X-Growth Hormone available at hawashi
The GHR gene provides instructions for making a protein called the growth hormone receptor. This receptor is embedded in the outer membrane of cells throughout the body and is most abundant in liver cells.
The growth hormone receptor has three major parts: An extracellular region that sticks out from the surface of the cell, a transmembrane region that anchors the receptor to the cell membrane, and an intracellular region that transmits signals to the interior of the cell. The extracellular region attaches (binds) to a substance called growth hormone, fitting together like a lock and its key. The binding of growth hormone triggers signaling via the intracellular region of the receptor that stimulates the growth and division of cells. This signaling also leads to the production, primarily by liver cells, of another important growth-promoting hormone called insulin-like growth factor I (IGF-I).
Growth hormone and IGF-I have a wide variety of effects on the growth and function of many parts of the body. For example, these hormones stimulate the growth and division of cells called chondrocytes, which play a critical role in producing new bone tissue. Growth hormone and IGF-I also influence metabolism, including how the body uses and stores carbohydrates, proteins, and fats from food.
Researchers have identified two major versions (isoforms) of the growth hormone receptor. The two isoforms differ by the presence or absence of a particular segment known as exon 3, which is located in the extracellular region of the receptor. The version of the receptor that includes exon 3 is known as the full-length isoform (fl-GHR), while the version that is missing exon 3 is known as the exon 3-deficient isoform (d3-GHR). Both isoforms are relatively common in most populations. Each individual can have fl-GHR only, d3-GHR only, or a mix of both isoforms. The two isoforms bind to growth hormone in the same way on the surface of cells, but for reasons that are unclear, d3-GHR is associated with enhanced signaling within cells compared with fl-GHR.