| Analysis | Hit | start | end | length | Note | Hit coverage | Hit length | Hit pident | Hit pcons | eValue | Hit description |
| blastp_kegg | bfu:BC1G_08482 | 1 | 698 | 698 | n/a | 100.00 | 698 | 100.00 | 0.00 | 0.0 | hypothetical protein K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| ssl:SS1G_10238 | 1 | 687 | 687 | n/a | 93.47 | 735 | 93.74 | 4.08 | 0.0 | hypothetical protein K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| ure:UREG_05801 | 1 | 694 | 694 | Gaps:3 | 100.00 | 693 | 72.44 | 13.13 | 0.0 | hypothetical protein K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| cim:CIMG_07097 | 1 | 694 | 694 | Gaps:3 | 100.00 | 693 | 72.44 | 12.70 | 0.0 | hypothetical protein K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| afv:AFLA_077250 | 3 | 688 | 686 | Gaps:3 | 98.41 | 694 | 72.77 | 13.03 | 0.0 | fatty-acyl coenzyme A oxidase (Pox1) putative K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| aor:AO090005000479 | 3 | 688 | 686 | Gaps:3 | 98.41 | 694 | 72.77 | 13.03 | 0.0 | acyl-CoA oxidase K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| fgr:FG02287.1 | 1 | 689 | 689 | Gaps:3 | 99.14 | 696 | 71.59 | 12.32 | 0.0 | hypothetical protein K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| nfi:NFIA_027340 | 3 | 688 | 686 | Gaps:4 | 98.55 | 692 | 71.70 | 12.02 | 0.0 | acyl-CoA oxidase K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| pcs:Pc20g01800 | 3 | 689 | 687 | Gaps:2 | 98.56 | 695 | 71.24 | 12.26 | 0.0 | Pc20g01800 K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| ani:AN6752.2 | 3 | 688 | 686 | Gaps:2 | 98.28 | 696 | 70.47 | 13.30 | 0.0 | hypothetical protein K00232 acyl-CoA oxidase [EC:1.3.3.6] |
| blastp_uniprot_sprot | sp|O65202|ACOX1_ARATH | 16 | 676 | 661 | Gaps:59 | 96.69 | 664 | 39.41 | 17.91 | 1e-118 | Peroxisomal acyl-coenzyme A oxidase 1 OS Arabidopsis thaliana GN ACX1 PE 1 SV 1 |
| sp|Q9ZQP2|ACO12_ARATH | 24 | 696 | 673 | Gaps:63 | 98.19 | 664 | 38.96 | 18.40 | 1e-116 | Putative peroxisomal acyl-coenzyme A oxidase 1.2 OS Arabidopsis thaliana GN ACX1.2 PE 2 SV 1 |
| sp|P07872|ACOX1_RAT | 21 | 676 | 656 | Gaps:56 | 97.13 | 661 | 38.94 | 20.25 | 1e-112 | Peroxisomal acyl-coenzyme A oxidase 1 OS Rattus norvegicus GN Acox1 PE 1 SV 1 |
| sp|Q15067|ACOX1_HUMAN | 21 | 672 | 652 | Gaps:48 | 96.67 | 660 | 39.03 | 19.91 | 1e-110 | Peroxisomal acyl-coenzyme A oxidase 1 OS Homo sapiens GN ACOX1 PE 1 SV 3 |
| sp|Q9Z1N0|ACOX1_CAVPO | 21 | 676 | 656 | Gaps:58 | 97.13 | 661 | 38.79 | 20.72 | 1e-110 | Peroxisomal acyl-coenzyme A oxidase 1 OS Cavia porcellus GN ACOX1 PE 2 SV 1 |
| sp|Q5RC19|ACOX1_PONAB | 21 | 672 | 652 | Gaps:48 | 96.67 | 660 | 39.03 | 19.91 | 1e-110 | Peroxisomal acyl-coenzyme A oxidase 1 OS Pongo abelii GN ACOX1 PE 2 SV 2 |
| sp|Q9R0H0|ACOX1_MOUSE | 21 | 676 | 656 | Gaps:52 | 97.13 | 661 | 38.32 | 20.40 | 1e-110 | Peroxisomal acyl-coenzyme A oxidase 1 OS Mus musculus GN Acox1 PE 1 SV 4 |
| sp|Q8HYL8|ACOX1_PHACI | 21 | 672 | 652 | Gaps:54 | 96.52 | 661 | 39.34 | 17.55 | 1e-109 | Peroxisomal acyl-coenzyme A oxidase 1 OS Phascolarctos cinereus GN ACOX1 PE 1 SV 1 |
| sp|Q3SZP5|ACOX1_BOVIN | 21 | 676 | 656 | Gaps:54 | 97.27 | 660 | 38.63 | 19.47 | 1e-109 | Peroxisomal acyl-coenzyme A oxidase 1 OS Bos taurus GN ACOX1 PE 2 SV 1 |
