Receptor Tyrosine Kinase Pathways – Second Messenger Systems
Über den Vortrag
Der Vortrag „Receptor Tyrosine Kinase Pathways – Second Messenger Systems“ von Georgina Cornwall, PhD ist Bestandteil des Kurses „Cell Signaling (Texas A&M FOM II 2020 Exam Unit 1)“.
Quiz zum Vortrag
Which of the following is involved in the receptor tyrosine kinase (RTK) cascade? Select all that apply.
- Dimerization of two protein kinase receptor subunits
- Autophosphorylation
- Docking proteins and adapter proteins
- G-protein kinases
- Dephosphorylation of the dimerized protein kinase subunits
Which of the following is NOT true regarding the RTK system?
- Insulin binding to the insulin-related RTK system leads to the immediate separation of two RTK subunits to stop the propagation of the signal cascade.
- RTKs are membrane-embedded kinase proteins that play an important role in general cell functions such as cell cycle, growth, migration, and metabolism.
- Maintenance of blood glucose levels by insulin involves the RTK pathway.
- Binding of a ligand to the extracellular receptor domains causes autophosphorylation of the intracellular domains at the serine, threonine, and tyrosine residues.
- RTKs are composed of two RTK monomer units, each with a single hydrophobic α-helical transmembrane domain, which dimerize upon binding of the ligand to the receptor sites.
Which of the following results from activation of the insulin RTK signaling pathway?
- Phosphorylation of proteins in the signaling cascade will upregulate the transcription factors that increase the production of glycogen synthase.
- Denaturation of proteins will increase the destruction of GLUT channels, preventing the entry of glucose into cells.
- Synthesis of docking sites on RTKs that downregulates transcription factors for glycogen synthase
- Dephosphorylation of proteins that cleave molecules of glucose from glycogen, increasing blood glucose levels
- Upregulation of cortisol receptors
Which of the following statements best describes scaffold proteins?
- They are involved in the organization of the signaling cascade proteins/components into a highly ordered macromolecular complex for efficient signal transduction.
- They are active enzymatic components of the signaling cascade.
- They are involved in the transfer of phosphate groups from kinases and phosphatases to substrate proteins to switch them "on" or "off."
- They directly deal with the reception of an external signal to stimulate cellular responses.
- They act as molecular switches.
Which of the following is INCORRECT about molecular switches?
- Molecular switches link intracellular signals to external transduction pathways.
- Ras acts as a connecting link between receptor tyrosine kinase and mitogen-activated protein kinase.
- Ras proteins are activated and deactivated by guanine nucleotide exchange factors and GTPase activating proteins, respectively.
- The Ras system regulates the cell cycle and cell division by activating the mitogen-activated protein kinase cascade.
- The breakdown of intramolecular switches may lead to cancers due to deregulated cell-cycle and cell-division events.
Which of the following best describes adaptor proteins?
- Adaptor proteins facilitate downstream signaling events but do not participate in signal transduction.
- Adaptor proteins help other proteins dock on phosphotyrosines so that they can be phosphorylated.
- Adaptor proteins organize the kinase cascade for ultimate efficiency.
- Adaptor proteins dimerize after a ligand binds to their extracellular membrane receptor.
- Adaptor proteins activate guanylate cyclase after a ligand binds to their extracellular membrane receptor.
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Dozent des Vortrages Receptor Tyrosine Kinase Pathways – Second Messenger Systems
Georgina Cornwall, PhD
Dr. Georgina Cornwall is a Biology Instructor and currently works as an Instructional Designer in the private sector, developing interactive online training materials.
She obtained her PhD in Environmental, Population, and Organismic Biology at the University of Colorado, USA, in 2000, and has since taught a broad array of biology courses at various US universities.
She is an active promoter of hybrid/online teaching formats and interactive courses, and has received several awards for her engaging and innovative course design; e.g., she was named Adjunct Faculty of the Year at Colorado Mountain College in Aspen twice.
Within Lecturio, Dr. Cornwall teaches courses on Biology & Genetics.
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I dont know if its the diagram or what the doctor is saying but i just cant understand the MAP kinase and the GEF and everything else afterwards
complicated topic but I think I got it, though the Tyrosine kinase itself is a bit complex
Very disorganised way of explaining concepts It would be much better if things were presented in more detail and if the presentations were structured adequately
