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- [1] Multi-omics analysis reveals attenuation of cellular stress by empagliflozin in high glucose-treated human cardiomyocytesJOURNAL OF TRANSLATIONAL MEDICINE, 2023, 21 (01)Scisciola, LuciaChianese, UgoCaponigro, VickyBasilicata, Manuela GiovannaSalviati, EmanuelaAltucci, LuciaCampiglia, PietroPaolisso, GiuseppeBarbieri, MichelangelaBenedetti, RosariaSommella, Eduardo
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- [4] Multi-omics analysis reveals the molecular response to heat stress in a "red tide" dinoflagellateGENOME BIOLOGY, 2023, 24 (01)Dougan, Katherine E.Deng, Zhi-LuoWoehlbrand, LarsReuse, CarstenBunk, BoykeChen, YibiHartlich, JulianeHiller, KarstenJohn, UweKalvelage, JanaMansky, JohannesNeumann-Schaal, MeinaOvermann, JoergPetersen, JoernSanchez-Garcia, SeleneSchmidt-Hohagen, KerstinShah, SarahSproeer, CathrinSztajer, HelenaWang, HuiBhattacharya, DebashishRabus, RalfJahn, DieterChan, Cheong XinWagner-Doebler, Irene
- [5] Multi-omics analysis reveals the molecular response to heat stress in a “red tide” dinoflagellateGenome Biology, 24Katherine E. DouganZhi-Luo DengLars WöhlbrandCarsten ReuseBoyke BunkYibi ChenJuliane HartlichKarsten HillerUwe JohnJana KalvelageJohannes ManskyMeina Neumann-SchaalJörg OvermannJörn PetersenSelene Sanchez-GarciaKerstin Schmidt-HohagenSarah ShahCathrin SpröerHelena SztajerHui WangDebashish BhattacharyaRalf RabusDieter JahnCheong Xin ChanIrene Wagner-Döbler
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- [8] Multi-Omics Analysis Reveals Translational Landscapes and Regulations in Mouse and Human Oocyte AgingADVANCED SCIENCE, 2023, 10 (26)Huang, JianaChen, PeigenJia, LeiLi, TingtingYang, XingLiang, QiqiZeng, YanyanLiu, JiawenWu, TaibaoHu, WenqiKee, KehkooiZeng, HaitaoLiang, XiaoyanZhou, Chuanchuan
- [9] Single-cell multi-omics analysis of human pancreatic islets reveals novel cellular states in type 1 diabetesNATURE METABOLISM, 2022, 4 (02) : 284 - +Fasolino, MariaSchwartz, Gregory W.Patil, Abhijeet R.Mongia, AanchalGolson, Maria L.Wang, Yue J.Morgan, AshleighLiu, ChengyangSchug, JonathanLiu, JinpingWu, MinghuiTraum, DanielKondo, AyanoMay, Catherine L.Goldman, NaomiWang, WenliangFeldman, MichaelMoore, Jason H.Japp, Alberto S.Betts, Michael R.Faryabi, Robert B.Naji, AliKaestner, Klaus H.Vahedi, Golnaz
- [10] Single-cell multi-omics analysis of human pancreatic islets reveals novel cellular states in type 1 diabetesNature Metabolism, 2022, 4 : 284 - 299Maria FasolinoGregory W. SchwartzAbhijeet R. PatilAanchal MongiaMaria L. GolsonYue J. WangAshleigh MorganChengyang LiuJonathan SchugJinping LiuMinghui WuDaniel TraumAyano KondoCatherine L. MayNaomi GoldmanWenliang WangMichael FeldmanJason H. MooreAlberto S. JappMichael R. BettsRobert B. FaryabiAli NajiKlaus H. KaestnerGolnaz Vahedi