Evolution of vertebrate sensory genes

脊椎动物感觉基因的进化

• 批准号: 7235859
• 负责人: JIANZHI ZHANG
• 金额: $ 20.22万
• 依托单位: UNIVERSITY OF MICHIGAN AT ANN ARBOR
• 依托单位国家: 美国
• 财政年份: 2007
• 资助国家: 美国
• 起止时间: 2007-07-01 至 2011-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7235859
• 关键词: AVPR2 gene; Address; Afferent Neurons; Behavioral; Binding; Biodiversity; Chemicals; Chordata; Communication; Comparative Genomic Analysis; Complement; Complex; Daily; Detection; Disease; Environment; Evolution; Exocrine Glands; Family; Food; G-Protein-Coupled Receptors; Gene Expression; Gene Family; Gene Structure; Genes; Genetic; Genetic Variation; Genomics; Grant; House mice; Human; Ion Channel; Laboratories; Life; Mediating; Molecular Genetics; Mus; Mutation; Neurobiology; Numbers; Organism; Partner in relationship; Pathway interactions; Pattern; Peptides; Pheromone; Pheromone Receptors; Physiological; Play; Poison; Pongidae; Population; Population Genetics; Primates; Relaxation; Research Personnel; Rodent; Role; Sensory; Signal Transduction Pathway; Smell Perception; System; T1R receptor; T2R taste receptors; Taste Buds; Taste Perception; Testing; Time; Today; Variant; Vertebrates; Vomeronasal Systems; Water; base; computerized tools; environmental change; gene function; genetic analysis; interest; pressure; programs; receptor; response; sensory system; social; theories; vertebrate genome; vomeronasal organ

DESCRIPTION (provided by applicant): The long-term objective of my laboratory is to understand how genetic changes contribute to the survival, adaptation, and evolution of organisms. All organisms live in biotic and abiotic environments that change over time. Sensory genes are responsible for detecting these environmental changes and thus play a pivotal role in the daily life of organisms, including humans. Chemoreception is of particular interest because of the tremendous diversity of chemicals that organisms recognize and respond to. Here we focus on the evolution of vertebrate genes and genetic pathways responsible for two chemosensations that have significant evolutionary ramifications and mechanistic similarities: vomeronasal pheromone detection and tastant detection. These two systems enable vertebrates to find nutritious food and suitable mates, and to avoid predators and toxic substances. Two unrelated large superfamilies, V1 Rs and V2Rs, serve as pheromone receptors in vomeronasal sensory neurons, and the ion channel TRPC2 is indispensable in vomeronasal transduction. Bitter tastants are recognized in taste buds by a family of T2R receptors that are evolutionary related to V1 Rs, whereas sweet and umami tastants are detected by T1R receptors that are related to V2Rs. Micro- and macro-evolution of pheromone and taste receptions will be examined using genetic/genomic approaches. Our specific aims are (1) to test predictions of intra-specific variation and inter-specific divergence of V1R and V2R genes using two closely related mouse species; (2) to examine the macro- evolutionary patterns of vertebrate V1 Rs and V2Rs by genomic analysis, including tests of hypotheses on a shift of V1R/V2R repertoires in the emergence of land vertebrates, on coevolution of V1R/V2R genes with other genes, and on the losses of V2R genes in various vertebrates; (3) to study the origin of the vomeronasal system by tracing the system-specific genes in early diverging vertebrates and chordates; (4) to assess the functionality of V1R genes in humans and related apes that lack a functional vomeronasal organ by population genetic and evolutionary analyses; (5) to study the macro-evolution of vertebrate T1 Rs and T2Rs by comparative genomic analysis; and (6) to test the hypothesis of relaxation of functional constraints on human bitter taste receptors by population genetic analysis of T2Rs in humans and related apes. These studies will also help understand human smell and taste variations and disorders.

描述（由申请人提供）：我的实验室的长期目标是了解基因变化如何促进生物体的生存、适应和进化。所有生物体都生活在随着时间变化的生物和非生物环境中。感觉基因负责检测这些环境变化，因此在包括人类在内的生物体的日常生活中起着关键作用。化学接受是一个特别有趣的问题，因为生物体识别和反应的化学物质种类繁多。在这里，我们关注脊椎动物基因的进化和负责两种化学感觉的遗传途径，这两种化学感觉具有重要的进化分支和机制相似性：犁鼻信息素检测和味觉检测。这两个系统使脊椎动物能够找到有营养的食物和合适的伴侣，并避免捕食者和有毒物质。两个不相关的大超家族V1 Rs和V2Rs在犁鼻感觉神经元中充当信息素受体，离子通道TRPC2在犁鼻转导中不可或缺。苦味在味蕾中由与V1 Rs相关的T2R受体家族识别，而甜味和鲜味则由与V2Rs相关的T1R受体检测。信息素和味觉接收的微观和宏观进化将使用遗传/基因组方法进行检查。我们的具体目标是：(1)使用两个密切相关的小鼠物种来测试V1R和V2R基因的种内变异和种间差异的预测；(2)通过基因组分析研究脊椎动物V1基因和V2R基因的宏观进化模式，包括验证陆地脊椎动物出现过程中V1R/V2R基因的转移假说、V1R/V2R基因与其他基因的协同进化假说以及不同脊椎动物V2R基因的缺失假说；(3)通过追踪早期分化的脊椎动物和脊索动物的犁鼻系统特异性基因，研究犁鼻系统的起源；(4)通过群体遗传和进化分析，评估人类及相关类人猿在犁鼻器官缺失情况下V1R基因的功能；(5)通过比较基因组分析研究脊椎动物T1 Rs和T2Rs的宏观进化；(6)通过对人类及类人猿T2Rs的群体遗传分析，验证苦味受体功能约束放松的假设。这些研究也将有助于理解人类嗅觉和味觉的变化和失调。