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Related Concept Videos

Nuclear Protein Sorting01:34

Nuclear Protein Sorting

Nuclear protein sorting is the selective trafficking of histones, polymerases, gene regulatory proteins into the nucleus and exporting RNAs and ribosomes to the cytosol. It is a tightly controlled process that regulates gene expression within a cell.
Proteins targeted to the nucleus carry nuclear localization signals or NLS recognized by import receptors in the cytosol. Similarly, proteins with nuclear export signals are recognized by export receptors. Import and export receptors are...
Nuclear Localization Signals and Import01:46

Nuclear Localization Signals and Import

Proteins targeted to the nucleus carry short stretches of amino acid sequences called the nuclear localization signal or NLS. Classical nuclear localization signals are of two types: monopartite and bipartite NLS. Monopartite classical NLS (cNLS) consists of a single cluster of 4-8 amino acids. Bipartite cNLS consists of two clusters of  2-3 amino acids and a 9-12 residue long proline-rich linker bridging the two clusters. Signal clusters are rich in positively charged amino acids such as...
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...
Nuclear Export01:42

Nuclear Export

The nucleus restricts several proteins within and allows others to pass. The restricted proteins possess a nuclear retention sequence or NRS, anchoring them to the nuclear lamins and preventing their transport to the cytosol. The non-restricted proteins, after their synthesis, are transported to their site of action, such as the cytosol or other organelles, with the help of nuclear export signals or NES.
NES are of three types- the canonical 10-residue long leucine-rich signal and other...
Directionality of Nuclear Transport01:42

Directionality of Nuclear Transport

Ras-related nuclear protein or Ran is a small G protein that cycles between its GTP and GDP bound states. Ran specific regulators, a Ran GTPase Activating Protein or RanGAP present in the cytosol and a Ran guanine nucleotide exchange factor or RanGEF present inside the nucleus regulate GTP/GDP exchange. A high concentration of GTP inside the cells, in addition to this asymmetric distribution of  Ran-specific regulators, leads to a higher RanGTP concentration inside the nucleus. This...
Mechanism of Ciliary Motion01:05

Mechanism of Ciliary Motion

The ciliary structures were first seen in 1647 by Antonie Leeuwenhoek while observing the protozoans. In lower organisms, these appendages are responsible for cell movement, while in higher organisms, these appendages help in the movement of the extracellular fluids within the body cavities.
The cilia are made up of microtubules in a 9+2 arrangement, with nine microtubule doublet ring bundles, surrounding a pair of central singlet microtubule bundles. The doublet microtubule bundles are...

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Related Experiment Video

Updated: May 8, 2026

Validation of a Mouse Model to Disrupt LINC Complexes in a Cell-specific Manner
09:02

Validation of a Mouse Model to Disrupt LINC Complexes in a Cell-specific Manner

Published on: December 10, 2015

Molecular connections between nuclear and ciliary import processes.

H Lynn Kee1, Kristen J Verhey

  • 1Department of Cell and Developmental Biology, University of Michigan Medical School, Ann Arbor, MI 48109, USA. kjverhey@umich.edu.

Cilia
|August 30, 2013
PubMed
Summary
This summary is machine-generated.

Cytosolic molecules enter cilia using a size exclusion mechanism and active import, similar to nuclear entry. This suggests shared molecular and structural pathways between nuclei and cilia for compartment import.

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Identification of Cyclin-dependent Kinase 1 Specific Phosphorylation Sites by an In Vitro Kinase Assay
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Identification of Cyclin-dependent Kinase 1 Specific Phosphorylation Sites by an In Vitro Kinase Assay

Published on: May 3, 2018

Related Experiment Videos

Last Updated: May 8, 2026

Validation of a Mouse Model to Disrupt LINC Complexes in a Cell-specific Manner
09:02

Validation of a Mouse Model to Disrupt LINC Complexes in a Cell-specific Manner

Published on: December 10, 2015

Identification of Cyclin-dependent Kinase 1 Specific Phosphorylation Sites by an In Vitro Kinase Assay
12:26

Identification of Cyclin-dependent Kinase 1 Specific Phosphorylation Sites by an In Vitro Kinase Assay

Published on: May 3, 2018

Area of Science:

  • Cell Biology
  • Molecular Biology
  • Organelle Biology

Background:

  • Cilia are essential organelles with unique protein and lipid compositions.
  • Mechanisms governing ciliary protein entry are under investigation.
  • Understanding cytosolic molecule import into cilia is crucial.

Purpose of the Study:

  • To elucidate the mechanisms regulating the entry of cytosolic molecules into cilia.
  • To compare ciliary entry mechanisms with those of other cellular compartments, particularly the nucleus.

Main Methods:

  • Analysis of size exclusion barriers for ciliary entry.
  • Investigation of active import pathways involving nuclear trafficking components.

Main Results:

  • A size exclusion mechanism, analogous to nuclear entry barriers, governs ciliary entry.
  • Active import into cilia utilizes nuclear trafficking machinery, including importins, Ran-GTP gradient, and nucleoporins.

Conclusions:

  • Nuclei and cilia share molecular, structural, and mechanistic similarities in regulating compartment import.
  • The findings highlight conserved mechanisms for molecular trafficking into distinct cellular organelles.