Mecanismos de diferenciación celular en una de las células eucariotas más primitivas, el protozoario intestinal Giardia lamblia

Giardia lamblia es un protozoario que habita en el intestino de seres humanos y otros vertebrados. La forma vegetativa del parásito carece de organelas típicas de células eucariotas tales como mitocondrias, peroxisomas y compartimentos relacionados en el tráfico intracelular y secreción de proteínas como el aparato de Golgi y gránulos de secreción. Dentro del intestino algunos trofozoítos se transforman en quistes, la forma infectiva, que se liberan con las heces, responsables de la transmisión de la enfermedad. El enquistamiento se manifiesta como un proceso de adaptación celular a la falta de colesterol que ocurre en la parte inferior del intestino, aunque no se conocen los mecanismos de transducción de señales que llevan a la expresión de genes específicos. Este proyecto está dirigido a conocer los aspectos del proceso de enquistamiento de Giardia, como son a) mecanismos de transducción de señales que se generan ante esta ausencia de colesterol y la regulación de la expresión de genes específicos, b) transporte intracelular de los componentes de la pared del quiste, en particular la biogénesis de las vesículas especificas de secreción y del aparato de Golgi, organelas presentes en trofozoítos en proceso de enquistamiento y c) el ensamblado de la pared extracelular.

Caracterización molecular y funcional de b-gc, una subunidad novedosa del receptor IGF-I

El factor de crecimiento similar a insulina-I (IGF-I) es una hormona peptídica que participa en el crecimiento animal, desarrollo de los tejidos y diferenciación. Hay un creciente cuerpo de evidencias que indican que esta hormona es también importante en la regulación del desarrollo del sistema nervioso. (...) Este factor de crecimiento ejerce sus acciones interaccionando con un receptor heterotetramérico similar al receptor de insulina. b-gc es una subunidad b novedosa del receptor de IGF-I, típica del sistema nervioso central y enriquecida en conos de crecimiento neural. Los objetivos del presente proyecto consisten en: a) Caracterización molecular de b-gc mediante clonado y secuenciado del cDNA que codifica su biosíntesis; b) Caracterización bioquímica de las vesículas que transportan bgc en neuronas en desarrollo desde el aparato de Golgi hacia el cono de crecimiento neural; c) Estudio de la expresión y distribución de bgc en células nerviosas no neuronales, como oligodendrocitos y astrocitos. (...) La caracterización molecular de los receptores de IGF-I conteniendo b-gc y que presenta una distribución muy interesante durante el desarrollo del sistema nervioso central, puede aportar datos fundamentales para la comprensión de la función de estos receptores y su correspondiente hormona durante el desarrollo del sistema nervioso y su transporte específico a los conos de crecimiento neural. La caracterización bioquímica de las vesículas conteniendo b-gc puede aportar importantes datos sobre la presencia de diferentes tipos de vesículas de transporte no sinápticas, como surge de resultados obtenidos recientemente.

Desórdenes congénitos de la glicosilación (cdg).

