OOCYTE DIFFERENTIATION IN THE SEA URCHIN, ARBACIA PUNCTULATA, WITH PARTICULAR REFERENCE TO THE ORIGIN OF CORTICAL GRANULES AND THEIR PARTICIPATION IN THE CORTICAL REACTION

doi:10.1083/jcb.37.2.514

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ARTICLE

OOCYTE DIFFERENTIATION IN THE SEA URCHIN, ARBACIA PUNCTULATA, WITH PARTICULAR REFERENCE TO THE ORIGIN OF CORTICAL GRANULES AND THEIR PARTICIPATION IN THE CORTICAL REACTION

Everett Anderson ¹

¹ From the Department of Zoology, The University of Massachusetts, Amherst, Massachusetts 01002 and The Marine Biological Laboratory, Woods Hole, Massachusetts 02543

This paper presents morphological evidence on the origin ofcortical granules in the oocytes of Arbacia punctulata and otherechinoderms. During oocyte differentiation, those Golgi complexesassociated with the production of cortical granules are composedof numerous saccules with companion vesicles. Each element ofthe Golgi complex contains a rather dense homogeneous substance.The vesicular component of the Golgi complex is thought to bederived from the saccular member by a pinching-off process.The pinched-off vesicles are viewed as containers of the precursor(s)of the cortical granules. In time, they coalesce and form amature cortical granule whose content is bounded by a unit membrane.Thus, it is asserted that the Golgi complex is involved in boththe synthesis and concentration of precursors utilized in theconstruction of the cortical granule. Immediately after theegg is activated by the sperm the primary envelope becomes detachedfrom the oolemma, thereby forming what we have called the activationcalyx (see Discussion). Subsequent to the elaboration of theactivation calyx, the contents of cortical granules are released(cortical reaction) into the perivitelline space. The dischargeof the constituents of a cortical granule is accomplished bythe union of its encompassing unit membrane, in several places,with the oolemma.

Submitted on October 20, 1967
Revised on January 12, 1968

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