Heterotrimeric G-proteins have been proved to be involved in various signaling pathways via heptahelical receptors. Since these groups of G protein trimeric complex may play some important roles in signal transduction, we speculate that they may affect the metabolism in vivo. The previous studies in our laboratory found that weight change of patients receiving bariatric surgery is strongly associated with the guanine nucleotide-binding protein, beta polypeptide 3 (abbreviated as GNB3) gene expression level. It is proved that G proteins usually form beta-gamma heterodimer and serve as effectors to regulate downstream signaling. Previous researches have also pointed out that the GNB3 gene is prone to have single nucleotide polymorphisms (SNPs) and result in several different alternative splicing forms. Lots of epidemiological researches had showed that GNB3 C825T is strongly associated with hypertension, obesity, diabetes, and many other metabolic disorders. Also, there was some biological data show this polymorphism is associated with alternative splicing of exon 9. It may generate GNB3-s and GNB3-s2 two splicing variants and enhance G protein signaling. But the actual mechanism that GNB3 involved in is still unclear. In order to figure out what roles GNB3 played and what components may be affected by it, we established series of experimentations. First, we recruited the patients with obesity (BMI>28) and receiving bariatric surgery in En-Chu-Kong hospital and Min-Sheng Hospital. We also invite their family members who are willing to join our research. Then we collected their blood samples and used Epstein-Barr virus to infect into B lymphoblastoid cell to establish human biobank refers to each patient’s genomic background. Second, we extracted these patients’ RNA from EBV infected cell lines or direct from their blood sample. And doing reverse transcription to get cDNA to further PCR amplification. The PCR primer pair is designed with two restriction enzyme sites, EcoRI and XhoI, to further cloning procedure. After ligasing with pcDNA 3.0 MycA vector, these clones was send to DNA sequencing center to confirm their SNPs or splicing forms. The results showed that G814A and C825T are two common SNPs in these subjects, and all of these genes are prone to generate alternative splicing products. We got ten different splicing variants and wild type to do subsequent bioassay. Since these splicing forms discovered from obese objects seem to be very different from wild type, we are interested in whether the biological functions of these variants will change or not. So we firstly examined the downstream signal, cyclic AMP, by using luciferase construct response for cAMP level. It seems that GH3, HepG2 cells treat with forskolin will enhance cAMP level, but the GNB3 gene had no effect on cAMP level. Therefore, we test another downstream component that had been published to associate with G protein signaling, that is, MAP kinase. The MAP kinase activity was detected by anti-phosphorylated p38 MAP kinase antibody of p38 MAPK kit. The MAPK phosphorylation level is activated when cells treat with forskolin. Over express GNB3 gene will delay the activation. Different variants have distinguished response of forskolin. The effects of MAPK phosphorylation are activated in different fold changes from 1.10 to 17.51 times of activation. Thus, we can surmise that GNB3 gene variants are exited in obese families and play an important role on MAPK signaling.