The tissue is usually from the leading edge of cells making shell. So donors with nice shell colour and lustre are selected..(yes?)
Generally, yes. Technically, not quite. The leading edge of the mantle is a fiberous, muscular tissue. It serves three purposes. First to keep the mantle from perforating, second to extrude the periostracum and the third, to provide tactile sensitivity. This margin has three folds, with outer, middle and inner surfaces. The periostracum is a water tight lining which acts as a barrier between the mantle and the shell. It's extruded between the
inner layer of the outer fold and the
outer layer of the middle fold. This tissue is trimmed away and the next level of tissue is sectioned for grafting.
While different epithelial cells perform different functions, they can be divided into two categories. Mineralization and non-mineralization.
The colorful layers of the shell lining are laid up by the
outer layer of the outer fold of the mantle and continues along the extrapallial cavity toward the heart. The inner layer of the mantle does not mineralize. Instead having a greater density of mucous cells.
Calcite and aragonite are clear crystals. The color of a shell (or pearl) comes from the protein component. The periostracum is largely protein, but as the mantle recedes along the extrapallial space, the layup gradually becomes more mineralized (hence less protein present). As e-cells mature, they eventually generate the bare minimum protein content and aragonitic layup becomes less ordered, even calcitic. For homogeneic grafting purposes, juvenile tissue is preferred. Color is not necessarily a factor to vital regrowth, but a priority in donor selection criteria for aethstetic purposes.
What would happen if a pearl sac was used as the donor tissue - so that a particularly good colour line was not lost.
One of several reasons why re-grafting is performed (not technically a graft, insomuch as a transplant). Although grafting with sacs can be done, there are many reasons why it isn't. First of all, a pearl sac is a super-thin membrane, scarcely measuring a few microns in thickness. Once introduced to air, dries out rapidly or shrinks. It may roll up, invert or become necrotic in the host during convalescence. It may be too mature to regenerate at high rates or yield poor grade pearls. Sectioned juvenile mantle tissue remains viable for a much longer period, hence giving the technician a longer working time and a greater chance for compatibility.
Likewise, grafting would have to occur simultaneous to harvesting. This would require twice the crew. It would also involve seasonal compromises. Pearls are (generally) grafted in spring and harvested in winter. Hence about one year, nine months growth (on average) depending on farm and location. Harvesting tends to be a dirty operation, whereas grafting is preferred in a more sterile environment.
This is why I loathe the word "irritant" as it applies to pearl onset. In human or plant grafts, viability is dependent upon reducing irritation and inflammation otherwise giving rise to infection and septicemia.
Epithelial cells do not appear spontaneously in the presence of an irritant. They divide and multiply in the adjacent space only. Natural pearls form largely as a result of "perforation" of epithelial structures. Sometimes, xenogeneic pearls occur when shell bearing parasites become lodged in the mantle. Even though the animal itself dies, it's mantle tissue lives and grows within the host's vascular stream. This is a plausible cause for my octopus pearl. Perhaps a tiny piece of mantle tissue from a clam (it's lunch) became lodged in a healing wound (amputation) near it's beak.
Also are grafts always accepted, never rejected?
It depends on the farm environment, season, species and technician. Warmer water gives rise to a greater number of detrimental pathogens. It's important to remember that mantles do not always build shells. All living things need calcium. During periods of low salinity or reduced food supply, e-cells may "revert", by producing acids which dissolve the shell, that the soft tissues may uptake and re-metabolize the calcium. Grafting during these periods (namely winter) would invariably reduce success rates.
And, why are the insides of shells so coloured anyway? Why have the colours developed? I asked an evolutionary biologist and he had no idea (and he has two doctorates!)
E-cells are skin cells. Like many species of animals, there are slight variations in the components and how they present to the eye. It's almost always a genetic factor, rarely (if ever) environmental.
