| 词条 | Electron-transferring flavoprotein |
| 释义 |
| Symbol = ETF | Name = Electron transfer flavoprotein domain | image = PDB 1efp EBI.jpg | width = | caption = electron transfer flavoprotein (etf) from paracoccus denitrificans | Pfam = PF01012 | Pfam_clan = CL0039 | InterPro = IPR014730 | SMART = | PROSITE = PDOC00583 | MEROPS = | SCOP = 1efv | TCDB = | OPM family = | OPM protein = | CAZy = | CDD = }}{{Infobox protein family | Symbol = ETF_alpha | Name = Electron transfer flavoprotein FAD-binding domain | image = PDB 1o96 EBI.jpg | width = | caption = structure of electron transferring flavoprotein for methylophilus methylotrophus. | Pfam = PF00766 | Pfam_clan = CL0085 | InterPro = IPR014731 | SMART = | PROSITE = PDOC00583 | MEROPS = | SCOP = 1efv | TCDB = | OPM family = | OPM protein = | CAZy = | CDD = }} An electron transfer flavoprotein (ETF) or electron transfer flavoprotein complex (CETF) is a flavoprotein located on the matrix face of the inner mitochondrial membrane and functions as a specific electron acceptor for primary dehydrogenases, transferring the electrons to terminal respiratory systems such as electron-transferring-flavoprotein dehydrogenase. They can be functionally classified into constitutive, "housekeeping" ETFs, mainly involved in the oxidation of fatty acids (Group I), and ETFs produced by some prokaryotes under specific growth conditions, receiving electrons only from the oxidation of specific substrates (Group II).[1] ETFs are heterodimeric proteins composed of an alpha and beta subunit (ETFA and ETFB), and contain an FAD cofactor and AMP.[2][3] ETF consists of three domains: domains I and II are formed by the N- and C-terminal portions of the alpha subunit, respectively, while domain III is formed by the beta subunit. Domains I and III share an almost identical alpha-beta-alpha sandwich fold, while domain II forms an alpha-beta-alpha sandwich similar to that of bacterial flavodoxins. FAD is bound in a cleft between domains II and III, while domain III binds the AMP molecule. Interactions between domains I and III stabilise the protein, forming a shallow bowl where domain II resides. Mutation in ETFs can lead to deficiency of passing reducing equivalent of FADH2 to electron transport chain, causing Glutaric acidemia type 2 See also
References1. ^{{cite journal |vauthors=Weidenhaupt M, Rossi P, Beck C, Fischer HM, Hennecke H |title=Bradyrhizobium japonicum possesses two discrete sets of electron transfer flavoprotein genes: fixA, fixB and etfS, etfL |journal=Arch. Microbiol. |volume=165 |issue=3 |pages=169–78 |year=1996 |pmid=8599534 |doi=10.1007/s002030050312}} 2. ^{{cite journal |vauthors=Tsai MH, Saier MH |title=Phylogenetic characterization of the ubiquitous electron transfer flavoprotein families ETF-alpha and ETF-beta |journal=Res. Microbiol. |volume=146 |issue=5 |pages=397–404 |year=1995 |pmid=8525056 |doi=10.1016/0923-2508(96)80285-3}} 3. ^{{cite journal |vauthors=Roberts DL, Frerman FE, Kim JJ |title=Three-dimensional structure of human electron transfer flavoprotein to 2.1-A resolution |journal=Proc. Natl. Acad. Sci. U.S.A. |volume=93 |issue=25 |pages=14355–60 |year=1996 |pmid=8962055 |doi=10.1073/pnas.93.25.14355 |pmc=26136}} External links
1 : Proteins |
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