ZP2 and ZP3 Traffic Independently within Oocytes prior to Assembly into the Extracellular Zona Pellucida

ABSTRACT The extracellular zona pellucida surrounds mammalian eggs and mediates taxon-specific sperm-egg recognition at fertilization. In mice, the zona pellucida is composed of three glycoproteins, but the presence of ZP2 and ZP3 is sufficient to form a biologically functional structure. Each zona pellucida glycoprotein is synthesized in growing oocytes and traffics through the endomembrane system to the cell surface, where it is released from a transmembrane domain and assembled into the insoluble zona pellucida matrix. ZP2 and ZP3 colocalize in the endoplasmic reticulum and in 1- to 5-μm post-Golgi structures comprising multivesicular aggregates (MVA), but a coimmunoprecipitation assay does not detect physical interactions. In addition, ZP2 traffics normally in growing oocytes in the absence of ZP3 or if ZP3 has been mutated to prevent incorporation into the zona pellucida matrix, complementing earlier studies indicating the independence of ZP3 secretion in Zp2 null mice. N glycosylation has been implicated in correct protein folding and intracellular trafficking of secreted proteins. Although ZP3 contain five N-glycans, enhanced green fluorescent protein-tagged ZP3 lacking N glycosylation sites is present in MVA and is incorporated into the zona pellucida matrix of transgenic mice. Thus, ZP2 secretion is seemingly unaffected by ZP3 lacking N-glycans. Taken together, these observations indicate that ZP2 and ZP3 traffic independently through the oocyte prior to assembly into the zona pellucida.

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Conserved Furin Cleavage Site Not Essential for Secretion and Integration of ZP3 into the Extracellular Egg Coat of Transgenic Mice

Molecular and Cellular Biology ◽

10.1128/mcb.22.9.3111-3120.2002 ◽

2002 ◽

Vol 22 (9) ◽

pp. 3111-3120 ◽

Cited By ~ 28

Author(s):

Ming Zhao ◽

Lyn Gold ◽

Ann M. Ginsberg ◽

Li-Fang Liang ◽

Jurrien Dean

Keyword(s):

Transgenic Mice ◽

Zona Pellucida ◽

Fluorescent Protein ◽

Transmembrane Domain ◽

Furin Cleavage ◽

Furin Cleavage Site ◽

Green Fluorescent ◽

Mammalian Eggs ◽

Mouse Eggs

ABSTRACT The extracellular zona pellucida surrounding mammalian eggs is formed by interactions of the ZP1, ZP2, and ZP3 glycoproteins. Female mice lacking ZP2 or ZP3 do not form a stable zona matrix and are sterile. The three zona proteins are synthesized in growing oocytes and secreted prior to incorporation into the zona pellucida. A well-conserved furin site upstream of a transmembrane domain near the carboxyl terminus of each has been implicated in the release of the zona ectodomains from oocytes. However, mutation of the furin site (RNRR → ANAA) does not affect the intracellular trafficking or secretion of an enhanced green fluorescent protein (EGFP)-ZP3 fusion protein in heterologous somatic cells. After transient expression in growing oocytes, normal EGFP-ZP3 and mutant EGFP-ZP3 associate with the inner aspect of the zona pellucida, which is distinct from the plasma membrane. These in vitro results are confirmed in transgenic mice expressing EGFP-ZP3 with or without the mutant furin site. In each case, EGFP-ZP3 is incorporated throughout the width of the zona pellucida and the transgenic mice are fertile. These results indicate that the zona matrix accrues from the inside out and, unexpectedly, suggest that cleavage at the furin site is not required for formation of the extracellular zona pellucida surrounding mouse eggs.

