti-trypanosomal benzoxaboroles AN7973, acoziborole and AN11736. We previously showed that AN7973 inhibits mRNA processing. We here investigated whether the drug candidates acoziborole (for human sleeping sickness) and AN11736 (for nagana in cattle) have the same effect. We also affinity purified tagged CPSF73 from parasites without, or after, AN7973 treatment, and analysed differentially co-purified proteins by mass spectrometry. Results AN11736 and acoziborole both inhibited mRNA processing, as demonstrated by decreased levels of spliced mRNAs and accumulation of di- and tri-cistronic mRNAs from the alpha-beta tubulin locus. Treating the cells with AN7973 for 30 min. did not significantly affect the proteins that copurified with CPSF73.

Published

2022

4. Clinically relevant benzoxaboroles inhibit mRNA processing in Trypanosoma brucei.

Author

Waithaka, Albina and Clayton, Christine

Subjects

TRYPANOSOMA brucei, MESSENGER RNA, ENDONUCLEASES, MASS spectrometry, TUBULINS, TRYPANOSOMA

Abstract

Objective: The cleavage and polyadenylation endonuclease CPSF73 is thought to be the target of the anti-trypanosomal benzoxaboroles AN7973, acoziborole and AN11736. We previously showed that AN7973 inhibits mRNA processing. We here investigated whether the drug candidates acoziborole (for human sleeping sickness) and AN11736 (for nagana in cattle) have the same effect. We also affinity purified tagged CPSF73 from parasites without, or after, AN7973 treatment, and analysed differentially co-purified proteins by mass spectrometry. Results: AN11736 and acoziborole both inhibited mRNA processing, as demonstrated by decreased levels of spliced mRNAs and accumulation of di- and tri-cistronic mRNAs from the alpha-beta tubulin locus. Treating the cells with AN7973 for 30 min. did not significantly affect the proteins that copurified with CPSF73. [ABSTRACT FROM AUTHOR]

Published

2022

5. Defining the Functional Interactome of Spliceosome-Associated G-Patch Protein Gpl1 in the Fission Yeast Schizosaccharomyces pombe.

Author

Selicky, Tomas, Jurcik, Matus, Mikolaskova, Barbora, Pitelova, Alexandra, Mayerova, Nina, Kretova, Miroslava, Osadska, Michaela, Jurcik, Jan, Holic, Roman, Kohutova, Lenka, Bellova, Jana, Benko, Zsigmond, Gregan, Juraj, Bagelova Polakova, Silvia, Barath, Peter, Cipak, Lubos, and Cipakova, Ingrid

Subjects

*SCHIZOSACCHAROMYCES pombe, *SPLICEOSOMES, *STOP codons, *RNA helicase, *YEAST, *PROTEINS

Abstract

Pre-mRNA splicing plays a fundamental role in securing protein diversity by generating multiple transcript isoforms from a single gene. Recently, it has been shown that specific G-patch domain-containing proteins are critical cofactors involved in the regulation of splicing processes. In this study, using the knock-out strategy, affinity purification and the yeast-two-hybrid assay, we demonstrated that the spliceosome-associated G-patch protein Gpl1 of the fission yeast S. pombe mediates interactions between putative RNA helicase Gih35 (SPAC20H4.09) and WD repeat protein Wdr83, and ensures their binding to the spliceosome. Furthermore, RT-qPCR analysis of the splicing efficiency of deletion mutants indicated that the absence of any of the components of the Gpl1-Gih35-Wdr83 complex leads to defective splicing of fet5 and pwi1, the reference genes whose unspliced isoforms harboring premature stop codons are targeted for degradation by the nonsense-mediated decay (NMD) pathway. Together, our results shed more light on the functional interactome of G-patch protein Gpl1 and revealed that the Gpl1-Gih35-Wdr83 complex plays an important role in the regulation of pre-mRNA splicing in S. pombe. [ABSTRACT FROM AUTHOR]

Published

2022

6. Recombinant Expression, Unnatural Amino Acid Incorporation, and Site-Specific Labeling of 26S Proteasomal Subcomplexes

Author

Bard, Jared AM and Martin, Andreas

Subjects

Biochemistry and Cell Biology, Biological Sciences, Generic health relevance, Amino Acids, Click Chemistry, Escherichia coli, Gene Expression, Macromolecular Substances, Proteasome Endopeptidase Complex, Recombinant Proteins, Staining and Labeling, 26S proteasome, Recombinant expression, Macromolecular complex, Tandem affinity purification, Unnatural amino acid incorporation, Click chemistry, p-Azido-L-phenylalanine, Other Chemical Sciences, Developmental Biology, Biochemistry and cell biology, Medicinal and biomolecular chemistry

Abstract

The 26S proteasome is the major regulated protease in eukaryotes and is responsible for degrading ubiquitinated substrates. It consists of a barrel-shaped 20S core peptidase and one or two 19S regulatory particles, which recognize, unfold, and translocate substrates into the core. The regulatory particle can be further divided into two multi-subunit complexes: the base and the lid. Here we present protocols for expressing the Saccharomyces cerevisiae base and lid recombinantly in Escherichia coli and purifying the assembled subcomplexes using a tandem affinity purification method. The purified complexes can then be reconstituted with 20S core to form fully functional proteasomes. Furthermore, we describe a method for incorporating the unnatural amino acid p-azido-L-phenylalanine into the recombinant complexes at any residue position, allowing for non-disruptive site-specific modifications of these large assemblies. The use of recombinant proteins allows for complete mutational control over the proteasome regulatory particle, enabling detailed studies of the mechanism by which the proteasome processes its substrates. The ability to then specifically modify residues in the regulatory particle opens the door to a wide range of previously impossible biochemical and biophysical studies. The techniques described below for incorporating unnatural amino acids into the proteasomal subcomplexes should be widely transferable to other recombinant proteins, whether individually purified or in larger multi-subunit assemblies.

Published

2018

7. In uveal melanoma Gα-protein GNA11 mutations convey a shorter disease-specific survival and are more strongly associated with loss of BAP1 and chromosomal alterations than Gα-protein GNAQ mutations.

Author

Piaggio, Francesca, Croce, Michela, Reggiani, Francesco, Monti, Paola, Bernardi, Cinzia, Ambrosio, Marianna, Banelli, Barbara, Dogrusöz, Mehmet, Jockers, Ralf, Bordo, Domenico, Puzone, Roberto, Viaggi, Silvia, Coviello, Domenico, Lanza, Francesco B., Bartolucci, Martina, Petretto, Andrea, Mosci, Carlo, Gangemi, Rosaria, van der Velden, Pieter A., and Jager, Martine J.