| sp|Q54GQ6|ACOX1_DICDI | 50 | 685 | 636 | Gaps:72 | 92.29 | 700 | 34.06 | 21.21 | 2e-96 | Peroxisomal acyl-coenzyme A oxidase 1 OS Dictyostelium discoideum GN acox1 PE 3 SV 1 |
| blastp_pdb | 1w07_B | 16 | 676 | 661 | Gaps:59 | 97.42 | 659 | 39.41 | 17.76 | 1e-118 | mol:protein length:659 ACYL-COA OXIDASE |
| 1w07_A | 16 | 676 | 661 | Gaps:59 | 97.42 | 659 | 39.41 | 17.76 | 1e-118 | mol:protein length:659 ACYL-COA OXIDASE |
| 2fon_C | 16 | 672 | 657 | Gaps:43 | 93.41 | 683 | 38.56 | 21.00 | 1e-114 | mol:protein length:683 peroxisomal acyl-CoA oxidase 1A |
| 2fon_B | 16 | 672 | 657 | Gaps:43 | 93.41 | 683 | 38.56 | 21.00 | 1e-114 | mol:protein length:683 peroxisomal acyl-CoA oxidase 1A |
| 2fon_A | 16 | 672 | 657 | Gaps:43 | 93.41 | 683 | 38.56 | 21.00 | 1e-114 | mol:protein length:683 peroxisomal acyl-CoA oxidase 1A |
| 2ddh_A | 21 | 676 | 656 | Gaps:52 | 97.13 | 661 | 39.10 | 19.00 | 1e-113 | mol:protein length:661 Acyl-CoA oxidase |
| 1is2_B | 21 | 676 | 656 | Gaps:52 | 97.13 | 661 | 39.10 | 19.00 | 1e-113 | mol:protein length:661 acyl-CoA oxidase |
| 1is2_A | 21 | 676 | 656 | Gaps:52 | 97.13 | 661 | 39.10 | 19.00 | 1e-113 | mol:protein length:661 acyl-CoA oxidase |
| rpsblast_cdd | gnl|CDD|173839 | 20 | 667 | 648 | Gaps:87 | 99.84 | 610 | 37.60 | 19.54 | 1e-147 | cd01150 AXO Peroxisomal acyl-CoA oxidase. Peroxisomal acyl-CoA oxidases (AXO) catalyze the first set in the peroxisomal fatty acid beta-oxidation the alpha beta dehydrogenation of the corresponding trans-enoyl-CoA by FAD which becomes reduced. In a second oxidative half-reaction the reduced FAD is reoxidized by molecular oxygen. AXO is generally a homodimer but it has been reported to form a different type of oligomer in yeast. There are several subtypes of AXO's based on substrate specificity. Palmitoyl-CoA oxidase acts on straight-chain fatty acids and prostanoids whereas the closely related Trihydroxycoprostanoly-CoA oxidase has the greatest activity for 2-methyl branched side chains of bile precursors. Pristanoyl-CoA oxidase acts on 2-methyl branched fatty acids. AXO has an additional domain C-terminal to the region with similarity to acyl-CoA dehydrogenases which is included in this alignment. |
| gnl|CDD|166084 | 24 | 672 | 649 | Gaps:61 | 94.88 | 664 | 39.84 | 17.46 | 1e-130 | PLN02443 PLN02443 acyl-CoA oxidase. |
| gnl|CDD|166277 | 113 | 643 | 531 | Gaps:67 | 75.87 | 688 | 34.87 | 17.82 | 9e-67 | PLN02636 PLN02636 acyl-CoA oxidase. |
| gnl|CDD|165953 | 113 | 643 | 531 | Gaps:59 | 74.30 | 681 | 33.60 | 17.59 | 7e-64 | PLN02312 PLN02312 acyl-CoA oxidase. |
| gnl|CDD|145092 | 507 | 679 | 173 | Gaps:14 | 93.01 | 186 | 33.53 | 20.81 | 2e-29 | pfam01756 ACOX Acyl-CoA oxidase. This is a family of Acyl-CoA oxidases EC:1.3.3.6. Acyl-coA oxidase converts acyl-CoA into trans-2- enoyl-CoA. |
| gnl|CDD|173838 | 120 | 468 | 349 | Gaps:66 | 86.54 | 327 | 25.80 | 15.90 | 7e-27 | cd00567 ACAD Acyl-CoA dehydrogenase. Both mitochondrial acyl-CoA dehydrogenases (ACAD) and peroxisomal acyl-CoA oxidases (AXO) catalyze the alpha beta dehydrogenation of the corresponding trans-enoyl-CoA by FAD which becomes reduced. The reduced form of ACAD is reoxidized in the oxidative half-reaction by electron-transferring flavoprotein (ETF) from which the electrons are transferred to the mitochondrial respiratory chain coupled with ATP synthesis. In contrast AXO catalyzes a different oxidative half-reaction in which the reduced