Get results CSV file
Prior-Knowledge Description Expectation Prediction Conclusion Leaf Statistics
Evidence_90 TIGR01016 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72465 GenProp0617 GENPROP None - {{∅}} True - {{t}} Unconfirmed presence
Component_5462 NADH dehydrogenase I, I subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_83 TIGR00178 HMM None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0135 NADH dehydrogenase I~Several multichain membrane complexes couple electron transfer involving NADH to ion transport. This property represents an NADH dehydrogenase termed complex I, whose individual subunits are designated A through N. The electron acceptor is a quinone, ubiquinone, in most bacteria and in the related mitochondrial complex. The state for this property must be set to NO for related but distinct complexes, such as that from Methanosarcina in which F420H2 replaces NADH. None - {{∅}} None - {{∅},{t}} Unexplained
Component_51623 cytochrome b subunit None - {{∅}} True - {{t}} Unconfirmed presence
Component_51613 Generation of a ATP from ADP utilizing a proton (or sodium ion) gradient None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72427 PF00032 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_342 A subunit of ATP synthase F0 cluster None - {{∅}} True - {{t}} Unconfirmed presence
Component_141 succinyl-CoA synthetase, beta subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12615 PF05683 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72453 TIGR02106 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_5452 NADH dehydrogenase I, H subunit None - {{∅}} True - {{t}} Unconfirmed presence
Component_353 B subunit None - {{∅}} None - {{∅}} Unexplained
Evidence_72449 TIGR02842 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51677 subunit III, QoxC None - {{∅}} None - {{∅}} Unexplained
Component_5392 NADH dehydrogenase I, C subunit None - {{∅}} True - {{t}} Unconfirmed presence
Component_142 succinate dehydrogenase, flavoprotein subunit None - {{∅}} True - {{t}} Unconfirmed presence
Component_347 F1 gamma subunit of F1/F0 ATP synthase None - {{∅}} True - {{t}} Unconfirmed presence
Component_5472 NADH dehydrogenase I, J subunit None - {{∅}} True - {{t}} Unconfirmed presence
Component_51809 succinate dehydrogenase, hydrophobic membrane anchor None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72564 GenProp0129 GENPROP None - {{∅}} None - {{∅}} Unexplained
Component_5382 NADH dehydrogenase I, B subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72565 TIGR02926 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_2430 TIGR01145 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_55151 PF02823 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_143 succinate dehydrogenase, iron-sulfur protein None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_84 TIGR00183 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12634 PF01058 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72418 GenProp0128 GENPROP None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_2424 TIGR01131 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51519 subunit I (CcoN) None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_68299 PF05545 HMM None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0033 TCA cycle~PARTIAL The TCA cycle, also called the Krebs cycle, citrate cycle, and tricarboxylic acid cycle, is performed in eukaryotic mitochondria and in many prokaryotes. This property refers to the forward direction: from oxaloacetate and acetate to citrate, to isocitrate, to 2-oxoglutarate, to succinate, to fumarate, to malate, to oxaloacetate, with the release of two molecules of C02. It runs only under aerobic conditions. The state YES means the cycle is complete. A complete TCA cycle may correlate with use of TCA intermediates as biosynthetic precursors and with anaplerotic (TCA cycle intermediate-replenishing) reactions such as the glyoxylate shunt. The PARTIAL state indicates the pathway does not form a cycle but may contain several consecutive steps. The direction of flux through this arc is not specified when the state is set and may be in the reductive (reverse) direction. The reverse TCA cycle, an alternative to the Calvin cycle for carbon dioxide fixation, is covered by a separate property. None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12774 TIGR01959 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72467 TIGR02857 HMM None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0617 cytochrome (quinone) oxidase, bd type~The cytochrome bd complex is a quinol oxidase, oxygen reductase. Usually this complex functions to couple the reduced quinone pool to the oxygen terminal electron acceptor in aerobic respiration. It has been reported that certain anaerobes or microaerophiles may utilize this system to reduce the amount of oxygen present in their local environment [1]. The complex is composed of two subunits: Subunit I (CydA) contains the quinone binding site [2] and is also a component of the cytochrome b0 complex. Subunit II (CydB) contains the binding site for heme b558. Additionally, the complex contains two other hemes, b595 and d which make up the oxygen reduction site [3]. None - {{∅}} True - {{t}} Unconfirmed presence