Subjects

*CHROMOSOMES, *DISEASE progression, *GENETIC mutation, *CONFIDENCE intervals, *BRCA genes, *UVEA cancer, *PRECIPITIN tests, *GENE expression, *DNA methylation, *MASS spectrometry, *CYTOGENETICS

Abstract

Mutations in the Gα-genes GNAQ and GNA11 are found in 85–90% of uveal melanomas (UM). Aim of the study is to understand whether the mutations in both genes differentially affect tumor characteristics and outcome and if so, to identify potential mechanisms. We analyzed the association between GNAQ and GNA11 mutations with disease-specific survival, gene expression profiles, and cytogenetic alterations in 219 UMs. We used tandem-affinity-purification, mass spectrometry and immunoprecipitation to identify protein interaction partners of the two G-proteins and analyzed their impact on DNA-methylation. GNA11 mutation was associated with: i) an increased frequency of loss of BRCA1 -associated protein 1 (BAP1) expression (p = 0.0005), ii) monosomy of chromosome 3 (p < 0.001), iii) amplification of chr8q (p = 0.038), iv) the combination of the latter two (p = 0.0002), and inversely with v) chr6p gain (p = 0.003). Our analysis also showed a shorter disease-specific survival of GNA11 -mutated cases as compared to those carrying a GNAQ mutation (HR = 1.97 [95%CI 1.12–3.46], p = 0.02). GNAQ and GNA11 encoded G-proteins have different protein interaction partners. Specifically, the Tet Methylcytosine Dioxygenase 2 (TET2), a protein that is involved in DNA demethylation, physically interacts with the GNAQ protein but not with GNA11 , as confirmed by immunoprecipitation analyses. High-risk UM cases show a clearly different DNA-methylation pattern, suggesting that a different regulation of DNA methylation by the two G-proteins might convey a different risk of progression. GNA11 mutated uveal melanoma has worse prognosis and is associated with high risk cytogenetic, mutational and molecular tumor characteristics that might be determined at least in part by differential DNA-methylation. • GNA11 mutations are associated with increased risk of death in uveal melanoma. • GNA11 mutated uveal melanoma shows high risk cytogenetics and gene expression. • GNAQ but not GNA11 protein physically interacts with the demethylating enzyme TET2. • GNAQ and GNA11 mutated uveal melanoma shows different DNA-methylation patterns. [ABSTRACT FROM AUTHOR]

Published

2022

8. USP7 interacts with and destabilizes oncoprotein SET.

Author

Chen, Jianyuan, Jiao, Zishan, Liu, Yajing, Zhang, Meng, and Wang, Donglai

Subjects

*TANDEM mass spectrometry, *DEUBIQUITINATING enzymes, *CATALYTIC domains, *CANCER prognosis, *CANCER cells

Abstract

Oncoprotein SE translocation (SET) is frequently overexpressed in different types of tumors and correlated with poor prognosis of cancer patients. Targeting SET has been considered a promising strategy for cancer intervention. However, the mechanisms by which SET is regulated under cellular conditions are largely unknown. Here, by performing a tandem affinity purification-mass spectrometry (TAP-MS), we identify that the ubiquitin-specific protease 7 (USP7) forms a stable protein complex with SET in cancer cells. Further analyses reveal that the acidic domain of SET directly binds USP7 while both catalytic domain and ubiquitin-like (UBL) domains of USP7 are required for SET binding. Knockdown of USP7 has no effect on the mRNA level of SET. However, we surprisingly find that USP7 depletion leads to a dramatic elevation of SET protein levels, suggesting that USP7 plays a key role in destabilizing oncoprotein SET, possibly through an indirect mechanism. To our knowledge, our data report the first deubiquitinase (DUB) that physically associates with oncoprotein SET and imply an unexpected regulatory effect of USP7 on SET stability. [ABSTRACT FROM AUTHOR]

Published

2024

9. Mammalian expression vectors for metabolic biotinylation tandem affinity tagging by co-expression in cis of a mammalian codon-optimized BirA biotin ligase

Author

Marina Ioannou, Dimitris N. Papageorgiou, Vasily Ogryzko, and John Strouboulis

Subjects

Expression vectors, Tandem affinity purification, Metabolic biotinylation tagging, Avi tag, FLAG tag, BirA biotin ligase, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Οbjective To construct mammalian expression vectors for the N- or C-terminal tagging of proteins with a tandem affinity tag comprised of the biotinylatable Avi tag and of a triple FLAG tag. Results We constructed and tested by transient transfections mammalian expression vectors for the co-expression from a single plasmid of N- or C-terminally tagged proteins bearing a tandem affinity tag comprised of the biotinylatable Avi tag and of a triple FLAG tag separated by a tobacco etch virus (TEV) protease cleavage site, together with a mammalian codon-optimized BirA biotin ligase fused to green fluorescent protein. We also describe platform vectors for the N- or C-terminal AVI-TEV-FLAG tagging of any complementary DNA of choice. These vectors offer versatility and efficiency in the application of metabolic biotinylation tandem affinity tagging of nuclear proteins in mammalian cells.

Published

2018

10. Background

Author

Bhowmick, Sourav S., Seah, Boon-Siew, Dress, Andreas, Series editor, Myers, Gene, Editorial board, Crippen, G.M., Advisory board, Felsenstein, Joseph, Advisory board, Linial, Michal, Series editor, Giegerich, Robert, Editorial board, Fitch, Walter M., Editorial board, Troyanskaya, Olga, Series editor, Gusfield, Dan, Advisory board, Istrail, Sorin, Advisory board, Pevzner, Pavel, Editorial board, Vingron, Martin, Series editor, Kelso, Janet, Editorial board, Karlin, Sam, Advisory board, Lengauer, Thomas, Advisory board, McClure, Marcella, Advisory board, Nowak, Martin, Advisory board, Sankoff, David, Advisory board, Shamir, R., Advisory board, Steel, Mike, Advisory board, Stormo, Gary, Advisory board, Tavaré, Simon, Advisory board, Warnow, Tandy, Advisory board, Bhowmick, Sourav S., and Seah, Boon-Siew

Published

2017

11. Arc Requires PSD95 for Assembly into Postsynaptic Complexes Involved with Neural Dysfunction and Intelligence

Author

Esperanza Fernández, Mark O. Collins, René A.W. Frank, Fei Zhu, Maksym V. Kopanitsa, Jess Nithianantharajah, Sarah A. Lemprière, David Fricker, Kathryn A. Elsegood, Catherine L. McLaughlin, Mike D.R. Croning, Colin Mclean, J. Douglas Armstrong, W. David Hill, Ian J. Deary, Giulia Cencelli, Claudia Bagni, Menachem Fromer, Shaun M. Purcell, Andrew J. Pocklington, Jyoti S. Choudhary, Noboru H. Komiyama, and Seth G.N. Grant

