# Publications Sort & Filters close ## Filters Publication Type expand\_more - Research Article (458) - Review Article (143) - Book Chapter (31) - Correspondence (13) - Data Portal (1) Year of Publication expand\_more 2026 (11) 2025 (33) 2024 (16) 2023 (18) 2022 (26) 2021 (22) 2020 (25) 2019 (21) 2018 (19) 2017 (24) 2016 (24) 2015 (20) 2014 (24) 2013 (26) 2012 (11) 2011 (19) 2010 (17) 2009 (17) 2008 (14) 2007 (13) 2006 (13) 2005 (17) 2004 (15) 2003 (18) 2002 (18) 2001 (17) 2000 (17) 1999 (15) 1998 (16) 1997 (13) 1996 (13) 1995 (12) 1994 (15) 1993 (11) 1992 (8) 1991 (5) 1990 (7) 1989 (7) 1988 (3) 1987 (5) 1986 (4) 1985 (4) 1984 (5) 1983 (1) Search Within Results Search Within Results search ## 645 results Show filters filter\_alt Sort by Year of PublicationAlphabetical A-Z sort ## 645 results Download 645 citations download- [BibTeX](/node/1869326/export?format=bibtex) - [EndNote X3 XML](/node/1869326/export?format=endnote8) - [EndNote 7 XML](/node/1869326/export?format=endnote7) - [Endnote tagged](/node/1869326/export?format=tagged) - [Marc](/node/1869326/export?format=marc) - [PubMedId](/node/1869326/export?format=pubmed_id) - [RIS](/node/1869326/export?format=ris) ### 2026 Han M, Xia B, Kim AR, Filine E, Stoneburner E, Miao T, Liu Y, Zirin J, Perrimon N. [Phage display-mediated immuno-PCR to detect low-abundance secreted proteins in .](https://www.pnas.org/doi/10.1073/pnas.2531777123?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%20%200pubmed) Proceedings of the National Academy of Sciences of the United States of America. 2026;123(15):e2531777123. PMID: 41941621 Han M, Xia B, Kim AR, Filine E, Stoneburner E, Miao T, Liu Y, Zirin J, Perrimon N. [Phage display-mediated immuno-PCR to detect low-abundance secreted proteins in .](https://www.pnas.org/doi/10.1073/pnas.2531777123?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%20%200pubmed) Proceedings of the National Academy of Sciences of the United States of America. 2026;123(15):e2531777123. PMID: 41941621 - add\_circle do\_not\_disturb\_on Abstract - [ picture\_as\_pdfhan-et-al-2026-phage-disp...](/sites/g/files/omnuum4036/files/2026-04/han-et-al-2026-phage-display-mediated-immuno-pcr-to-detect-low-abundance-secreted-proteins-in-drosophila.pdf) Circulating hormones, that mediate communications across organs to maintain physiological balance, are commonly detected and quantified using enzyme-linked immunosorbent assays (ELISAs). However, while ELISA is well suited for organisms where sample blood... - [ picture\_as\_pdfhan-et-al-2026-phage-disp...](/sites/g/files/omnuum4036/files/2026-04/han-et-al-2026-phage-display-mediated-immuno-pcr-to-detect-low-abundance-secreted-proteins-in-drosophila.pdf) Miao T, Liu Y, Qadiri M, Dasseux A, Asara JM, Hu Y, Sun X, Pliego-Alcántara LDC, Dibble CC, Perrimon N. [Renal coenzyme A (CoA) production from VB5 fuels stem cell proliferation and tumor growth.](https://www.nature.com/articles/s41467-026-71716-1) Nature communications. 2026; PMID: 42000723 Miao T, Liu Y, Qadiri M, Dasseux A, Asara JM, Hu Y, Sun X, Pliego-Alcántara LDC, Dibble CC, Perrimon N. [Renal coenzyme A (CoA) production from VB5 fuels stem cell proliferation and tumor growth.](https://www.nature.com/articles/s41467-026-71716-1) Nature communications. 2026; PMID: 42000723 - add\_circle do\_not\_disturb\_on Abstract Coenzyme A (CoA), derived from Vitamin B5 (VB5; also called pantothenate), is essential for lipid metabolism, energy production, and cell proliferation. While the intracellular functions of CoA are well-characterized, much less is known about its tissue... Bosch JA, Beltran PMJ, Cavers C, LaGraff JT, Melanson R, Singh A, Chen W, Hu Y, Tattikota SG, Liu Y, Hashmi Y, Asara JM, Branon T, Ting AY, Carr SA, Perrimon N. [Multi-omic mapping of Drosophila protein secretomes reveals tissue-specific origins and inter-organ trafficking.](https://www.nature.com/articles/s41467-026-71763-8) Nature communications. 