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Feedback Regulation of Calcium Concentration01:27

Feedback Regulation of Calcium Concentration

Calcium is an essential signaling molecule required for various cellular functions. Calcium pumps and ion channels on cell and organellar membranes, such as those on the endoplasmic reticulum (ER), regulate calcium concentrations inside the cell. They remain closed, keeping the cytosolic calcium levels low at a resting state.
Various transmembrane receptors, such as G protein-coupled receptors (GPCRs), elicit a response to extracellular signals by increasing cytosolic calcium. Activated GPCRs...
Anaphase Promoting Complex00:50

Anaphase Promoting Complex

The stepwise destruction of specific proteins is necessary for the progression and completion of the cell cycle. Such proteins are ubiquitinated by ubiquitin ligases and then subsequently destroyed by the proteasome. The SCF (Skp1/Cullin/F-box) and the anaphase-promoting complex (APC) are two important ubiquitin ligases involved in cell cycle progression. While SCF is active throughout the cell cycle, APC gets activated during metaphase to anaphase transition. Cdc20 or Cdh1 binds to APC and...
Fertilization01:38

Fertilization

During fertilization, an egg and sperm cell fuse to create a new diploid structure. In humans, the process occurs once the egg has been released from the ovary, and travels into the fallopian tubes. The process requires several key steps: 1) sperm present in the genital tract must locate the egg; 2) once there, sperm need to release enzymes to help them burrow through the protective zona pellucida of the egg; and 3) the membranes of a single sperm cell and egg must fuse, with the sperm...
Regulation of Nuclear Protein Sorting01:45

Regulation of Nuclear Protein Sorting

Nuclear protein sorting regulates nucleus composition and gene expression, crucial for determining the fate of a eukaryotic cell. Hence, the entry and exit of molecules across the nuclear envelope is a tightly controlled process. Nuclear protein sorting can be inhibited by one of the following ways: 1) masking cargo signal sequences, 2) modifying the nuclear receptor's affinity for cargo, 3) controlling the nuclear pore size, 4) retaining the cargo during its transit to the cytosol or the...
Negative Regulator Molecules01:23

Negative Regulator Molecules

Positive regulators allow a cell to advance through cell cycle checkpoints. Negative regulators have an equally important role as they terminate a cell’s progression through the cell cycle—or pause it—until the cell meets specific criteria.
Regulated Protein Degradation02:58

Regulated Protein Degradation

It is vital to regulate the activity of enzymatic as well as non-enzymatic proteins inside the cell. This can be achieved either through creating a balance between their rate of synthesis and degradation or regulating the intrinsic activity of the protein. Both these regulation mechanisms play an essential role in the normal functioning of cells.
Protein degradation plays two important roles in the cells. It helps to protect cells from misfolded or damaged proteins before they lead to a...

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Related Experiment Video

Updated: Jul 3, 2026

Medium-throughput Screening Assays for Assessment of Effects on Ca2+-Signaling and Acrosome Reaction in Human Sperm
05:44

Medium-throughput Screening Assays for Assessment of Effects on Ca2+-Signaling and Acrosome Reaction in Human Sperm

Published on: March 1, 2019

Regulating the acrosome reaction.

Harvey M Florman1, Melissa K Jungnickel, Keith A Sutton

  • 1Department of Cell Biology, University of Massachusetts Medical School, Worcester, MA 01655, USA. harvey.florman@umassmed.edu

The International Journal of Developmental Biology
|July 24, 2008
PubMed
Summary
This summary is machine-generated.

The acrosome reaction, essential for sperm-egg fusion, is triggered by egg pellucida glycoprotein ZP3. This glycoprotein initiates calcium influx into sperm, a crucial step for successful fertilization.

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Fluorimetric Techniques for the Assessment of Sperm Membranes

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Related Experiment Videos

Last Updated: Jul 3, 2026

Medium-throughput Screening Assays for Assessment of Effects on Ca2+-Signaling and Acrosome Reaction in Human Sperm
05:44

Medium-throughput Screening Assays for Assessment of Effects on Ca2+-Signaling and Acrosome Reaction in Human Sperm

Published on: March 1, 2019

Real-Time Imaging of Acrosomal Calcium Dynamics and Exocytosis in Live Mouse Sperm
05:04

Real-Time Imaging of Acrosomal Calcium Dynamics and Exocytosis in Live Mouse Sperm

Published on: October 13, 2023

Fluorimetric Techniques for the Assessment of Sperm Membranes
08:58

Fluorimetric Techniques for the Assessment of Sperm Membranes

Published on: November 28, 2018

Area of Science:

  • Reproductive biology
  • Cellular signaling
  • Molecular mechanisms of fertilization

Background:

  • The acrosome reaction is a critical prerequisite for mammalian fertilization, enabling sperm to penetrate the egg.
  • This exocytosis event in sperm is initiated upon interaction with the egg's outer layer, the zona pellucida.
  • Specific components of the zona pellucida, like ZP3, are known triggers for this process.

Purpose of the Study:

  • To elucidate the mechanism by which ZP3 induces calcium influx in sperm.
  • To explore the upstream signaling events that precede ZP3-mediated calcium entry.
  • To understand the downstream pathways linking calcium influx to the acrosome reaction.

Main Methods:

  • This study discusses the known mechanisms of ZP3-induced sperm signaling.
  • It reviews upstream events leading to gamete contact and ZP3 interaction.
  • The discussion covers downstream signaling cascades coupling calcium influx to exocytosis.

Main Results:

  • ZP3 binding to sperm receptors triggers a sustained influx of extracellular calcium (Ca2+).
  • This calcium influx is essential for the subsequent exocytotic event of the acrosome reaction.
  • The study outlines the signaling cascade from ZP3 recognition to calcium mobilization.

Conclusions:

  • ZP3 is a key initiator of the acrosome reaction by mediating calcium influx.
  • Understanding this mechanism provides insights into sperm-egg interaction and fertilization.
  • Further research can target these pathways for potential applications in reproductive medicine.