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Published: 7 July 2024

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1

Buatois, Luis A. Ichnology: Organism-substrate interactions in space and time. Cambridge: Cambridge University Press, 2011.

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2

Doniach, Sebastian, ed. Statistical Mechanics, Protein Structure, and Protein Substrate Interactions. Boston, MA: Springer US, 1994. http://dx.doi.org/10.1007/978-1-4899-1349-4.

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3

John, Ferrante, and United States. National Aeronautics and Space Administration., eds. Theoretical modelling of AFM for bimetallic tip-substrate interactions. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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4

John, Ferrante, and United States. National Aeronautics and Space Administration., eds. Theoretical modelling of AFM for bimetallic tip-substrate interactions. [Washington, DC]: National Aeronautics and Space Administration, 1991.

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5

Singhania, Aditi. Patterning of dendritic territories by dendrite-dendrite and dendrite-substrate interactions. [New York, N.Y.?]: [publisher not identified], 2014.

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6

J, Mulder Gerard, ed. Conjugation reactions in drug metabolism: An integrated approach : substrates, co-substrates, enzymes and their interactions in vivo and in vitro. London: Taylor & Francis, 1990.

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7

NATO, Advanced Research Workshop on Statistical Mechanics Protein Structure and Protein Substrate Interactions (1993 Cargèse Corsica France). Statistical mechanics, protein structure, and protein substrate interactions: [proceedings of a NATO Research Workshop on Statistical Mechanics, Protein Structure, and Protein Substrate Interactions, Held June 1-5, 1993, in Cargèse, Corsica, France]. New York: Plenum Press in cooperation with NATO Scientific Affairs Division, 1994.

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8

A, Bachmann Kenneth, ed. Lexi-Comp's drug interactions handbook: The new standard for drug and herbal interactions : featuring a complete guide to cytochrome P450 enzyme substrates, inducers, and inhibitors. Hudson, Ohio: Lexi-Comp, 2003.

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9

A, Bachmann Kenneth, ed. Lexi-Comp's drug interactions handbook: The new standard for drug and herbal interactions featuring a complete guide to cytochrome P450 enzyme substrates, inducers, and inhibitors. 2nd ed. Hudson, Ohio: Lexi-Comp, 2004.

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10

Gagaev, Andrey, and Pavel Gagaev. The mystery of education (on the universal poetic basis of pedagogy). ru: Publishing Center RIOR, 2024. http://dx.doi.org/10.29039/02125-5.

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The monograph explores the problem of the universal-poetic nature of human spirituality and education as a reality that takes into account the above about a person. The universal-poetic in education is associated with the abandonment of the purposeful component in the pedagogical process (as the dominant of education) and the appeal to the imaginative-idealistic interaction of the teacher and the pupil, during which the discovery and deployment of universal-poetic semantics and intentions in the student is maintained. The methodology in the work is the idealistic-substrate reflection of A.A. Gagaev. It is addressed to specialists and students studying the problems of pedagogy, as well as to anyone interested in the phenomenon of man and his upbringing.
11

Hahn, F. Ekkehardt, and Carsten Bolm. Activating Unreactive Substrates: The Role of Secondary Interactions. Wiley & Sons, Limited, John, 2009.

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12

Statistical mechanics, protein structure, and protein substrate interactions. New York: Plenum Press, 1994.

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13

Hahn, F. Ekkehardt, and Carsten Bolm. Activating Unreactive Substrates: The Role of Secondary Interactions. Wiley & Sons, Incorporated, John, 2009.

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14

Doniach, Sebastian. Statistical Mechanics, Protein Structure, and Protein Substrate Interactions. Springer London, Limited, 2013.

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15

Doniach, Sebastian. Statistical Mechanics, Protein Structure, and Protein Substrate Interactions. Springer, 2013.

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16

Buatois, Luis A., and M. Gabriela Mángano. Ichnology: Organism-Substrate Interactions in Space and Time. Cambridge University Press, 2011.

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17

Buatois, Luis A., and M. Gabriela Mángano. Ichnology: Organism-Substrate Interactions in Space and Time. Cambridge University Press, 2011.

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18

Activating Unreactive Substrates The Role Of Secondary Interactions. Wiley-VCH Verlag GmbH, 2009.

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19

Buatois, Luis A., and M. Gabriela Mángano. Ichnology: Organism-Substrate Interactions in Space and Time. Cambridge University Press, 2011.

