FIGURE: 1 / 11
Immunogen sequence: MTFNSFEGS KTCVPADINK EEEFVEEFNR LKTFANFPSG SPVSASTLAR AGFLYTGEGD TVRCFSCHAA VDRWQYGDSA VGRHRKVSPN CRFINGFYLE NSATQSTNSG IQNGQYKVEN YLGSRDHFAL DRPSETHADY LLRTGQVVDI SDTIYPRNPA MYSEEARLKS FQNWPDYAHL TPRELASAGL YYTGIGDQVQ CFCCGGKLKN WEPCDRAWSE HRRHFPNCFF VLGRNLNIRS ESDAVSSDRN FPNSTNLPRN PSMADYEARI FTFGTWIYSV NKEQLARAGF YALGEGDKVK CFHCGGGLTD WKPSEDPWEQ HAKWYPGCKY LLEQKGQEYI NNIHLTHSLE ECLVRTTEKT PSLTRRIDDT IFQNPMVQEA IRMGFSFKDI KKIMEEKIQI SGSNYKSLEV LVADLVNAQK DSMQDESSQT SLQKEISTEE QLRRLQEEKL CKICMDRNIA IVFVPCGHLV TCKQCAEAVD KCPMCYTVIT FKQKIFMS (1-497 aa encoded by BC032729)
ATP synthase is extremely conserved through evolution and can be found in plants, fungi, bacteria, and animals. The ATP synthase enzyme is a transmembrane protein responsible for driving the reversible reaction from ADP+ phosphate to ATP. This reaction is accomplished by a flux of protons across the membrane as a result of electron transfer. The ATP synthase protein has two main sections; the F1 ATP-ase (soluble) and the F0 ATP-ase (membrane embedded). The F1 section consists of the alpha, beta, gamma, delta, and epsilon subunits. While the F0 consists of a, b, and c subunits.
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Protein Aliases: apoptosis inhibitor protein 3; baculoviral IAP repeat-containing 4; Baculoviral IAP repeat-containing protein 4; BIR4; E3 ubiquitin-protein ligase XIAP; HILP; IAP homolog A; IAP-3; IAP-like protein; ILP; Inhibitor of apoptosis protein 3; RIAP-3; RING-type E3 ubiquitin transferase XIAP; RP1-315G1.5; X-linked IAP; X-linked inhibitor of apoptosis protein; X-linked inhibitor of apoptosis, E3 ubiquitin protein ligase
Gene Aliases: API3; BIRC4; hIAP-3; hIAP3; IAP-3; IAP3; ILP1; MIHA; riap3; XIAP; XLP2
Molecular Function: protease inhibitor