Component_51612 Generation of a proton (or sodium ion) gradient by the coupling of NADH oxidation (to NAD+) with oxygen reduction (to water) None - {{∅}} None - {{∅},{t}} Unexplained
Component_5492 NADH dehydrogenase I, L subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_89 TIGR01019 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12815 TIGR01972 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_144 succinate dehydrogenase, cytochrome b subunit None - {{∅}} True - {{t}} Unconfirmed presence
Component_51739 H subunit None - {{∅}} None - {{∅}} Unexplained
Evidence_72432 PF00355 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51736 A1 stalk complex, E subunit None - {{∅}} None - {{∅}} Unexplained
Component_145 fumarate hydratase, class I N-term or class II None - {{∅}} True - {{t}} Unconfirmed presence
Component_51675 subunit I, QoxB None - {{∅}} None - {{∅}} Unexplained
Component_5372 NADH-ubiquinone/plastoquinone oxidoreductase, chain 3 None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72413 GenProp0033 GENPROP None - {{∅}} True - {{t}} Unconfirmed presence
Component_140 succinyl-CoA synthetase, alpha subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_92 TIGR01811 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_12704 PF00146 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_55149 PF00430 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_68321 TIGR02745 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_2679 TIGR01941 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_98 TIGR01763 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72448 TIGR01473 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_2426 TIGR01260 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_346 F1 beta subunit of F1/F0 ATP synthase None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12744 TIGR01770 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_96 TIGR01759 HMM None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0612 aerobic electron transfer (transport) chain, ETC~These complexes act in the process of oxidative phosphorylation to create a proton gradient which powers the ATP synthase complex. Reducing equivalents in the form of NADH and quinone from the TCA cycle stepped down in potential finally resulting in a reduced cytochrome c which, in cytochrome oxidase, pairs with oxygen as a terminal elextron acceptor. None - {{∅}} None - {{∅},{t}} Unexplained
Component_51622 cytochrome c subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_2429 TIGR01146 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51737 A1 stalk complex, F subunit None - {{∅}} None - {{∅}} Unexplained
Evidence_77 TIGR01800 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_87 TIGR01350 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72562 TIGR02924 HMM None - {{∅}} None - {{∅}} Unexplained
Component_51545 accessory, ferredoxin-like, FixG None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12714 PF00499 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72426 PF02167 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12664 PF01257 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72450 TIGR02843 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72561 TIGR02923 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_2427 TIGR00962 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51642 cyd operon protein YbgT (Proteobacterial) None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72428 PF00033 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51744 dihydrolipoamide dehydrogenase, LpdA (E3) None - {{∅}} True - {{t}} Unconfirmed presence
Component_352 A subunit None - {{∅}} None - {{∅}} Unexplained
Component_51640 protoheme IX farnesyltransferase, CyoE None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72421 GenProp0135 GENPROP None - {{∅}} None - {{∅},{t}} Unexplained
Evidence_55111 TIGR01340 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72442 TIGR00203 HMM None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0129 Na+-translocating NADH-quinone reductase~Na+-translocating NADH:ubiquinone oxidoreductase is found in marine, halophilic, and pathogenic Gram-negative bacteria. The NQR complex contains six structural subunits and acts as Na(+) pump (see PMID:11248187). See TIGR01936-TIGR01941. None - {{∅}} None - {{∅}} Unexplained
