DOCSLIB.ORG

Chip Validated H4k5ac (Clone RM140) Antibody with Positive and Negative Primer Sets

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Chip Validated H4k5ac (Clone RM140) Antibody with Positive and Negative Primer Sets www.chromatrap.com Clywedog Rd South Wrexham Industrial Estate Wrexham LL13 9XS, United Kingdom Tel: +44 (0) 1978 666239/40 Email: [email protected] ChIP Validated H4K5ac (Clone RM140) Antibody with Positive and Negative Primer Sets Catalogue no: 900029 Chromatrap®’s ChIP Validated H4K5ac Antibody with Positive Primer Set provides a complete set of tools to assist with a successful ChIP assay. Including: H4K5ac antibody, control rabbit IgG, and positive primer set. The ChIP Validated H4K5ac Antibody with Positive Primer Set is not suitable for use with non-human species. Background: Histone 4 (H4) is one of the five core histone proteins, comprising the protein component of chromatin. H4 is ubiquitous within chromosomes and can be found bound to most gene sequences throughout the genome. Acetylation of lysine 5 on histone 4 (H4K5ac) is associated with open chromatin and active gene transcription. H4K5ac has been shown to have roles in epigenetic bookmarking, a process where genetic information is passed onto daughter cells during cell division. A rabbit IgG is included in this Antibody Primer Set as a negative control for the ChIP experiment. The H4K5ac positive primer set recognises the promoter of the GAPDH gene, associated with active transcription and is a suitable target for this antibody. Suggested Usage: Component Suggested Dilution Figure H4K5ac 2:1 (antibody: chromatin) 1 Rabbit IgG 2:1 (antibody: chromatin) 1 Positive Primer Set Dilute from 4M (provided) to 1M working concentration Please note: Optimal dilutions should be determined by the user. These volumes are stated as guidelines only. Advancements in Epigenetics *This product is for research use only. There is a possibility that results may vary between antibody lots. Company registered in England no 2047818 Registered office: 7 Regis Place, Bergen Way, Kings Lynn, PE30 2JN United Kingdom www.chromatrap.com Clywedog Rd South Wrexham Industrial Estate Wrexham LL13 9XS, United Kingdom Tel: +44 (0) 1978 666239/40 Email: [email protected] Fig 1. H4K5ac ChIP qPCR H4K5ac - ChIP qPCR Chromatin immunoprecipitation (ChIP) assays 8.00 were performed using the Chromatrap® standard 7.00 ChIP spin column sonication kit for qPCR (Cat no. 6.00 5.00 % Ab 500071) with 2g of chromatin from Hec50 cells 4.00 and 1g of Anti-H4K5ac antibody. qPCR was used 3.00 % IgG 2.00 to analyse the enrichment of the positive H4K5ac % Real Signal (Input) 1.00 antibody compared with the negative control 0.00 rabbit IgG antibody. GAPDH Applications: ChIP Source: Rabbit Concentration: 1mg/ml Type: Monoclonal Size: 50l Purification: Protein A (affinity purified) Specificity: Human Storage Conditions: The H4K5ac antibody should be stored at +4C. Rabbit IgG and positive primer set should all be stored at -20C (Avoid multiple freeze/thaw cycles as this may denature the antibody and degrade the primer sets) Advancements in Epigenetics *This product is for research use only. There is a possibility that results may vary between antibody lots. Company registered in England no 2047818 Registered office: 7 Regis Place, Bergen Way, Kings Lynn, PE30 2JN United Kingdom .