Los Desórdenes Congénitos de la Glicosilación (CDG), son un grupo creciente de enfermedades metabólicas hereditarias de herencia autosómica recesiva, salvo dos clases de CDG autosómicas dominantes, causadas por defectos en la síntesis o la remodelación de N-u O-glicanos, de glicoesfingolípidos o en anclajes de glycosylphosphatidylinositol. La formación de la porción glicano, se produce a través de etapas secuenciales y comienza la ruta biosintetica en citoplasma, pasando por retículo endoplasmático y posterior modificación del glicoconjugado en el aparato de Golgi. Los glicanos constituyen compuestos formados por diversos residuos de carbohidratos y han sido seleccionados en la evolución para transmitirle a las macromoléculas a las cuales se encuentran unidos, propiedades estructurales y funcionales, razón por la cual la síntesis correcta de los mismos y de sus glicoconjugados son esenciales para el funcionamiento normal. La caracterización molecular y clínica de más de 70 clases diferentes de CDG ha contribuido enormemente a comprender las funciones fisiológicas de los mecanismos de glicosilación y la importancia de los glicoconjugados en la célula. Mutaciones en genes de esta vía metabólica, ocasionan fenotipos multisistémicos con afectación neurológica severa y muerte temprana. Incluso algunos CDG tienen probabilidad de malignización por ej. osteocondromatosis múltiple (EXT1/EXT2-CDG). Respecto a las estrategias para el diagnóstico de CDG, debido a la gran heterogeneidad fenotípica de estos pacientes, hemos debido implementar el diagnóstico de los trastornos genéticos de N-glicosilación, basado en los cambios bioquímicos y estructurales que se expresan en las glicoproteínas anómalas, demostrados por diferentes metodologías. Existen técnicas de gran sensibilidad utilizadas para la búsqueda de pacientes CDG como electroforesis capilar, ionización por electrospray-espectrometría de masa y cromatografía líquida de alta resolución (HPLC), sin embargo, el isoelectroenfocado (IEF) es la metodología mayormente utilizada para su diagnóstico.

Effects of Ischemic Postconditioning on the Hemodynamic Parameters and Heart Nitric Oxide Levels of Hypothyroid Rats

Background: Ischemic postconditioning (IPost) is a method of protecting the heart against ischemia-reperfusion (IR) injury. However, the effectiveness of IPost in cases of ischemic heart disease accompanied by co-morbidities such as hypothyroidism remains unclear. Objective: The aim of this study was to determine the effect of IPost on myocardial IR injury in hypothyroid male rats. Methods: Propylthiouracil in drinking water (500 mg/L) was administered to male rats for 21 days to induce hypothyroidism. The hearts from control and hypothyroid rats were perfused in a Langendorff apparatus and exposed to 30 min of global ischemia, followed by 120 min of reperfusion. IPost was induced immediately following ischemia. Results: Hypothyroidism and IPost significantly improved the left ventricular developed pressure (LVDP) and peak rates of positive and negative changes in left ventricular pressure (±dp/dt) during reperfusion in control rats (p < 0.05). However, IPost had no add-on effect on the recovery of LVDP and ±dp/dt in hypothyroid rats. Furthermore, hypothyroidism significantly decreased the basal NO metabolite (NOx) levels of the serum (72.5 ± 4.2 vs. 102.8 ± 3.7 μmol/L; p < 0.05) and heart (7.9 ± 1.6 vs. 18.8 ± 3.2 μmol/L; p < 0.05). Heart NOx concentration in the hypothyroid groups did not change after IR and IPost, whereas these were significantly (p < 0.05) higher and lower after IR and IPost, respectively, in the control groups. Conclusion: Hypothyroidism protects the heart from IR injury, which may be due to a decrease in basal nitric oxide (NO) levels in the serum and heart and a decrease in NO after IR. IPost did not decrease the NO level and did not provide further cardioprotection in the hypothyroid group.

