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Metabotropní glutamátové receptory: mechanismus aktivace
dc.contributor.advisorBlahoš, Jaroslav
dc.creatorHlaváčková, Veronika
dc.date.accessioned2018-09-20T16:10:35Z
dc.date.available2018-09-20T16:10:35Z
dc.date.issued2006
dc.identifier.urihttp://hdl.handle.net/20.500.11956/5025
dc.description.abstractAny living organism receives constantly many signals that have to be evaluated and weighted to respond in an appropriate way. To perform all functions needed for precise control of homeostasis and for communication with the surrounding environment, signals coming from the outside are recognized and transferred into modulation of intracellular signaling cascades. These mediate response to the extracellular stimulus as well as intercellular communication. Cell communication is mediated by several types of receptors, located either intracellularly (including nuclear receptors) that modulate gene transcription and receptors localized on plasma membrane. Cell membrane receptors are transmembrane proteins that are divided into three superfamilies according to their structure and principles of signal transduction. These are ion channel-linked receptors, enzyme-linked receptors and G-protein-coupled receptors (GPCRs). GPCRs comprise the biggest family of membrane receptors and are one of the largest gene families in general. They are encoded by about 1% of genes in mammals. Many of them bind sensory ligands (rhodopsin, taste and olfactory receptors), but others also recognize ions, amino acids, nucleotides, peptides and large glycoproteins (1). They play a crucial role in such distant physiological functions as...en_US
dc.languageEnglishcs_CZ
dc.language.isoen_US
dc.publisherUniverzita Karlova, 2. lékařská fakultacs_CZ
dc.titleMetabotropic glutamate receptors: mechanism of activationen_US
dc.typedizertační prácecs_CZ
dcterms.created2006
dcterms.dateAccepted2006-12-11
dc.description.departmentOstatní pracovištěcs_CZ
dc.description.faculty2. lékařská fakultacs_CZ
dc.description.facultySecond Faculty of Medicineen_US
dc.identifier.repId140034
dc.title.translatedMetabotropní glutamátové receptory: mechanismus aktivacecs_CZ
dc.contributor.refereeVyklický, Ladislav
dc.contributor.refereeMartásek, Pavel
dc.contributor.refereeKonvalinka, Jan
dc.identifier.aleph000586933
thesis.degree.namePh.D.
thesis.degree.leveldoktorskécs_CZ
thesis.degree.discipline-cs_CZ
thesis.degree.discipline-en_US
thesis.degree.programNeurovědycs_CZ
thesis.degree.programNeurosciencesen_US
uk.faculty-name.cs2. lékařská fakultacs_CZ
uk.faculty-name.enSecond Faculty of Medicineen_US
uk.faculty-abbr.cs2.LFcs_CZ
uk.degree-discipline.cs-cs_CZ
uk.degree-discipline.en-en_US
uk.degree-program.csNeurovědycs_CZ
uk.degree-program.enNeurosciencesen_US
thesis.grade.csProspěl/acs_CZ
thesis.grade.enPassen_US
uk.abstract.enAny living organism receives constantly many signals that have to be evaluated and weighted to respond in an appropriate way. To perform all functions needed for precise control of homeostasis and for communication with the surrounding environment, signals coming from the outside are recognized and transferred into modulation of intracellular signaling cascades. These mediate response to the extracellular stimulus as well as intercellular communication. Cell communication is mediated by several types of receptors, located either intracellularly (including nuclear receptors) that modulate gene transcription and receptors localized on plasma membrane. Cell membrane receptors are transmembrane proteins that are divided into three superfamilies according to their structure and principles of signal transduction. These are ion channel-linked receptors, enzyme-linked receptors and G-protein-coupled receptors (GPCRs). GPCRs comprise the biggest family of membrane receptors and are one of the largest gene families in general. They are encoded by about 1% of genes in mammals. Many of them bind sensory ligands (rhodopsin, taste and olfactory receptors), but others also recognize ions, amino acids, nucleotides, peptides and large glycoproteins (1). They play a crucial role in such distant physiological functions as...en_US
uk.file-availabilityV
uk.publication-placePrahacs_CZ
uk.grantorUniverzita Karlova, 2. lékařská fakulta, Ostatní pracovištěcs_CZ
thesis.grade.codeP


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