Evidence_72555 PF01991 HMM None - {{∅}} None - {{∅}} Unexplained
GenProp0483 cytochrome c oxidase, cbb3-type~Cytochrome cbb(3) oxidase belongs to the family of heme-copper oxidases and couples using oxygen as a terminal electron acceptor with pumping protons across the membrane. This oxidase is related to, yet signficantly different from the mitochondrial cytochrome c oxidase and is largely restricted to the Proteobacteria. None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72508 TIGR02897 HMM None - {{∅}} None - {{∅}} Unexplained
Component_348 F1 delta subunit of F1/F0 ATP synthase None - {{∅}} True - {{t}} Unconfirmed presence
Component_51678 subunit IV, QoxD None - {{∅}} None - {{∅}} Unexplained
Component_345 F1 alpha subunit of F1/F0 ATP synthase None - {{∅}} True - {{t}} Unconfirmed presence
Component_343 B subunit of ATP synthase F0 cluster None - {{∅}} True - {{t}} Unconfirmed presence
Component_136 isocitrate dehydrogenase None - {{∅}} True - {{t}} Unconfirmed presence
Component_51616 quinone reduction (NADH dehydrogenases) None - {{∅}} None - {{∅},{t}} Unexplained
Evidence_78 TIGR01793 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72553 GenProp0623 GENPROP None - {{∅}} None - {{∅}} Unexplained
GenProp0611 aerobic respiration~Aerobic respiration is the complex series of pathways in which a common organic intermediate (generally pyruvate) is broken down into carbon dioxide (CO2) and water (H20) with the concomitant production of ATP in the presence of oxygen. Pyruvate is generated from glucose via glycolysis. The first step of this process is conversion of pyruvate to acetyl-CoA which then enters the Krebs (or, TCA) cycle. Acetyl-CoA may also be generated independently of pyruvate via the breakdown of other organic compounds. The TCA cycle generates reducing equivalents in the form of NADH. NADH, in turn delivers the electrons to the top of the electron transport chain (oxidative phosphorylation). This chain results in the pumping of protons (and/or sodium ions) to form a gradient. Ions flowing back with this gradient power the ATP-generation machines of the cell. Oxygen acts as the terminal electron acceptor for the electron-transport chain. None - {{∅}} None - {{∅},{t}} Unexplained
Component_51735 A1 stalk complex, D subunit None - {{∅}} None - {{∅}} Unexplained
Component_5502 NADH dehydrogenase I, M subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_86 TIGR01347 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_5362 fumarate hydratase, class I C-term or class II None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0128 F1/F0 ATPase~F1/F0 ATP synthase: F1 and F0 represent two major clusters of subunits. F1 is the peripheral membrane associated cluster. The F1 subunits: alpha, beta, gamma, delta, epsilon, have the same names both in prokaryotes and eukaryotes. F0 is the integral membrane cluster. In F0, nomenclatures differ. For example, prokaryotic chain A matches eukaryotic chain 6. None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12654 PF00346 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_5412 NADH dehydrogenase I, E subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_93 TIGR00384 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_2428 TIGR01039 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_100 TIGR01320 HMM None - {{∅}} None - {{∅}} Unexplained
Component_51637 subunit I, CyoB None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72487 GenProp0620 GENPROP None - {{∅}} None - {{∅}} Unexplained
Evidence_94 TIGR02970 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51630 subunit II, CydB None - {{∅}} True - {{t}} Unconfirmed presence
Component_5422 NADH dehydrogenase I, F subunit None - {{∅}} True - {{t}} Unconfirmed presence
Component_146 malate dehydrogenase None - {{∅}} True - {{t}} Unconfirmed presence
Component_51742 thiamine pyrophosphate-binding subunit, SucA (E1) None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_85 TIGR00239 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51656 Transporter for assembly, CydC None - {{∅}} None - {{∅}} Unexplained