2026; PMID: 42009678 Bosch JA, Beltran PMJ, Cavers C, LaGraff JT, Melanson R, Singh A, Chen W, Hu Y, Tattikota SG, Liu Y, Hashmi Y, Asara JM, Branon T, Ting AY, Carr SA, Perrimon N. [Multi-omic mapping of Drosophila protein secretomes reveals tissue-specific origins and inter-organ trafficking.](https://www.nature.com/articles/s41467-026-71763-8) Nature communications. 2026; PMID: 42009678 - add\_circle do\_not\_disturb\_on Abstract Secreted proteins regulate many aspects of animal biology and are attractive targets for biomarkers and therapeutics. However, comprehensively identifying the "secretome", along with their tissues of origin, remains extremely challenging. To address this... Xu Y, Stubbendieck RM, Viswanatha R, Krč A, Baik LS, Suh WS, Hu Y, Wang H, Yin L, Mameli E, van der Meij A, Carlson JR, Doxey AC, Stenmark P, Perrimon N, Currie CR, Dong M. [Streptomyces produce a diphtheria toxin-like exotoxin that targets insects.](https://www.nature.com/articles/s41564-026-02315-5) Nature microbiology. 2026; PMID: 42062574 Xu Y, Stubbendieck RM, Viswanatha R, Krč A, Baik LS, Suh WS, Hu Y, Wang H, Yin L, Mameli E, van der Meij A, Carlson JR, Doxey AC, Stenmark P, Perrimon N, Currie CR, Dong M. [Streptomyces produce a diphtheria toxin-like exotoxin that targets insects.](https://www.nature.com/articles/s41564-026-02315-5) Nature microbiology. 2026; PMID: 42062574 - add\_circle do\_not\_disturb\_on Abstract Streptomyces and insects engage in complex interactions shaped by millions of years of evolution. While many beneficial relationships are well recognized, it remains unknown whether Streptomyces produce virulence factors targeting insects specifically... Petsakou A, Filine E, Li M, Chen Y, Zheng A, Perrimon N. [Tumor-induced orexigenic imbalance lowers protein appetite and drives early organ wasting symptoms.](https://www.nature.com/articles/s41467-026-70074-2) Nature communications. 2026;17(1). PMCID: PMC13086994 Petsakou A, Filine E, Li M, Chen Y, Zheng A, Perrimon N. [Tumor-induced orexigenic imbalance lowers protein appetite and drives early organ wasting symptoms.](https://www.nature.com/articles/s41467-026-70074-2) Nature communications. 2026;17(1). PMCID: PMC13086994 - add\_circle do\_not\_disturb\_on Abstract Cancer cachexia (CC) is characterized by organ wasting and ensuing involuntary weight loss. Despite advances, underlying mechanisms initiating CC remain unclear, including early symptoms like anorexia. Here, we use a fly gut-tumor model with a precise... Huang K, Perrimon N. [Metabolic command centers in Drosophila: how the fat body and oenocytes orchestrate immunity, reproduction, and aging.](/publication/metabolic-command-centers-drosophila-how-fat-body-and-oenocytes-orchestrate-immunity) Current opinion in insect science. 2026;73:101459. PMID: 41218693 Huang K, Perrimon N. [Metabolic command centers in Drosophila: how the fat body and oenocytes orchestrate immunity, reproduction, and aging.](/publication/metabolic-command-centers-drosophila-how-fat-body-and-oenocytes-orchestrate-immunity) Current opinion in insect science. 