Efficient cryopreservation and transportation of mouse sperm are among the most desirable strategies for current and future research on mouse genetics. However, the current method for sperm
cryopreservation uses an 11-cm plastic straw, which is a bulky and fragile container. Developing an alternative to overcome the limitations associated with this method would accelerate
biomedical research. Here, we developed the ST (sperm-freezing in ShorT STraw to reduce STorage space) method for cryopreserving mouse sperm in short 3.8-cm plastic straws. Up to nine short
straws can be stored in a cryotube, reducing storage space. We further show that sperm frozen by the ST method can be transported in liquid nitrogen or dry ice without any detrimental
effects on subsequent fertilization and the birth rate. Our findings suggest that this sperm-freezing method is beneficial not only for individual laboratories but also for large-scale
mutagenesis/knockout and phenotyping programs.
Abstract:In mice, a minimum number of healthy embryos is required to trigger and maintain pregnancy. Therefore, when recovering mouse embryos from a limited litter, one useful technique is to transfer carrier ICR embryos along with the embryos of interest, a technique referred to as cotransfer. In this study, we examined suitable mouse strains for cotransfer with C57BL/6J (B6) embryos in regards to the maintenance of pregnancy, number of pups born, intrauterine growth, and postnatal growth. Because the coat color of B6 is black, we compared two white coat-colored strains, SJL/J and ICR. Cotransfer of SJL/J and ICR embryos had similar effects on maintenance of pregnancy, number of pups born, and intrauterine growth. However, the postnatal growth of B6 mouse pups cotransferred and grown with SJL/J pups was better than for B6 mouse pups cotransferred and grown with ICR pups, suggesting competition among littermates. These results demonstrate that cotransfer of SJL/J embryos will be useful not only as carrier embryos with B6-background embryos but also as a model system to examine littermate competition.
Saving space for sperm cryopreservation would aid mouse genetics research. We previously developed the ST (sperm freezing in ShorT STraw to reduce STorage
space) method for cryopreserving mouse sperm in a smaller storage space than conventional methods. However, our ST method has two drawbacks: difficulties during
freeze-thaw procedures and the potential risk of sperm loss during storage. Here, we refine ST, terming the new method improved ST (iST). In iST, the straw has
an air-permeable filter and the straw container (2-ml cryotube) is endowed with air vents. As in our ST method, iST frozen-thawed sperm showed good performance
upon
in vitro
fertilization. Moreover, up to nine straws can be stored in one cryotube, occupying less storage space than conventional methods.
This method provides an easy and space-saving cryopreservation method for mouse sperm, and thus will be valuable for mouse genetics researchers.
In mice, a minimum number of healthy embryos is required to trigger and maintain
pregnancy. Therefore, when recovering mouse embryos from a limited litter, one useful
technique is to transfer carrier ICR embryos along with the embryos of interest, a
technique referred to as cotransfer. In this study, we examined suitable mouse strains for
cotransfer with C57BL/6J (B6) embryos in regards to the maintenance of pregnancy, number
of pups born, intrauterine growth, and postnatal growth. Because the coat color of B6 is
black, we compared two white coat-colored strains, SJL/J and ICR. Cotransfer of SJL/J and
ICR embryos had similar effects on maintenance of pregnancy, number of pups born, and
intrauterine growth. However, the postnatal growth of B6 mouse pups cotransferred and
grown with SJL/J pups was better than for B6 mouse pups cotransferred and grown with ICR
pups, suggesting competition among littermates. These results demonstrate that cotransfer
of SJL/J embryos will be useful not only as carrier embryos with B6-background embryos but
also as a model system to examine littermate competition.
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