Subjects

tandem affinity purification, PSD95, Arc, synaptic complexes, supercomplexes, genetic variants, cognition, intellectual disability, schizophrenia, Biology (General), QH301-705.5

Abstract

Arc is an activity-regulated neuronal protein, but little is known about its interactions, assembly into multiprotein complexes, and role in human disease and cognition. We applied an integrated proteomic and genetic strategy by targeting a tandem affinity purification (TAP) tag and Venus fluorescent protein into the endogenous Arc gene in mice. This allowed biochemical and proteomic characterization of native complexes in wild-type and knockout mice. We identified many Arc-interacting proteins, of which PSD95 was the most abundant. PSD95 was essential for Arc assembly into 1.5-MDa complexes and activity-dependent recruitment to excitatory synapses. Integrating human genetic data with proteomic data showed that Arc-PSD95 complexes are enriched in schizophrenia, intellectual disability, autism, and epilepsy mutations and normal variants in intelligence. We propose that Arc-PSD95 postsynaptic complexes potentially affect human cognitive function.

Published

2017

12. AMP-Activated Protein Kinase Regulates Circadian Rhythm by Affecting CLOCK in Drosophila.

Author

Eunjoo Cho, Miri Kwon, Jaewon Jung, Doo Hyun Kang, Sanghee Jin, Sung-E Choi, Yup Kang, and Eun Young Kim

Subjects

*DROSOPHILA, *CIRCADIAN rhythms, *PROTEIN kinases, *CLOCK genes, *EUKARYOTIC cells

Abstract

The circadian clock organizes the physiology and behavior of organisms to their daily environmental rhythms. The central circadian timekeeping mechanism in eukaryotic cells is the transcriptional-translational feedback loop (TTFL). In the Drosophila TTFL, the transcription factors CLOCK (CLK) and CYCLE (CYC) play crucial roles in activating expression of core clock genes and clock-controlled genes. Many signaling pathways converge on the CLK/CYC complex and regulate its activity to fine-tune the cellular oscillator to environmental time cues. We aimed to identify factors that regulate CLK by performing tandem affinity purification combined with mass spectrometry using Drosophila S2 cells that stably express HA/FLAG-tagged CLK and V5-tagged CYC. We identified SNF4Aγ, a homolog of mammalian AMP-activated protein kinase γ (AMPKγ), as a factor that copurified with HA/FLAG-tagged CLK. The AMPK holoenzyme composed of a catalytic subunit AMPKα and two regulatory subunits, AMPKβ and AMPKγ, directly phosphorylated purified CLK in vitro. Locomotor behavior analysis in Drosophila revealed that knockdown of each AMPK subunit in pacemaker neurons induced arrhythmicity and long periods. Knockdown of AMPKβ reduced CLK levels in pacemaker neurons, and thereby reduced pre-mRNA and protein levels of CLK downstream core clock genes, such as period and vrille. Finally, overexpression of CLK reversed the long-period phenotype that resulted from AMPKβ knockdown. Thus, we conclude that AMPK, a central regulator of cellular energy metabolism, regulates the Drosophila circadian clock by stabilizing CLK and activating CLK/CYC-dependent transcription. [ABSTRACT FROM AUTHOR]

Published

2019

13. Deriving a sub-nanomolar affinity peptide from TAP to enable smFRET analysis of RNA polymerase II complexes.

Author

Wu, Jheng-Syong, Chen, Tzu-Yun, Lin, Sam Song-Yao, Lin, Shu-Yu, Hung, Cheng-Yu, Tu, I-Ping, Chen, Hung-Ta, and Chang, Wei-Hau

Subjects

*CALMODULIN, *RNA polymerase II, *FLUORESCENCE resonance energy transfer, *RNA analysis, *SINGLE molecules, *FLUORESCENCE microscopy

Abstract

• Single-point mutation in CBP converts TAP from a purification function to labeling function. • Sub-nanomolar affinity of calmodulin (CaM) for MCBP tag in pol II is achieved. • smFRET experiments are realized by specifically labeling pol II with dye-CaM. • Similar smFRET results of pol II-TFIIF using MCBP tag and ybbR tag are obtained. • smFRET efficiencies show the Rpb9 subunit of pol II is proximal to the dimerization domain of TFIIF. Our capability to visualize protein complexes such as RNA polymerase II (pol II) by single-molecule imaging techniques has largely been hampered by the absence of a simple bio-orthogonal approach for selective labeling with a fluorescent probe. Here, we modify the existing calmodulin-binding peptide (CBP) in the widely used Tandem Affinity Purification (TAP) tag to endow it with a high affinity for calmodulin (CaM) and use dye-CaM to conduct site-specific labeling of pol II. To demonstrate the single molecule applicability of this approach, we labeled the C-terminus of the Rpb9 subunit of pol II with donor-CaM and a site in TFIIF with an acceptor to generate a FRET (fluorescence resonance energy transfer) pair in the pol II-TFIIF complex. We then used total internal reflection fluorescence microscopy (TIRF) with alternating excitation to measure the single molecule FRET (smFRET) efficiency between these two sites in pol II-TFIIF. We found they exhibited a proximity consistent with that observed in the transcription pre-initiation complex by cryo-electron microscopy (cryo-EM). We further compared our non-covalent labeling approach with an enzyme-enabled covalent labeling method. The virtually indistinguishable results validate our smFRET approach and show that the observed proximity between the two sites represents a hallmark of the pol II-TFIIF complex. Taken together, we present a simple and versatile bio-orthogonal method derived from TAP to enable selective labeling of a protein complex. This method is suitable for analyzing dynamic relationships among proteins involved in transcription and it can be readily extended to many other biological processes. [ABSTRACT FROM AUTHOR]

Published

2019

14. Time-dependent, glucose-regulated Arabidopsis Regulator of G-protein Signaling 1 network

Author

Dinesh Kumar Jaiswal, Emily G. Werth, Evan W. McConnell, Leslie M. Hicks, and Alan M. Jones

Subjects

Heterotrimeric G-protein, Membrane protein complexes, Tandem affinity purification, Mass spectrometry, Glucose signaling, Botany, QK1-989