Component_134 citrate synthase None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72439 GenProp0615 GENPROP None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72431 PF00034 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_5512 NADH dehydrogenase I, N subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72434 GenProp0613 GENPROP None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0618 cytochrome (quinone) oxidase, bo type~The cytochrome bo complex is a quinol oxidase, oxygen reductase which functions in electron transfer chain of aerobic respiration in bacteria. The bo complex contains two heme b (protoheme IX) molecules designated b562 and b595 as well as an active site copper atom. This complex is structurally analagous to the aa3-type cytochrome c oxidases [1] which contains cytochromes a and copper. None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0630 2-oxoglutarate dehydrogenase system~This enzyme system utilizes three components E1 (thiamine pyrophosphate-binding subunit, SucA), E2 (dihydrolipoamide succinyltransferase, SucB) and E3 (dihydrolipoamide dehydrogenase, LpdA) for the interconversion of 2-oxoglutarate (alpha-ketoglutarate) and succinyl-CoA. In addition to lipoate and thiamine pyrophosphate, FAD is also involved. In the course of the reaction CO2 is released and and one molecule of NAD+ is converted to NADH. This reaction is an essential component of the TCA (Krebs) cycle. None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12795 TIGR01971 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_357 F subunit None - {{∅}} None - {{∅}} Unexplained
GenProp0616 single complex oxygen reduction and quinone re-oxidation~Many aerobic bacteria have complexes for the reduction of oxygen that are independent of cytochrome c (as found in mitochondria). These complexes carry out the conversion of oxygen to water, the oxidation of reduced quinones and the pumping of protons to generate the proton gradient for ATP generateion. Examples include the cytochrome bd complex and the cytochrome bo complex. None - {{∅}} True - {{t}} Unconfirmed presence
Component_5432 NADH dehydrogenase I, G subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72486 TIGR02882 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72516 TIGR01432 HMM None - {{∅}} None - {{∅}} Unexplained
Component_51638 subunit III, CyoC None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72515 TIGR02901 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72440 PF01654 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12794 TIGR01962 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72557 TIGR01043 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_12754 TIGR01957 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72443 TIGR01433 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72655 TIGR02968 HMM None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0615 cytochrome c based oxygen reduction and quinone re-oxidation~Mitochondria and many aerobic bacteria utilize cytochrome c as a mobile electron carrier to couple the processes of oxygen reduction to water and quinone re-oxidation. These two processes occur on two separate complexes, cytochrome c oxidase and cytochrome c reductase, respectively. Both of these processes als o result in the pumping of protons across the cell membrane to generate the proton gradient necessary for ATP generation. None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72558 TIGR01041 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_81 TIGR00175 HMM None - {{∅}} None - {{∅}} Unexplained
Component_51679 single complex cytochrome (quinone) oxidase None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_91 TIGR01816 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_2678 TIGR01940 HMM None - {{∅}} None - {{∅}} Unexplained
Component_137 2-oxoglutarate dehydrogenase system None - {{∅}} True - {{t}} Unconfirmed presence
Component_51631 subunit II, CyoA None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12784 TIGR01961 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51521 subunit III (CcoP) None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72560 GenProp0629 GENPROP None - {{∅}} None - {{∅}} Unexplained
Component_51639 subunit IV, CyoD None - {{∅}} True - {{t}} Unconfirmed presence
Component_354 C subunit None - {{∅}} None - {{∅}} Unexplained
Evidence_12604 PF05681 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51617 quinone re-oxidation, oxygen reduction None - {{∅}} True - {{t}} Unconfirmed presence
Component_51732 A1 stalk complex, A subunit None - {{∅}} None - {{∅}} Unexplained
Evidence_12764 TIGR01958 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_5402 NADH dehydrogenase I, D subunit None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_82 TIGR00127 HMM None - {{∅}} None - {{∅}} Unexplained
Component_135 aconitate hydratase None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_68301 TIGR02736 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72441 PF02322 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_95 TIGR00979 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51733 A1 stalk complex, B subunit None - {{∅}} None - {{∅}} Unexplained
