03457nam0 2200541 i 450 BVEE01246920170908093157.0a-ge 77oc e,mo reDi (3) 1558 (R)feiPt. 1. o,o- 2827 i-o- difo (3) 1558 (R)feiPt. 2. 20080526d1558 ||||0itac50 baitaitz01i xxxe z01n˜Le Âœvite de i dodeci Visconti, e di Sforza prencipi di Milano. Di monsig. Paolo Giouio ... tradotte per M. Lodouico Domenichi. Con nuova tauolaIn Vinegiaappresso Gabriel Giolito de' Ferrari1558[VeneziaGabriele Giolito de' Ferrari]2 pt. ([40], 224; [24], 111, [1] p.)8ºAdams G 695Tit. della pt. 2.: "La vita di Sforza, valorosissimo capitano, che fu padre del conte Francsco Sforza duca di Milano. Scritta per mons. Paolo Giouio ... et tradotta per M. Lodouico Domenichi"Marche sui front. (Z535) e in fine n.c. (simile a Z543)Cors. ; romSegn.: [ast]⁸ [2 ast]⁸ [3 ast]⁴ A-O⁸; [ast]⁸ [2 ast]⁴ A-G⁸Iniziali e fregi xil.TipografoBVEV0174121 v. Mutilo del fasc. [3 ast]. Leg. in pergamena; sul dorso: A. e tit. in oro su tassello brunoIT-NA0120, NICOLINI XVI 04882001 ˜La Âœvita di Sforza, valorosissimo capitano, che fu padre del conte Francesco Sforzaduca di Milano. Scritta per mons. Paolo Giouio ... et tradotta per M. Lodouico Domenichi.Vita Sfortiae.BVEE003545CFIV0371531479403Vitae duodecim Vicecomitum Mediolani principumBVEE0124701479404VeneziaSBLL003553Giovio, Paolo <1483-1552>CFIV037153070258419Domenichi, LodovicoCFIV076223Giolito de Ferrari, GabrieleBVEV017412650Iovius, PaulusCFIV037154Giovio, Paolo <1483-1552>Anditimi, EranchirioBVEV030790Domenichi, LodovicoChinimedo CovidoloSBNV014463Domenichi, LodovicoChinimedo DovicoloSBNV014464Domenichi, LodovicoDomenichi, LudovicoSBNV014465Domenichi, LodovicoGiolito de Ferrari, CabrieleCFIV231408Giolito de Ferrari, GabrieleITIT-NA007920080526IT-NA0120BVEE012469BVEM000543Fenice sulle fiamme che si sprigionano da anfora retta da 2 satiri con iniziali GGF. In alto motto: De la mia morte eterna vita i vivo. In basso: Semper eadem.Z535Sui front. SBNM000000Marca non censitaS1Simile a Z543 in fine. Istituto italiano per gli studi storici1 v. Mutilo del fasc. [3 ast]1 v. CRNICOLINI XVI 0488 CR 0000519395 B 1 v. Mutilo del fasc. [3 ast]. Leg. in pergamena; sul dorso: A. e tit. in oro su tassello brunoZ 2008052620080526 CRVitae duodecim Vicecomitum Mediolani principum1479404Vita Sfortiae1479403UNISANNIO00855nam0-22002771i-450-99000545932040332120150730092726.0000545932FED01000545932(Aleph)000545932FED0100054593219990604d1969----km-y0itay50------baitay-------001yyPuritanism and RevolutionStudies in Interpretation of the English Revolution of the 17th CenturyChristopher HillLondonPanther Books1968 (repr. 1969)384 p.18 cm942.062Hill,Christopher<1912-2003>323063ITUNINARICAUNIMARCBK990005459320403321942.062 HIL 5ST.MED.MOD. 7010FLFBCFLFBCPuritanism and Revolution1497599UNINA04974nam 22007215 450 991087466970332120250808093307.03-031-61257-410.1007/978-3-031-61257-2(MiAaPQ)EBC31545393(Au-PeEL)EBL31545393(CKB)33329735200041(DE-He213)978-3-031-61257-2(EXLCZ)993332973520004120240723d2024 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierAging How Science Works /by Carsten Carlberg, Stine M. Ulven, Eunike Velleuer1st ed. 2024.Cham :Springer Nature Switzerland :Imprint: Springer,2024.1 online resource (184 pages)3-031-61259-0 3-031-61256-6 1. The human genome, development and evolution -- 2. Gene expression and epigenetics -- 3. Epigenetics and aging -- 4. Molecular and cellular basis of aging -- 5. Nutrition and aging -- 6. Aging and immunity -- 7. Central role of aging during chronic diseases -- 8. Aging and cancer -- 9. Healthy aging.Aging is a topic that concerns all of us, since none of us can escape it. The molecular and cellular process is built in every of the billions of cells forming our body. Some of these cells, such as immune cells and red blood cells, live only for a few days to weeks and get life-long constantly replaced by cells produced in the bone marrow. In contrast, there are cells, such as neurons and memory lymphocytes, that get as old as we get. The process of aging limits our maximal life span, which is for our humans 120 years. However, only a very few individuals reached this age. How did their life differ from others that died decades earlier? Is it just the absence of life threatening disease paired with a more healthy life style? Or is it build in in our genome or epigenome? In this book we try to give answers to these questions from the perspectives of evolution, our genome, the epigenomes of our different tissues and cell types and the functionality of our cells. We should try to understand ourselves in detail as well as in a global setting. Basic biology explains cellular mechanisms, such as growth, differentiation, and cell death, which make life as a whole possible. Every (human) organism represents a complex interplay between hundreds of different cell types forming distinctive tissues and organs with specialized tasks. These processes need to be highly orchestrated especially during development, maintenance and aging. Studying the cellular and molecular basis of aging is one of the most fascinating areas but also a great challenge. Nevertheless, research made the biggest steps in elucidating biological processes via studying malfunctions of normal mechanisms leading to different diseases, such as progeroid syndrome and cancer. We will start this book with the understanding of the human genome in relation to principles of evolution. Then we will explain the basics of gene regulation and epigenetics, i.e., the interplay of transcription factors and chromatin. Next, we will shift to cellular mechanisms of aging and discuss then the impact of nutrition and immunity on the aging process. In the following the relation of aging to so-called aging-related common diseases, such as type 2 diabetes, atherosclerosis, cancer and Alzheimer. Do we get these diseases because we are aging or are we aging because we get one of these diseases? The book will end how we can slow down the aging process so that we can age healthy. In short, healthy aging is not an option but is a must. An ancient poem says “Teach us to number our days, that we may get a heart of wisdom.” It is up to each one of us and a daily decision to live a healthy lifestyle and to be aware of the unique gift of live we all have. .Molecular biologyEpigeneticsNutritionMolecular evolutionCancerMetabolismMolecular BiologyEpigeneticsNutritionMolecular EvolutionCancer BiologyMetabolismMolecular biology.Epigenetics.Nutrition.Molecular evolution.Cancer.Metabolism.Molecular Biology.Epigenetics.Nutrition.Molecular Evolution.Cancer Biology.Metabolism.572Carlberg Carsten849346Ulven Stine M1749432Velleuer Eunike1733291MiAaPQMiAaPQMiAaPQBOOK9910874669703321Aging4183675UNINA