Chloroplast membrane

The simplified internal structure of a chloroplast

Chloroplasts contain several important membranes, vital for their function. Like mitochondria, chloroplasts have a double-membrane envelope, called the chloroplast envelope. Each membrane is a phospholipid bilayer, between 6 and 8 nm thick, and the two are separated by a gap of 10-20 nm, called the intermembrane space. The outer membrane is permeable to most ions and metabolites, but the inner membrane is highly specialised with transport proteins. Carbohydrates are transported across the outer membrane by a triose phosphate translocator.

The origin of chloroplasts is now largely accepted by the botany community as occurring via endosymbiosis on an ancestral basis with the engulfment of photosynthetic bacterium within the eukaryotic cell. Over millions of years the endosymbiotic cyanobacterium evolved structurally and functionally, retaining its own DNA and the ability to divide by binary fission (not mitotically) but giving up its autonomy by the transfer of some of its genes to the nuclear genome.

Internal parts

Within the inner membrane, in the region called the stroma, there is a system of interconnecting flattened membrane compartments, called the thylakoids. These are the sites of light absorption and ATP synthesis, and contain many proteins, including those involved in the electron transport chain. Photosexnthetic pigments such as chlorophylls a,b and c some others e.g. xanthophylls, carotenoids, phycobilins are also embedded within the granum membrane. With exception of chlorophyll a, all the other associated pigments are "accessory" and transfer energy to the reaction centers, Photosytems I and II.

Functions of thylakoids

The membranes of the thylakoid contain photosystems I and II which harvest solar energy to excite electrons which travel down the electron transport chain. This exergonic fall in potential energy along the way is used to draw (not pump!) H+ ions from the lumen of the thylakoid into the cytosol of a blue-green alga (cyanobacterium) or the stroma of a chlorolast. A steep H+ gradient is formed, which allows chemiosmosis to occur, where the thylakoid, transmenbrane ATP-synthase serves a dual function as a "gate" or channel for H+ ions and a catalytic site for the formation of ATP from ADP + a P0-4 ion.

Experiments have shown that the pH within the stroma is about 7.8, while that of the lumen of the thylakoid is 5. This corresponds to a nearly thousandfold difference in concentration of H+ ions. The H+ ions pass down through the ATP-synthase catalytic gate. This chemiosmotic phenomenon occurs in mitochondria. The "osmosis" of H+ or protons not water molecules "downhill." The mean turnover rate of ATP in human cells is about 1 million ATPs-per cell-per-second!

This botany article is a stub. You can help Wikipedia by expanding it.v · Categories: Membrane biology Cell biology stubs Botany stubs Wikimedia Foundation. 2010. Игры ⚽ Поможем решить контрольную работу Penn Masala Honourable Company of Master Mariners Look at other dictionaries: Chloroplast — Simplified structure of a chloroplast Chloroplasts (English pronunciation: /ˈklɒrəplæsts/) are organelles found in plant cells and other eukaryotic organisms that conduct photosynthesis. Chloroplasts capture light energy to conserve …   Wikipedia chloroplast — Photosynthetic organelle of higher plants. Lens shaped and rather variable in size but approximately 5µm long. Surrounded by a double membrane and contains circular DNA (though not enough to code for all proteins in the chloroplast). Like the… …   Dictionary of molecular biology chloroplast — chloroplastic, adj. /klawr euh plast , klohr /, n. Bot. a plastid containing chlorophyll. See diag. under cell. [1885 90; CHLORO(PHYLL) + PLAST] * * * Microscopic, ellipsoidal organelle in a green plant cell. It is the site of photosynthesis. It… …   Universalium chloroplast — Specialized plastid that contains chlorophyll. Lens shaped and bounded by a double membrane, chloroplasts contain membranous structures (thylakoids) piled up into stacks, surrounded by a gel like matrix (stroma). They are the site of solar energy …   Glossary of Biotechnology Inner membrane — The inner membrane is the biological membrane (phospholipid bilayer) of an organelle or Gram negative bacteria that is within an outer membrane. In eukaryotic cells, this inner membrane is present within the nuclear envelope, mitochondria and… …   Wikipedia Cell membrane — Illustration of a Eukaryotic cell membrane The cell membrane or plasma membrane is a biological mem …   Wikipedia Outer membrane — can refer to: Bacterial outer membrane Outer mitochondrial membrane The outer membrane of the chloroplast This disambiguation page lists articles associated with the same title. If an …   Wikipedia Thylakoid — A Thylakoid is a membrane bound compartment inside chloroplasts and cyanobacteria. They are the site of the light dependent reactions of photosynthesis. The word thylakoid is derived from the Greek thylakos , meaning sac . Thylakoids consists of… …   Wikipedia photosynthesis — photosynthetic /foh teuh sin thet ik/, adj. photosynthetically, adv. /foh teuh sin theuh sis/, n. Biol., Biochem. (esp. in plants) the synthesis of complex organic materials, esp. carbohydrates, from carbon dioxide, water, and inorganic salts,… …   Universalium Photosynthesis — Composite image showing the global distribution of photosynthesis, including both oceanic phytoplankton and vegetation …   Wikipedia 18+ © Academic, 2000-2024 Contact us: Technical Support, Advertising Dictionaries export, created on PHP, Joomla, Drupal, WordPress, MODx. Mark and share Search through all dictionaries Translate… Search Internet Share the article and excerpts Direct link … Do a right-click on the link above and select “Copy Link”