Load more

Recommended publications
  • ESRRB Regulates Glucocorticoid Gene Expression in Mice and Patients with Acute Lymphoblastic Leukemia
    University of Massachusetts Medical School eScholarship@UMMS Open Access Articles Open Access Publications by UMMS Authors 2020-07-13 ESRRB regulates glucocorticoid gene expression in mice and patients with acute lymphoblastic leukemia Kayleigh M. Gallagher University of Massachusetts Medical School Et al. Let us know how access to this document benefits ou.y Follow this and additional works at: https://escholarship.umassmed.edu/oapubs Part of the Cancer Biology Commons, and the Neoplasms Commons Repository Citation Gallagher KM, Roderick JE, Tan SH, Tan TK, Murphy L, Yu J, Li R, O'Connor K, Zhu LJ, Green MR, Sanda T, Kelliher MA. (2020). ESRRB regulates glucocorticoid gene expression in mice and patients with acute lymphoblastic leukemia. Open Access Articles. https://doi.org/10.1182/bloodadvances.2020001555. Retrieved from https://escholarship.umassmed.edu/oapubs/4285 This material is brought to you by eScholarship@UMMS. It has been accepted for inclusion in Open Access Articles by an authorized administrator of eScholarship@UMMS. For more information, please contact [email protected]. REGULAR ARTICLE ESRRB regulates glucocorticoid gene expression in mice and patients with acute lymphoblastic leukemia Downloaded from https://ashpublications.org/bloodadvances/article-pdf/4/13/3154/1748491/advancesadv2020001555.pdf by UNIV OF MASSACHUSETTS user on 10 August 2020 Kayleigh M. Gallagher,1 Justine E. Roderick,1 Shi Hao Tan,2 Tze King Tan,2 Leonard Murphy,1 Jun Yu,1 Rui Li,1 Kevin W. O’Connor,1 Julie Zhu,1 Michael R. Green,1 Takaomi Sanda,2 and Michelle A. Kelliher1 1Department of Molecular, Cell and Cancer Biology, University of Massachusetts Medical School, Worcester, MA; and 2Cancer Science Institute of Singapore, Center of Translational Medicine, Singapore Synthetic glucocorticoids (GCs), such as dexamethasone and prednisone, remain key Key Points components of therapy for patients with lymphoid malignancies.
    [Show full text]
  • Identification of GA-Binding Protein Transcription Factor Alpha Subunit
    International Journal of Molecular Sciences Article Identification of GA-Binding Protein Transcription Factor Alpha Subunit (GABPA) as a Novel Bookmarking Factor Shunya Goto 1, Masashi Takahashi 1, Narumi Yasutsune 1, Sumiki Inayama 1, Dai Kato 2, Masashi Fukuoka 3, Shu-ichiro Kashiwaba 1 and Yasufumi Murakami 1,2,* 1 Department of Biological Science and Technology, Faculty of Industrial Science and Technology, Tokyo University of Science, 6-3-1 Niijuku, Katsushika-ku, Tokyo 125-8585, Japan; [email protected] (S.G.); [email protected] (M.T.); [email protected] (N.Y.); [email protected] (S.I.); [email protected] (S.K.) 2 Order-MadeMedical Research Inc., 208Todai-Kashiwa VP, 5-4-19 Kashiwanoha, Kashiwa-shi, Chiba-ken 277-0882, Japan; [email protected] 3 Department of Molecular Pharmacology, National Institute of Neuroscience, National Center of Neurology and Psychiatry, Tokyo 187-8551, Japan; [email protected] * Correspondence: [email protected]; Tel.: +81-3-5876-1717 (ext. 1919); Fax: +81-3-5876-1470 Received: 7 February 2019; Accepted: 27 February 2019; Published: 4 March 2019 Abstract: Mitotic bookmarking constitutes a mechanism for transmitting transcriptional patterns through cell division. Bookmarking factors, comprising a subset of transcription factors (TFs), and multiple histone modifications retained in mitotic chromatin facilitate reactivation of transcription in the early G1 phase. However, the specific TFs that act as bookmarking factors remain largely unknown. Previously, we identified the “early G1 genes” and screened TFs that were predicted to bind to the upstream region of these genes, then identified GA-binding protein transcription factor alpha subunit (GABPA) and Sp1 transcription factor (SP1) as candidate bookmarking factors.
    [Show full text]
  • Function of Bromodomain and Extra-Terminal Motif Proteins (Bets) in Gata1-Mediated Transcription
    University of Pennsylvania ScholarlyCommons Publicly Accessible Penn Dissertations 2015 Function of Bromodomain and Extra-Terminal Motif Proteins (bets) in Gata1-Mediated Transcription Aaron James Stonestrom University of Pennsylvania, [email protected] Follow this and additional works at: https://repository.upenn.edu/edissertations Part of the Molecular Biology Commons, and the Pharmacology Commons Recommended Citation Stonestrom, Aaron James, "Function of Bromodomain and Extra-Terminal Motif Proteins (bets) in Gata1-Mediated Transcription" (2015). Publicly Accessible Penn Dissertations. 1148. https://repository.upenn.edu/edissertations/1148 This paper is posted at ScholarlyCommons. https://repository.upenn.edu/edissertations/1148 For more information, please contact [email protected]. Function of Bromodomain and Extra-Terminal Motif Proteins (bets) in Gata1-Mediated Transcription Abstract Bromodomain and Extra-Terminal motif proteins (BETs) associate with acetylated histones and transcription factors. While pharmacologic inhibition of this ubiquitous protein family is an emerging therapeutic approach for neoplastic and inflammatory disease, the mechanisms through which BETs act remain largely uncharacterized. Here we explore the role of BETs in the physiologically relevant context of erythropoiesis driven by the transcription factor GATA1. First, we characterize functions of the BET family as a whole using a pharmacologic approach. We find that BETs are broadly required for GATA1-mediated transcriptional activation, but that repression is largely BET-independent. BETs support activation by facilitating both GATA1 occupancy and transcription downstream of its binding. Second, we test the specific olesr of BETs BRD2, BRD3, and BRD4 in GATA1-activated transcription. BRD2 and BRD4 are required for efficient anscriptionaltr activation by GATA1. Despite co-localizing with the great majority of GATA1 binding sites, we find that BRD3 is not equirr ed for GATA1-mediated transcriptional activation.