Abstract

Plants lack 7-transmembrane, G-protein coupled receptors (GPCRs) because the G alpha subunit of the heterotrimeric G protein complex is “self-activating”—meaning that it spontaneously exchanges bound GDP for GTP without the need of a GPCR. In lieu of GPCRs, most plants have a seven transmembrane receptor-like regulator of G-protein signaling (RGS) protein, a component of the complex that keeps G-protein signaling in its non-activated state. The addition of glucose physically uncouples AtRGS1 from the complex through specific endocytosis leaving the activated G protein at the plasma membrane. The complement of proteins in the AtRGS1/G-protein complex over time from glucose-induced endocytosis was profiled by immunoprecipitation coupled to mass spectrometry (IP-MS). A total of 119 proteins in the AtRGS1 complex were identified. Several known interactors of the complex were identified, thus validating the approach, but the vast majority (93/119) were not known previously. AtRGS1 protein interactions were dynamically modulated by d-glucose. At low glucose levels, the AtRGS1 complex is comprised of proteins involved in transport, stress and metabolism. After glucose application, the AtRGS1 complex rapidly sheds many of these proteins and recruits other proteins involved in vesicular trafficking and signal transduction. The profile of the AtRGS1 components answers several questions about the type of coat protein and vesicular trafficking GTPases used in AtRGS1 endocytosis and the function of endocytic AtRGS1.

Published

2016

15. A Mass Spectrometry View of Stable and Transient Protein Interactions

Author

Budayeva, Hanna G., Cristea, Ileana M., Cohen, Irun R., Series editor, Lajtha, Abel, Series editor, Paoletti, Rodolfo, Series editor, Lambris, John D., Series editor, Woods, Alisa G., editor, and Darie, Costel C., editor

Published

2014

16. Understanding Information Processes at the Proteomics Level

Author

Dai, Shaojun, Chen, Sixue, and Kasabov, Nikola, editor

Published

2014

17. Recent Trends in Plant Protein Complex Analysis in a Developmental Context

Author

Michiel Bontinck, Jelle Van Leene, Astrid Gadeyne, Bert De Rybel, Dominique Eeckhout, Hilde Nelissen, and Geert De Jaeger

Subjects

plant development, affinity enrichment, tandem affinity purification, Arabidopsis thaliana, interactomics, proximity-dependent labeling, Plant culture, SB1-1110

Abstract

Because virtually all proteins interact with other proteins, studying protein–protein interactions (PPIs) is fundamental in understanding protein function. This is especially true when studying specific developmental processes, in which proteins often make developmental stage- or tissue specific interactions. However, studying these specific PPIs in planta can be challenging. One of the most widely adopted methods to study PPIs in planta is affinity purification coupled to mass spectrometry (AP/MS). Recent developments in the field of mass spectrometry have boosted applications of AP/MS in a developmental context. This review covers two main advancements in the field of affinity purification to study plant developmental processes: increasing the developmental resolution of the harvested tissues and moving from affinity purification to affinity enrichment. Furthermore, we discuss some new affinity purification approaches that have recently emerged and could have a profound impact on the future of protein interactome analysis in plants.

Published

2018

18. Small Regulatory RNAs and Skeletal Muscle Cell Differentiation

Author

Polesskaya, Anna, Naguibneva, Irina, Ameyar-Zazoua, Maya, Degerny, Cindy, Kropp, Jeremie, Nonne, Nora, Mercatelli, Neri, Souidi, Mouloud, Kratassiouk, Gueorgui, Pinna, Guillaume, Pritchard, Linda L., Harel-Bellan, Annick, Capasso, Vincenzo, editor, Gromov, Misha, editor, Harel-Bellan, Annick, editor, Morozova, Nadya, editor, and Pritchard, Linda Louise, editor

Published

2013

19. RNA Polymerases and Transcription Factors of Trypanosomes

Author

Günzl, Arthur and Bindereif, Albrecht, editor

Published

2012

20. Pre-mRNA Splicing in Trypanosoma brucei: Factors, Mechanisms, and Regulation

Author

Preußer, Christian, Jaé, Nicolas, Günzl, Arthur, Bindereif, Albrecht, and Bindereif, Albrecht, editor

Published

2012

21. Protein-Protein Interaction: Tandem Affinity Purification in Bacteria.

Author

Viala JPM and Bouveret E

Subjects

Bacteria, Chromatography, Affinity, Immunoglobulin G, Tandem Affinity Purification, Calmodulin

Abstract

The discovery of protein-protein interaction networks can lead to the unveiling of protein complex(es) forming cellular machinerie(s) or reveal component proteins of a specific cellular pathway. Deciphering protein-protein interaction networks therefore contributes to a deeper understanding of how cells function. Here we describe the protocol to perform tandem affinity purification (TAP) in bacteria, which enables the identification of the partners of a bait protein under native conditions. This method consists in two sequential steps of affinity purification using two different tags. For that purpose, the bait protein is translationally fused to the TAP tag, which consists of a calmodulin-binding peptide (CBP) and two immunoglobulin G (IgG)-binding domains of Staphylococcus aureus protein A (ProtA) that are separated by the tobacco etch virus (TEV) protease cleavage site. After the first round of purification based on the binding of ProtA to IgG-coated beads, TEV protease cleavage releases CBP-tagged bait protein along with its partners for a second round of purification on calmodulin affinity resin and leaves behind protein contaminants bound to IgG. Creating the TAP-tag translational fusion at the chromosomal locus allows detection of protein interactions occurring in physiological conditions., (© 2024. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

22. Elucidation of Calcium-Signaling Components and Networks

Author

Day, Irene S., Reddy, A. S. N., Baluška, František, editor, Vivanco, Jorge, editor, and Luan, Sheng, editor

Published

2011

23. Affinity and Chemical Enrichment for Mass Spectrometry-Based Proteomics Analyses

Author

Adelmant, Guillaume O., Cardoza, Job D., Ficarro, Scott B., Sikorski, Timothy W., Zhang, Yi, Marto, Jarrod A., Ivanov, Alexander R., editor, and Lazarev, Alexander V., editor

Published

2011

24. Efficient Strategies for Analysis of Low Abundance Proteins in Plant Proteomics

Author

Koroleva, Olga A., Bindschedler, Laurence V., Ivanov, Alexander R., editor, and Lazarev, Alexander V., editor

Published

2011

25. Recent Trends in Plant Protein Complex Analysis in a Developmental Context.

Author

Bontinck, Michiel, Van Leene, Jelle, Gadeyne, Astrid, De Rybel, Bert, Eeckhout, Dominique, Nelissen, Hilde, and De Jaeger, Geert

Subjects

PROTEIN-protein interactions, MASS spectrometry

Abstract

Because virtually all proteins interact with other proteins, studying protein-protein interactions (PPIs) is fundamental in understanding protein function. This is especially true when studying specific developmental processes, in which proteins often make developmental stage- or tissue specific interactions. However, studying these specific PPIs in planta can be challenging. One of the most widely adopted methods to study PPIs in planta is affinity purification coupled to mass spectrometry (AP/MS). Recent developments in the field of mass spectrometry have boosted applications of AP/MS in a developmental context. This review covers two main advancements in the field of affinity purification to study plant developmental processes: increasing the developmental resolution of the harvested tissues and moving from affinity purification to affinity enrichment. Furthermore, we discuss some new affinity purification approaches that have recently emerged and could have a profound impact on the future of protein interactome analysis in plants. [ABSTRACT FROM AUTHOR]

Published

2018

26. Purification and characterization of <italic>Arabidopsis thaliana</italic> oligosaccharyltransferase complexes from the native host: a protein super‐expression system for structural studies.