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20

Buatois, Luis A., and M. Gabriela Mángano. Ichnology: Organism-Substrate Interactions in Space and Time. Cambridge University Press, 2011.

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21

Amzica, Florin, and Fernando H. Lopes da Silva. Cellular Substrates of Brain Rhythms. Edited by Donald L. Schomer and Fernando H. Lopes da Silva. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190228484.003.0002.

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The purpose of this chapter is to familiarize the reader with the basic electrical patterns of the electroencephalogram (EEG). Brain cells (mainly neurons and glia) are organized in multiple levels of intricate networks. The cellular membranes are semipermeable media between extracellular and intracellular solutions, populated by ions and other electrically charged molecules. This represents the basis of electrical currents flowing across cellular membranes, further generating electromagnetic fields that radiate to the scalp electrodes, which record changes in the activity of brain cells. This chapter presents these concepts together with the mechanisms of building up the EEG signal. The chapter discusses the various behavioral conditions and neurophysiological mechanisms that modulate the activity of cells leading to the most common EEG patterns, such as the cellular interactions for alpha, beta, gamma, slow, delta, and theta oscillations, DC shifts, and some particular waveforms such as sleep spindles and K-complexes and nu-complexes.
22

McFedries, Amanda. Characterization of Protein-Metabolite and Protein-Substrate Interactions of Disease Genes. 2014.

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23

Mulder, Gerard J. Conjugation Reactions in Drug Metabolism: An Integrated Approach, Substrates, Co-Substrates, Enzymes and Their Interactions in Vivo and in Vitro. Taylor & Francis Group, 1990.

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24

Mulder, Gerard J. Conjugation Reactions in Drug Metabolism : An Integrated Approach: Substrates, Co-substrates, Enzymes and Their Interactions in Vivo and in Vitro. Taylor & Francis Group, 1990.

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25

Khormaee, Sariah. Optimizing siRNA efficacy through alteration in the target cell-adhesion substrate interaction. 2014.

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26

Esler, Karen J., Anna L. Jacobsen, and R. Brandon Pratt. Organisms and their Interactions. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198739135.003.0003.

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Both animal and plant species exhibit adaptive traits related to features of mediterranean-type ecosystems (MTEs). For plants, the seasonality of the MTC has been an important factor in the evolution of plant phenological traits. Root adaptive traits that improve nutrient extraction from impoverished soils are present within MTC regions, including cluster roots, root nodules, and mycorrhizal symbioses. Fire has been an important driver of plant traits, such as smoke, charate, or heat-induced seed germination or seed release (i.e. serotiny), and post-fire flowering. Adaptive traits in animals include both physiological and behavioural traits. MTC regions have been used in the study of many ecological and evolutionary patterns, particularly as related to organismal adaptations to unique soil and substrates (edaphic communities) and interactions between plants and animals, such as plant–herbivore interactions, plant–pollinator interactions, and plant–seed disperser interactions. These interactions shape many plant and animal characters within MTC regions.
27

Merabet, Lotfi, and Alvaro Pascual-Leone. Studies of Crossmodal Functions with TMS. Edited by Charles M. Epstein, Eric M. Wassermann, and Ulf Ziemann. Oxford University Press, 2012. http://dx.doi.org/10.1093/oxfordhb/9780198568926.013.0029.

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In the brain, information from all the senses interacts and is integrated in order to create a unified sensory percept. Some percepts appear unimodal, and some, cross modal. Unimodal percepts can be modified by crossmodal interactions given that our brains process multiple streams of sensory information in parallel and promote extensive interactions. TMS can provide valuable insights on the neural substrates associated with multisensory processing in humans. TMS is commonly described as a ‘relatively painless’ method of stimulating the brain noninvasively. However, TMS itself is strong multisensory and this should be considered while interpreting the results. With regard to the crossmodal sensory changes that follow sensory deprivation, these changes can be revealed using a variety of methods including the combination of TMS with neuroimaging.
28

Di, Kaiying. Interactions between substrates and starved subsurface bacteria in a dual-bacteria/dual-contaminant system. 1993.

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29

Pathways in the deoxygenation of lipids over activated alumina: A study of catalyst-substrate interactions. Ottawa: National Library of Canada, 1994.

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30

Ely, Roger L. Effects of substrate interactions, toxicity, and bacterial response during cometabolism of chlorinted solvents by nitrifying bacteria. 1996.

