Intracellular Calcium (Ca2+) release can be triggered by: Palmitic acid Inositol

Question

Intracellular Calcium (Ca2+) release can be triggered by: Palmitic acid Inositol triphosphate (IP3) Phosphoric None of the above Protein Kinase A (PAKA) is mainly activated by: IP3 cAMP Palmitic acid None of the above Epinephrine activates the breakdown of glycogen by binding to the following rector: Growth factor receptor Glucocorticoid receptor G-Protein-Coupled Receptor (GPCR) Estrogen Receptor Ca2+ release from the calcium stores can bind to Ca2+ binding domains and activate the following family of enzymes: PI3K PKC CyP1A1 None of the above RNA polymerase II utilizes the following material in the synthesis of the transcript: amino acids tyrosine and serine ribonucleoside triphosphates ATP, UTP, CTP, and GTP all of the above Transcription factors are proteins that play a major role in the following activation of receptor tyrosine kinesis activation of G protein-coupled receptors activation of gene transcription process all of the above The transcription factor activating protein-1 (AP-1) is a product of the following: ERK1/2 c-Fos/c-Jun c p50/p65 None of the above

Explanation / Answer

7). Ip3

8). Cyclic AMP

9). GPCR

10). PkC

11). Ribonucleoside try phosphates, UTP, ATP, GTP, CTP

12). ERK1/2

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