{"id":170,"date":"2017-12-22T18:13:36","date_gmt":"2017-12-22T18:13:36","guid":{"rendered":"http:\/\/sites.rutgers.edu\/professor-example\/?page_id=170"},"modified":"2024-08-29T19:53:49","modified_gmt":"2024-08-29T19:53:49","slug":"publications","status":"publish","type":"page","link":"https:\/\/sites.rutgers.edu\/jean-pierre-etchegaray\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"<h4><\/h4>\n<h4>Selected Publications:<\/h4>\n<ul>\n<li><span class=\"docsum-authors full-authors\">Lee JY, Yang Q, Chang X, Jeziorek M, Perumal D, Olivera TR, <b>Etchegaray JP<\/b>, Zhang F (2024). Self-assembly of DNA parallel double-crossover motifs. <em>Nanoscale.<\/em> Jan 25; 16(4):1685-1691. PMID: 38193377<\/span><\/li>\n<li>Gonzalez AE, Liu Y, Wang D, Jeziorek M, Bandyopadhyay S, Rao A, Gao N, <strong>Etchegaray JP<\/strong> (2023). TET3-mediated DNA oxidation is essential for intestinal epithelial cell response to stressors. <em>Proc Natl Acad Sci U S A.<\/em> Sept 12, 120(37):e2221405120. PMID: 37669386<\/li>\n<li><span class=\"docsum-authors full-authors\">Krishnamoorthy K, Sherman LS, Romagano MP, El Far M, <b>Etchegaray JP<\/b>, Williams SF, Rameshwar P (2023). Low dose acetyl salicylic acid (LDA) mediates epigenetic changes in preeclampsia placental mesenchymal stem cells similar to cells from healthy pregnancy. <em>Placenta.<\/em> Jun;137:49-58. PMID: 37071955.<\/span><\/li>\n<li><span class=\"docsum-authors full-authors\">Romagano MP, Sherman LS, Shadpoor B, El-Far M, Souayah S, Pamarthi SH, Kra J, Hood-Nehra A, <b>Etchegaray JP<\/b>, Williams SF, Rameshwar P (2022). Aspirin-mediated reset of preeclamptic placental stem cell transcriptome &#8211; implication for stabilized placental function. <em>Stem Cell Rev Rep.<\/em> Dec;18(8):3066-3082. PMID: 35908144<\/span><\/li>\n<li><span class=\"docsum-authors full-authors\">Greco SJ, Ayer S, Guiro K, Sinha G, Donnelly RJ, El-Far MH, Sherman LS, Kenfack Y, Pamarthi SH, Gergues M, Sandiford OA, Schonning MJ, <b>Etchegaray JP<\/b>, Rameshwar P (2021). restoration of aged hematopoietic cells by their young counterparts through instructive microvesicles release. <em>Aging (Albany NY)<\/em>. Nov 11;13(21):23981-14016. PMID: 34762598<\/span><\/li>\n<li>Sherman LS, Patel SA, Castillo MD, Unkovic R, Taborga M, Gergues M, Patterson S, <b>Etchegaray JP<\/b>, Jaloudi M, Hooda-Nehra A, Kra J, Rojas DP, Chang VT, Rameshwar P (2021). NFkB targeting in bone marrow mesenchymal stem cell-mediated support of age-linked hematological malignancies. <em>Stem Cell Rev Rep<\/em>. Dec;17(6):2178-2192. PMID: 34410592<\/li>\n<li>Sorrentino VG, Thota S, Gonzalez EA, Rameshwar P, Chang VT, <b>Etchegaray JP <\/b>(2021). Hypomethylating Chemotherapeutic Agents as Therapy for Myelodysplastic Syndromes and Prevention of Acute Myeloid Leukemia. <em>Pharmaceuticals<\/em> (Basel) 14(7):641. PMID: 34358067<\/li>\n<li>Sinha G, Ferrer AI, Ayer S, El-Far MH, Pamarthi SH, Naaldijk Y, Barak P, Sandiford OA, Bibber BM, Yehia G, Greco SJ, Jiang JG, Bryan M, Kumar R, Ponzio NM, <b>Etchegaray JP<\/b>, Rameshwar P (2021). Specific N-cadherin dependent pathways drive human breast cancer dormancy in bone marrow. <em>Life Sci Alliance<\/em> 4(7):e202000969. PMID: 34078741<\/li>\n<li><span