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Protein Transport to the Inner Chloroplast Membrane01:18

Protein Transport to the Inner Chloroplast Membrane

1.7K
Proteins targeted to the inner chloroplast membrane, or plastid proteins, are transported by two general pathways: the stop-transfer and the re-insertion or post-import pathways. Most plastid proteins carry N-terminal transit sequences and internal import sequences targeting it to the specific chloroplast subcompartment. Proteins targeted by the stop-transfer pathway have internal hydrophobic sequences that inhibit their translocation into the stroma. As a result, these precursors are arrested...
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Protein Transport into the Inner Mitochondrial Membrane01:34

Protein Transport into the Inner Mitochondrial Membrane

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Nuclear encoded mitochondrial precursors are imported to the inner membrane in a multistep process involving two separate translocons, TIM22 and TIM23. TIM23 is a cation-selective pore that remains closed by the N terminal segment of the protein. Negative charges on the TIM23 act as a receptor for the incoming precursor, pulling the positively charged matrix-targeting sequence for peptide insertion and translocation.
Transport of mitochondrial precursors across the TIM23 channel is driven by...
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Insertion of Single-pass Transmembrane Proteins in the RER01:26

Insertion of Single-pass Transmembrane Proteins in the RER

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Integral membrane proteins are proteins adhered to the lipid bilayer of a cell organelle or membrane. They can be of two types: transmembrane integral proteins that span the lipid bilayer and monotopic proteins that are attached to either side of the membrane but do not pass through it.
Integral transmembrane proteins possess transmembrane and extra membrane domains. The transmembrane domains are primarily made of 20-25 hydrophobic amino acids arranged in a helical secondary confirmation. These...
13.0K
Translocation of Proteins into the Mitochondria01:19

Translocation of Proteins into the Mitochondria

8.8K
Mitochondrial precursors are translocated to the internal subcompartments via independent mechanisms involving distinct protein machineries called translocases.
Sorting of outer membrane proteins:
Mitochondrial outer membrane proteins are of two types: the transmembrane, beta-barrel porins, and the membrane-anchored, alpha-helical proteins. Beta-barrel porin precursors are translocated by the TOM complex and inserted into the outer mitochondrial membrane by the SAM complex. In contrast,...
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Insertion of Multi-pass Transmembrane Proteins in the RER01:29

Insertion of Multi-pass Transmembrane Proteins in the RER

13.5K
The rough ER membrane synthesizes, assembles, and embeds transmembrane proteins in diverse topologies. These proteins function as transporters or channels and can remain in the ER membrane or are sent to the Golgi complex, lysosome, and cell membrane.
The multipass transmembrane proteins are the type IV integral membrane proteins with multiple topogenic sequences determining their spatial arrangement in the ER membrane. Nearly all multipass proteins lack a cleavable signal sequence and use...
13.5K
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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Video Experimental Relacionado

Updated: May 3, 2026

Imaging Integrin Tension and Cellular Force at Submicron Resolution with an Integrative Tension Sensor
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Imaging Integrin Tension and Cellular Force at Submicron Resolution with an Integrative Tension Sensor

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La intercalación de Li en las cadenas 1D TiS2 (en)

Tianyang Li1, Yi-Hsin Liu, Basant Chitara

  • 1Department of Chemistry and Biochemistry, The Ohio State University , Columbus, Ohio 43210, United States.

Journal of the American Chemical Society
|February 14, 2014
PubMed
Resumen
Este resumen es generado por máquina.

Se logró la intercalación reversible del litio en un sólido de 1D van der Waals, TiS2 (etilenodiamina). Este proceso reduce significativamente la resistividad eléctrica mediante la inyección de electrones y ofrece nuevas formas de ajustar las propiedades de los materiales.

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Área de la Ciencia:

  • Ciencia de los materiales Ciencia de los materiales.
  • Química del estado sólido.
  • Física de la materia condensada Física de la materia condensada

Sus antecedentes:

  • La intercalación de cationes metálicos en materiales en capas 2D produce propiedades electrónicas, magnéticas y correlacionadas únicas.
  • Explorar la intercalación en materiales de menor dimensión (1D, 2D) es crucial para descubrir nuevas funcionalidades.

Objetivo del estudio:

  • Para investigar la viabilidad y los efectos de la intercalación de litio en el sólido 1D de van der Waals, TiS2 (etilenodiamina).
  • Explorar el potencial para ajustar las propiedades físicas de los materiales dimensionalmente reducidos a través de la intercalación reversible.

Principales métodos:

  • Síntesis del híbrido orgánico/inorgánico 1D del sólido de van der Waals TiS2 ((etilendiamina)).
  • Demostración experimental de la intercalación reversible de litio (Li) en la red de TiS2 (etilenodiamina).
  • Medición de los cambios en la resistividad eléctrica tras la intercalación de Li.

Principales resultados:

  • Se ha demostrado el éxito de la intercalación reversible de litio en TiS2 (etilenodiamina).
  • La intercalación conduce a la reducción de Ti (((4+) a Ti (((3+) y a la inyección de electrones en la red.
  • Se observó una disminución significativa de orden de magnitud en la resistividad eléctrica después de la intercalación.

Conclusiones:

  • La intercalación de Li reversible es alcanzable en sólidos de 1D van der Waals como el TiS2 (etilenodiamina).
  • Este proceso ofrece una vía viable para modular las propiedades electrónicas, específicamente la resistividad eléctrica.
  • Los hallazgos abren vías para el ajuste de propiedades en materiales emergentes de dimensión reducida.