Comportamento do Heterocromossômio em alguns Ortópteros do Brasil

In the present paper the behavior of the heterochromoso-mes in the course of the meiotic divisions of the spermatocytes in 15 species of Orthoptera belonging to 6 different families was studied. The species treated and their respective chromosome numbers were: Phaneropteridae: Anaulacomera sp. - 1 - 2n = 30 + X, n +15+ X and 15. Anaulacomera sp. - 2 - 2n - 30 + X, n = 15+ X and 15. Stilpnochlora marginella - 2n = 30 + X, n = 15= X and 15. Scudderia sp. - 2n = 30 + X, n = 15+ X and 15. Posldippus citrifolius - 2n = 24 + X, n = 12+X and 12. Acrididae: Osmilia violacea - 2n = 22+X, n = 11 + X and 11. Tropinotus discoideus - 2n = 22+ X, n = 11 + X and 11. Leptysma dorsalis - 2n = 22 + X, n = 11-J-X and 11. Orphulella punctata - 2n = 22-f X, n = 11 + X and 11. Conocephalidae: Conocephalus sp. - 2n = 32 + X, n = 16 + X and 16. Proscopiidae: Cephalocoema zilkari - 2n = 16 + X, n = 8+ X and 8. Tetanorhynchus mendesi - 2n = 16 + X, n = 8+X and 8. Gryliidae: Gryllus assimilis - 2n = 28 + X, n = 14+X and 14. Gryllodes sp. - 2n = 20 + X, n = 10- + and 10. Phalangopsitidae: Endecous cavernicola - 2n = 18 +X, n = 94-X and 9. It was pointed out by the present writer that in the Orthoptera similarly to what he observed in the Hemiptera the heterochromosome in the heterocinetic division shows in the same individual indifferently precession, synchronism or succession. This lack of specificity is therefore pointed here as constituting the rule and not the exception as formerly beleaved by the students of this problem, since it occurs in all the species referred to in the present paper and probably also m those hitherto investigated. The variability in the behavior of the heterochromosome which can have any position with regard to the autosomes even in the same follicle is attributed to the fact that being rather a stationary body it retains in anaphase the place it had in metaphase. When this place is in the equator of the cell the heterochromosome will be left behind as soon as anaphase begins (succession). When, on the contrary, laying out of this plane as generally happens (precession) it will sooner be reached (synchronism) or passed by the autosomes (succession). Due to the less kinetic activity of the heterochromosome it does not orient itself at metaphase remaining where it stands with the kinetochore looking indifferently to any direction. At the end of anaphase and sometimes earlier the heterochromosome begins to show mitotic activities revealed by the division of its body. Then, responding to the influence of the nearer pole it moves to it being enclosed with the autosomes in the nucleus formed there. The position of the heterochromosome in the cell is explained in the following manner: It is well known that the heterochromosome of the Orthoptera is always at the periphery of the nucleus, just beneath the nuclear membrane. This position may be any in regard of the axis of the dividing cell, so that if one of the poles of the spindle comes to coincide with it, the heterochromosome will appear at this pole in the metaphasic figures. If, on the other hand, the angle formed by the axis of the spindle with the ray reaching the heterochromosome increases the latter will appear in planes farther and farther apart from the nearer pole until it finishes by being in the equatorial plane. In this way it is not difficult to understand precession, synchronism or succession. In the species in which the heterochromosome is very large as it generally happens in the Phaneropteridae, the positions corresponding to precession are much more frequent. This is due to the fact that the probabilities for the heterochromosome taking an intermediary position between the equator and the poles at the time the spindle is set up are much greater than otherwise. Moreover, standing always outside the spindle area it searches for a place exactly where this area is larger, that is, in the vicinity of the poles. If it comes to enter the spindle area, what has very little probability, it would be, in virtue of its size, propelled toward the pole by the nearing anaphasic plate. The cases of succession are justly those in which the heterochromosome taking a position parallelly to the spindle axis it can adjust its large body also in the equator or in its proximity. In the species provided with small heterochromosome (Gryllidae, Conocephalidae, Acrididae) succession is found much more frequently because here as in the Hemiptera (PIZA 1945) the heterochromosome can equally take equatorial or subequatorial positions, and, furthermore, when in the spindle area it does offer no sereous obstacle to the passage of the autosomes. The position of the heterochromosome at the periphery of the nucleus at different stages may be as I suppose, at least in part a question of density. The less colourability and the surface irregularities characteristic of this element may well correspond to a less degree of condensation which may influence passive movements. In one of the species studied here (Anaulacomera sp.- 1) included in the Phaneropteridae it was observed that the plasmosome is left motionless in the spindle as the autosomes move toward the poles. It passes to one of the secondary spermatocytes being not included in its nucleus. In the second division it again passes to one of the cells being cast off when the spermatid is being transformed into spermatozoon. Thus it is regularly found among the tails of the spermatozoa in different stages of development. In the opinion of the present writer, at least in some cases, corpuscles described as Golgi body's remanents are nothing more than discarded plasmosomes.

