/

/

温度梯度法测定果蝇幼虫的热偏好

JoVE Revista
Neurociencias

Se requiere una suscripción a JoVE para ver este contenido. Inicie sesión o comience su prueba gratuita.

JoVE Revista Neurociencias

A Temperature Gradient Assay to Determine Thermal Preferences of Drosophila Larvae

Please note that all translations are automatically generated. Click here for the English version.

温度梯度法测定果蝇幼虫的热偏好

DOI:

10.3791/57963-v

•

08:59 min

•

June 25, 2018

•

Jiangqu Liu*¹, Takaaki Sokabe*^2,3, Craig Montell

¹Neuroscience Research Institute and Department of Molecular, Cellular and Developmental Biology,University of California, Santa Barbara, ²Division of Cell Signaling, National Institute for Physiological Sciences,National Institutes of Natural Sciences, ³Thermal Biology Group, Exploratory Research Center on Life and Living Systems,National Institutes of Natural Sciences

Capítulos

00:05Título
00:43Larval Synchronization
02:03Single-directional Temperature Gradient Setup
03:30Larval Collection and Washing
05:08Assay and Calculation
06:25Results: Larvae Distribution from 18 °C – 28 °C
08:13Conclusion

Summary

Traducción Automática

在这里, 我们提出了一个协议, 以确定的首选环境温度的果蝇幼虫使用连续的热梯度。

Tags

Keywords: Temperature Gradient Thermal Preference Drosophila Larvae Somatosensation Temperature Assay C. Elegans Yeast Paste Egg Collection Agarose Plate Aluminum Blocks Water Bath

Article

Embed

Añadir a la lista de reproducción

Usage Statistics

Videos relacionados

对检测方法果蝇行为

局部和全局的方法评估热痛觉<em>果蝇</em>幼虫

可视化本体感受器<em>果蝇</em>幼虫和蛹

欲求联想嗅觉学习<em>果蝇</em>幼虫

光偏好的检测，以研究的先天和昼夜调节感光特性<em>果蝇</em>幼虫

使用胱天蛋白酶复分析，以确定细胞凋亡的下丘脑细胞模型

高通量检测，以检查个体产蛋首<em>果蝇</em

觅食路径长度协议<em>果蝇</em>幼虫

小胶质细胞作为替代生物传感器确定纳米颗粒神经毒性

新的分析冷痛觉在<em>果蝇</em>幼虫

Read Article