    [Show full text]
  • A Stable Mode of Bookmarking by TBP Recruits RNA Polymerase II To
    RESEARCH ARTICLE A stable mode of bookmarking by TBP recruits RNA polymerase II to mitotic chromosomes Sheila S Teves1*, Luye An2, Aarohi Bhargava-Shah1, Liangqi Xie1, Xavier Darzacq1, Robert Tjian1,3* 1Department of Molecular and Cell Biology, Li Ka Shing Center for Biomedical and Health Sciences, CIRM Center of Excellence, University of California, Berkeley, Berkeley, United States; 2Department of Biochemistry, Molecular and Cell Biology, Cornell University, Ithaca, United States; 3Howard Hughes Medical Institute, Berkeley, United States Abstract Maintenance of transcription programs is challenged during mitosis when chromatin becomes condensed and transcription is silenced. How do the daughter cells re-establish the original transcription program? Here, we report that the TATA-binding protein (TBP), a key component of the core transcriptional machinery, remains bound globally to active promoters in mouse embryonic stem cells during mitosis. Using live-cell single-molecule imaging, we observed that TBP mitotic binding is highly stable, with an average residence time of minutes, in stark contrast to typical TFs with residence times of seconds. To test the functional effect of mitotic TBP binding, we used a drug-inducible degron system and found that TBP promotes the association of RNA Polymerase II with mitotic chromosomes, and facilitates transcriptional reactivation following mitosis. These results suggest that the core transcriptional machinery promotes efficient transcription maintenance globally. DOI: https://doi.org/10.7554/eLife.35621.001 *For correspondence: [email protected] (SST); [email protected] (RT) Introduction Competing interest: See The cell cycle presents a challenge to maintenance of transcription programs. First, the genome page 18 becomes highly condensed (Koshland and Strunnikov, 1996).
    [Show full text]
  • The Elusive Role of Mitotic Bookmarking in Transcriptional Regulation: Insights from Sox2
    Cell Cycle ISSN: 1538-4101 (Print) 1551-4005 (Online) Journal homepage: http://www.tandfonline.com/loi/kccy20 The elusive role of mitotic bookmarking in transcriptional regulation: insights from Sox2 Cédric Deluz, Daniel Strebinger, Elias T Friman & David M Suter To cite this article: Cédric Deluz, Daniel Strebinger, Elias T Friman & David M Suter (2017): The elusive role of mitotic bookmarking in transcriptional regulation: insights from Sox2, Cell Cycle, DOI: 10.1080/15384101.2017.1288332 To link to this article: http://dx.doi.org/10.1080/15384101.2017.1288332 Accepted author version posted online: 06 Feb 2017. Submit your article to this journal Article views: 101 View related articles View Crossmark data Full Terms & Conditions of access and use can be found at http://www.tandfonline.com/action/journalInformation?journalCode=kccy20 Download by: [EPFL Bibliothèque] Date: 23 February 2017, At: 05:18 The elusive role of mitotic bookmarking in transcriptional regulation: insights from Sox2 Cédric Deluz, Daniel Strebinger, Elias T Friman and David M Suter* UPSUTER, The Institute of Bioengineering (IBI), School of Life Sciences, Swiss Federal Institute of Technology, 1015 Lausanne, Switzerland *Correspondence to: David M Suter. Email: [email protected] Abstract The ability of some transcription factors to remain bound to specific genes on condensed mitotic chromosomes has been suggested to play a role in their rapid transcriptional reactivation upon mitotic exit. We have recently shown that SOX2 and OCT4 remain associated to mitotic chromosomes, and that depletion of SOX2 at the mitosis-G1 (M-G1) transition impairs its ability to maintain pluripotency and drive neuroectodermal commitment. Here we report on the role of SOX2 at the M-G1 transition in regulating transcriptional activity of embryonic stem cells.
