TY - JOUR T1 - ADRA2B and HTR1A: An updated study of the biogenic amine receptors reveals novel conserved motifs which play key role in Mental Disorders JF - bioRxiv DO - 10.1101/2022.09.16.508280 SP - 2022.09.16.508280 AU - Louis Papageorgiou AU - Evangelia Christou AU - Effrosyni Louka AU - Eleni Papakonstantinou AU - Io Diakou AU - Katerina Pierouli AU - Konstantina Dragoumani AU - Flora Bacopoulou AU - George P Chrousos AU - Elias Eliopoulos AU - Dimitrios Vlachakis Y1 - 2022/01/01 UR - http://biorxiv.org/content/early/2022/09/25/2022.09.16.508280.abstract N2 - Mental disorders are strongly connected with several psychiatric conditions including depression, bipolar disorder, schizophrenia, eating disorder and suicides. There are many biological conditions and pathways that define these complicated illnesses. For example, eating disorders are complex mental health conditions that require the intervention of geneticists, psychiatrists and medical experts in order to alleviate their symptoms. A patient with suicidal ideation should first be identified and consequently monitored by a similar team of specialists. Both genetics and epigenetics can shed light on eating disorders and suicides as they are found in the main core of such investigations. In the present study, an analysis has been performed on two specific members of the GPCR family towards drawing conclusions regarding their functionality and implementation in mental disorders. Specifically, evolutionary and structural studies on the adrenoceptor alpha 2b (ADRA2B) and the 5-hydroxytryptamine receptor 1A (HTR1A) have been carried out. Both receptors are classified in the biogenic amine receptors sub-cluster of the GPCRs and have been connected in many studies with mental diseases and malnutrition conditions. The major goal of this study is the investigation of conserved motifs among biogenic amine receptors that play an important role in this family signaling pathway, through an updated evolutionary analysis and the correlation of this information with the structural features of the HTR1A and ADRA2B. Furthermore, structural comparison of ADRA2B, HTR1A, and other members of GPCRs related with mental disorders is performed.Competing Interest StatementThe authors have declared no competing interest.GPCRG protein-coupled receptorMOEMolecular Operating EnvironmentECLExtracellular loopsICLIntracellular loopsTMTransmembranic helixEBPExtended Binding Pocket EI Emotional IntelligenceSNPsSingle Nucleotide Polymorphisms Matlab Matrix LaboratoryMEGAMolecular Evolutionary Genetics AnalysisNCBINational Center for Biotechnology Information ER -