1.14.14.3 (E)-dec-2-enal + FMNH2 + O2 - Aliivibrio fischeri (E)-dec-2-enoate + FMN + H2O + hn - ? 442657 1.14.14.3 (E)-dec-2-enal + FMNH2 + O2 - Photobacterium leiognathi (E)-dec-2-enoate + FMN + H2O + hn - ? 442657 1.14.14.3 (E)-dec-2-enal + FMNH2 + O2 - Vibrio harveyi (E)-dec-2-enoate + FMN + H2O + hn - ? 442657 1.14.14.3 (E)-dec-2-enal + FMNH2 + O2 - Vibrio harveyi ATCC 14126 (E)-dec-2-enoate + FMN + H2O + hn - ? 442657 1.14.14.3 (E)-dec-2-enal + FMNH2 + O2 - Aliivibrio fischeri ATCC 7744 (E)-dec-2-enoate + FMN + H2O + hn - ? 442657 1.14.14.3 (E)-dodec-2-enal + FMNH2 + O2 - Aliivibrio fischeri (E)-dodec-2-enoate + FMN + H2O + hn - ? 442658 1.14.14.3 (E)-dodec-2-enal + FMNH2 + O2 - Photobacterium leiognathi (E)-dodec-2-enoate + FMN + H2O + hn - ? 442658 1.14.14.3 (E)-dodec-2-enal + FMNH2 + O2 - Vibrio harveyi (E)-dodec-2-enoate + FMN + H2O + hn - ? 442658 1.14.14.3 (E)-oct-2-enal + FMNH2 + O2 - Aliivibrio fischeri (2E)-oct-2-enoate + FMN + H2O + hn - ? 442659 1.14.14.3 (E)-oct-2-enal + FMNH2 + O2 - Photobacterium leiognathi (2E)-oct-2-enoate + FMN + H2O + hn - ? 442659 1.14.14.3 (E)-oct-2-enal + FMNH2 + O2 - Vibrio harveyi (2E)-oct-2-enoate + FMN + H2O + hn - ? 442659 1.14.14.3 (E)-tetradec-2-enal + FMNH2 + O2 - Aliivibrio fischeri (E)-tetradec-2-enoate + FMN + H2O + hn - ? 442660 1.14.14.3 (E)-tetradec-2-enal + FMNH2 + O2 - Photobacterium leiognathi (E)-tetradec-2-enoate + FMN + H2O + hn - ? 442660 1.14.14.3 (E)-tetradec-2-enal + FMNH2 + O2 - Vibrio harveyi (E)-tetradec-2-enoate + FMN + H2O + hn - ? 442660 1.14.14.3 4-N,N-(dimethyl)aminonaphthalene-9-N-(11-aldehydedodecyl)-1,8-dicarboximide + FMNH2 + O2 - Vibrio harveyi ? + FMN + H2O + hnu - ? 442930 1.14.14.3 4-N,N-(dimethyl)aminonaphthalene-9-N-(9-aldehyde-decyl)-1,8-dicarboximide + FMNH2 + O2 - Vibrio harveyi ? + FMN + H2O + hnu - ? 442931 1.14.14.3 4-N-(11-aldehyde-dodecyl)-7-N,N-dimethylsulfonic-2,1,3-benzoxadiazole + FMNH2 + O2 - Vibrio harveyi ? + FMN + H2O + hnu - ? 442932 1.14.14.3 4-N-(9-aldehyde-decyl)-7-N,N-dimethylsulfonic-2,1,3-benzoxadiazole + FMNH2 + O2 - Vibrio harveyi ? + FMN + H2O + hnu - ? 442933 1.14.14.3 a long-chain aldehyde + FMNH2 + O2 - Vibrio harveyi a long-chain fatty acid + FMN + H2O + hv - ? 462191 1.14.14.3 a long-chain aldehyde + FMNH2 + O2 supply of FNH2 can be achieved by 1-benzyl-1,4-dihydronicotinamide instead of a flavin reductase system Vibrio campbellii a long-chain fatty acid + FMN + H2O + hv - ? 462191 1.14.14.3 aldehyde + FMNH2 + O2 - Vibrio harveyi ? - ? 408334 1.14.14.3 an aldehyde + FMNH2 + O2 - Aliivibrio fischeri a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 an aldehyde + FMNH2 + O2 - Photobacterium phosphoreum a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 an aldehyde + FMNH2 + O2 - Photobacterium leiognathi a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 an aldehyde + FMNH2 + O2 - Vibrio harveyi a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 an aldehyde + FMNH2 + O2 - Photorhabdus laumondii subsp. laumondii a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 an aldehyde + FMNH2 + O2 a long chain aliphatic aldehyde as substrate Vibrio harveyi a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 an aldehyde + FMNH2 + O2 - Photorhabdus laumondii subsp. laumondii TT01 a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 an aldehyde + FMNH2 + O2 - Photobacterium phosphoreum ATCC 11040 a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 an aldehyde + FMNH2 + O2 - Photobacterium leiognathi ATCC 25521 a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 an aldehyde + FMNH2 + O2 - Vibrio harveyi ATCC BAA1116 a carboxylate + FMN + H2O + hnu - ? 