Author

Jeong, In Sil, Lee, Sangmin, Bonkhofer, Florian, Tolley, Jordan, Fukudome, Akihito, Nagashima, Yukihiro, May, Kimberly, Rips, Stephan, Lee, Sang Y., Gallois, Patrick, Russell, William K., Jung, Hyun Suk, von Schaewen, Antje, and Koiwa, Hisashi

Subjects

*ARABIDOPSIS thaliana, *OLIGOSACCHARIDES, *GLYCANS, *PLANT proteins, *PLANT polymers

Abstract

Summary: The oligosaccharyltransferase (OT) complex catalyzes N‐glycosylation of nascent secretory polypeptides in the lumen of the endoplasmic reticulum. Despite their importance, little is known about the structure and function of plant OT complexes, mainly due to lack of efficient recombinant protein production systems suitable for studies on large plant protein complexes. Here, we purified Arabidopsis OT complexes using the tandem affinity‐tagged OT subunit STAUROSPORINE AND TEMPERATURE SENSITIVE3a (STT3a) expressed by an Arabidopsis protein super‐expression platform. Mass‐spectrometry analysis of the purified complexes identified three essential OT subunits, OLIGOSACCHARYLTRANSFERASE1 (OST1), HAPLESS6 (HAP6), DEFECTIVE GLYCOSYLATION1 (DGL1), and a number of ribosomal subunits. Transmission‐electron microscopy showed that STT3a becomes incorporated into OT–ribosome super‐complexes formed in vivo, demonstrating that this expression/purification platform is suitable for analysis of large protein complexes. Pairwise in planta interaction analyses of individual OT subunits demonstrated that all subunits identified in animal OT complexes are conserved in Arabidopsis and physically interact with STT3a. Genetic analysis of newly established OT subunit mutants for OST1 and DEFENDER AGAINST APOTOTIC DEATH (DAD) family genes revealed that OST1 and DAD1/2 subunits are essential for the plant life cycle. However, mutations in these individual isoforms produced much milder growth/underglycosylation phenotypes than previously reported for mutations in DGL1, OST3/6 and STT3a. [ABSTRACT FROM AUTHOR]

Published

2018

27. Working Together: the RNA Editing Machinery in Trypanosoma brucei

Author

Carnes, Jason, Stuart, Kenneth, Gross, H. J., editor, and Göringer, H. Ulrich, editor

Published

2008

28. Bootstrapping the Interactome: Unsupervised Identification of Protein Complexes in Yeast

Author

Friedel, Caroline C., Krumsiek, Jan, Zimmer, Ralf, Istrail, Sorin, editor, Pevzner, Pavel, editor, Waterman, Michael S., editor, Vingron, Martin, editor, and Wong, Limsoon, editor

Published

2008

29. Identification of Protein–Protein Interactions by Mass Spectrometry Coupled Techniques

Author

Abu-Farha, Mohamed, Elisma, Fred, Figeys, Daniel, Werther, Meike, editor, and Seitz, Harald, editor

Published

2008

30. Molecular Interaction Network of the Hsp90 Chaperone System

Author

Zhao, Rongmin, Houry, Walid A., Back, Nathan, editor, Cohen, Irun R., editor, Kritchevsky, David, editor, Lajtha, Abel, editor, Paoletti, Rodolfo, editor, Csermely, Peter, editor, and Vígh, László, editor

Published

2007

31. Protein–Protein Interactions

Author

Gavin, Anne-Claude, Wilkins, Marc R., editor, Appel, Ron D., editor, Williams, Keith L., editor, and Hochstrasser, Denis F., editor

Published

2007

32. Current Status of Arabidopsis Thaliana Proteomics

Author

Baginsky, Sacha, Gruissem, Wilhelm, Šamaj, Jozef, editor, and Thelen, Jay J., editor

Published

2007

33. Reprogramming Cells

Author

Cohen, William W.

Published

2007

34. Purification of tap-tagged proteins by two-step pull down from DT40 cells

Author

Kitao, Hiroyuki, Takata, Minoru, Buerstedde, Jean-Marie, editor, and Takeda, Shunichi, editor

Published

2006

35. Isolation of Protein Complexes from Tobacco Leaves by a Two‐Step Tandem Affinity Purification

Author

Raoul, Martin, Furong, Liu, and Brian, Staskawicz

Subjects

Plant Leaves, Medical Laboratory Technology, Tandem Affinity Purification, General Immunology and Microbiology, General Neuroscience, Tobacco, Health Informatics, General Pharmacology, Toxicology and Pharmaceutics, General Biochemistry, Genetics and Molecular Biology, Plant Proteins

Abstract

Protein purification is an essential method for understanding protein function, as many biochemical and structural techniques require a high concentration of isolated protein for analysis. Yet, many studies of protein complexes are hampered by our inability to express them recombinantly in model systems, generally due to poor expression or aggregation. When studying a protein complex that requires its host cellular environment for proper expression and folding, endogenous purification is typically required. Depending on the protein of interest, however, endogenous purification can be challenging because of low expression levels in the host and lack of knowledge working with a non-model expression system, resulting in yields that are too low for subsequent analysis. Here, we describe a protocol for the purification of protein complexes endogenous to Nicotiana benthamiana directly from leaf tissue, with yields that enable structural and biochemical characterization. The protein complex is overexpressed in Nicotiana benthamiana leaves via agroinfiltration, and the protein-packed leaves are then mechanically ground to release the complex from the cells. The protein complex is finally purified by a simple two-step tandem affinity purification using distinct affinity tags for each complex member, to ensure purification of the assembled complex. Our method yields enough protein for various biochemical or structural studies. We have previously used this protocol to purify the complex formed by an innate immune receptor native to tobacco, ROQ1, and the Xanthomonas effector XopQ, and to solve its structure by single-particle cryo-electron microscopy-we use this example to illustrate the approach. This protocol may serve as a template for the purification of proteins from N. benthamiana that require the plant's cellular environment and are expressed at low levels. © 2022 Wiley Periodicals LLC. Basic Protocol 1: Expression of the protein complex in leaf tissue Basic Protocol 2: Tandem affinity purification of the ROQ1-XopQ complex.

