Titos Iris相关文献与解析，生知库 | 链接生命科学的每一步

Bitter Sensing Protects Drosophila from Developing Experience-Dependent Cocaine Consumption Preference.

苦味感知保护果蝇免于发展出依赖经验的可卡因消费偏好

期刊:Journal of Neuroscience

影响因子:4

doi:10.1523/JNEUROSCI.1040-24.2025

Philyaw Travis J, Titos Iris, Cummins-Beebee Pearl N, Rodan Aylin R, Rothenfluh Adrian

Large analysis of genetic manipulations reveals an inverse correlation between initial alcohol resistance and rapid tolerance phenotypes

对大量基因操作的分析表明，初始酒精抵抗力与快速耐受表型之间存在负相关关系。

期刊:Genes Brain and Behavior

影响因子:2.3

doi:10.1111/gbb.12884

Chvilicek, Maggie M; Seguin, Alexandra; Lathen, Daniel R; Titos, Iris; Cummins-Beebee, Pearl N; Pabon, Miguel A; Miščević, Maša; Nickel, Emily; Merrill, Collin B; Rodan, Aylin R; Rothenfluh, Adrian

发表日期：2024

文献求助收藏

Large genetic analysis of alcohol resistance and tolerance reveals an inverse correlation and suggests 'true' tolerance mutants

对酒精抵抗力和耐受性的大规模遗传分析揭示了二者之间的负相关性，并提示存在“真正的”耐受性突变体。

期刊:

影响因子:

doi:10.1101/2023.10.09.561599

Chvilicek, Maggie M; Seguin, Alexandra; Lathen, Daniel R; Titos, Iris; Cummins-Beebe, Pearl N; Pabon, Miguel A; Miscevic, Masa; Nickel, Emily A; Merrill, Collin B; Rodan, Aylin R; Rothenfluh, Adrian

发表日期：2023

文献求助收藏

The Use of Drosophila to Understand Psychostimulant Responses

利用果蝇研究精神兴奋剂反应

期刊:Biomedicines

影响因子:3.9

doi:10.3390/biomedicines10010119

Philyaw, Travis James; Rothenfluh, Adrian; Titos, Iris

Drosophila

发表日期：2022

文献求助收藏

From single flies to many genes: Using Drosophila to explore the genetics of psychostimulant consumption

从单个果蝇到多个基因：利用果蝇探索精神兴奋剂摄入的遗传学

期刊:Proceedings of the National Academy of Sciences of the United States of America

影响因子:9.1

doi:10.1073/pnas.2109994118

Titos, Iris; Rothenfluh, Adrian

Drosophila

发表日期：2021

文献求助收藏

The Neurotransmitters Involved in Drosophila Alcohol-Induced Behaviors

参与果蝇酒精诱导行为的神经递质

期刊:Frontiers in Behavioral Neuroscience

影响因子:2.9

doi:10.3389/fnbeh.2020.607700

Chvilicek, Maggie M; Titos, Iris; Rothenfluh, Adrian

Alcohol induces long-lasting sleep deficits in Drosophila via subsets of cholinergic neurons.

酒精通过胆碱能神经元亚群在果蝇中诱发持久的睡眠缺陷

Bitter Sensing Protects Drosophila from Developing Experience-Dependent Cocaine Consumption Preference.

苦味感知保护果蝇免于发展出依赖经验的可卡因消费偏好

Large analysis of genetic manipulations reveals an inverse correlation between initial alcohol resistance and rapid tolerance phenotypes

对大量基因操作的分析表明，初始酒精抵抗力与快速耐受表型之间存在负相关关系。

Large genetic analysis of alcohol resistance and tolerance reveals an inverse correlation and suggests 'true' tolerance mutants

对酒精抵抗力和耐受性的大规模遗传分析揭示了二者之间的负相关性，并提示存在“真正的”耐受性突变体。

The Use of Drosophila to Understand Psychostimulant Responses

利用果蝇研究精神兴奋剂反应

From single flies to many genes: Using Drosophila to explore the genetics of psychostimulant consumption

从单个果蝇到多个基因：利用果蝇探索精神兴奋剂摄入的遗传学

The Neurotransmitters Involved in Drosophila Alcohol-Induced Behaviors

参与果蝇酒精诱导行为的神经递质