作者：Nuno Costa-Borges1, Sheyla González1, Elena Ibáñez1, Josep Santaló1 1Unitat Biologia Cellular (Facultat de Biociències),Universitat Autonoma de Barcelona

简介：In this video-article we present a step-by-step demonstration on how to collect and cryopreserve hamster oocytes with high post-thaw survival rates. The same procedure can also be applied to successfully freeze and thaw mouse embryos at different stages of preimplantation development.

全文：

Overview

This video-article demonstrates a step-by-step procedure for collecting and cryopreserving hamster oocytes, ensuring high post-thaw survival rates. The method is also applicable for freezing and thawing mouse embryos at various preimplantation stages.

Key Study Components

Area of Science

Reproductive biology
Cryopreservation techniques
Embryo development

Background

Cryopreservation is essential for preserving genetic material.
High post-thaw survival rates are crucial for successful embryo transfer.
Hamster oocytes serve as a model for understanding cryopreservation.
Mouse embryos are commonly used in developmental biology studies.

Purpose of Study

To provide a reliable method for cryopreserving hamster oocytes.
To demonstrate the applicability of the method to mouse embryos.
To enhance the success rates of embryo transfer in research.

Methods Used

Collection of hamster oocytes from ovaries.
Use of cryoprotectants to prevent ice crystal formation.
Controlled freezing and thawing protocols.
Assessment of post-thaw survival rates.

Main Results

High survival rates of hamster oocytes post-thaw.
Successful application of the method to mouse embryos.
Demonstration of effective cryopreservation techniques.
Potential for improved outcomes in reproductive research.

Conclusions

The presented method is effective for hamster oocytes.
It can be adapted for mouse embryos, broadening its application.
Future studies can build on these techniques for various species.

Frequently Asked Questions

What are the main benefits of cryopreserving oocytes?

Cryopreservation allows for the long-term storage of genetic material, facilitating research and breeding programs.

How does the cryopreservation process affect embryo viability?

Proper cryopreservation techniques can maintain high viability rates, essential for successful embryo transfer.

Can this method be used for other species?

While this method is demonstrated for hamsters and mice, it may be adaptable for other species with further research.

What role do cryoprotectants play in the process?

Cryoprotectants help prevent ice crystal formation, which can damage cells during freezing and thawing.

Is the method suitable for clinical applications?

The method is primarily for research purposes, but successful outcomes could inform clinical practices in reproductive medicine.

What are the key factors for successful cryopreservation?

Key factors include the choice of cryoprotectants, cooling rates, and thawing protocols.

标签: Cryopreservation Hamster Oocytes Mouse Embryos Slow Freezing Vitrification Cryoprotectants Ice-crystal Formation Solution Effects Osmotic Shock Cryoinjuries Programmable Freezers Supercooling Effects

10.3791/2005-v

In-vivo Centrifugation of Drosophila Embryos

10.3791/2002-v 13:10 min

Analysis of DNA Double-strand Break (DSB) Repair in Mammalian Cells

10.3791/1995-v 11:21 min

Photoconversion of Purified Fluorescent Proteins and Dual-probe Optical Highlighting in Live Cells

10.3791/1991-v

Cell Electrofusion Visualized with Fluorescence Microscopy

10.3791/1985-v

T-wave Ion Mobility-mass Spectrometry: Basic Experimental Procedures for Protein Complex Analysis

10.3791/1982-v 09:39 min

Preparation of Drosophila S2 cells for Light Microscopy