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Anatomy of Chloroplasts01:07

Anatomy of Chloroplasts

119.4K
Green algae and plants, including green stems and unripe fruit, harbor chloroplasts—the vital organelles where photosynthesis takes place. In plants, the highest density of chloroplasts is found in the mesophyll cells of leaves.
119.4K
Export of Mitochondrial and Chloroplast Genes02:19

Export of Mitochondrial and Chloroplast Genes

4.2K
A eukaryotic cell can have up to three different types of genetic systems: nuclear, mitochondrial, and chloroplast. During evolution, organelles have exported many genes to the nucleus; this transfer is still ongoing in some plant species. Approximately 18% of the Arabidopsis thaliana nuclear genome is thought to be derived from the chloroplast’s cyanobacterial ancestor, and around 75% of the yeast genome derived from the mitochondria’s bacterial ancestor. This export has occurred...
4.2K
Comparing Mitochondrial, Chloroplast, and Prokaryotic Genomes02:16

Comparing Mitochondrial, Chloroplast, and Prokaryotic Genomes

16.0K
The present-day mitochondrial and chloroplast genomes have retained some of the characteristics of their ancestral prokaryotes and also have acquired new attributes during their evolution within eukaryotic cells. Like prokaryotic genomes, mitochondrial and chloroplast genomes neither bind with histone-like proteins nor show complex packaging into chromosome-like structures, as observed in eukaryotes. Unlike mitotic cell divisions observed in eukaryotic cells, mitochondria and chloroplasts...
16.0K
The Anatomy of Chloroplasts01:08

The Anatomy of Chloroplasts

8.0K
Green algae and plants, including green stems and unripe fruit, harbor specialized organelles called chloroplasts to carry out photosynthesis. They coordinate both stages of photosynthesis — the light-dependent reactions and the light-independent reactions. The light-dependent reactions use sunlight to release oxygen and produce chemical energy in the form of ATP and NADPH, and the light-independent reactions capture CO2 and use ATP and NADPH to produce sugar.
Structure of...
8.0K
Protein Transport to the Inner Chloroplast Membrane01:18

Protein Transport to the Inner Chloroplast Membrane

2.4K
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...
2.4K
Protein Transport to the Outer Chloroplast Membrane01:11

Protein Transport to the Outer Chloroplast Membrane

2.4K
Chloroplast outer membrane proteins encoded by the nucleus are synthesized in the cytosol. Soon after synthesis, they bind cytosolic factors such as 14-3-3 protein and the Hsp70 chaperones that keep these precursors in an unfolded state until their translocation.
Two models describe the mechanism of precursor recognition and entry across the outer membrane through the TOC complex. Model 1 suggests the newly synthesized precursor binds to the TOC receptor 159 and forms a complex.
2.4K

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Nuclear DNA regulates the level of ribulose 1,5-bisphosphate carboxylase oxygenase in Medicago sativa L.

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Effect of light on the chloroplast division cycle and DNA synthesis in cultured leaf discs of spinach.

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Direct measurement of femtogram amounts of DNA in cells and chloroplasts by quantitative microspectrofluorometry.

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Related Experiment Video

Updated: Jan 31, 2026

Using Changes in Leaf Transmission to Investigate Chloroplast Movement in Arabidopsis thaliana
07:45

Using Changes in Leaf Transmission to Investigate Chloroplast Movement in Arabidopsis thaliana

Published on: July 14, 2021

2.7K

Changes in chloroplast number per cell during leaf development in spinach.

J V Possingham1, W Saurer

  • 1CSIRO Division of Horticultural Research, Glen Osmond.

Planta
|February 12, 2014
PubMed
Summary
This summary is machine-generated.

Spinach leaf cells increase chloroplasts fivefold during growth. This occurs through the division of existing chloroplasts, not from proplastids, in developing leaves exposed to light.

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Related Experiment Videos

Last Updated: Jan 31, 2026

Using Changes in Leaf Transmission to Investigate Chloroplast Movement in Arabidopsis thaliana
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Using Changes in Leaf Transmission to Investigate Chloroplast Movement in Arabidopsis thaliana

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Area of Science:

  • Plant biology
  • Cell biology
  • Photosynthesis research

Background:

  • Chlorophyll and nitrogen content change during spinach leaf development.
  • Leaf cell proliferation is crucial for plant growth.

Purpose of the Study:

  • To quantify changes in chloroplast numbers per cell during spinach leaf expansion.
  • To investigate the origin and division of chloroplasts in developing leaf cells.

Main Methods:

  • Utilized a novel method to measure chloroplast numbers per cell.
  • Employed electron microscopy and phase-contrast microscopy.
  • Observed chloroplast morphology and division processes.

Main Results:

  • A fivefold increase in chloroplasts per cell was observed in palisade and mesophyll cells over 10 days.
  • Leaf area expanded from 1 to 50 cm(2) during this period.
  • Grana-containing chloroplasts, not proplastids, were present and appeared to divide by constriction.

Conclusions:

  • The significant increase in chloroplasts during leaf growth is attributed to the division of differentiated, grana-containing chloroplasts.
  • Chloroplast division, rather than de novo formation from proplastids, drives chloroplast proliferation in expanding spinach leaf cells.