Published

2022

36. Protocol for establishing a protein-protein interaction network using tandem affinity purification followed by mass spectrometry in mammalian cells

Author

Weixiang, Bian, Hua, Jiang, Shan, Feng, Junjie, Chen, Wenqi, Wang, and Xu, Li

Subjects

Mammals, Proteomics, Chromatography, General Immunology and Microbiology, Tandem Affinity Purification, Bioinformatics, General Neuroscience, 1.1 Normal biological development and functioning, Proteins, Chromatography, Affinity, General Biochemistry, Genetics and Molecular Biology, Mass Spectrometry, Affinity, Tandem Mass Spectrometry, Underpinning research, Protein Biochemistry, Animals, Protein Interaction Maps, Generic health relevance, Molecular Biology

Abstract

Identification of protein interactors is fundamental to understanding their functions. Here, we describe a modified protocol for tandem affinity purification coupled with mass spectrometry (TAP/MS), which includes two-step purification. We detail the S-, 2×FLAG-, and Streptavidin-Binding Peptide (SBP)- tandem tags (SFB-tag) system for protein purification. This protocol can be used to identify protein interactors and establish a high-confidence protein-protein interaction network based on computational models. This is particularly useful for identifying bona fide interacting proteins for subsequent functional studies. For complete details on the use and execution of this protocol, please refer to Bian etal. (2021).

Published

2022

37. Construction of three new Gateway® expression plasmids for Trypanosoma cruzi

Author

Victoria L Alonso, Carla Ritagliati, Pamela Cribb, and Esteban C Serra

Subjects

Trypanosoma cruzi, expression vectors - Gateway® system, tandem affinity purification, pTcINDEX, Microbiology, QR1-502, Infectious and parasitic diseases, RC109-216

Abstract

We present here three expression plasmids for Trypanosoma cruzi adapted to the Gateway® recombination cloning system. Two of these plasmids were designed to express trypanosomal proteins fused to a double tag for tandem affinity purification (TAPtag). The TAPtag and Gateway® cassette were introduced into an episomal (pTEX) and an integrative (pTREX) plasmid. Both plasmids were assayed by introducing green fluorescent protein (GFP) by recombination and the integrity of the double-tagged protein was determined by western blotting and immunofluorescence microscopy. The third Gateway adapted vector assayed was the inducible pTcINDEX. When tested with GFP, pTcINDEX-GW showed a good response to tetracycline, being less leaky than its precursor (pTcINDEX).

Published

2014

38. The Biotechnological Applications of Recombinant Single-Domain Antibodies are Optimized by the C-Terminal Fusion to the EPEA Sequence (C Tag)

Author

Selma Djender, Anne Beugnet, Aurelie Schneider, and Ario de Marco

Subjects

antibody screening, cytoplasmic antibody expression, immunoprecipitation, nanobody, VHH, tandem affinity purification, Immunologic diseases. Allergy, RC581-607

Abstract

We designed a vector for the bacterial expression of recombinant antibodies fused to a double tag composed of 6xHis and the EPEA amino acid sequence. EPEA sequence (C tag) is tightly bound by a commercial antibody when expressed at the C-term end of a polypeptide. The antigen is released in the presence of 2 M MgCl2. Consequently, constructs fused to the 6xHis-C tags can be purified by two successive and orthogonal affinity steps. Single-domain antibodies were produced either in the periplasmic or in the cytoplasmic space of E. coli. Surprisingly, the first affinity purification step performed using the EPEA-binding resin already yielded homogeneous proteins. The presence of the C tag did not interfere with the binding activity of the antibodies, as assessed by FACS and SPR analyses, and the C tag was extremely effective for immunoprecipitating HER2 receptor. Finally, the Alexa488-coupled anti-C tag allowed for simplification of FACS and IF analyses. These results show that a tag of minimal dimensions can be effectively used to improve the applicability of recombinant antibodies as reagents. In our hands, C tag was superior to His-tag in affinity purification and pull-down experiments, and practical in any other standard immune technique.

Published

2014

39. Analyses of Wheat Seed Proteome: Exploring Protein-Protein Interactions by Manipulating Genome Composition

Author

Islam, Nazrul, Hirano, Hisashi, Kamp, Roza Maria, editor, Calvete, Juan J., editor, and Choli-Papadopoulou, Theodora, editor

Published

2004

40. Extranuclear Inheritance: Chloroplast Proteomics

Author

Hippler, Michael, Bock, Ralph, Esser, K., editor, Lüttge, U., editor, Beyschlag, W., editor, and Murata, J., editor

Published

2004

41. Changing the DNA Landscape: Putting a SPN on Chromatin

Author

Formosa, T., Compans, R. W., editor, Cooper, M. D., editor, Ito, Y., editor, Koprowski, H., editor, Melchers, F., editor, Oldstone, M. B. A., editor, Olsnes, S., editor, Potter, M., editor, Vogt, P. K., editor, Wagner, H., editor, and Workman, J. L., editor

Published

2003

42. DSP-crosslinking and Immunoprecipitation to Isolate Weak Protein Complex

Author

60646149, 10379092, Akaki, Kotaro, Mino, Takashi, Takeuchi, Osamu, 60646149, 10379092, Akaki, Kotaro, Mino, Takashi, and Takeuchi, Osamu

Abstract

Detecting protein-protein interactions (PPIs) is one of the most used approaches to reveal the molecular regulation of protein of interests (POIs). Immunoprecipitation of POIs followed by mass spectrometry or western blot analysis enables us to detect co-precipitated POI-binding proteins. However, some binding proteins are lost during cell lysis or immunoprecipitation if the protein binding affinity is weak. Crosslinking POI and its binding proteins stabilizes the PPI and increases the chance of detecting the interacting proteins. Here, we introduce the method of DSP (dithiobis(succinimidyl propionate))-mediated crosslinking, followed by tandem immunoprecipitation (FLAG and HA tags). The eluted proteins interacting with POI can be analyzed by mass spectrometry or western blotting. This method has the potential to be applied to various cytoplasmic proteins.