    [Show full text]
  • Genome-Wide Analysis of H4K5 Acetylation Associated with Fear Memory in Mice C Sehwan Park1,3*, Hubert Rehrauer2 and Isabelle M Mansuy1,3
    Park et al. BMC Genomics 2013, 14:539 http://www.biomedcentral.com/1471-2164/14/539 RESEARCH ARTICLE Open Access Genome-wide analysis of H4K5 acetylation associated with fear memory in mice C Sehwan Park1,3*, Hubert Rehrauer2 and Isabelle M Mansuy1,3 Abstract Background: Histone acetylation has been implicated in learning and memory in the brain, however, its function at the level of the genome and at individual genetic loci remains poorly investigated. This study examines a key acetylation mark, histone H4 lysine 5 acetylation (H4K5ac), genome-wide and its role in activity-dependent gene transcription in the adult mouse hippocampus following contextual fear conditioning. Results: Using ChIP-Seq, we identified 23,235 genes in which H4K5ac correlates with absolute gene expression in the hippocampus. However, in the absence of transcription factor binding sites 150 bp upstream of the transcription start site, genes were associated with higher H4K5ac and expression levels. We further establish H4K5ac as a ubiquitous modification across the genome. Approximately one-third of all genes have above average H4K5ac, of which ~15% are specific to memory formation and ~65% are co-acetylated for H4K12. Although H4K5ac is prevalent across the genome, enrichment of H4K5ac at specific regions in the promoter and coding region are associated with different levels of gene expression. Additionally, unbiased peak calling for genes differentially acetylated for H4K5ac identified 114 unique genes specific to fear memory, over half of which have not previously been associated with memory processes. Conclusions: Our data provide novel insights into potential mechanisms of gene priming and bookmarking by histone acetylation following hippocampal memory activation.
    [Show full text]
  • Transcription Factor Retention on Mitotic Chromosomes: Regulatory Mechanisms and Impact on Cell Fate Decisions Mahe Raccaud and David M
    REVIEW ARTICLE Transcription factor retention on mitotic chromosomes: regulatory mechanisms and impact on cell fate decisions Mahe Raccaud and David M. Suter UPSUTER, Institute of Bioengineering (IBI), School of Life Sciences, Ecole Polytechnique Fed erale de Lausanne (EPFL), Switzerland Correspondence During mitosis, gene transcription stops, and the bulk of DNA-binding pro- D. M. Suter, UPSUTER, Institute of teins are excluded from condensed chromosomes. While most gene-specific Bioengineering (IBI), School of Life transcription factors are largely evicted from mitotic chromosomes, a subset Sciences, Ecole Polytechnique Fed erale de remains bound to specific and non-specific DNA sites. Here, we review the Lausanne (EPFL), 1015 Lausanne, Switzerland current knowledge on the mechanisms leading to the retention of a subset of Tel: +41 21 6939631 transcription factors on mitotic chromosomes and discuss the implications in E-mail: david.suter@epfl.ch gene expression regulation and their potential as an epigenetic mechanism controlling stem cell self-renewal and differentiation. (Received 29 June 2017, revised 14 August 2017, accepted 24 August 2017) Keywords: cell fate; M-G1 transition; mitotic bookmarking; mitotic chromosomes; non-specific DNA binding; transcription factors doi:10.1002/1873-3468.12828 Edited by Wilhelm Just During mitosis, chromosomes undergo major struc- of DNA accessibility during mitosis by chromatin tural reorganization, resulting in their highly con- compaction. Nevertheless, gene transcription is glob- densed aspect at the microscopic scale [1]. While this ally interrupted at the onset of chromosome condensa- observation was made over a century ago, the bio- tion and resumes only at the mitosis to G1 transition. chemical composition and the structural organization Furthermore, the three-dimensional organization of of mitotic chromosomes remain incompletely under- the genome is largely disrupted during mitosis.
