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Phosphorylation01:02

Phosphorylation

44.8K
The addition or removal of phosphate groups from proteins is the most common chemical modification that regulates cellular processes. These modifications can affect the structure, activity, stability, and localization of proteins within cells as well as their interactions with other proteins.
During phosphorylation, protein kinases transfer the terminal phosphate group of ATP to specific amino acid side chains of substrate proteins. Serine, threonine, and tyrosine are the most commonly...
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Protein Kinases and Phosphatases02:54

Protein Kinases and Phosphatases

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Proteins undergo chemical modifications that trigger changes in the charge, structure, and conformation of the proteins. Phosphorylation, acetylation, glycosylation, nitrosylation, ubiquitination, lipidation, methylation, and proteolysis are various protein modifications that regulate protein activity. Such modifications are usually enzyme-driven.
Protein kinases
Many proteins in the cell are regulated by phosphorylation, the addition of a phosphate group. A family of enzymes called kinases...
12.1K
Protein Kinases and Phosphatases02:54

Protein Kinases and Phosphatases

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Calmodulin-dependent Signaling01:16

Calmodulin-dependent Signaling

5.0K
Calmodulin (CaM) is a calcium-binding protein in eukaryotes that controls various calcium-regulated cellular processes. It has four calcium-binding sites that bind calcium to form the calcium-calmodulin ( Ca2+-CaM) complex. GPCR stimulation increases the calcium levels in the cells that bind to CaM and induces a conformational change.
The Ca2+-CaM complex does not have enzymatic activity by itself. Instead, the complex binds downstream target proteins, including membrane proteins or enzymes,...
5.0K
Phosphoinositides and PIPs01:42

Phosphoinositides and PIPs

7.7K
Phosphoinositides are a group of phospholipids containing a glycerol backbone with two fatty acid chains and a phosphate attached to a myoinositol sugar ring. The inositol head group extends into the cytoplasm, where it is modified by adding phosphate groups to form phosphatidylinositol phosphates or PIPs.
Different phosphoinositides are synthesized and recruited on the cytosolic face of the plasma membrane. The localization of specific phosphoinositides concentrated in separate membrane...
7.7K
Anaphase Promoting Complex00:50

Anaphase Promoting Complex

2.5K
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...
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Related Experiment Video

Updated: May 5, 2026

Phosphopeptide Analysis of Rodent Epididymal Spermatozoa
09:30

Phosphopeptide Analysis of Rodent Epididymal Spermatozoa

Published on: December 30, 2014

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Protein phosphatases decrease their activity during capacitation: a new requirement for this event.

Janetti R Signorelli1, Emilce S Díaz, Karla Fara

  • 1Department of Biomedicine, Faculty of Health Sciences, University of Antofagasta, Antofagasta, Chile.

Plos One
|December 7, 2013
PubMed
Summary
This summary is machine-generated.

Protein phosphatase 1 (PP1), 2B (PP2B), and 2A (PP2A) are present in human sperm. Their activity decreases during capacitation, which is crucial for sperm function.

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Area of Science:

  • Reproductive Biology
  • Molecular Cell Biology
  • Biochemistry

Background:

  • Protein phosphatases play critical roles in cellular signaling, but their involvement in human sperm capacitation remains underexplored.
  • Understanding these roles is essential for reproductive health and fertility research.

Purpose of the Study:

  • To investigate the presence and function of protein phosphatases PP1, PP2B, and PP2A during human sperm capacitation.
  • To determine the impact of these phosphatases on sperm capacitation and phosphorylation patterns.

Main Methods:

  • Human sperm were incubated in capacitating and non-capacitating media with specific phosphatase inhibitors.
  • Protein presence and localization were assessed using western blotting and immunofluorescence.
  • Capacitation status, phosphatase activity, and phosphorylation patterns were analyzed via chlortetracycline assay, phosphatase assay kit, and threonine residue analysis.

Main Results:

  • Protein phosphatases PP1, PP2B, and PP2A were confirmed in human sperm, with distinct subcellular localizations.
  • Inhibitor treatment rapidly increased capacitation markers and threonine phosphorylation.
  • Enzymatic activity of these phosphatases decreased during capacitation, without altered expression.

Conclusions:

  • Human sperm express PP1, PP2B, and PP2A, whose activity declines during capacitation.
  • This decline in phosphatase activity and subsequent increase in threonine phosphorylation are likely essential for successful sperm capacitation.