2026;73:101459. PMID: 41218693 - add\_circle do\_not\_disturb\_on Abstract - [ picture\_as\_pdfMetabolic command centers...](/sites/g/files/omnuum4036/files/2026-02/Metabolic%20command%20centers%20in%20Drosophila-%20how%20the%20fat%20body%20and%20oenocytes%20orchestrate%20immunity%2C%20reproduction%2C%20and%20aging.pdf) Energy storage and mobilization are fundamental to physiology and survival, yet their dysregulation drives obesity, diabetes, cancer, and age-related diseases. Drosophila melanogaster offers a tractable model for dissecting these pathways because its... - [ picture\_as\_pdfMetabolic command centers...](/sites/g/files/omnuum4036/files/2026-02/Metabolic%20command%20centers%20in%20Drosophila-%20how%20the%20fat%20body%20and%20oenocytes%20orchestrate%20immunity%2C%20reproduction%2C%20and%20aging.pdf) Lane EA, Petsakou A, Liu Y, Chen W, Qadiri M, Hu Y, Perrimon N. [Cholinergic signaling modulates intestinal pathophysiology in a Drosophila model of cystic fibrosis.](https://journals.plos.org/plosgenetics/article?id=10.1371/journal.pgen.1012048) PLoS genetics. 2026;22(2):e1012048. PMCID: PMC12923121 Lane EA, Petsakou A, Liu Y, Chen W, Qadiri M, Hu Y, Perrimon N. [Cholinergic signaling modulates intestinal pathophysiology in a Drosophila model of cystic fibrosis.](https://journals.plos.org/plosgenetics/article?id=10.1371/journal.pgen.1012048) PLoS genetics. 2026;22(2):e1012048. PMCID: PMC12923121 - add\_circle do\_not\_disturb\_on Abstract Cystic fibrosis (CF) is a monogenic genetic disease caused by mutations in the Cystic Fibrosis Transmembrane conductance Regulator (CFTR) chloride/bicarbonate channel, which is expressed in certain epithelial cells. Current therapies focus on restoring... Ewen-Campen B, Chen W, Tattikota SG, Liu Y, Hu Y, Perrimon N. [The Drosophila proventriculus lacks stem cells but compensates for age-related cell loss via endoreplication-mediated cell growth.](https://www.nature.com/articles/s41467-026-68876-5) Nature communications. 2026; PMID: 41593082 Ewen-Campen B, Chen W, Tattikota SG, Liu Y, Hu Y, Perrimon N. [The Drosophila proventriculus lacks stem cells but compensates for age-related cell loss via endoreplication-mediated cell growth.](https://www.nature.com/articles/s41467-026-68876-5) Nature communications. 2026; PMID: 41593082 - add\_circle do\_not\_disturb\_on Abstract The Drosophila proventriculus is a bulb-shaped structure at the juncture of the foregut and the midgut, which plays important roles in ingestion, peritrophic membrane synthesis, and the immune response to oral pathogens. A previous study identified a... Moon SJ, Hu Y, Dzieciatkowska M, Kim AR, Asara JM, D’Alessandro A, Perrimon N. [Modeling tissue-specific Drosophila metabolism identifies high sugar diet-induced metabolic dysregulation in muscle at reaction and pathway levels.](https://www.nature.com/articles/s41467-026-68395-3) Nature communications. 2026; PMID: 41549107 Moon SJ, Hu Y, Dzieciatkowska M, Kim AR, Asara JM, D’Alessandro A, Perrimon N. [Modeling tissue-specific Drosophila metabolism identifies high sugar diet-induced metabolic dysregulation in muscle at reaction and pathway levels.](https://www.nature.com/articles/s41467-026-68395-3) Nature communications. 2026; PMID: 41549107 - add\_circle do\_not\_disturb\_on Abstract Individual tissues perform highly specialized metabolic functions to maintain whole-body metabolic homeostasis. Although Drosophila serves as a powerful model for studying human metabolic diseases, modeling tissue-specific metabolism has been limited in... Lee MK, Kim SM, Lee S, Yang JH, Choi CR, Miao T, Kim JS, Perrimon N, Kang YP, Rhee HW. [Endogenous nucleophilic scavengers of reactive acyl-species neutralize carbon stress](https://www.biorxiv.org/content/10.64898/2026.04.06.716549v1). BioRxiv. 2026; Lee MK, Kim SM, Lee S, Yang JH, Choi CR, Miao T, Kim JS, Perrimon N, Kang YP, Rhee HW. [Endogenous nucleophilic scavengers of reactive acyl-species neutralize carbon stress](https://www.biorxiv.org/content/10.64898/2026.04.06.716549v1). BioRxiv. 