Component_51520 subunit II (CcoO) None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_55150 PF00137 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12724 PF00420 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72435 GenProp0483 GENPROP None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_79 TIGR01341 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_27940 TIGR02046 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_97 TIGR01758 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72496 GenProp0612 GENPROP None - {{∅}} None - {{∅},{t}} Unexplained
Evidence_2425 TIGR01144 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72552 GenProp0614 GENPROP None - {{∅}} None - {{∅}} Unexplained
Evidence_2674 TIGR01936 HMM None - {{∅}} None - {{∅}} Unexplained
Component_51657 Transporter for assembly, CydD None - {{∅}} True - {{t}} Unconfirmed presence
Component_51626 a cytochrome c oxidase None - {{∅}} True - {{t}} Unconfirmed presence
Component_51608 Generation of NADH from NAD+ by oxidation of electron donor molecules None - {{∅}} True - {{t}} Unconfirmed presence
Component_51624 iron-sulfur cluster subunit None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0629 A1/A0 ATPase~This ATP synthase is the archaebacterial version of the F1/F0 ATP synthase found in bacteria in the sense that it functions in the ATP synthetic direction [1], although it also has similarities to the V1/V0 (V-type, vacuolar) ATPase in eucarya which hydrolyzes ATP in order to acidify cellular compartments. None - {{∅}} None - {{∅}} Unexplained
Evidence_80 TIGR00117 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51522 subunit CcoQ None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72455 TIGR02847 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_2675 TIGR01937 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72567 TIGR02927 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_2676 TIGR01938 HMM None - {{∅}} None - {{∅}} Unexplained
Component_355 D subunit None - {{∅}} None - {{∅}} Unexplained
Evidence_12805 TIGR01973 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_2431 TIGR01216 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12674 PF01512 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12614 TIGR00979 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72570 GenProp0630 GENPROP None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_68300 TIGR00847 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51734 A1 stalk complex, C subunit None - {{∅}} None - {{∅}} Unexplained
Evidence_72474 TIGR02868 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72524 GenProp0616 GENPROP None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_2677 TIGR01939 HMM None - {{∅}} None - {{∅}} Unexplained
Evidence_72466 GenProp0618 GENPROP None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_68298 TIGR00782 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_76 TIGR01798 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51743 dihydrolipoamide succinyltransferase, SucB (E2) None - {{∅}} True - {{t}} Unconfirmed presence
GenProp0613 cytochrome c reductase~The component of the oxidative phosphorylation electron transfer chain responsible for transferring electrons from quinones to cytochrome c. None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_68297 TIGR00781 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_344 C subunit of ATP synthase F0 cluster None - {{∅}} True - {{t}} Unconfirmed presence
Component_51625 a cytochrome c reductase None - {{∅}} True - {{t}} Unconfirmed presence
Component_5482 NADH dehydrogenase I, K subunit None - {{∅}} None - {{∅}} Unexplained
Evidence_12624 PF00507 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_12734 TIGR01974 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Component_51629 subunit I, CydA None - {{∅}} True - {{t}} Unconfirmed presence
Component_51676 subunit II, QoxA None - {{∅}} None - {{∅}} Unexplained
Component_349 F1 epsilon subunit of F1/F0 ATP synthase None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_68296 TIGR00780 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_99 TIGR01772 HMM None - {{∅}} None - {{∅}} Unexplained
Component_51523 insertion/maturation protein CcoS None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72429 TIGR01416 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72559 TIGR00309 HMM None - {{∅}} None - {{∅}} Unexplained
GenProp0620 cytochrome (quinone) oxidase, aa3 type, QoxABCD~The cytochrome (quinone) oxidase complex QoxAB is closely related to the bacillus cytochrome c oxidase of the caa3 type. This complex couples the reduction of oxidized quinones with the reduction of molecular oxygen to water and the pumping of protons. None - {{∅}} None - {{∅}} Unexplained
Component_356 E subunit None - {{∅}} None - {{∅}} Unexplained
Evidence_12644 PF00329 HMM None - {{∅}} True - {{t}} Unconfirmed presence
Evidence_72556 PF01990 HMM None - {{∅}} None - {{∅}} Unexplained