FAD is reoxidized by molecular oxygen. The ACAD family includes the eukaryotic beta-oxidation enzymes short (SCAD) medium (MCAD) long (LCAD) and very-long (VLCAD) chain acyl-CoA dehydrogenases. These enzymes all share high sequence similarity but differ in their substrate specificities. The ACAD family also includes amino acid catabolism enzymes such as Isovaleryl-CoA dehydrogenase (IVD) short/branched chain acyl-CoA dehydrogenases(SBCAD) Isobutyryl-CoA dehydrogenase (IBDH) glutaryl-CoA deydrogenase (GCD) and Crotonobetainyl-CoA dehydrogenase. The mitochondrial ACAD's are generally homotetramers except for VLCAD which is a homodimer. Related enzymes include the SOS adaptive reponse proten aidB Naphthocyclinone hydroxylase (NcnH) and and Dibenzothiophene (DBT) desulfurization enzyme C (DszC). |
| gnl|CDD|32143 | 96 | 476 | 381 | Gaps:66 | 80.66 | 393 | 26.18 | 15.14 | 8e-19 | COG1960 CaiA Acyl-CoA dehydrogenases [Lipid metabolism]. |
| gnl|CDD|173840 | 127 | 323 | 197 | Gaps:31 | 43.01 | 386 | 31.33 | 15.06 | 7e-11 | cd01151 GCD Glutaryl-CoA dehydrogenase. Glutaryl-CoA dehydrogenase (GCD). GCD is an acyl-CoA dehydrogenase which catalyzes the oxidative decarboxylation of glutaryl-CoA to crotonyl-CoA and carbon dioxide in the catabolism of lysine hydroxylysine and tryptophan. It uses electron transfer flavoprotein (ETF) as an electron acceptor. GCD is a homotetramer. GCD deficiency leads to a severe neurological disorder in humans. |
| gnl|CDD|173847 | 115 | 323 | 209 | Gaps:29 | 48.79 | 373 | 31.87 | 13.74 | 2e-10 | cd01158 SCAD_SBCAD Short chain acyl-CoA dehydrogenases and eukaryotic short/branched chain acyl-CoA dehydrogenases. Short chain acyl-CoA dehydrogenase (SCAD). SCAD is a mitochondrial beta-oxidation enzyme. It catalyzes the alpha beta dehydrogenation of the corresponding trans-enoyl-CoA by FAD which becomes reduced. The reduced form of SCAD is reoxidized in the oxidative half-reaction by electron-transferring flavoprotein (ETF) from which the electrons are transferred to the mitochondrial respiratory chain coupled with ATP synthesis. This subgroup also contains the eukaryotic short/branched chain acyl-CoA dehydrogenase(SBCAD) the bacterial butyryl-CoA dehydorgenase(BCAD) and 2-methylbutyryl-CoA dehydrogenase which is involved in isoleucine catabolism. These enzymes are homotetramers. |
| rpsblast_kog | gnl|CDD|35358 | 24 | 682 | 659 | Gaps:41 | 95.82 | 670 | 40.97 | 19.00 | 1e-166 | KOG0136 KOG0136 KOG0136 Acyl-CoA oxidase [Lipid transport and metabolism]. |
| gnl|CDD|35357 | 112 | 659 | 548 | Gaps:54 | 80.18 | 661 | 36.42 | 16.23 | 1e-102 | KOG0135 KOG0135 KOG0135 Pristanoyl-CoA/acyl-CoA oxidase [Lipid transport and metabolism Secondary metabolites biosynthesis transport and catabolism]. |
| gnl|CDD|35360 | 114 | 323 | 210 | Gaps:29 | 41.90 | 432 | 30.94 | 19.34 | 2e-13 | KOG0138 KOG0138 KOG0138 Glutaryl-CoA dehydrogenase [Amino acid transport and metabolism]. |
| gnl|CDD|35362 | 31 | 323 | 293 | Gaps:55 | 68.14 | 408 | 24.46 | 15.47 | 3e-09 | KOG0140 KOG0140 KOG0140 Medium-chain acyl-CoA dehydrogenase [Lipid transport and metabolism]. |
| gnl|CDD|35361 | 107 | 326 | 220 | Gaps:28 | 48.24 | 398 | 27.60 | 14.06 | 6e-09 | KOG0139 KOG0139 KOG0139 Short-chain acyl-CoA dehydrogenase [Lipid transport and metabolism]. |
Gene Identifier
Genome Report System - copyright INRA 2011