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200 10$aEndoplasmic reticulum - shape and function in stress translation /$ftopic editors, Lorenzo Frigerio, Federica Brandizzi, Stephen H. Howell and Patrick Schäfer
210   $cFrontiers Media SA$d2015
210  1$a[Lausanne, Switzerland] :$cFrontiers Media SA,$d[2015]
210  4$d©2015
215   $a1 online resource (110 pages) $cillustrations (black and white, and colour); digital file(s)
225 1 $aFrontiers Research Topics
300   $a"Published in: Frontiers in Plant Science" -- front cover.
311 08$aPrint version: 2889193446 
320   $aIncludes bibliographical references.
330   $aThe endoplasmic reticulum (ER) is a manufacturing unit in eukaryotic cells required for the synthesis of proteins, lipids, metabolites and hormones. Besides supporting cellular signalling networks by its anabolic function, the ER on its own or in communication with other organelles directly initiates signalling processes of physiological significance. Based on the intimate and immediate involvement in stress signalling the ER is considered as sensory organelle on which cells strongly rely to effectively translate environmental cues into adaptive stress responses. The transcellular distribution of the ER providing comprehensive cell-to-cell connections in multicellular organisms probably allows a concerted action of cell alliances and tissue areas towards environmental constraints. At the cellular level, stress adaptation correlates with the capability of the ER machinery to synthesise proteins participating in stress signalling as well as in the activation of ER membrane localised proteins to start cell-protective signalling processes. Importantly, depending on the stress insult, the ER either supports protective strategies or initiates cell death programmes. Recent, genetic, molecular and cell biological studies have drawn an initial picture of underlying signalling events activated by ER membrane localised proteins. In this Research Topic, we will provide a platform for articles describing research on ER morphology and metabolism with a focus on stress translation. The Research Topic will be sub-divided into the following sections: 1. ER in stress signalling and adaptation; 2. ER structure and biosynthetic functions; 3. Regulation of protein processing; 4. Regulation of programmed cell death.
410  0$aFrontiers research topics.
606   $aEndoplasmic reticulum
606   $aBotany
606   $aEndoplasmic Reticulum Stress
610   $aMyosins
610   $acysteine endopeptidase
610   $aER associated degradation
610   $aUnfolded Protein Response
610   $aER bodies
610   $aprogrammed cell death
610   $abZIP transcription factors
610   $acaspase
615  0$aEndoplasmic reticulum.
615  0$aBotany.
615  2$aEndoplasmic Reticulum Stress.
676   $aE
700   $aFederica Brandizzi$4auth$01366879
702   $aSchäfer$b Patrick
702   $aFrigerio$b Lorenzo
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702   $aHowell$b Stephen H$g(Stephen Herbert),$f1941-
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200 10$aPoetic Logic and the Origins of the Mathematical Imagination /$fby Marcel Danesi
205   $a1st ed. 2023.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2023.
215   $a1 online resource (180 pages)
225 1 $aMathematics in Mind,$x2522-5413
311 08$aPrint version: Danesi, Marcel Poetic Logic and the Origins of the Mathematical Imagination Cham : Springer International Publishing AG,c2023 9783031315817 
327   $aPreface -- Imagination -- Ingenuity -- Memory -- Metaphor -- Logic -- Glossary -- References -- Index.
330   $aThis book treats eighteenth-century Italian philosopher Giambattista Vico?s theory of poetic logic for the first time as the originating force in mathematics, transforming instinctive counting and spatial perception into poetic (metaphorical) symbolism that dovetails with the origin of language. It looks at current work on mathematical cognition (from Lakoff and Núñez to Butterworth, Dehaene, and beyond), matching it against the poetic logic paradigm. In a sense, it continues from where Kasner and Newman left off, connecting contemporary research on the mathematical mind to the idea that the products of early mathematics were virtually identical to the first forms of poetic language. As such, this book informs the current research on mathematical cognition from a different angle, by looking back at a still relatively unknown philosopher within mathematics. The aim of this volume is to look broadly at what constitutes the mathematical mind through the Vichian lens ofpoetic logic. Vico was among the first to suggest that the essential nature of mind could be unraveled indirectly by reconstructing the sources of its ?modifications? (his term for ?creations?); that is, by examining the creation and function of symbols, words, and all the other uniquely human artifacts?including mathematics?the mind has allowed humans to establish ?the world of civil society,? Vico?s term for culture and civilization. The book is of interest to cognitive scientists working on math cognition. It presents the theory of poetic logic as Vico articulated it in his book The New Science, examining its main premises and then applying it to an interpretation of the ongoing work in math cognition. It will also be of interest to the general public, since it presents a history of early mathematics through the lens of an idea that has borne fruit in understanding the origin of language and symbols more broadly.
410  0$aMathematics in Mind,$x2522-5413
606   $aMathematics
606   $aHistory
606   $aCognitive science
606   $aLinguistics
606   $aHistory of Mathematical Sciences
606   $aCognitive Science
606   $aTheoretical Linguistics / Grammar
615  0$aMathematics.
615  0$aHistory.
615  0$aCognitive science.
615  0$aLinguistics.
615 14$aHistory of Mathematical Sciences.
615 24$aCognitive Science.
615 24$aTheoretical Linguistics / Grammar.
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