Reaction messenger

FIGURE 5.15 Different modes of response measurement, (a) Real time shows the time course of the production of response such as the agonist-stimulated formation of a second messenger in the cytosol, (b) The stop-time mode measures the area under the curve shown in panel A. The reaction is stopped at a designated time (indicated by the dotted lines joining the panels) and the amount of reaction product is measured. It can be seen that in the early stages of the reaction, before a steady state has been attained (i.e., a plateau has not yet been reached in panel A), the area under the curve is curvilinear. Once the rate of product formation has attained a steady state, the stop-time mode takes on a linear character. 

Quantitative polymerase chain reaction, also called real-time RT-PCR or QPCR, is a method which employs insertion of a signal, such as fluorescence or enzyme activity, into PCR products generated by RT-PCR to determine the amount of messenger RNA (mRNA) in a tissue accurately. 

The cAMP molecule serves as the second messenger, which carries out the effects of the hormone inside the cell. The primary function of cAMP is to activate protein kinase A. This kinase then attaches phosphate groups to specific enzymatic proteins in the cytoplasm. The phosphorylation of these enzymes enhances or inhibits their activity, resulting in the enhancement or inhibition of specific cellular reactions and processes. Either way, cellular... 

A stoichiometric forerunner of this approach was the wolf and lamb reaction, reported by Patchornik and co-workers in 1981 [17]. Two reagents that in solution react with each other quickly to give an undesired product (hence wolf and lamb ) were immobilized on solid polymeric supports (two insoluble and mutually immiscible polymers, Scheme 5.1), rendering them unreactive towards each other. This allowed the formation of the desired product through the use of a messenger reagent. 

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