    [Show full text]
  • 16-0352 Technical Data Sheet
    Nucleosome, Recombinant Human, H4K5ac dNuc, Biotinylated Catalog No. 16-0352 Lot No. 21147003-61 Pack Size 50 µg Product Description: Mononucleosomes assembled from recombinant human histones expressed in E. coli (two each of histones H2A, H2B, H3 and H4; accession numbers: H2A-P04908; H2B-O60814; H3.1-P68431; H4-P62805) wrapped by 147 base pairs of 601 positioning sequence DNA. Histone H4 (created by a proprietary synthetic method) is N-terminally acetylated and contains acetyl-lysine at position 5. The nucleosome is the basic subunit of chromatin. The 147 bp 601 sequence, identified by Lowary and Widom, has high affinity for histone octamers and is useful for nucleosome assembly. The DNA contains a 5’ biotin-TEG group. Western Blot Data: Western Analysis of Nucleosome, Recombinant Human, H4K5ac. Top Panel: Unmodified H4 Formulation: (Lane 1) and H4K5ac containing nucleosomes (Lane 2) were probed with an anti-H4K5ac antibody and analyzed via ECL Nucleosome, Recombinant Human, H4K5ac (27.3 µg protein readout. Only the H4K5ac sample produced a detectable weight, 50 µg total weight) in 50 µL of 10 mM Tris HCl pH 7.5, signal. Bottom Panel: Detail from Coomassie stained gel 25 mM NaCl, 1 mM EDTA, 2 mM DTT, 20% glycerol. Molarity = showing unmodified H4 nucleosome (Lane 1) and H4K5ac 5 μM. MW = 200,027.9 Da. nucleosome (Lane 2). Storage and Stability: Stable for six months at -80°C from date of receipt. For best results, aliquot and avoid multiple freeze/thaws. Application Notes: H4K5ac dNuc is highly purified and suitable for a variety of applications, including use as a substrate in enzymatic assays or for effector protein binding experiments.
    [Show full text]
  • Full Text (PDF)
    Published OnlineFirst July 12, 2018; DOI: 10.1158/1541-7786.MCR-18-0415 Review Molecular Cancer Research Mitotic Gene Bookmarking: An Epigenetic Program to Maintain Normal and Cancer Phenotypes Sayyed K. Zaidi1, Jeffrey A. Nickerson2, Anthony N. Imbalzano3, Jane B. Lian1, Janet L. Stein1, and Gary S. Stein1 Abstract Reconfiguration of nuclear structure and function during chromosomes is essential to sustain lineage commitment; (ii) mitosis presents a significant challenge to resume the next cell Select chromatin modifiers and posttranslational histone cycle in the progeny cells without compromising structural modifications/variants retain competency of mitotic chroma- and functional identity of the cells. Equally important is the tin for gene reactivation as cells exit mitosis; and (iii) Func- requirement for cancer cells to retain the transformed pheno- tional components of RNAP I and II transcription complexes type, that is, unrestricted proliferative potential, suppression (e.g., UBF and TBP, respectively) are retained on genes of cell phenotype, and activation of oncogenic pathways. poised for reactivation immediately following mitosis. Impor- Mitotic gene bookmarking retention of key regulatory proteins tantly, recent findings have identified oncogenes that are that include sequence-specific transcription factors, chroma- associated with target genes on mitotic chromosomes in cancer tin-modifying factors, and components of RNA Pol (RNAP) cells. The current review proposes that mitotic gene book- I and II regulatory machineries at gene loci
    [Show full text]
  • Mechanistic Investigation of BRD4 Inhibition in MYC Dependent Tumors
    PhD degree in Molecular Medicine (curriculum Molecular Oncology) European School of Molecular Medicine (SEMM) University of Milan and University of Naples “Federico II” Settore disciplinare: Med/04 Mechanistic investigation of BRD4 inhibition in MYC dependent tumors Elisa Donato IIT@SEMM, Milan Matricola n. R09849 Supervisor: Dr. Stefano Campaner IIT@SEMM, Milan Anno accademico 2014-2015 Table of contents Contents Table of contents II List of abbreviations V Figure Index VI I. Abstract 1 II. Introduction 3 MYC 3 Transcriptional and post-translational regulation of Myc 4 Myc as transcription activator 6 Myc regulates transcriptional elongation 9 Myc role in cell cycle progression and apoptosis 10 Myc in cancer 12 Myc as a therapeutic target 13 BET proteins 15 BET family 15 BETs as cell cycle progression regulators 17 BETs as transcriptional co-activators 18 BRD4 is implicated in DNA condensation and gene bookmarking 20 Super-enhancers 21 BETs misregulation and cancer 23 Inhibiting BET proteins to indirectly targeting Myc 25 III. Materials and methods 29 Cell culture 29 Cell transfection, viral production and infection 30 Plasmids 30 Cell growth Assay 31 Cell cycle and dead cell discrimination analysis 31 Western blot 33 RNA extraction and expression quantification 33 4-sU labeling 37 Chromatin Immunoprecipitation 39 NGS data filtering and quality assessment 41 Analysis of ChIP-seq data 42 Definition of promoter, intragenic and intergenic regions 42 II RNA PolII stalling index 43 IV. Results 44 BET inhibition effects on cell viability and Myc levels 44 JQ1 effects are mainly mediated by BRD4 55 Optimization of BET proteins Chromatin ImmunoPrecipitation 62 Genome Wide mapping of BRD4 64 BETs inhibition affects Myc and E2F transcriptional programs 66 Myc and E2F1 genomic occupancy is not altered by BETs inhibition 74 Characteristics of JQ1 responsive genes 82 BRD4 inhibition causes alteration of RNA PolII dynamics 91 Cdk9 inhibition preferentially downregulates JQ1 sensitive genes 103 Super-Enhancers 106 V.