style=\"font-size: 1rem\">Khan D, Ara T, Ravi V, Rajagopal R, Tandon H, Parvathy J, Gonzalez EA, Asirvatham-Jeyaraj N, Krishna S, Mishra S, Raghu S, Bhati AS, Tamta AK, Dasgupta S, Kolthur-Seetharam U, <\/span><b style=\"font-size: 1rem\">Etchegaray JP<\/b><span style=\"font-size: 1rem\">, Mostoslavsky R, Rao PSM, Srinivasan N, Sundaresan NR (2021). SIRT6 transcriptionally regulates fatty acid transport by suppressing PPARg. <em>Cell Rep<\/em> 35(9):109190. PMID: 34077730<\/span><\/li>\n<li>Sandiford O, Donnelly R, El-Far M, Burmeyer L, Sinha G, Pamarthi SH, Sherman L, Ferrer A, DeVore A, Patel S, Naaldijk Y, Alonso S, Barak P, Bryan M, Ponzio N, Narrayanan R, <strong>Etchegaray JP<\/strong>, Kumar R, and Rameshwar P (2021). \u00a0Mesenchymal stem cell secreted extracellular vesicle instructs stepwise dedifferentiation of breast cancer cells into dormancy at bone marrow perivascular region.\u00a0<em>Cancer Research<\/em> 81: 1567-1582. PMID: 33500249<\/li>\n<li>Kumar S, Gonzalez EA, Rameshwar P, <strong>Etchegaray JP<\/strong>. (2020). Non-Coding RNAs as Mediators of Epigenetic Changes in Malignancies. <em>Cancers<\/em> 12: 3657. PMID: 33291485<\/li>\n<li>Ferrer A, Roser CT, El-Far MH, Savanur VH, Eljarrah A, Gergues M, Kra JA, <strong>Etchegaray JP<\/strong>, Rameshwar P. (2020). Hypoxia-mediated changes in bone marrow microenvironment in breast cancer dormancy. <em>Cancer Lett<\/em> 488: 9-17. PMID: 32479768<\/li>\n<li>Ferrer A, Trinidad JR, Sandiford O, <strong>Etchegaray JP<\/strong>, Rameshwar P. (2020). Epigenetic dynamics in cancer stem cell dormancy. <em>Cancer Metastasis Rev<\/em> 39: 721-738. PMID: 32394305<\/li>\n<li><strong>Etchegaray JP,\u00a0<\/strong>et al., (2019). The histone deacetylase SIRT6 restrains transcription elongation via promoter-proximal pausing. <em><u>Molecular Cell<\/u><\/em> 75: 683-699. PMID: 31399344<\/li>\n<li><strong>Etchegaray JP\u00a0<\/strong>and Mostoslavsky R (2018). A sirtuin\u2019s role in preventing senescence by protecting ribosomal DNA. <em><u>J Biol Chem<\/u><\/em>\u00a0293: 11251-11252.<\/li>\n<li>Ferrer CM, Alders M, Postma AV, Park S, Klein MA, Cetinbas M, Pajkrt E, Glas A, van Koningsbruggen S, Christoffels VM, Mannens MMAM, Knegt L, <b>Etchegaray JP<\/b>, Sadreyev RI, Denu JM, Mostoslavsky G, van Maarle MC, Mostoslavsky R (2018). An inactivating mutation the histone deacetylase SIRT6 causes human perinatal lethality. <em><u>Genes Dev<\/u><\/em>\u00a032:\u00a0373-388.<\/li>\n<li>Choi J, Clement K, Huebner AJ, Webster J, Rose CM, Brumbaugh J, Walsh RM, Lee S, Savol A, <b>Etchegaray JP<\/b>, Gu H, Boyle P, Elling U, Mostoslavsky R, Sadreyev R, Park PJ, Gygi SP, Meissner A, Hochedlinger K (2017). DUSP9 modulates DNA hypomethylation in female mouse pluripotent stem cells.\u00a0<em><u>Cell Stem Cell<\/u><\/em>\u00a020: 706-719.<\/li>\n<li><strong>Etchegaray JP<\/strong>, et al., (2016). Interplay between metabolism and epigenetics: a nuclear adaptation to environmental changes. <em><u>Molecular Cell<\/u><\/em>\u00a062: 695-711.<strong>\u00a0<\/strong><\/li>\n<li><strong>Etchegaray JP\u00a0<\/strong>and Mostoslavsky R (2015). Cell fate by SIRT6 and TETs. <em><u>Cell Cycle<\/u><\/em>\u00a014: 1-2.