【佳學(xué)基因檢測】個(gè)人氣質(zhì)的基因檢測及其位點(diǎn)

基因檢測全套費(fèi)用需要多少錢比較分析

數(shù)據(jù)分析神經(jīng)科疾病基因檢測位點(diǎn)的全面性與正確性，編纂《精神與神經(jīng)疾病個(gè)性治療的方法與措施》時(shí)準(zhǔn)備引用《J Neurogenet》在. 2017 Mar-Jun;31(1-2):1-16.發(fā)表了一篇題目為《與氣質(zhì)相關(guān)的基因多態(tài)性》天賦基因檢測的科學(xué)性證據(jù)研究文章。該研究由Xiaoyan Qiu, Graeme B Martin, Dominique Blache等完成。促進(jìn)了個(gè)體社會(huì)性、個(gè)體特質(zhì)與基因信息關(guān)系研究的發(fā)展，進(jìn)一步強(qiáng)調(diào)了基因信息檢測與分析個(gè)人氣質(zhì)預(yù)測與評估中的科學(xué)性。

精神科神經(jīng)科致病基因及正確治療臨床研究內(nèi)容關(guān)鍵詞：

遺傳學(xué),生物標(biāo)志物,個(gè)人氣質(zhì),多態(tài)性,基因檢測位點(diǎn)

神經(jīng)科用藥指導(dǎo)基因檢測臨床應(yīng)用結(jié)果

根據(jù)佳學(xué)基因個(gè)體行為學(xué)的研究，當(dāng)個(gè)體面臨壓力環(huán)境挑戰(zhàn)時(shí)，其反應(yīng)會(huì)在以下三個(gè)組成部分中的一個(gè)或多個(gè)方面大相徑庭：心理、行為和生理。個(gè)體之間的這種可變性可以定義為氣質(zhì)。近年來，越來越多的證據(jù)表明，氣質(zhì)的維度以及人格、心理障礙和行為特征都受到遺傳因素的影響，其中大部分變異似乎與基因變異或基因多態(tài)性有關(guān)，揭示了通過基因檢測了解和分析一個(gè)氣質(zhì)的科學(xué)性。正如現(xiàn)代醫(yī)學(xué)所經(jīng)歷的一樣，基因解碼是揭示人體生理及病理過程的方法學(xué)。基因解碼表明：下丘腦-垂體-腎上腺皮質(zhì)（HPA）軸和控制行為的神經(jīng)遞質(zhì)網(wǎng)絡(luò)。在這里，佳學(xué)基因回顧了基因解碼對控制動(dòng)物和人類氣質(zhì)、心理障礙和行為特征的一些候選基因多態(tài)性的概率影響的理解，包括與促腎上腺皮質(zhì)激素釋放激素 (CRH) 產(chǎn)生和腎上腺皮質(zhì)醇產(chǎn)生相關(guān)的基因多態(tài)性參與 HPA 軸，以及多巴胺能和血清素能神經(jīng)遞質(zhì)網(wǎng)絡(luò)中的大量基因多態(tài)性。它很可能有助于診斷和治療人類相關(guān)疾病，并為我們對野生動(dòng)物和生產(chǎn)系統(tǒng)中動(dòng)物的進(jìn)化、福利和保護(hù)的理解做出有益的貢獻(xiàn)。此外，人類和動(dòng)物中基因-基因和基因-環(huán)境復(fù)雜相互作用的研究需要進(jìn)一步明確說明。關(guān)鍵詞：HPA軸；氣質(zhì);基因多態(tài)性；神經(jīng)遞質(zhì)網(wǎng)絡(luò)。

神經(jīng)及精神疾病及其并發(fā)征、合并征國際數(shù)據(jù)庫描述：

When individuals are exposed to stressful environmental challenges, the response varies widely in one or more of three components: psychology, behavior and physiology. This variability among individuals can be defined as temperament. In recent years, an increasing large body of evidence suggests that the dimensions of temperament, as well as personality, psychological disorders and behavioral traits, are influenced by genetic factors, and much of the variation appears to involve variation in genes or gene polymorphisms in the hypothalamic-pituitary-adrenocortical (HPA) axis and the behavior-controlling neurotransmitter networks. Here, we review our current understanding of the probabilistic impact of a number of candidate gene polymorphisms that control temperament, psychological disorders and behavioral traits in animals and human, including the gene polymorphisms related to corticotrophin-releasing hormone (CRH) production and adrenal cortisol production involved in the HPA axis, and a large number of gene polymorphisms in the dopaminergic and serotonergic neurotransmitter networks. It will very likely to assist in diagnosis and treatment of human relevant disorders, and provide useful contributions to our understanding of evolution, welfare and conservation, for animals in the wild and in production systems. Additionally, investigations of gene-gene and gene-environment complex interactions in humans and animals need further clear illustration.Keywords: HPA axis; Temperament; gene polymorphisms; neurotransmitter networks.