Published

2022

43. Proteomics in Biological Research: The Challenge to Make Proteins Speak

Author

Gentzel, M., Köcher, T., Wilm, M., Stock, G., editor, Lessl, M., editor, Mewes, H.-W., editor, Seidel, H., editor, and Weiss, B., editor

Published

2002

44. Late Embryogenesis Abundant (LEA)5 Regulates Translation in Mitochondria and Chloroplasts to Enhance Growth and Stress Tolerance

Author

Barbara Karpinska, Nurhayati Razak, Daniel S. Shaw, William Plumb, Eveline Van De Slijke, Jennifer Stephens, Geert De Jaeger, Monika W. Murcha, and Christine H. Foyer

Subjects

EXPRESSION, Chloroplasts, GENES, Respiration, food and beverages, Biology and Life Sciences, translation, TANDEM AFFINITY PURIFICATION, PROTEIN, PLANTS, Plant Science, signalling, Mitochondria

Abstract

The late embryogenesis abundant (LEA)5 protein is predominantly expressed in Arabidopsis leaves in the dark, the levels of LEA5 transcripts decreasing rapidly upon illumination. LEA5 is important in plant responses to environmental stresses but the mechanisms involved have not been elucidated. We therefore explored LEA5 functions in Arabidopsis mutants (lea5) and transgenic Arabidopsis plants constitutively expressing LEA5 (OEX 2-5), as well as in transgenic barley lines expressing the Arabidopsis LEA5 gene. The OEX 2-5 plants grew better than controls and lea5 mutants in the presence of the prooxidants methyl viologen and menadione. Confocal microscopy of Arabidopsis mesophyll protoplasts expressing a LEA5-YFP fusion protein demonstrated that LEA5 could be localized to chloroplasts as well as mitochondria in Arabidopsis protoplasts. Tandem affinity purification (TAP) analysis revealed LEA5 interacts with the chloroplast DEAD-box ATP-dependent RNA helicase 22 (RH22) in Arabidopsis cells. Split YFP analysis confirmed the interaction between RH22 and LEA5 in chloroplasts. The abundance of translated protein products in chloroplasts was decreased in transgenic Arabidopsis plants and increased in lea5 knockout mutants. Conversely, the abundance of translated mitochondrial protein products was increased in OEX 2-5 plants and decreased in lea5 mutants. Mitochondrial electron transport rates were higher in the OEX 2-5 plants than the wild type. The transformed barley lines expressing the Arabidopsis LEA5 had increased seed yields, but they showed a greater drought-induced inhibition of photosynthesis than controls. Taken together, these data demonstrate that LEA5 regulates organellar translation, in order to enhance respiration relative to photosynthesis in response to stress.

Published

2022

45. Arc Requires PSD95 for Assembly into Postsynaptic Complexes Involved with Neural Dysfunction and Intelligence.

Author

Fernández, Esperanza, Collins, Mark O., Frank, René A.W., Zhu, Fei, Kopanitsa, Maksym V., Nithianantharajah, Jess, Lemprière, Sarah A., Fricker, David, Elsegood, Kathryn A., McLaughlin, Catherine L., Croning, Mike D.R., Mclean, Colin, Armstrong, J. Douglas, Hill, W. David, Deary, Ian J., Cencelli, Giulia, Bagni, Claudia, Fromer, Menachem, Purcell, Shaun M., and Pocklington, Andrew J.

Abstract

Summary Arc is an activity-regulated neuronal protein, but little is known about its interactions, assembly into multiprotein complexes, and role in human disease and cognition. We applied an integrated proteomic and genetic strategy by targeting a tandem affinity purification (TAP) tag and Venus fluorescent protein into the endogenous Arc gene in mice. This allowed biochemical and proteomic characterization of native complexes in wild-type and knockout mice. We identified many Arc-interacting proteins, of which PSD95 was the most abundant. PSD95 was essential for Arc assembly into 1.5-MDa complexes and activity-dependent recruitment to excitatory synapses. Integrating human genetic data with proteomic data showed that Arc-PSD95 complexes are enriched in schizophrenia, intellectual disability, autism, and epilepsy mutations and normal variants in intelligence. We propose that Arc-PSD95 postsynaptic complexes potentially affect human cognitive function. [ABSTRACT FROM AUTHOR]

Published

2017

46. Tandem affinity purification of exosome and replication factor C complexes from the non-human infectious kinetoplastid parasite Crithidia fasciculata.

Author

Kipandula, Wakisa, Smith, Terry K., and MacNeill, Stuart A.

Subjects

*EXOSOMES, *REPLICATION factors (Biochemistry), *KINETOPLASTIDA, *CRITHIDIA fasciculata, *DNA replication

Abstract

Kinetoplastid parasites are responsible for a range of diseases with significant global impact. Trypanosoma brucei and Trypanosoma cruzi cause human African trypanosomiasis and Chagas disease, respectively, while various Leishmania species are responsible for cutaneous, mucocutaneous and visceral leishmaniasis. Understanding the biology of these organisms is key for effective diagnosis, prophylaxis and treatment. The insect parasite Crithidia fasciculata offers a safe and low-cost alternative for studies of kinetoplastid biology. C. fasciculata does not infect humans, can be cultured to high yields in inexpensive serum-free medium in a standard laboratory, and has a completely sequenced publically available genome. Taking advantage of these features, however, requires the adaptation of existing methods of analysis to C. fasciculata. Tandem affinity purification is a widely used method that allows for the rapid purification of intact protein complexes under native conditions. Here we report the application of tandem affinity purification to C. fasciculata for the first time, demonstrating the effectiveness of the technique by purifying both the intact exosome and replication factor C complexes. Adding tandem affinity purification to the C. fasciculata toolbox significantly enhances the utility of this excellent model system. [ABSTRACT FROM AUTHOR]

Published

2017

47. Characterization of a functional recombinant human creatine kinase-MB isoenzyme prepared by tandem affinity purification from Escherichia coli.

