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・ Hemby Bridge, North Carolina
・ Hemchandra Barua
・ Hemchandra Barua (disambiguation)
・ Hemchandra Burman
・ Hemchandra Goswami
・ Hemchandra Kanungo
・ Hemchandra Kekre
・ Hemchandracharya North Gujarat University
・ Hemda
・ Hemda Ben-Yehuda
・ Hemdale Film Corporation
・ Hemdat
・ Hemdat Israel Synagogue
・ Hemdean House School
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Heme
・ Heme A
・ Heme arginate
・ Heme B
・ Heme C
・ Heme ligase
・ Heme O
・ Heme oxygenase
・ Heme-transporting ATPase
・ Hemed
・ Hemed (mountain)
・ Hemed Khamis
・ Hemed Mohammed Hemed
・ Hemei, Changhua
・ Hemeiuș


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Heme : ウィキペディア英語版
Heme

Heme (American English) or haem (British English) is a cofactor consisting of an Fe2+ (ferrous) ion contained in the centre of a large heterocyclic organic ring called a porphyrin, made up of four pyrrolic groups joined together by methine bridges. Not all porphyrins contain iron, but a substantial fraction of porphyrin-containing metalloproteins have heme as their prosthetic group; these are known as hemoproteins. Hemes are most commonly recognized as components of hemoglobin, the red pigment in blood, but are also found in a number of other biologically important hemoproteins such as myoglobin, cytochrome, catalase, and endothelial nitric oxide synthase.
==Function==

Hemoproteins have diverse biological functions including the transportation of diatomic gases, chemical catalysis, diatomic gas detection, and electron transfer. The heme ion serves as a source or sink of electrons during electron transfer or redox chemistry. In peroxidase reactions, the porphyrin molecule also serves as an electron source. In the transportation or detection of diatomic gases, the gas binds to the heme ion. During the detection of diatomic gases, the binding of the gas ligand to the heme ion induces conformational changes in the surrounding protein.
It has been speculated that the original evolutionary function of hemoproteins was electron transfer in primitive sulfur-based photosynthesis pathways in ancestral cyanobacteria-like organisms before the appearance of molecular oxygen.
Hemoproteins achieve their remarkable functional diversity by modifying the environment of the heme macrocycle within the protein matrix. For example, the ability of hemoglobin to effectively deliver oxygen to tissues is due to specific amino acid residues located near the heme molecule. Hemoglobin binds oxygen in the pulmonary vasculature, where the pH is high and the pCO2 is low, and releases it in the tissues, where the situations are reversed. This phenomenon is known as the Bohr effect. The molecular mechanism behind this effect is the steric organization of the globin chain; a histidine residue, located adjacent to the heme group, becomes positively charged under acid (low pH) circumstances (which are caused by dissolved CO2 in working muscles, etc.), sterically releasing oxygen from the heme group.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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