Understanding the past is to understand the present. Mammalian life, with all its complexity comes from a humble beginning of a single fertilized egg cell. Achieving this requires an enormous diversification of cellular function, the majority of which is generated through a series of cellular decisions during embryogenesis. The first decisions are made as the embryo prepares for implantation, a process that will require specialization of extra-embryonic lineages while preserving an embryonic one. In this mini-review, we will focus on the mouse as a mammalian model and discuss recent advances in the decision making process of the early embryo
A crucial question in mammalian development is how cells of the early embryo differentiate into dist...
AbstractThe first lineage segregation in the pre-implantation mouse embryo gives rise to cells of th...
After fertilisation of the oocyte, the mouse zygote divides three times before undergoing compaction...
Understanding the past is to understand the present. Mammalian life, with all its complexity comes f...
Understanding the past is to understand the present. Mammalian life, with all its complexity comes f...
Understanding the past is to understand the present. Mammalian life, with all its complexity comes f...
A critical point in mammalian development is when the early embryo implants into its mother's uterus...
Mammalian embryo development is characterized by regulative mechanisms of lineage segregation and ce...
AbstractThe use of embryonic stem (ES) cells for generating healthy tissues has the potential to rev...
AbstractThe first event of differentiation in mammalian embryogenesis is the segregation of the inne...
Mammalian development is a complex and highly regulated process by which a single cell, the totipote...
International audienceDuring mouse preimplantation embryo development, totipotent blastomeres genera...
SummaryClonal lineage information is fundamental in revealing cell fate choices. Using genetic singl...
Our current understanding of how stem cells arise and transition during embryonic development has b...
In contrast to the majority of animals, mammalian embryonic development is highly regulative, beginn...
A crucial question in mammalian development is how cells of the early embryo differentiate into dist...
AbstractThe first lineage segregation in the pre-implantation mouse embryo gives rise to cells of th...
After fertilisation of the oocyte, the mouse zygote divides three times before undergoing compaction...
Understanding the past is to understand the present. Mammalian life, with all its complexity comes f...
Understanding the past is to understand the present. Mammalian life, with all its complexity comes f...
Understanding the past is to understand the present. Mammalian life, with all its complexity comes f...
A critical point in mammalian development is when the early embryo implants into its mother's uterus...
Mammalian embryo development is characterized by regulative mechanisms of lineage segregation and ce...
AbstractThe use of embryonic stem (ES) cells for generating healthy tissues has the potential to rev...
AbstractThe first event of differentiation in mammalian embryogenesis is the segregation of the inne...
Mammalian development is a complex and highly regulated process by which a single cell, the totipote...
International audienceDuring mouse preimplantation embryo development, totipotent blastomeres genera...
SummaryClonal lineage information is fundamental in revealing cell fate choices. Using genetic singl...
Our current understanding of how stem cells arise and transition during embryonic development has b...
In contrast to the majority of animals, mammalian embryonic development is highly regulative, beginn...
A crucial question in mammalian development is how cells of the early embryo differentiate into dist...
AbstractThe first lineage segregation in the pre-implantation mouse embryo gives rise to cells of th...
After fertilisation of the oocyte, the mouse zygote divides three times before undergoing compaction...