The early blastocyst is bilaterally symmetrical and its axis of symmetry is aligned with the animal-vegetal axis of the zygote in the mouse

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JOURNAL ARTICLES

The early blastocyst is bilaterally symmetrical and its axis of symmetry is aligned with the animal-vegetal axis of the zygote in the mouse

RL Gardner
Department of Zoology, University of Oxford, UK.

At least one polar body, almost invariably the second, persists intact to the early blastocyst stage in nearly two-thirds of mouse conceptuses of the PO strain. The distribution in early blastocysts of these surviving polar bodies was highly non-random. Most not only lay in the mid-region of the embryonic-abembryonic axis but, on discovering that early blastocysts are bilaterally rather than radially symmetrical about this axis, were found to align with the bilateral axis. Cell marking experiments failed to detect movement of polar bodies relative to the surface of the conceptus during either cleavage or blastulation. That the distribution of degenerating polar bodies and their presumed debris was similar to intact ones also argued against their motility, as did the finding that at all stages second polar bodies were attached to conceptuses by a thin, extensible, weakly elastic 'tether'. Although the transfer of small fluorochromes between them was rarely observed beyond second cleavage, the second polar body and conceptus could remain coupled ionically up to the blastocyst stage. It is concluded that the second polar body normally remains attached to the conceptus through persistence of the intercellular bridge formed during its abstriction, and therefore provides an enduring marker of the animal pole of the zygote. Hence, according to the distribution of polar bodies, the axis of bilateral symmetry of the early blastocysts is normally aligned with the animal-vegetal axis of the zygote and its embryonic-abembryonic axis is orthogonal to it. Such relationships suggest that, at least in undisturbed development, specification of the axes of the blastocyst depends on spatial patterning of the zygote.

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				C. Garello, H. Baker, J. Rai, S. Montgomery, P. Wilson, C.R. Kennedy, and G.M. Hartshorne Pronuclear orientation, polar body placement, and embryo quality after intracytoplasmic sperm injection and in-vitro fertilization: further evidence for polarity in human oocytes? Hum. Reprod., October 1, 1999; 14(10): 2588 - 2595. [Abstract] [Full Text] [PDF]

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				M. Antczak and J. Van Blerkom Temporal and spatial aspects of fragmentation in early human embryos: possible effects on developmental competence and association with the differential elimination of regulatory proteins from polarized domains Hum. Reprod., February 1, 1999; 14(2): 429 - 447. [Abstract] [Full Text] [PDF]

				R. Weber, R. Pedersen, F Wianny, M. Evans, and M Zernicka-Goetz Polarity of the mouse embryo is anticipated before implantation Development, January 12, 1999; 126(24): 5591 - 5598. [Abstract] [PDF]

				R.G. Edwards and H. K. Beard Is the success of human IVF more a matter of genetics and evolution than growing blastocysts? Hum. Reprod., January 1, 1999; 14(1): 1 - 6. [Full Text] [PDF]

				M Zernicka-Goetz Fertile offspring derived from mammalian eggs lacking either animal or vegetal poles Development, January 12, 1998; 125(23): 4803 - 4808. [Abstract] [PDF]

				P. Thomas, A Brown, and R. Beddington Hex: a homeobox gene revealing peri-implantation asymmetry in the mouse embryo and an early transient marker of endothelial cell precursors Development, January 1, 1998; 125(1): 85 - 94. [Abstract] [PDF]