<strong>\u00a0<\/strong><\/li>\n<li><strong>Etchegaray JP<\/strong>, et al., (2015). The histone deacetylase SIRT6 controls embryonic stem cell fate via TET-mediated production of 5-hydroxymethylcytosnie. <em><u>Nature Cell Biology<\/u><\/em>\u00a017: 545-557.<\/li>\n<li><strong>Etchegaray JP<\/strong>, et al., (2013). The histone deacetylase SIRT6: ate the crossroads between epigenetic, metabolism and disease. <em><u>Curr Top Med Chem<\/u><\/em>\u00a013: 2991-3000.<\/li>\n<li><strong>Etchegaray JP\u00a0<\/strong>and Mostoslavsky R (2011). Energizing pluripotent gene transcription<strong>. <\/strong><em><u>Cell Stem Cell<\/u><\/em>\u00a09: 285-286.<\/li>\n<li>Lee HM, Chen R, Kim H, <b>Etchegaray JP<\/b>, Weaver DR, Lee C (2011). The period of the circadian oscillator is primarily determined by the balance between casein kinase 1 and protein phosphatase 1. <em><u>Proc Natl Acad Sci USA<\/u><\/em>\u00a0108: 16451-16456.<\/li>\n<li><strong>Etchegaray JP<\/strong>, et al., (2010). Casein kinase 1 delta (CK1d) regulates period length in the mouse suprachiasmatic circadian clock in vitro. <em><u>PLoS One<\/u><\/em>\u00a05(4): e10303.<\/li>\n<li><strong>Etchegaray JP<\/strong>, et al., (2009). Casein kinase 1 delta regulates the pace of the mammalian circadian clock. <em><u>Mol Cell Biol<\/u><\/em>\u00a029: 3853-3866.<\/li>\n<li><strong>Etchegaray JP<\/strong>, et al., (2006). The polycomb group protein EZH2 is required for mammalian circadian clock function. <em><u>J Biol Chem<\/u><\/em>\u00a0281: 21209-21215.<\/li>\n<li><strong>Etchegaray JP<\/strong>, et al., (2003). Rhythmic histone acetylation underlies transcription in the mammalian circadian clock. <em><u>Nature<\/u><\/em>\u00a0421: 177-182.<\/li>\n<li>Lee C, <strong>Etchegaray JP<\/strong>, et al., (2001). Posttranslational mechanisms regulate the mammalian circadian clock. <em><u>Cell<\/u><\/em>\u00a0107: 855-867.<\/li>\n<\/ul>\n<p><a class=\"btn btn-primary\" href=\"\/contact\/\" target=\"_self\" rel=\"noopener noreferrer\">Contact Me<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"<p>Selected Publications: Lee JY, Yang Q, Chang X, Jeziorek M, Perumal D, Olivera TR, Etchegaray JP, Zhang F (2024). Self-assembly of DNA parallel double-crossover motifs. Nanoscale. Jan 25; 16(4):1685-1691. PMID: &hellip; <a href=\"https:\/\/sites.rutgers.edu\/jean-pierre-etchegaray\/publications\/\" class=\"\">Read More<\/a><\/p>\n","protected":false},"author":11,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":""},"class_list":["post-170","page","type-page","status-publish","hentry"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v23.5 - https:\/\/yoast.com\/wordpress\/plugins\/seo\/ -->\n<title>Publications - Jean-Pierre Etchegaray<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/sites.rutgers.edu\/jean-pierre-etchegaray\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Publications - Jean-Pierre Etchegaray\" \/>\n<meta property=\"og:description\" content=\"Selected Publications: Lee JY, Yang Q, Chang X, Jeziorek M, Perumal D, Olivera TR, Etchegaray JP, Zhang F (2024). 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Self-assembly of DNA parallel double-crossover motifs. Nanoscale. Jan 25; 16(4):1685-1691. 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