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Overview of Cell Death01:30

Overview of Cell Death

Cell death is an essential process where the body gets rid of old or damaged cells. Cell proliferation and death need to be balanced, as an imbalance between the two may lead to cancer or autoimmune diseases.
Cell death was observed in the early 19th century, but there was no experimental evidence to prove it. In 1842, Carl Vogt first discovered cell death in a metamorphic toad; however, it was not termed ‘cell death.’ Scientists discovered different cell death pathways only in the 20th century...
Apoptosis01:30

Apoptosis

Apoptosis is a combination of two Greek words, 'apo' and 'ptosis,' meaning separation and falling off, respectively. Hippocrates used this word to describe gangrene, which was caused due to bandaging of fractured bones. Apoptosis was distinguished from necrosis in 1970 when John Kerr reported observations of morphological changes occurring during apoptosis. During one experiment, he observed that the disruption of blood supply to the liver tissue resulted in a size reduction of the tissue.
Cellular Injury V: Apoptosis and Autophagy01:22

Cellular Injury V: Apoptosis and Autophagy

Cells respond to damage and stress through highly coordinated processes that decide whether they survive or undergo controlled self-destruction. Two major pathways involved in this regulation are apoptosis, a type of programmed cell death, and autophagy, a survival mechanism that helps cells adapt to adverse conditions.ApoptosisApoptosis removes aged or injured cells to maintain tissue balance. During this process, the cell shrinks, chromatin condenses and fragments, and membrane-bound...
Autophagic Cell Death01:18

Autophagic Cell Death

Christian de Duve discovered “autophagy,” a process in which cellular components are engulfed by membrane-bound organelles called autophagosomes. The autophagosomes then fuse with lysosomes to digest the enclosed contents. Autophagy is generally activated in cells to prevent cell death. However, cell death is triggered when the damage is beyond repair.
Autophagy and Apoptosis
Autophagy can activate apoptosis. In normal conditions, the autophagy activating protein Beclin-1 and pro-apoptotic...
The Extrinsic Apoptotic Pathway01:17

The Extrinsic Apoptotic Pathway

The extrinsic apoptotic pathway is initiated when extracellular death-inducing signals, such as specific cytokines, activate the death receptors expressed on the cell surface. The immune cells involved in this pathway are natural killer cells (NK cells) and cytotoxic T-lymphocytes. NK cells are critical in innate immune response, while cytotoxic T-lymphocytes are associated with adaptive immune response. These cells recognize specific receptors expressed on the altered cells and activate...
The Intrinsic Apoptotic Pathway01:31

The Intrinsic Apoptotic Pathway

Internal cellular stress, such as cellular injury or hypoxia, triggers intrinsic apoptosis. The B-cell lymphoma 2 (Bcl-2) family of proteins are the primary regulators of the intrinsic apoptotic pathway. For example, during DNA damage, checkpoint proteins, such as Ataxia Telangiectasia Mutated (ATM protein) and Checkpoints Factor-2 (Chk2) proteins, are activated. These proteins phosphorylate p53 which further activates pro-apoptotic proteins, such as Bax, Bak, PUMA, and Noxa, and inhibits...

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Related Experiment Video

Updated: Jul 3, 2026

A β-glucuronidase (GUS) Based Cell Death Assay
07:35

A β-glucuronidase (GUS) Based Cell Death Assay

Published on: May 6, 2011

Apoptotic-like programmed cell death in plants.

Theresa J Reape1, Paul F McCabe1

  • 1School of Biology and Environmental Science, University College Dublin, Dublin 4, Ireland.

The New Phytologist
|July 18, 2008
PubMed
Summary
This summary is machine-generated.

Programmed cell death (PCD) in plants, particularly apoptotic-like PCD (AL-PCD), is crucial for development and stress response. Defining AL-PCD mechanisms, like caspase-like molecules, clarifies plant cell death research.

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Last Updated: Jul 3, 2026

A β-glucuronidase (GUS) Based Cell Death Assay
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Published on: November 10, 2023

Area of Science:

  • Plant Biology
  • Cellular Biology

Background:

  • Programmed cell death (PCD) is a fundamental plant process involved in defense, development, and stress responses.
  • Understanding plant PCD regulation is vital, but research can be confusing due to multiple PCD types.
  • Clear definitions and descriptions of distinct cell death mechanisms are needed.

Purpose of the Study:

  • To describe apoptotic-like PCD (AL-PCD), a specific type of plant cell death.
  • To examine the characteristic features and molecular players involved in AL-PCD.
  • To use senescence as a case study to illustrate the importance of defining plant cell death processes.

Main Methods:

  • Review of existing literature on plant programmed cell death.
  • Analysis of hallmark features of apoptotic-like PCD, including protoplast condensation and DNA degradation.
  • Exploration of potential cellular executioners such as caspase-like molecules and mitochondria.

Main Results:

  • Apoptotic-like PCD (AL-PCD) in plants exhibits specific features like protoplast condensation and DNA degradation.
  • Mitochondria, caspase-like molecules, and de novo protein synthesis are explored as potential executioners of AL-PCD.
  • Senescence serves as an example demonstrating how rigorous definitions clarify plant cell death debates.

Conclusions:

  • Defining specific plant cell death types, like AL-PCD, is essential for advancing research.
  • Understanding the molecular mechanisms of AL-PCD, including its executioners, improves knowledge of plant biology.
  • Clear definitions resolve scientific arguments regarding the timing and control of plant cell death.