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Postnatal development of the telencephalon of the tammar wallaby (Macropus eugenii) (1985)

Reynolds, M. L. ; Cavanagh, M. E. ; Dziegielewska, K. M. ; [et al.]

Springer

Anatomy and embryology 173 (1985), S. 81-94

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ISSN: 1432-0568

Keywords: Tammar wallaby ; Brain development ; Neocortex ; Histology ; Autoradiography

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The sequence of development of cell layers in the neocortex of the tammar has been followed from 24 days gestation to 213 days postnatal. The tammar is born at 27 days gestation and the major period of its development occurs during the subsequent 250 days, most of this time being spent within the pouch. Although the pattern of differentiation of the cell layers appears to resemble that described for many Eutherian mammals, the neocortex is at an embryonic 2 layered stage at birth and a cortical plate is not present throughout the telencephalon until 10–15 days postnatal. A transient subplate zone, presenting a characteristic appearance with widely spaced rows of cells aligned parallel to the cortical surface, develops between 20 and 70 days postnatal, but no secondary proliferative region is seen in the subventricular zone of the dorso-lateral wall. Preliminary experiments with (3H)-thymidine injections indicate that the cortical plate follows the “inside-out” pattern of development described in many Eutherian mammals and that the oldest neurons are found in the parallel cell rows of the subplate zone. The importance of the late differentiation of the neocortex in relation to the time of birth and the resulting usefulness of the tammar as an experimental model of cortical development is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00707306

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Re-ingestion in Lepus capensis L. and Ochotona roylei Ogilby (1959)

TYNDALE-BISCOE, C. H.

[s.l.] : Nature Publishing Group

Nature 183 (1959), S. 471-472

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ISSN: 1476-4687

Source: Nature Archives 1869 - 2009

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Notes: [Auszug] Re-ingestion, following a similar rhythm, has since been observed in Lepus europaeus*, L. californicus7, L. townsendii, L. americanus and Sylvilagus transition-alis*, and evidence has been reported of re-ingestion in S. palustris9 and S. floridanus10. The present communication reports the ...

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1038/183471b0

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The growth of the oocyte and follicle in the ovaries of monotremes and marsupials (1976)

Lintern-Moore, Sue ; Moore, G. P. M. ; Tyndale-Biscoe, C. H. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

The @Anatomical Record 185 (1976), S. 325-331

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ISSN: 0003-276X

Keywords: Life and Medical Sciences ; Cell & Developmental Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: Oocyte growth in relation to follicular growth in marsupials conforms to the uniform biphasic pattern characteristic of eutherian mammals. However, the oocyte of the marsupial is larger and completes growth in a correspondingly larger follicle. At the completion of oocyte growth the follicle, like that of eutherians, shows no appreciable accumulation of follicular fluid. The ratio of oocyte/follicular diameter in marsupials at this stage is 0.59, a value close to that of 0.55 for eutherian mammals. The oocyte nucleus of the marsupial is also significantly larger than that of the eutherian, but the oocyte nucleolus is approximately the same diameter.By contrast, the growth of the oocyte in relation to the follicle in monotremes is linear throughout the whole period of follicular growth. However, like eutherians and marsupials oocyte nuclear and oocyte nucleolar growth are arrested in the early stages of follicular growth. The diameters of the oocyte nucleus and nucleolus at the completion of growth are approximately twice those found in marsupials.It is concluded that the growth patterns of the oocyte nucleus and nucleolus are common to all mammals but that the biphasic pattern of oocyte and follicular growth which is characteristic of eutherian and marsupial ovaries is not found in the monotremes.

Additional Material: 3 Tab.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/ar.1091850306

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Ultrastructure of the epididymis of the tammar, Macropus eugenii, and its relationship to sperm maturation (1984)

Jones, Russell C. ; Hinds, L. A. ; Tyndale-Biscoe, C. H.

Springer

Cell & tissue research 237 (1984), S. 525-535

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ISSN: 1432-0878

Keywords: Epididymis (marsupials) ; Ultrastructure ; Sperm maturation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary The ductus epididymidis of the tammar is lined by an epithelium composed of principal, mitochondria-rich, apical and basal cells, and intraepithelial leucocytes. The epithelium is structurally differentiated into 6 zones referred to as the initial segment, middle segment (3 subdivisions) and terminal segment (2 subdivisions). The occurrence of the initial, middle and terminal segments corresponds quite closely to the anatomical differentiation of the epididymis into a head, body and tail. The initial segment epithelium in the tammar is lower and has shorter and more slender stereocilia than in other mammals which have been described. Otherwise, the structure of the epithelium has similar characteristics in the tammar to that described in other mammals. Spermatozoa begin to develop the capacity for motility within the initial segment, but only show structural signs of maturation in the middle segment. The sperm head rotates through 90 degrees in the proximal subdivision of the middle segment. The cytoplasmic droplet is detached and spermatozoa develop the capacity for motility in the middle subdivision of the middle segment. The cytoplasmic droplets are phagocytosed by the epididymal epithelium of the middle segment. Sperm storage appears to be the main function of the terminal segment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228437

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Embryo implantation and proteinase activities in a marsupial (Macropus eugenii) (1986)

Denker, H. -W. ; Tyndale-Biscoe, C. H.

Springer

Cell & tissue research 246 (1986), S. 279-291

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ISSN: 1432-0878

Keywords: Nidation ; Proteinases ; Cytochemistry ; Trophoblast ; Marsupialia

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine

Notes: Summary Embryo implantation remains superficial (epithelio-chorial type) in most marsupials including the Macropodidae, but does involve formation of specialized contact zones of the trophoblast with the uterine epithelium. Since in eutherian mammals proteinases appear to play a central role in implantation-initiation mechanisms, a systematic histochemical investigation of proteinase patterns as related to implantation was performed in the tammar wallaby, Macropus eugenii (Macropodidae). Tammar uteri with embryos were collected at diapause and at days 7, 17, 18, 19, 20, 21 and 26 of the 27-day gestational period. Proteinase patterns were studied using a sensitive histochemical gelatin-substrate-film test previously optimized for the detection of trophoblast-dependent proteinase (blastolemmase) in the rabbit. Proteinase patterns were correlated with light-microscopical morphology of the processes of shedding of the extracellular embryo coverings (shell membrane) and attachment of the trophoblast to the uterine epithelium. At acid pH values an intracellular proteinase is detected in yolk sac endoderm and trophoblast as well as in endometrial glands and certain stromal cells. This enzyme is proposed to be a cathepsin indicating high catabolic activity connected particularly with protein transport from the endometrium into the yolk sac. Peak activity is found in the avascular (bilaminar) yolk sac at the phase when contact with the endometrium is being established. A particularly interesting proteinase active at alkaline pH values is detected in the trophoblast-endoderm complex. This enzyme appears to be extruded into the interface between trophoblast and uterine epithelium where it shows maximal activity for only approximately one day, around day (18-)19, exclusively in the bilaminar (avascular) yolk sac. The activity is correlated with the process of shedding of the extracellular embryo coverings (shell membrane) and of subsequent attachment of the trophoblast to the uterine epithelium, in the bilaminar but not the trilaminar (vascular) yolk-sac region. This is the first report on an extracellular (alkaline) proteinase activity possibly serving a specific function in embryo implantation in a marsupial.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00215890

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