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31

Interaction of cytochrome P450 2C19 with benzodiazepines in vitro: Flunitrazepam identified as a substrate of CYP2C19. Ottawa: National Library of Canada, 1998.

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32

Zhou, S. Y., and A. Lanzara. The electronic structure of epitaxial graphene—A view from angle-resolved photoemission spectroscopy. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.14.

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This article analyzes the electronic structure of epitaxial graphene using angle-resolved photoemission spectroscopy (ARPES). It first describes how the carbon atoms in graphene are arranged before discussing the growth and characterization of graphene samples. It then considers the electronic structure of epitaxial graphene, along with the gap opening in single-layer epitaxial graphene. It also examines possible mechanisms for the gap opening in graphene, including quantum confinement, mixing of the states between the Brillouin zone corner K points induced by scattering, and hybridization of the valence and conduction bands caused by symmetry breaking in carbon sublattices. Clear deviations from the conical dispersions are observed near the Diracpoint energy, which can be interpreted as a gap opening attributed to graphene–substrate interaction. Graphene–substrate interaction is thus a promising route for engineering the bandgap in graphene.
33

Ruiz-Villalba, Adrián, Nikolaos Frangogiannis, and José Maria Pérez-Pomares. Origin and diversity of cardiac fibroblasts: developmental substrates of adult cardiac fibrosis. Edited by José Maria Pérez-Pomares, Robert G. Kelly, Maurice van den Hoff, José Luis de la Pompa, David Sedmera, Cristina Basso, and Deborah Henderson. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198757269.003.0012.

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Cardiac connective tissues are primarily formed by cardiac fibroblasts (CF) of diverse embryonic origins. Whereas CF specific roles in cardiac morphogenesis remain under-researched, their involvement in adult cardiac fibrosis is clinically relevant. Cardiac fibrosis is a common element of several chronic cardiac conditions characterized by the loss of ventricular wall mechanical function, ultimately driving to heart failure. In the ischaemic heart early reparative fibrosis evidences the very restricted regenerative potential of the myocardium. In non-ischaemic diseases fibrosis is activated by unknown signals. We summarize current knowledge on the origin of CFs and their developmental roles, and discuss the differential disease-dependent response of different CF subpopulations to various pathological stimuli. We also describe the characteristic cell-cell and cell-matrix interactions that determine the fibrotic remodelling of the myocardium. We analyse experimental models for the study of cardiac fibrosis, and suggest future directions in the search for new markers and therapeutic targets.
34

Lexi-Comp's drug interactions handbook: The new standard for drug and herbal interactions featuring a complete guide to cytochrome P450 enzyme substrates, inducers, and inhibitors. Hudson, OH: Lexi-Comp, 2004.

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35

Arnellos, Argyris, and Charbel El-Hani. Emergence, Downward Causation, and No Brute Facts in Biological Systems. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198758600.003.0014.

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This chapter explains emergence in biological organizations through a conception of ontological emergence according to which certain types of dynamical organizations possess irreducible properties that are nevertheless derivable from the substrate. The authors concentrate on the ontological dimension of emergence as the irreducibly causal configuration exhibited by all organizations that manifest persistence and stability in their environment. This is a conception of ontological emergence where the locus of novel causal powers is the configuration of constituents into stable dynamic organizations. There is nothing brute to be explained in the emergence of causal properties in a biological organization; all that is needed is the consideration of its organizational characteristics in terms of same-level and inter-level causal interactions, the type of which is of formal causation for interactions among the constituents of the organization and of efficient causation for interactions among the constituents and the micro-properties of their surrounding emergence base.
36

Gariglio, S., M. S. Scheurer, J. Schmalian, A. M. R. V. L. Monteiro, S. Goswami, and A. D. Caviglia. Surface and Interface Superconductivity. Edited by A. V. Narlikar. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780198738169.013.7.

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This article focuses on surface and interface superconductivity, a pivotal area of mesoscopic superconductivity. It discusses theoretical ideas regarding superconductivity in the 2D limit; pairing symmetry in systems with broken inversion symmetry and in the presence of Rashba spin–orbit interaction; and coupling of substrate phonon modes to layer electronic states to induce or enhance the superconducting condensate. It also reviews the experimental ongoing efforts to fabricate, characterize, and measure these systems, with particular emphasis on oxide materials. Superconductivity in two dimensions, in ultra-thin metals on Si(111), and at the LaAlO3/SrTiO3 interface is examined. The article concludes with an analysis of theoretical propositions aimed at realizing and testing novel superconducting states occurring at the surfaces and interfaces.
37

Lin, Nian, and Sebastian Stepanow. Designing low-dimensional nanostructures at surfaces by supramolecular chemistry. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.10.

