Sui-Foh Yu scite author profile

Sui-Foh Yu

4Publications

44Citation Statements Received

0Citation Statements Given

How they've been cited

113

How they cite others

141

Affiliations

University of Maryland, Baltimore, University of Pennsylvania, Rutgers, The State University of New Jersey

Publications

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Cortical granule exocytosis and cell surface reorganization in eggs of Brachydanio

Hart

1980

J. Exp. Zool.

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Cortical granules in the mature, unfertilized egg of the zebra danio (Brachydanio rerio) are spherical, membrane-bound organelles measuring 3 to 22 pm in diameter and arranged in irregular rows beneath the plasma membrane. ' h o types of cortical granules are identified in thin sections viewed under the transmission electron microscope: "dark" type (electron-dense core) and "light" type (electron-lucent core). Cytochemically, glycoproteins and acid mucopolysaccharides are constituents of the cortical granules. Differences in staining reactions with Alcian blue and toluidine blue solutions also reveal the presence of two types of cortical granules in the danio egg. The "dark" type of cortical granule stains strongly with both dyes and shows a single, central core surrounded by a zone of lighter, particulate material. The "light" type of cortical granule stains faintly with both dyes. Differences in staining responses are not related to the size of the cortical granules.Analysis of the cortical granule reaction in inseminated eggs by light microscopy reveals that breakdown and discharge of cortical granules begin after 30 seconds postactivation. Since the chorion is lifted away from the egg surface by this time, the initial elevation of this membrane occurs independently of the onset of cortical granule exocytosis. The breakdown and discharge of cortical granules is a prominent feature of egg surface activity between 1 and 3 minutes postactivation. The cortical granule reaction is completed by 5 to 6 minutes postactivation.Scanning electron microscopy has provided an unusual opportunity to observe in detail cortical granule exocytosis and the reorganization of the egg surface during the cortical reaction. Cortical granule exocytosis consists of the following sequence of morphological stages: elevation of the cortical granule above the egg surface, rupture of the membrane covering the cortical granule, and discharge of central and peripheral constituents of the cortical granule into the perivitelline space. Rupture of the cortical granule follows contact and fusion between perigranular and egg plasma membranes and is effected through the coalescence of fissures that appear in the egg surface between the equator and the top of the elevated granule.Our SEM and TEM findings suggest strongly that the mosaic surface formed upon cortical granule exocytosis is temporary and that perigranular membranes have limited residence in the egg surface. Morphological evidence presented here is consistent with the view that the zebra danio egg accommodates the excessive membrane introduced into its surface during the cortical reaction by endocytosis. It is proposed that perigranular membrane is retrieved continuously after Correspondence should be addressed to Nathan H. Hart. exocytosis but is visible morphologically as a two-step process. First, perigranular membrane is removed from the egg surface into the cortical cytoplasm in the form of vesicles (0.5-1.5 p m in diameter) pinched-off from the base of the cortical crypt. ...

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Observations on the cortical reaction in eggs of Brachydanio rerio as seen with the scanning electron microscope

Hart¹,

Yu²,

Greenhut³

1977

J. Exp. Zool.

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of time a f t e r activation, dechorionated, and prepared by standard techniques f o r viewing under the scanning electron microscope (SEM). surfaces of eggs fixed two t o four minutes a f t e r activation show a l l stages in the activation and extrusion of the cortical granules. A t l e a s t four morphologically d i s t i n c t and temporally sequential stages f o r the cortical granule reaction a r e observed w i t h the SEM. These include the elevation of the cortical granuleabove the egg surface, the extrusion of the contents o f the cortical granule, the transient participation of the limiting membrane o f the cortical granule i n egg surface membrane formation, and replacement of t h e granule limiting membrane by the egg plasma membrane. i s t h e retrieval of the cortical granule membrane. Ripe eggs of Brachydanio r e r i o were fixed a t selected intervalsThe W e propose t h a t a consequence of egg activation Cortical granulesarespecialized secretory organelles found in the cortical cytoplasm of mature unfertilized eggs (Austin, '68; Schuel e t a l . , '73). In eggs of most animal species, contact w i t h the sperm or the surrounding medium r e s u l t s i n the breakdown of the cortical granules (Austin, '68). released by the cortical granules i n sea urchins have been implicated in v i t e l l ine layer elevation and the block t o polyspermy (Carroll and Epel , '75).

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Gender Differences in Locomotor and Stereotypic Behavior Associated With l-Carnitine Treatment in Mice

et al. 2011

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Polyspermic mouse eggs can dispose of supernumerary sperm

Wolf

1981

Developmental Biology

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Sui-Foh Yu

Cortical granule exocytosis and cell surface reorganization in eggs of Brachydanio

Observations on the cortical reaction in eggs of Brachydanio rerio as seen with the scanning electron microscope

Gender Differences in Locomotor and Stereotypic Behavior Associated With l-Carnitine Treatment in Mice

Polyspermic mouse eggs can dispose of supernumerary sperm

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