The fat cells of females of Daphnia obtusa have a well developed rough endoplasmic reticulum, free ribosomes and small Golgi complexes. When the ovaries contain growing parthenogenetic oocytes, the fat cells show few scattered glycogen granules, whereas they show abundant glycogen when the ovaries contain one vitellogenic amphigonic oocyte. The latter case could be explained by the fact that the fat cells synthesize little vitellogenin since the yolk of amphigonic oocytes is mostly endogenous.
The formation of the egg envelope in a teleost, Dicentrarchus labrax (L.), was analysed at histological and ultrastructural level. The sequential deposition of three main layers (Z1, Z2 and Z3) constitutes the extracellular matrix throughout oocyte development. Various findings indicate that these subunits are biochemically distinct: (1) periodate- and phosphotungstic acid-reactive carbohydrates are obviously detected only in the Z1, that constitutes the initial deposit of the egg envelope in early lipidic oocytes; (2) a monoclonal antibody (DLE7) against egg envelope polypeptides did not immunostain the Z1 and the underlying Z2; (3) the antigenic determinants recognised by DLE7, thought to be exogenous in origin (synthesised in the liver), are incorporated in the inner layer (Z3). In addition, DLE7 immunostained a thin layer, assembled together with Z3. This line has not yet been described in teleost eggs and was named Z1a. This study first describes at fine cytological level the contribution of exogenous proteins to formation of the different egg envelope layers. Results obtained with conventional, immunochemical and cytochemical techniques suggest multiple synthetic sources (exogenous and follicular) of egg envelope proteins.
The labral glands of Daphnia consist of three distinct functional units on each side: (1) several cells at the base of the head, (2) two large cells at the base of the labrum and one large cell (cell A) in the median part of the labrum and (3) one large cell (cell B) in the median part of the labrum. These gland cells do not form a syncytium, contrary to reports by previous investigators. With the exception of cell B, they have a well-developed rough endoplasmic reticulum and many active Golgi complexes. The Golgi activity changes during the molt cycle. The Golgi activity of the cells of the head base is different from that of the large cells of the labrum. Since clear exocytotic phenomena were not observed, the secretion can be assumed to flow into the hemolymph after accumulation in the enlarged intercellular spaces. Cell B has a distinctive cytoplasmic ultrastructure the function of which is not yet understood. The four large cells of the labrum are in contact with a duct cell (or several duct cells) characterized by a deep infolding of the plasma membrane. This delimits a narrow lumen, which contains no secretion. No passage of substance is visible from the gland cells to the duct cell(s).
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