A new species of Stratiodrilus (Polychaeta, Histriobdellidae) from freshwater crayfishes of southern Brazil

A new species of polychaete, Stratiodrilus vilae, epizoic on Parastacus brasiliensis (von Martens, 1869) and P. defossus Faxon, 1898, is described from the State of Rio Grande do Sul, southern Brazil. The new species has one pair of long, anal, conical ventral lobes, one on each side of the anus, claspers in the males, and one pair of tubercles in each of the posterior locomotor appendages; and the jaw apparatus not reaching the limit between the head and the first segment.

Ultra-estrutura de glândulas abdominais tegumentares em Oxaea flavescens (Hymenoptera, Andrenidae, Oxaeinae)

The sternal glands of the abdomen of Oxaea flavescens (Klug, 1807) consist of class III glandular cells around a reservoir constituted by branched folds of the intersegmental membrane of segments III, IV and V. The gland cells are rich in rough endoplasmic reticulum and produce a secretion with mucous aspect. The treatment with oxidated osmium and ruthenium red showed numerous Golgi regions in the cell and carbohydrates absorption from the haemolymph, respectively. The high degree of development of the glands suggests an important function to the species, although still unknown.

Morphological characterization and sex-related differences of the mandible of the armadillos Chaetophractus vellerosus and Zaedyus pichiy (Xenarthra, Dasypodidae), with consideration of dietary aspects

The morphological characteristics of the mandible of adult Chaetophractus vellerosus (Gray, 1865) and Zaedyus pichiy (Desmarest, 1804) were studied to establish its generalized design and to identify inter- and intra- (sexual) specific differences. Morphological descriptions were complemented with the application of univariate and multivariate (analysis of correlation matrices, PCA, discriminant analysis) techniques. The mandible of both species is very similar, and is characterized by elevated condyle, well developed angular process, distinct coronoid process, tooth row which extends to the rear end of the angle between body and ramus, and unfused but firm symphysis. Although both armadillos are omnivorous, a more slender configuration of the jaw in Z. pichiy could be indicative of a better adaptation of its masticatory apparatus to insectivory. The PCA showed an almost total segregation of both species on PC1 (47.7% of the total variance), with C. vellerosus being associated to mandibles taller and with wider body and ramus. Zaedyus pichiy was characterized by heavy loadings of length parameters on PC2 (22.6% of the variance). A small degree of sexual dimorphism was found, with size-based differences in C. vellerosus (larger mandibles in females) and shape-based differences in Z. pichiy (taller mandibles in males, longer ones in females). Correlations between variables were higher in males of both species, indicating a more stable shape of the mandible than in females. The selected parameters to discriminate sexes were the body length of the mandible in C. vellerosus (correct classification: ca. 86% in males, 81% in females), and the height of the mandible at the level of the last tooth in Z. pichiy (near 85% of right assignment in both sexes). The inclusion of a new variable (body length) in the latter species improved the classification of the females to 100%. Teeth are typically 10 in C. vellerosus and 9 in Z. pichiy, but aberrancies in this basic number, such as unilateral or bilateral extra or fewer teeth, are common.

Osteological alterations in the tucuxi Sotalia fluviatilis (cetacea, delphinidae)

We present a description of osteological alterations observed in the tucuxi, Sotalia fluviatilis (Gervais, 1853) from a sample of 43 specimens. Fractures were the most frequent alterations in the sample (16%), occurring in various regions of the skeleton such as the ribs, hyoid apparatus, transverse and neural processes of vertebrae and scapula. We observed three individuals with ankylosis between the cervical vertebrae and two individuals with morphological changes (cranio-caudally elongated hemal arch and flattened cranial margin of the scapula). The only observed pathology was a case of osteomyelitis in the left dentary, which caused the loss of teeth, deformation of the associated alveoli and the formation of a medial fistula (lingual) for drainage of purulent material. This represents the first record of osteomyelitis in S. fluviatilis.

