Early Stages in the Differentiation of Gametocytes of Haemoproteus columbae Kruse

SYNOPSIS The sexes of mature gametocytes of Haemoproteus columbae Kruse circulating in the blood of the domestic pigeon can be identified in the electron microscope by the same criteria that distinguish them in the light microscope. The microgametocyte has a large nucleus and pigment granules restricted to the 2 extremities of its halter-shaped cells. The macrogametocyte has dense granular cytoplasm with scattered pigment granules and a small central nucleus. The sex of young gametocytes cannot yet be recognized. When blood containing mature gametocytes is cooled outside the body of the host visible signs of gametogenesis appear within 30 seconds. The earliest signs are increasing electron lucidity of the cytoplasm and separation of the outer membrane from the body of the parasite. The membrane may form vesicles or whorls or lie free in the erythrocyte's cytoplasm. The middle membrane of the parasite becomes the plasma membrane. Axonemes and microtubules appear in the cytoplasm and nucleoplasm of the microgametocyte. The macrogametocyte lags slightly behind the microgametocyte in development. With the first signs of differentiation, the host cell cytoplasm begins to disappear. The fate of the outer membrane and the erythrocyte's cytoplasm suggests the release of a lytic substance by the parasite.

[1]  R. Ladda,et al.  Penetration of Erythrocytes by Merozoites of Mammalian and Avian Malarial Parasites* , 2001, Journal of Parasitology.

[2]  R. Herman Osmotic fragility of normal duck erythrocytes as influenced by extracts of Plasmodium lophurae, P. lophurae-infected cells, and plasma. , 1969, The Journal of parasitology.

[3]  M. Aikawa,et al.  Comparative fine structure study of the gametocytes of avian, reptilian, and mammalian malarial parasites. , 1969, Journal of ultrastructure research.

[4]  M. Aikawa,et al.  Fine structure of a reptilian malarial parasite. , 1968, The Journal of parasitology.

[5]  R. Kocan Anemia and mechanism of erythrocyte destruction in ducks with acute Leucocytozoon. , 1968, The Journal of protozoology.

[6]  W. Trager,et al.  The fine structure of trophozoites and gametocytes in Plasmodium coatneyi. , 1968, The Journal of protozoology.

[7]  W. Trager,et al.  The fine structure of the mature gametes of haemoproteus columbae kruse. , 1968, The Journal of protozoology.

[8]  M. Aikawa,et al.  Comparative feeding mechanisms of avian and primate malarial parasites. , 1966, Military medicine.

[9]  E. Reynolds THE USE OF LEAD CITRATE AT HIGH pH AS AN ELECTRON-OPAQUE STAIN IN ELECTRON MICROSCOPY , 1963, The Journal of cell biology.

[10]  James A. Freeman,et al.  A NEW EPOXY EMBEDMENT FOR ELECTRON MICROSCOPY , 1962, The Journal of cell biology.

[11]  W. Trager,et al.  Intracellular phagotrophy by malaria parasites: an electron microscope study of Plasmodium lophurae* , 1957 .

[12]  E. W. McConnachie,et al.  A study of the factors affecting the emergence of the gametocytes of Plasmodium gallinaceum from the erythrocytes and the exflagellation of the male gametocytes , 1956, Parasitology.

[13]  W. G. Maccallum ON THE FLAGELLATED FORM OF THE MALARIAL PARASITE. , 1897 .