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Enhanced Green Fluorescent Protein (GFP) fluorescence after polyelectrolyte caging

Optics Express ◽

10.1364/oe.14.009815 ◽

2006 ◽

Vol 14 (21) ◽

pp. 9815 ◽

Cited By ~ 5

Author(s):

Alberto Diaspro ◽

Silke Krol ◽

Barbara Campanini ◽

Fabio Cannone ◽

Giuseppe Chirico

Keyword(s):

Green Fluorescent Protein ◽

Enhanced Green Fluorescent Protein ◽

Fluorescent Protein ◽

Gfp Fluorescence ◽

Green Fluorescent

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Development and Characterization of a cDNA-Launch Recombinant Simian Hemorrhagic Fever Virus Expressing Enhanced Green Fluorescent Protein: ORF 2b’ Is Not Required for In Vitro Virus Replication

Viruses ◽

10.3390/v13040632 ◽

2021 ◽

Vol 13 (4) ◽

pp. 632

Author(s):

Yingyun Cai ◽

Shuiqing Yu ◽

Ying Fang ◽

Laura Bollinger ◽

Yanhua Li ◽

...

Keyword(s):

Green Fluorescent Protein ◽

Cell Lines ◽

Enhanced Green Fluorescent Protein ◽

Fluorescent Protein ◽

Infectious Clone ◽

Hemorrhagic Fever ◽

Simian Hemorrhagic Fever Virus ◽

Hemorrhagic Fever Virus ◽

Green Fluorescent

Simian hemorrhagic fever virus (SHFV) causes acute, lethal disease in macaques. We developed a single-plasmid cDNA-launch infectious clone of SHFV (rSHFV) and modified the clone to rescue an enhanced green fluorescent protein-expressing rSHFV-eGFP that can be used for rapid and quantitative detection of infection. SHFV has a narrow cell tropism in vitro, with only the grivet MA-104 cell line and a few other grivet cell lines being susceptible to virion entry and permissive to infection. Using rSHFV-eGFP, we demonstrate that one cricetid rodent cell line and three ape cell lines also fully support SHFV replication, whereas 55 human cell lines, 11 bat cell lines, and three rodent cells do not. Interestingly, some human and other mammalian cell lines apparently resistant to SHFV infection are permissive after transfection with the rSHFV-eGFP cDNA-launch plasmid. To further demonstrate the investigative potential of the infectious clone system, we introduced stop codons into eight viral open reading frames (ORFs). This approach suggested that at least one ORF, ORF 2b’, is dispensable for SHFV in vitro replication. Our proof-of-principle experiments indicated that rSHFV-eGFP is a useful tool for illuminating the understudied molecular biology of SHFV.

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Nuclear and subnuclear targeting sequences of the protein phosphatase-1 regulator NIPP1

Journal of Cell Science ◽

10.1242/jcs.113.21.3761 ◽

2000 ◽

Vol 113 (21) ◽

pp. 3761-3768 ◽

Cited By ~ 5

Author(s):

I. Jagiello ◽

A. Van Eynde ◽

V. Vulsteke ◽

M. Beullens ◽

A. Boudrez ◽

...

Keyword(s):

Active Transport ◽

Protein Phosphatase ◽

Enhanced Green Fluorescent Protein ◽

Fluorescent Protein ◽

Protein Phosphatase 1 ◽

Splicing Factors ◽

Nuclear Speckles ◽

Nuclear Retention ◽

Nuclear Localization Signals ◽

Green Fluorescent

NIPP1 is a nuclear subunit of protein phosphatase-1 (PP1) that colocalizes with pre-mRNA splicing factors in speckles. We report here that the nuclear and subnuclear targeting of NIPP1, when expressed in HeLa cells or COS-1 cells as a fusion protein with the enhanced-green-fluorescent protein (EGFP), are mediated by distinct sequences. While NIPP1-EGFP can cross the nuclear membrane passively, the active transport to the nucleus is mediated by two independent nuclear localization signals in the central domain of NIPP1, which partially overlap with binding site(s) for PP1. Furthermore, the concentration of NIPP1-EGFP in the nuclear speckles requires the ‘ForkHead-Associated’ domain in the N terminus. This domain is also required for the nuclear retention of NIPP1 when active transport is blocked. Our data imply that the nuclear and subnuclear targeting of NIPP1 are controlled independently.

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