Author

Zou, Lihui, Su, Wen, Wang, Meng, Huang, Wei, Zhao, Haijian, Zhang, Enyi, Jin, Junhua, Xu, Hongtao, and Xiao, Fei

Subjects

*ESCHERICHIA coli, *CREATINE kinase, *HEART injuries, *PATHOLOGICAL laboratories, *IMMUNOASSAY

Abstract

Creatine kinase isoform CK-MB has been widely applied as a biomarker of myocardial injury. While a variety of methods have been used to measure CK-MB activity or mass in clinical laboratories, a CK-MB standard is needed to eliminate between-method bias. Because the in vitro expression of human creatine kinase generates three isoenzymes, CK-MM, CK-MB, and CK-BB, it is important to establish an effective method to purify the isoform CK-MB from the mixture. In this study, we aimed at using tandem affinity purification (TAP) to purify recombinant CK-MB protein and evaluate its value in clinical laboratories. After the optimized sequence coding CK-M and CK-B were synthesized, they were combined with TAP tags (6His and SBP) and inserted into a pRSFDuet vector; then, the constructed 6His-CK-M-SBP-CK-B-pRSF plasmid was transformed into Escherichia coli BL21 (DE3) for expression. After TAP, we obtained purified CK-MB protein. We also did recovery testing using the engineered CK-MB and standard CK-MB (Randox) at different concentrations, and the results suggested that the engineered CK-MB could be used as the reference material. Moreover, the stability study of recombinant CK-MB showed high stability during long-term storage at −80 °C. In conclusion, the TAP-purified recombinant CK-MB protein may be a much better and cheaper standard or reference material for clinical laboratories. [ABSTRACT FROM AUTHOR]

Published

2017

48. Identification of proteins associated with transcription factors HOXA9 and E2A-PBX1 by tandem affinity purification.

Author

Shestakova, E., Boutin, M., Bourassa, S., Bonneil, E., and Bijl, J.

Subjects

*HOMEOBOX proteins, *PROTEOMICS, *CHIMERIC proteins, *TRANSCRIPTION factors, *LYMPHOBLASTIC leukemia, *ONCOGENES

Abstract

Chimeric transcription factor E2A-PBX1 induces the development of acute lymphoblastic B-cell leukemia in children. Using a transgenic mouse model, we previously demonstrated that homeobox ( HOX) gene HOXA9 genetically interact with E2A-PBX1 gene in the development of B-cell leukemia in mice. HOXA9 itself is a potent oncogene resulting in myeloid leukemia when overexpressed, which is strongly accelerated by its collaborator Meis1. HOX, PBX1 and MEIS1 proteins have been shown to form hetero dimeric or trimeric complexes in different combinations. Cooperative interaction between PBX1 and HOX proteins enhances their DNA binding specificity, essential for HOX dependent developmental programs. PBX1 is retained in E2A-PBX1, and thus the strong transcriptional activator properties of E2A-PBX1 may lead to aberrant activation of normally repressed targets of HOX-PBX complexes. However, although there is evidence that E2A-PBX1 could bind to HOX and MEIS1 proteins it is still unclear whether such complexes are actually required for leukemic transformation or whether E2A-PBX1 and HOXA9 are each part of larger protein complexes acting in independent complementing oncogenic pathways. In this study we aim to search for other HOXA9 and E2A-PBX1 interacting proteins. To identify novel proteins interacting with human E2A-PBX1 or HOXA9 we used tandem affinity purification (TAP) of protein complexes from 697 pre-B leukemic and HeLa cell lines transduced to express E2A-PBX1 or HOXA9, respectively, with covalently attached FLAG/HA peptides. The protein composition of each complex was determined using tandem mass-spectrometry. In the E2A-PBX1 containing complex we identified lymphoid transcription factor IKAROS, chromatin remodeling factors of SWI/SNF family while multiple subunits of translation initiation factor eIF3, E3 ubiquitin ligase UBR5 emerged from the HOXA9 complex as potential critical protein partners. This is the first time the protein partners of either E2A-PBX1 or HOXA9 oncoproteins were identified using an unbiased biochemical approach. The identification of translation initiation factors associated with HOXA9 might indicate a novel function for HOX proteins independent of their transcriptional activity. [ABSTRACT FROM AUTHOR]

Published

2017

49. A Mutant Sumo Facilitates Quick Plasmid Construction for Expressing Proteins with Native N-termini After Tag Removal.

Author

Zhang, Yuzhu and Fan, Yuting

Abstract

Sumo is one of the fusion tags commonly used to enhance the expression and the solubility of recombinant proteins. One advantage of using sumo is that the removal of the sumo tag is highly specific because its recognition by a sumo protease is determined by its structural characteristics, instead of the sequence of a short peptide. Recently, it was reported that sumo could also be used as a protease recognition site to facilitate the removal of other fusion tags, such as MBP, when sumo itself is not suitable to enhance the solubility of a particular target protein. Using sumo as a recognition site is highly desirable when the target protein needs to have its native N terminus. However, constructing such a plasmid involves more than one cloning step because the N terminus of the target protein needs to be the next residue after the diglycine of sumo. Here, we report the construction of a new vector with a mutant sumo tag. The incorporation of a Pvu II site near the 3′ end of tag coding sequence enables quick construction of plasmids for producing proteins with native termini. Its usage includes producing recombinant food allergens for studying conformational IgE epitopes. [ABSTRACT FROM AUTHOR]

Published

2017

50. Novel interacting proteins identified by tandem affinity purification coupled to nano LC–MS/MS interact with ribosomal S6 protein kinase 4 (RSK4) and its variant protein (RSK4m).

Author

Liu, Riqiang, Liu, Tianhua, Wei, Wei, Guo, Kun, Yang, Ning, Tian, Siqi, Zhu, Jia, Liu, Yinkun, Zhou, Wenting, and Yang, Huawei

Subjects

*PROTEIN-protein interactions, *TANDEM mass spectrometry, *RIBOSOMAL proteins, *BREAST cancer, *CANCER cell growth, *PREVENTION

Abstract

Ribosomal S6 protein kinase 4 (RSK4) is an important novel tumor suppressor that inhibits breast cancer cell growth and induces senescence. However, RSK4m, which is a variant of RSK4 resulting from alternative splicing, may play distinct roles in some aspects. Knowledge about the mechanisms of RSK4 or RSK4m activity has been lacking. Analysis of the RSK4 and RSK4m interactome could provide insight into their specific functions and integrative mechanisms. Using tandem affinity purification, we obtained protein complexes that interacted with RSK4 or RSK4m. Mass spectrum analysis was performed to identify the obtained protein complexes, and bioinformatics analysis was performed. In this study, we isolated and identified 82 RSK4-associated proteins and 137 RSK4m-associated proteins using two STREP II and a single Flag tag-based tandem affinity purification (SF-TAP) coupled with nano LC–MS/MS in MDA-MB-231 cells. Gene Ontology and Ingenuity Pathway Analysis analyses provided functional annotations and protein-protein interaction networks of the protein interactome of RSK4 and RSK4m. Functional annotations of these proteins by bioinformatics analyses highlight the essential role of RSK4 and RSK4m in coordination with their interacting partners to mediate multiple biological processes, especially cell senescence. Moreover, after comparing the interactome of RSK4 and RSK4m, we found that RSK4m is involved in more molecular functions than RSK4. [ABSTRACT FROM AUTHOR]

Published

2017