Morula Development - Embryology (Latin, morula = mulberry) An early stage in post-fertilization development when cells have rapidly mitotically divided to produce a solid mass of cells (12-15 cells) with a "mulberry" appearance This stage is followed by formation of a cavity in this cellular mass blastocyst stage
Morula | Description Facts | Britannica morula, solid mass of blastomeres resulting from a number of cleavages of a zygote, or fertilized egg Its name derives from its resemblance to a mulberry (Latin: morum) A morula is usually produced in those species the eggs of which contain little yolk and, consequently, undergo complete cleavage
Morula- Stage, Development, Significance - Microbe Notes The morula is the first embryonic stage where mammalian cells can be categorized as being either internal or external The morula reaches the uterus between three and four days of development and greatly absorbs nutrients and fluid from the surrounding in preparation for the implantation process
What is the Morula Stage, and Why is it Important in IVF? The morula stage is a crucial stage of embryo development that usually occurs during day 4 after fertilization (or occasionally on day 5) before the embryo’s blastocoel cavity (the fluid-filled cavity) forms
Morula - Meaning, Stage and Transformation of Morula into . . . Morula is the combined solid mass of cells, which are known as blastomeres, formed by the cleavage of the single-cell zygote which in turn is formed after fertilization of the ovum by the sperm On the other hand, a blastula is a ball of cells consisting of two layers that are formed by the dynamic arrangement of the blastomeres
Morula | Definition, Formation Function - Lesson | Study. com A morula is a microscopic ball or cluster of cells formed through cell division very early in the embryonic development that occurs after fertilization but before the blastocyst stage As the
Morula - Medical Pub The morula represents a foundational stage in embryonic development, forming a solid, cohesive mass of cells following fertilization Through the processes of cleavage and compaction, the morula prepares for its transition into the blastocyst, setting the stage for further differentiation and growth