2026; - add\_circle do\_not\_disturb\_on Abstract - [ picture\_as\_pdfEndogenous nucleophilic.p...](/sites/g/files/omnuum4036/files/2026-04/Endogenous%20nucleophilic.pdf) Aberrant protein acylation by reactive acyl species (RAS)—termed carbon stress—is a major driver of aging and metabolic disease. While enzymatic deacylases such as sirtuins counteract aberrant acylation, whether endogenous metabolites can directly... - [ picture\_as\_pdfEndogenous nucleophilic.p...](/sites/g/files/omnuum4036/files/2026-04/Endogenous%20nucleophilic.pdf) ### 2025 Madrigal P, Thanki AS, Fexova S, Yu ID, Chatzigeorgiou A, Zucchi I, Calles JCM, Vilmovsky L, Khen A, Zhao L, Erdos K, Kurri SR, Selvakumar S, Kumbham U, Prakash A, Wang S, Green A, Ribas CE, Sweeney B, Alegbe T, Suveges D, Hemrom A, Gutierrez DEG, Insua S, Jeffryes M, Pearce M, Basutkar P, Kaforou M, Cunnington A, Levin M, Kumari S, Ware D, Goutte-Gattat D, Röper K, Brown NH, Hu Y, Perrimon N, Papatheodorou I, Brazma A, Hermjakob H, Harrison M, Ocaña D, Ochoa D, McDonagh EM, Bateman A, Keane T, Vizcaíno JA, Ernst C. [Expression Atlas in 2026: enabling FAIR and open expression data through community collaboration and integration.](https://academic.oup.com/nar/advance-article/doi/10.1093/nar/gkaf1238/8376685?rss=1) Nucleic acids research. 2025; PMID: 41370097 Madrigal P, Thanki AS, Fexova S, Yu ID, Chatzigeorgiou A, Zucchi I, Calles JCM, Vilmovsky L, Khen A, Zhao L, Erdos K, Kurri SR, Selvakumar S, Kumbham U, Prakash A, Wang S, Green A, Ribas CE, Sweeney B, Alegbe T, Suveges D, Hemrom A, Gutierrez DEG, Insua S, Jeffryes M, Pearce M, Basutkar P, Kaforou M, Cunnington A, Levin M, Kumari S, Ware D, Goutte-Gattat D, Röper K, Brown NH, Hu Y, Perrimon N, Papatheodorou I, Brazma A, Hermjakob H, Harrison M, Ocaña D, Ochoa D, McDonagh EM, Bateman A, Keane T, Vizcaíno JA, Ernst C. [Expression Atlas in 2026: enabling FAIR and open expression data through community collaboration and integration.](https://academic.oup.com/nar/advance-article/doi/10.1093/nar/gkaf1238/8376685?rss=1) Nucleic acids research. 2025; PMID: 41370097 - add\_circle do\_not\_disturb\_on Abstract - [ picture\_as\_pdfExpression Atlas in 2026\_...](/sites/g/files/omnuum4036/files/2025-12/Expression%20Atlas%20in%202026_%20enabling%20FAIR%20and%20open%20expression%20data%20through%20community%20collaboration%20and%20integration.pdf) Expression Atlas () is EMBL-EBI's comprehensive knowledgebase for gene and protein expression across tissues, cell types, conditions, and multiple species. Since our last update, Expression Atlas has expanded substantially in... - [ picture\_as\_pdfExpression Atlas in 2026\_...](/sites/g/files/omnuum4036/files/2025-12/Expression%20Atlas%20in%202026_%20enabling%20FAIR%20and%20open%20expression%20data%20through%20community%20collaboration%20and%20integration.pdf) Lin J, Deng Q, Gao Y, Tan YS, Zhong Z, Tan LKA, Tan BOP, Virshup DM, Bosch JA, Perrimon N, Wang H. [Microproteins Simba1 and Simba2 activate Wingless signaling during the reactivation of neural stem cells in Drosophila.](https://www.nature.com/articles/s41467-025-66727-3) Nature communications. 2025;16(1):11651. PMCID: PMC12749969 Lin J, Deng Q, Gao Y, Tan YS, Zhong Z, Tan LKA, Tan BOP, Virshup DM, Bosch JA, Perrimon N, Wang H. [Microproteins Simba1 and Simba2 activate Wingless signaling during the reactivation of neural stem cells in Drosophila.](https://www.nature.com/articles/s41467-025-66727-3) Nature communications. 2025;16(1):11651. PMCID: PMC12749969 - add\_circle do\_not\_disturb\_on Abstract The ability of neural stem cells (NSCs) to switch between quiescent and proliferative states is fundamental for adult neurogenesis and regeneration. Microproteins or short open reading frame (sORF)-encoded peptides (SEPs), are highly abundant yet largely... - Previous page chevron\_left - [1](?page=0 "Current page") - [2](?page=1 "Go to page 2") - [3](?page=2 "Go to page 3") - [ Last page 54 ](?page=53 "Go to last page") - [ Next page chevron\_right ](?page=1 "Go to next page")