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This article describes the use of supramolecular chemistry to design low-dimensional nanostructures at surfaces. In particular, it discusses the design strategies of two types of low-dimensional supramolecular nanostructures: structures stabilized by hydrogen bonds and structures stabilized by metal-ligand co-ordination interactions. After providing an overview of hydrogen-bond systems such as 0D discrete clusters, 1D chains, and 2D open networks and close-packed arrays, the article considers metal-co-ordination systems. It also presents experimental results showing that both hydrogen bonds and metal co-ordination offer protocols to achieve unique nanostructured systems on 2D surfaces or interfaces. Noting that the conventional 3D supramolecular self-assembly has generated a vast number of nanostructures revealing high complexity and functionality, the article suggests that 2D approaches can be applied to substrates with different symmetries as well as physical and chemical properties.
38

Davies, Toby, and Kate J. Bowers. Street Networks and Crime. Edited by Gerben J. N. Bruinsma and Shane D. Johnson. Oxford University Press, 2018. http://dx.doi.org/10.1093/oxfordhb/9780190279707.013.15.

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Street networks are the primary structures around which urban areas are arranged. Perhaps more significantly, though, the network acts as a substrate for movement, and defines the paths that can be taken between locations. It therefore determines, among other things, how far places are from each other, and the extent to which different features will be used in the course of movement activity. In this way, street networks play a key role in shaping interactions between people and the environment. Using data from the city of London, UK, this chapter examines the relationship between the occurrence of common assault and network centrality. The question of whether a relationship with network structure is also observed in this case has a number of potential implications from the perspectives of both policing and urban planning, while also representing a further test of criminological theory.
39

Andres, Michael, and Mauro Pesenti. Finger-based representation of mental arithmetic. Edited by Roi Cohen Kadosh and Ann Dowker. Oxford University Press, 2014. http://dx.doi.org/10.1093/oxfordhb/9780199642342.013.028.

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Human beings are permanently required to process the world numerically and, consequently, to perform computations to adapt their behaviour and they have developed various calculation strategies, some of them based on specific manipulations of the fingers. In this chapter, we argue that the way we express physically numerical concepts by raising fingers while counting leads to embodied representations of numbers and calculation procedures in the adult brain. To illustrate this, we focus on number and finger interactions in the context of simple arithmetic operations. We show that the fixed order of fingers on the hand provides human beings with unique facilities to increment numerical changes or represent a cardinal value while solving arithmetic problems. In order to specify the influence of finger representation on mental arithmetic both at the cognitive and neural level, we review past and recent findings from behavioural, electrophysiological, and brain imaging studies. We start with anthropological and developmental data showing the role of fingers in the acquisition of arithmetic knowledge, then address the issue of whether number and finger interactions are also observed in adults solving arithmetic problems mentally. We suggest that arithmetic performance depends on the integrity of finger representations in children and adults. Finally, we overview the results of recent functional magnetic resonance imaging (fMRI) studies showing a common brain substrate for finger and number representations during and after the acquisition of arithmetic skills.
40

Arbib, Michael A. When Brains Meet Buildings. Oxford University Press, 2021. http://dx.doi.org/10.1093/med/9780190060954.001.0001.

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Understanding our brains can enrich our understanding of the ways we act and interact in a complex world, and how our experience of the built environment helps shape who we are and yet can be shaped by us in turn. This book presents action-oriented perception, memory, and imagination as keys to unlocking the neuroscience of the experience and design of architecture, and explores what it might mean for buildings to have “brains.” It offers a conversation addressed not only to architects and scientists but also to all who share a fascination with the brains within them and the buildings around them. Analysis of famous buildings and of homely examples introduces concepts like aesthetics, affordances, atmosphere, construction, manual action, scripts, and wayfinding, and the search for their neural substrates. It explores how evolution shaped a language-ready brain that is also architecture-ready. Case studies of the Guggenheim Museum Bilbao and the Sydney Opera House introduce an account of how the brains and minds of architects operate, pursuing the idea that memory and imagination are interacting forms of mental construction, but that architectural design must eventually reach a form that can guide the physical construction of buildings. All these concerns set new challenges for collaboration between architects and neuroscientists, and for further research on the brains of humans and animals.
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