Um chronographo de construção simples, permittindo registrar intervallos de tempo de 1 a 60 segundos

Descriptive memorial of a chronograph made from a common chronoscop (Eastman Timer). The chronoscop has been modified in order to permit to adjust distinct cog-wheels, everyone in its turn, to the axis of the seconds hand. Each of these cog-wheels holds a definite number of teeth accordingly with the time interval ones desire to record. A wheel with 20 teeth, for instance, is available for recording time in periods of each three seconds, another wheel with 6 teeth, will reckon time in intervals of 10 seconds and so on. These wheels may be interchanged most easily, which enables, with the same apparatus, to have at hand a time recorder for any time interval between one and sixty seconds. To register the time the apparatus is connected with a dry cell. A wire is attached to a binding post on the metal case of the apparatus, another wire being connected with an isolated binding post placed in front of the cog-wheel and fastened to a platinum point allowing open or shut the circuit, every time one of the cogs of the wheel comes into contact with this platinum point. A signal magnet is placed also in the circuit for writing the time intervals on the revolving drum.

Reticulo-endotheliomatose maligna

A spindle-cell sarcoma (fig. 5) apparently originating from the dura (fig. 4) was found at the autopsy of a male, mulato, 17 years of age. The bones of the skull (occipital and both parietals) were penetrated and destroyed (fig. 1 and 2). The nervous tissue was not penetrated, the only change in the brain being a depressed area where the tumor was included. Metastatic nodules were found in the liver (fig. 3),hepatic lymphnodes (fig. 14), spleen (fig. 12) and suprarenal bodies (fig. 15). The structure, however, in all those different locations was that of a typical endothelioma (figs. 8, 11 and 13). The cells are of large and moderate size, of polyhedral form, with vesicular nuclei, diminutive nucleoli and clear cytoplasm. (Figs. 6 and 8). They are arranged about a central lumen which represents a rudimentary vessel (figs. 9 and 13). Other areas are composed of cells without concentric arrangement (figs. 4 and 10). In small areas, the colums of liver cells are marginated in one side by typical sinusoids, while in the other side tumor cells arranged about a narrow lumen are seen suggesting a pathological (neoplastic) sinusoid (figs. 7 and 9). The case is considered as a multiple diffuse endothelioma. The origin of the tumor is referred to the reticulo-endothelial apparatus of the liver, the spleen, the suprarenal bodies and the lymph nodes, the structure being rather uniform in those organs. In the dura, the endothelioma reproduces the structure and presents the general character of a fibroblastic sarcoma; in some places, however, the structure of endothelioma could be found (fig.6). It corresponds to the reticulo-endotheliomatosis maligna according to Puhr's grouping of progressive changes in the reticulo-endothelial apparatus which is a follows: 1. HYPERPLASTIC - 1. Mnnocytic leukemia. 2. a) Aleukemic reticulosis (Goldschmid and Isaac). b) Idiopathic sarcoma of skin (Kaposi). c) Cutaneous sarcoid (Spiegler). 3. Secretory reticulosis. a) Gaucher's disease. b) Generalized xanthomatosis. c) Spleno-hepatomegaly with lipoidic cells (Pick). II. BLASTOMATOSUS OR NEOPLASTIC - 1. Benign - a) Circumscribed tumors. a) Epulis sarcomatosa; b) Benign giant-cells sarcoma of the bone - marrow of long bones. b) Generalized brown tumors of osteitis fibrosa. 2. Malignant - a) Circumscribed haemangio - endothelioma (reticulo- endothelioma (maligum). of {liver, spleen, bone-marrow. b) Generalized haemangio-endotheliomatosis (reticulo-endotheliomatosis maligna) (Grabowski).