    [Show full text]
  • New Insights Into the Role of Histone Changes in Aging
    International Journal of Molecular Sciences Review New Insights into the Role of Histone Changes in Aging Sun-Ju Yi and Kyunghwan Kim * Department of Biology, School of Biological Sciences, College of Natural Sciences, Chungbuk National University, Cheongju 28644, Chungbuk, Korea; [email protected] * Correspondence: [email protected]; Tel.: +82-(43)-2612292 Received: 14 October 2020; Accepted: 2 November 2020; Published: 3 November 2020 Abstract: Aging is the progressive decline or loss of function at the cellular, tissue, and organismal levels that ultimately leads to death. A number of external and internal factors, including diet, exercise, metabolic dysfunction, genome instability, and epigenetic imbalance, affect the lifespan of an organism. These aging factors regulate transcriptome changes related to the aging process through chromatin remodeling. Many epigenetic regulators, such as histone modification, histone variants, and ATP-dependent chromatin remodeling factors, play roles in chromatin reorganization. The key to understanding the role of gene regulatory networks in aging lies in characterizing the epigenetic regulators responsible for reorganizing and potentiating particular chromatin structures. This review covers epigenetic studies on aging, discusses the impact of epigenetic modifications on gene expression, and provides future directions in this area. Keywords: aging; histone level; histone modification; histone variant; chromatin remodeling; epigenetics 1. Introduction An individual organism undergoes a series of developmental stages, including birth, growth, maturity, aging, and death. Aging is the gradual and continuous decline or loss of function at the cellular, tissue, and organismal levels with the passage of time. Aging is considered to begin in early adulthood, but is regarded as an integral part of life since other stages also affect the aging process [1].
    [Show full text]
  • Restoring Tip60 HAT/HDAC2 Balance in the Neurodegenerative Brain Relieves Epigenetic Transcriptional Repression and Reinstates C
    This Accepted Manuscript has not been copyedited and formatted. The final version may differ from this version. A link to any extended data will be provided when the final version is posted online. Research Articles: Cellular/Molecular Restoring Tip60 HAT/HDAC2 balance in the neurodegenerative brain relieves epigenetic transcriptional repression and reinstates cognition Priyalakshmi Panikker, Song-Jun Xu, Haolin Zhang, Jessica Sarthi, Mariah Beaver, Avni Sheth, Sunya Akhter and Felice Elefant Department of Biology, Drexel University, Philadelphia, PA 19104, USA DOI: 10.1523/JNEUROSCI.2840-17.2018 Received: 28 September 2017 Revised: 26 March 2018 Accepted: 6 April 2018 Published: 13 April 2018 AUTHOR CONTRIBUTION: P.P., and F.E. designed the research; P.P., S.X., H.Z., J.S., M.B., A.S., and S.A conducted the experiments; P.P., S.X., H.Z., J.S., and F.E. analyzed the data; P.P. and F.E. wrote the paper. Conflict of Interest: The authors declare no competing financial interests. The authors thank the Cell Imaging Center (CIC) at Drexel University for their imaging facilities and to Dr. Denise Garcia for generously contributing antibodies for human hippocampal immunohistochemistry. This work was supported by NIH grant R01HD057939 to F.E. Corresponding Author: Felice Elefant, Ph.D., 3245 Chestnut Street, PISB 312, Department of Biology, Drexel University, Philadelphia, PA 19104, USA.; Email: [email protected], FAX: 215-895-1273 Cite as: J. Neurosci ; 10.1523/JNEUROSCI.2840-17.2018 Alerts: Sign up at www.jneurosci.org/cgi/alerts to receive customized email alerts when the fully formatted version of this article is published.
    [Show full text]