Search results for "Regulatory Pathway"

showing 3 items of 3 documents

Role of non-neuronal and neuronal acetylcholine in the airways

2001

It is well known that acetylcholine represents a dominant neurotransmitter within mammalian airways and that airway functions, like smooth muscle activity and secretion, are under a continuous cholinergic tone. However, the teleology of this basal cholinergic tone, assumed to originate from neuronal activity, appears difficult to understand, whereas neuronal cholinergic reflex activity can be regarded as a rational regulatory pathway to protect the airways from injury [1-3]. Based on recent experimental observations, both phenomena may reflect two different biological roles of acetylcholine, acting first as a universal cytomolecule (non-neuronal) and second as a classical neurotransmitter (…

BiologyCholine acetyltransferasechemistry.chemical_compoundchemistryMuscarinic acetylcholine receptorReflexmedicineCholinergicPremovement neuronal activityRegulatory PathwayNeurotransmitterNeuroscienceAcetylcholinemedicine.drug
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Open and closed inflorescences: more than simple opposites

2010

The absence of a terminal flower in inflorescences (‘open inflorescences’) is currently explained by the maintenance of putative stem-cells in the central zone (CZ) of the inflorescence meristem (IM) governed by the CLAVATA– WUSCHEL regulatory loop. Disruption of this regulatory pathway, as in Arabidopsis TERMINAL FLOWER LOCUS 1 mutants, leads to terminal flower production. However, recent studies in other taxa reveal novel mechanisms of inflorescence termination; for example, the SEPALLATA-like MADS-box floral identity gene GERBERA REGULATOR OF CAPITULUM DEVELOPMENT 2 in Gerbera excludes the retention of a CZ as an ontogenetic cause for the openness of these inflorescences. Moreover, compa…

GerberabiologyPhysiologyfungiMutantGene Expression Regulation DevelopmentalPlant Developmentfood and beveragesFlorLocus (genetics)Plant SciencePlantsMeristembiology.organism_classificationInflorescenceGene Expression Regulation PlantArabidopsisBotanyInflorescenceRegulatory PathwayPlant Physiological PhenomenaPlant ProteinsJournal of Experimental Botany
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Quantification of Different Regulatory Pathways Contributing to Heartbeat Dynamics during Multiple Stimuli: a Proof of the Concept.

2019

The dynamical interplay between brain and heart is mediated by several feedback mechanisms including the central autonomic network and baroreflex loop at a peripheral level, also for a short-term regulation. State of the art focused on the characterization of each regulatory pathway through a single stressor elicitation. However, no studies targeted the actual quantification of different mediating routes leading to the generation of heartbeat dynamics, particularly in case of combined exogenous stimuli. In this study, we propose a new approach based on computational modeling to quantify the contribution of multiple concurrent stimuli in modulating cardiovascular dynamics. In this prelimina…

HeartbeatComputer scienceStressorHealthy subjectsHeart Rate VariabilityHeartPhysiological Modelling030204 cardiovascular system & hematologyBaroreflexAutonomic Nervous SystemBiomedical Signal ProcessingCardiovascular System03 medical and health sciences0302 clinical medicineDynamics (music)Heart RateStress PhysiologicalSettore ING-INF/06 - Bioingegneria Elettronica E InformaticaHeart rate variabilityHumansRegulatory PathwayNeuroscience030217 neurology & neurosurgeryStress PsychologicalAnnual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
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