Estudos anatômicos e histológicos sôbre a subfamília Triatominae (Heteroptera, Reduviidae): X. parte: Espermiohistogênese do Triatoma infestans

No trabalho apresentado, descrevemos a evolução do espérmio maduro de triatoma infestans, iniciando-se a observação das transformações a partir dos espermídeos. Destacamos, em seguida, os principais resultados: 1. A histogênese dos espérmios é subdividida em 6 fases que se superpõem, parcialmente, a respeito do cronismo dos acontecimentos celulares: a) fase de translações (translações dos centríolos, mitocôndrios e do aparelho de GoLGI do pólo apical o pòlo basal da célula). b) Alongamento dos centríolos (formação do filamento axial). c) Alongamento da massa mitocondrial (formação dos fios periféricos). d) Formação do acrosoma (divisão do aparelho de GOLGI em acrosoma e corpo restante, que é eliminado da célula; além disto, translação do acrosoma para o pólo apical). e) Primeira fase de alongamento do núcleo (alongamento do núcleo e condensação da cromatina). f) Segunda fase de alongamento do núcleo (alongamento definitivo do núcleo para formar a cabeça do espérmio). 2. Os centríolos, em Triatoma infestans, podem ser observados, contînuamente, dos estádios da profase (estádio dos cromosomas difusos) até o fim da formação do espérmio. Para esta observação precisamos de cortes finos com, aproximadamente, um micron de espessura. 3. Os centríolos, depois da última divisão de maturação, ficam escondidos no interior do corpo dos restos dos fusos. 4. Não se pode distinguir o centríolo distal do proximal. os dois justapõem-se, um ao lado do outro, sôbre a parede do núcleo. 5. O fio axial tem origem dos dois centríolos, sendo êste um fio duplo. 6. Observamos a transformação dos mitocôndrios em microfibrilas da cauda bem como a de uma parte do aparelho de GOLGI em acrosoma. 7. Depois da condensação da cromatina sôbre a parede do núcleo, formam-se duas saliências longitudinais cromáticas, que são orientadas em espiral com torsão em sentido inverso do relógio. Por isso, o corte transversal do núcleo, fortemente alongado, tem o aspecto de ferradura. 8. O espérmio maduro é composto pelos seguintes elementos, cuja existência é provada, no microscópio eletrônico, por intermédio de cortes e dilacerações: a) Acrosoma (em forma de um cone, ligeiramente curvado). b) Núcleo, formado a "cabeça" do espérmio, sem qualquer estrutura vísivel no seu interior. c) Cone basal do núcleo, formado pelos centríolos. d) Fio axial, composto de duas microfibrilas dos centríolos. e) Oito fios longitudinais mitocondriais, unidos em dois grupos (corpos em forma de vírgula), e incluídos em uma massa homogênea. Cada um dos corpos em forma de vírgula...

Corythaica cyathicollis (Costa, 1864), aspectos sistemáticos, biológicos e econômicos (Hemiptera, Tingidae)

