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Indirect Motor Pathways01:22

Indirect Motor Pathways

3.0K
The indirect motor or extrapyramidal pathways originate in the brainstem, the lower portion of the brain that connects it to the spinal cord. They consist of several distinct tracts, each with specialized functions. The four main tracts of the indirect motor pathways are the vestibulospinal tract, the reticulospinal tract, the tectospinal tract, and the rubrospinal tract.
The vestibulospinal tract originates in the vestibular nuclei of the brainstem. The vestibular system detects changes in...
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ATP Synthase: Mechanism01:48

ATP Synthase: Mechanism

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In animals, the mitochondrial F1F0 ATP synthase is the key protein that synthesizes ATP molecules through a complex catalytic mechanism. While the nuclear genome encodes the majority of ATP synthase subunits, the mitochondrial genome encodes some of the enzyme's most critical components. The formation of this multi-subunit enzyme is a complex multi-step process regulated at the level of transcription, translation, and assembly. Defects in one or more of these steps can result in decreased...
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Direct Motor Pathways01:11

Direct Motor Pathways

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The direct motor pathways, also known as the pyramidal tracts, are a group of neural pathways that originate in the brain and descend through the spinal cord. They control the voluntary movement of the body. There are two major direct motor pathways: the corticospinal and the corticobulbar tracts.
The corticospinal tract is responsible for the voluntary movement of the limbs and trunk. It originates in the cerebral cortex of the brain and descends through the cerebrum's internal capsule and...
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Energy to Drive Translocation01:37

Energy to Drive Translocation

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Mitochondrial protein import is powered by two distinct energy sources: ATP hydrolysis and electrochemical potential across the inner membrane. Newly synthesized precursors are bound by cytosolic chaperones of the Hsp70 family, which guide them to the import receptors on the mitochondrial surface. Utilizing the energy of ATP hydrolysis, Hsp70 chaperones transfer these precursors to the TOM receptors on the mitochondrial outer membrane.
Generally, polypeptides are unfolded by two distinct...
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Intracellular Movement of Viruses and Bacteria01:10

Intracellular Movement of Viruses and Bacteria

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Intracellular bacteria and viruses often comprise a group of highly infectious pathogens that can cause several diseases. Bacterial pathogens include those belonging to the genus Rickettsia responsible for conditions such as rocky mountain spotted fever and the Mediterranean spotted fever; Chlamydia, a genus responsible for a sexually transmitted disease; Coxiella burnetii, an agent responsible for Q fever. Viral pathogens include vaccinia—a poxvirus, and herpes simplex virus—a...
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Protein Transport to the Thylakoids01:22

Protein Transport to the Thylakoids

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Thylakoids are membrane-bound sac-like structures within the chloroplast that serve as sites for photosynthesis. Thylakoid lumen contains many electron transport proteins and is enclosed by a thylakoid membrane rich in the light-harvesting complex. Proteins targeted to the thylakoids are transported as precursors and are sorted by the general TOC/TIC import pathway. Once the precursor reaches the stroma, stromal processing peptidases remove their transit signal and expose thylakoid signal...
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Articles linked to this work by shared authors, journal, and citation graph.

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Dynamic composition of stress granules in Trypanosoma brucei.

PLoS pathogens·2024
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ARL3 GTPases facilitate ODA16 unloading from IFT in motile cilia.

Science advances·2024
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Flagellar targeting of an arginine kinase requires a conserved lipidated protein intraflagellar transport (LIFT) pathway in <i>Trypanosoma brucei</i>.

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Cell Cycle-Dependent Flagellar Disassembly in a Firebug Trypanosomatid <i>Leptomonas pyrrhocoris</i>.

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Cell cycle and cleavage events during in vitro cultivation of bloodstream forms of Trypanosoma lewisi, a zoonotic pathogen.

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The unusual flagellar-targeting mechanism and functions of the trypanosome ortholog of the ciliary GTPase Arl13b.

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Related Experiment Video

Updated: Jan 17, 2026

Detection of Trypanosoma brucei Variant Surface Glycoprotein Switching by Magnetic Activated Cell Sorting and Flow Cytometry
09:45

Detection of Trypanosoma brucei Variant Surface Glycoprotein Switching by Magnetic Activated Cell Sorting and Flow Cytometry

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How do trypanosome IFT trains choose special tracks?

Yameng Huang1, Cynthia Y He1

  • 1Department of Biological Sciences, National University of Singapore, Singapore, Singapore.

The Journal of Cell Biology
|September 16, 2025
PubMed
Summary
This summary is machine-generated.

Intraflagellar transport trains in Trypanosoma brucei selectively bind to specific microtubule structures. This study uses advanced microscopy to uncover the mechanisms behind this precise association.

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Area of Science:

  • Cell Biology
  • Microbiology
  • Biochemistry

Background:

  • Intraflagellar transport (IFT) is crucial for flagellar assembly and function.
  • In Trypanosoma brucei, IFT trains associate with a subset of axonemal doublet microtubules.

Purpose of the Study:

  • To investigate the molecular mechanisms governing the selective association of IFT trains with specific axonemal doublet microtubules in Trypanosoma brucei.

Main Methods:

  • High-resolution microscopy techniques were employed.
  • Advanced imaging approaches were utilized to visualize IFT train-microtubule interactions.

Main Results:

  • The study provides new insights into the spatial and molecular basis of IFT train selectivity.
  • Detailed visualization revealed specific interaction points between IFT trains and doublet microtubules.

Conclusions:

  • The findings elucidate a key aspect of flagellar transport regulation in Trypanosoma brucei.
  • Understanding these mechanisms is vital for comprehending flagellar dynamics and parasite motility.