Part:BBa_K5267040
P_4xCRE->IgK->Nluc->bGH_polyA
When melatonin binds to the MT1 receptor, the activation of adenylate cyclase (AC) is activated, regulating the level of the second messenger cAMP, while activating protein kinase to further amplify the signal. It catalyzes the phosphorylation of CREB in the nucleus and regulates the expression of downstream genes.Then the cell will glow blue fluorescence.
Usage and Biology
G-protein-coupled receptors (GPCRs) are the largest and most diverse group of membrane receptors in eukaryotes. G proteins are specialized proteins with the ability to bind the nucleotides guanosine triphosphate (GTP) and guanosine diphosphate (GDP). Ligand binding to the GPCR causes a change in the receptor conformation that in turn binds and activates the G-protein. The active form of the G-protein is then released from the surface of the receptor, dissociating into its subunits. Both subunits will then activate their specific effectors, causing the release of second messengers. These messengers are recognised by protein kinases leading to their activation and triggering the signaling cascade towards a cellular event.[1]
Cyclic adenosine monophosphate (cAMP) serves as a pivotal second messenger that transduces extracellular signals to intracellular effectors by modulating its concentration within the cell. Upon ligand binding to G-protein coupled receptors (GPCRs), adenylate cyclase is activated via the Gα subunit, culminating in elevated levels of intracellular cAMP. Subsequently, cAMP interacts with the regulatory subunits of protein kinase A (PKA), precipitating the dissociation of its catalytic subunits. The liberated catalytic subunits of PKA translocate to the nucleus, where they phosphorylate the transcription factor cAMP response element-binding protein (CREB). Phosphorylated CREB then specifically binds to the coactivator cAMP response element-binding protein (CBP), forming a complex that recognizes and binds to the cAMP response element (CRE) within the regulatory regions of target genes, thereby initiating transcriptional activation.[2]
We hope to design a reporter plasmid vector for the melatonin receptor pathway and introduce it into the recipient cells for reporting。This part is based on the cAMP-CREB pathway with MT1 acting as a cell receptor (Fig.1). 4xCRE-Pmin (BBa_K5267004) is loaded into the vector as a diagnostic element to assess the successful activation of the receptor's downstream signaling pathways., IgK (BBa_K3117006)is a signaling sequence, directing the protein into the secretory pathway , Nluc(BBa_K2728003) is engineered for optimal performance as a luminescent reporter to detect cAMP concentration [3]. If it is successfully expressed, the cell will glow blue fluorescence. bGH_polyA (BBa_K1313006)is a terminator, controlling the cessation of gene expression .,
Based on the composition of this part, it functions as a cAMP concentration detection platform, and finally, this part is successfully delivered into HEK293 cell line and currently works properly when stimulated by melatonin.
This basic part is an important element for testing whether the downstream pathway of melatonin responds successfully. At present, the commonly used method to study the signaling pathway is to clone the response element of the transcription factor corresponding to the signaling pathway into the luciferase reporter gene vector, that is, pCRE-luc .[3] However, the expression effect of a single responder is weak,so multiple tandem repeats of the same responder element are usually inserted upstream of the reporter gene (the 5 '-UTR region) to enhance the activation of the signaling pathway. By searching through literature, we constructed the 4xCRE-Pmin sequence,It contains a 5′ minimal promoter incorporating 4 multimerized palin-dromic CREs with the sequence 5′-AGCC[TGACGTCC]GAG-3′. (CRE denoted in brackets),with the exception of a single nucleotide substitution (C for A) within the CRE[4],which may strengthen gene expression downstream.
Special design
Function Test
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