The present work deals with the systematic, biological and economic problems related to Corythaica cyathicollis (Costa, 1864) (Hemip., Tingidae). In the first part are presented the generic characteristics of Corythaica and is discussed the status of the specific name. The validity of C. cyathicollis, as stated by DRAKE and his collaborators, was denied by MONTE in his last works, he considered the species as C. passiflorae. Even in the modern literature no agreement has been achieved and three names are still used (cyathicollis, passiflorae and planaris) to designate the same insect. In order to resolve definitively this problem, a Neotype is designed to fill the place of the missing type of C. cyathicollis. Also in the first parte is discussed the taxonomic value of both male and female genitalia. The whole male copulator apparatus is studied and are illustrated the genital capsules of 8 species of this genus. Special mention is made of the shape of the basal plates and the proportions of the segmental membrana. The female genitalia is studied based upon the work of FELDMAN & BAILEY (1952). In the second part the biological cycle of C. cyathicollis is carefully studied. Descriptions of the egg are done and the ways of oviposition. The number of eggs laid by the female was observed to be about 350, during a period of more than 45 days. The eclosion of the neanide I is illustrated in some of its phases and the 5 larval instars are described and illustrated. Ending this part are included the lists of parasites and predators observed as well as the plant hosts. The actual geographical distribution is presented, based chiefly on HURD (1945). The economic problems concerning this species are reported in the third part of the work, and the ways of control are discussed. An experiment was carried out involving 4 insecticides: Malathion and Parathion, commonly used against this "lace bug"; Toxaphene and Dimethoate (American Cyanamid 12.880), the last one is an insecticide recently introduced in Brazil and was not previously used for these purposes, but gave the best results and it is quite able to control these insects even on crops showing highly developed infestations.

Ueber den begriff "Kinoplasma" in der spermiogenese von Australorbis Glabratus Olivaceus (Mollusca, Pulmonata, Planorbidae)

Zur Klaerung der Frage, ob der Begriff "Kinoplasma" fuer gewisse, von MERTON (1924,1926, 1930) beobachtete Bildungen an den reifenden Spermiden von pulmonaten Mollusken oder fuer Bestandteile des Cytoplasmas im Sinne von STRASBURGER und SCARTH zu verwenden ist, werden in der vorliegenden Mitteilung die Vorgaenge bei der Spermiohistogenese von Australorbis glabratus olivaceus untersucht. Es ergibt sich: 1. Das von MERTON bezeichnete "Kinoplasma" existiert nicht als solches, es handelt sich bei den von ihm dargestellten Protoplasmabildungen um kugelige, von den Spermiden abgeschnuerte Restkoerper nicht verwendeten Baumaterials, bestehend aus Protoplasma und einigen Mitochondrien. Sie werden von den Naehr- oder Bazalzellen phagozytiert. Der Ausdruck "Kinoplasma" kann nur fuer die submikroskopischen, geformten, faedigen Elemente des Cytoplasmas reserviert bleiben, die den geradlinigen Fall der uebrigen nicht geformten Komponenten bremst oder ablenkt; damit muss das Kinoplasma aber aus dem Begriff des Cytoplasmas herausgenommen werden, da es, wenn auch vermutlich reversibel, eine Differenzierung darstellt. 2. Der Spermienfaden wird von den Centriolen (Axialfilament) und den Mitochondrien (zwei peripher gelegene Spiralfilamente), sowie einem Plasmamantel gebildet. 3. Nach Beendigung des Auswachsens der Spermiengeissel, die zu diesem Zeitpunkt nur aus dem Achsenfaden und dem Protoplasmazylinder besteht, setzt sich eine Protoplasmamasse vom Kopf in Richtung zum Geisselende in Bewegung. Sie fuehrt den Golgi-Koerper und sehr viele Mitochondrien mit sich. Aus diesen entwickeln sich Fibrillen, die sich zu den beiden Spiralfilamenten zusammenfuegen. Diese Masse entspricht der von MERTON in seiner Theorie als Kinoplasma bezeichneten Komponente. 4. Die Bewegung dieses Protoplasmateils wird auf den Schub zurueckgefuehrt, den die sich bildenden Fibrillen auf die Mitochondrien ausueben. 5. Die Rueckwaertsbewegung dieses Protoplasmakoerpers beruht wahrscheinlich auf Elastizitaet und Kontraktilitaet des Plasmalemmas. 6. Das zum Kopf zurueckgekehrte Protoplasma wird mit restlichen Mitochondrien als Kugel ausgeschieden und von den Naehrzellen phagocytiert. 7. Der Golgi-Koerper wird vor Beendigung der Protoplasmawanderung bereits in der letzten Haelfte der Geissel eliminiert.