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Eukaryotic Compartmentalizations01:46

Eukaryotic Compartmentalizations

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One of the distinguishing features of eukaryotic cells is that they contain membrane-bound organelles, such as the nucleus and mitochondria, that carry out specialized functions. Since biological membranes are only selectively permeable to solutes, they help create a compartment with controlled conditions inside an organelle. These microenvironments are tailored to the organelle's specific functions and help isolate them from the surrounding cytosol.
For example, lysosomes in the animal cells...
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Contact-dependent Signaling01:19

Contact-dependent Signaling

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Contact-dependent signaling, as the name suggests, requires that communicating cells be in direct contact with each other. This is achieved either through receptor-ligand interactions or by specialized cytoplasmic channels that allow the flow of small molecules between cells. In animal cells, channels called gap junctions facilitate contact-dependent signaling in certain tissues, whereas, plasmodesmata perform a similar function in plants.
Gap Junctions
In animal cells, gap junctions are formed...
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What are Membranes?01:54

What are Membranes?

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A key characteristic of life is the ability to separate the external environment from the internal space. To do this, cells have evolved semi-permeable membranes that regulate the passage of biological molecules. Additionally, the cell membrane defines a cell’s shape and interactions with the external environment. Eukaryotic cell membranes also serve to compartmentalize the internal space into organelles, including the endomembrane structures of the nucleus, endoplasmic reticulum and...
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What are Membranes?01:24

What are Membranes?

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A cell's plasma membrane demarcates the cell's borders and determines the nature of its interaction with the environment. Cells exclude certain substances, take in others, and excrete some others in controlled quantities. The plasma membrane must be flexible to allow certain cells, such as red and white blood cells, to change their shape while passing through narrow capillaries. These are the more obvious plasma membrane functions. In addition, the plasma membrane's surface carries...
14.5K
The Phragmoplast01:59

The Phragmoplast

5.0K
Cell division is essential for organismal growth and development. In animal cells, the central spindle and its associated proteins form the midbody, a structure that has an essential role in cytokinesis. In plants, the central spindle, along with the microtubules, actin, and other cell components, matures into the phragmoplast, which is necessary for cytokinesis. Unlike the stationary midbody, the phragmoplast expands centrifugally, eventually leading to the formation of the new cell wall.
The...
5.0K
Eukaryotic Compartmentalization01:37

Eukaryotic Compartmentalization

13.9K
One of the distinguishing features of eukaryotic cells is that they contain membrane-bound organelles, such as the nucleus and mitochondria, that carry out specialized functions. Since biological membranes are only selectively permeable to solutes, they help create a compartment with controlled conditions inside an organelle. These microenvironments are tailored to the organelle's specific functions and help isolate them from the surrounding cytosol.
For example, lysosomes in the animal...
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Related Experiment Video

Updated: May 2, 2026

Bimolecular Fluorescence Complementation
08:54

Bimolecular Fluorescence Complementation

Published on: April 15, 2011

28.0K

Getting bifunctional molecules into cells.

R Scott Lokey1, Cameron Pye2

  • 1Department of Chemistry and Biochemistry, University of California Santa Cruz, Santa Cruz, CA, USA.

Science (New York, N.Y.)
|December 8, 2022
PubMed
Summary
This summary is machine-generated.

Transmembrane proteins are key to transporting large drugs across cell membranes. This discovery offers new pathways for drug delivery systems.

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Area of Science:

  • Biochemistry
  • Cell Biology
  • Pharmacology

Background:

  • Cell membranes present a significant barrier to drug delivery.
  • Transmembrane proteins play crucial roles in cellular transport.
  • Efficient drug delivery requires overcoming the cell membrane barrier.

Purpose of the Study:

  • To identify and characterize transmembrane proteins involved in the transport of large drug molecules.
  • To explore the potential of these proteins as novel drug delivery vehicles.

Main Methods:

  • Utilized proteomic analysis to identify candidate transmembrane proteins.
  • Employed cell-based assays to validate drug-shuttling capabilities.
  • Investigated protein structure and function through molecular modeling.

Main Results:

  • A specific class of transmembrane proteins was identified as facilitating the passage of large drugs.
  • Demonstrated the ability of these proteins to bind and translocate drug payloads.
  • Characterized the mechanism of transport mediated by these proteins.

Conclusions:

  • Transmembrane proteins represent a promising avenue for enhancing the delivery of large drugs.
  • Targeting these protein transporters could revolutionize drug development and therapeutic strategies.