The unusual physical characteristics associated with this disorder seem to result from developmental abnormalities during embryonic or fetal growth.

The other area is in "embryonic growth and regulatory proteins," which the officials say may stimulate the development of tissues and even organs.

The term dysgenesis is used to describe abnormal organ development during embryonic growth and development.

Scientists have recently made considerable progress in understanding this most embryonic stage of embryonic growth.

Diplopodia usually delays the embryonic growth of cartilage, bone, and tendon by two days, particularly in the limbs.

The maternal counterparts of those genes keep embryonic and placental growth in check.

Hereditary and vitamin D deficiency during embryonic growth have been researched as possible causes.

Much further down the line in embryonic growth, one domain will give rise to the nervous system, and another the creature's limbs.

Cytoplasm, which provides the fuel for embryonic growth, does not contain the genetic imprint of the donor.

The process of embryonic growth inside the egg, from laying to hatching, is shown in detail.