413273 1.14.14.3 beetle luciferin + FMNH2 + O2 - Aliivibrio fischeri ? - ir 386378 1.14.14.3 coelenterazine + FMNH2 + O2 an imidazolopyrazine derivative Gaussia princeps CO2 + coelenteramide + FMN + light + H2O - ir 386420 1.14.14.3 decanal + FMNH + O2 - Bacteria decanoic acid + FMN + H2O + light - ir 231413 1.14.14.3 decanal + FMNH + O2 - Aliivibrio fischeri decanoic acid + FMN + H2O + light - ir 231413 1.14.14.3 decanal + FMNH + O2 - Photobacterium phosphoreum decanoic acid + FMN + H2O + light - ir 231413 1.14.14.3 decanal + FMNH + O2 - Photobacterium leiognathi decanoic acid + FMN + H2O + light - ir 231413 1.14.14.3 decanal + FMNH + O2 - Vibrio harveyi decanoic acid + FMN + H2O + light - ? 231413 1.14.14.3 decanal + FMNH + O2 - Vibrio harveyi decanoic acid + FMN + H2O + light - ir 231413 1.14.14.3 decanal + FMNH + O2 - Photorhabdus luminescens decanoic acid + FMN + H2O + light - ir 231413 1.14.14.3 decanal + FMNH + O2 - Vibrio sp. decanoic acid + FMN + H2O + light - ir 231413 1.14.14.3 decanal + FMNH + O2 - Vibrio cholerae serotype O1 decanoic acid + FMN + H2O + light - ir 231413 1.14.14.3 decanal + FMNH + O2 - Photobacterium sp. decanoic acid + FMN + H2O + light - ir 231413 1.14.14.3 decanal + FMNH- + O2 - Photobacterium leiognathi decanoic acid + FMN + H2O + hv - ? 428555 1.14.14.3 decanal + FMNH- + O2 - Vibrio campbellii decanoic acid + FMN + H2O + hv - ? 428555 1.14.14.3 decanal + FMNH- + O2 - Photobacterium leiognathi TH1 decanoic acid + FMN + H2O + hv - ? 428555 1.14.14.3 decanal + FMNH2 + O2 - Aliivibrio fischeri decanoate + FMN + H2O + hn - ? 376653 1.14.14.3 decanal + FMNH2 + O2 - Photobacterium leiognathi decanoate + FMN + H2O + hn - ? 376653 1.14.14.3 decanal + FMNH2 + O2 - Vibrio harveyi decanoate + FMN + H2O + hn - ? 376653 1.14.14.3 decanal + FMNH2 + O2 - Vibrio harveyi decanoate + FMN + H2O + hn - ir 376653 1.14.14.3 decanal + FMNH2 + O2 formation of a 4a-hydroperoxy-FMN intermediate II Vibrio harveyi decanoate + FMN + H2O + hn - ir 376653 1.14.14.3 decanal + FMNH2 + O2 - Vibrio harveyi ATCC 14126 decanoate + FMN + H2O + hn - ? 376653 1.14.14.3 decanal + FMNH2 + O2 - Aliivibrio fischeri ATCC 7744 decanoate + FMN + H2O + hn - ? 376653 1.14.14.3 decanal + FMNH2 + O2 - Vibrio harveyi decanoate + FMN + H2O + hv - ir 388497 1.14.14.3 decanal + FMNH2 + O2 - Aliivibrio fischeri decanoic acid + FMN + H2O + hnu - ? 428556 1.14.14.3 decanal + FMNH2 + O2 - Aliivibrio fischeri decanoic acid + FMN + H2O + hv - ? 428557 1.14.14.3 decanal + FMNH2 + O2 - Vibrio harveyi decanoic acid + FMN + H2O + hv - ? 428557 1.14.14.3 decanal + FMNH2 + O2 - Photorhabdus luminescens decanoic acid + FMN + H2O + hv - ? 428557 1.14.14.3 decanal + FMNH2 + O2 - Aliivibrio fischeri decanoic acid + FMN + H2O + hv light emission at 490 nm ? 428557 1.14.14.3 decanal + FMNH2 + O2 - Photobacterium leiognathi decanoic acid + FMN + H2O + hv light emission at 490 nm ? 428557 1.14.14.3 decanal + FMNH2 + O2 - Vibrio harveyi decanoic acid + FMN + H2O + hv light emission at 490 nm ? 428557 1.14.14.3 decanal + FMNH2 + O2 - Photorhabdus luminescens decanoic acid + FMN + H2O + hv light emission at 490 nm ? 428557 1.14.14.3 decanal + FMNH2 + O2 - Vibrio harveyi decanoate + FMN + H2O + hnu - ? 443447 1.14.14.3 decanal + riboflavin + O2 riboflavin is a very poor substrate for bacterial luciferase Vibrio harveyi ? - ? 409264 1.14.14.3 dodecanal + FMNH + O2 - Bacteria dodecanoic acid + FMN + H2O + light - ir 231415 1.14.14.3 dodecanal + FMNH + O2 - Aliivibrio fischeri dodecanoic acid + FMN + H2O + light - ir 231415 1.14.14.3 dodecanal + FMNH + O2 - Photobacterium phosphoreum dodecanoic acid + FMN + H2O + light - ir 231415 1.14.14.3 dodecanal + FMNH + O2 - Photobacterium leiognathi dodecanoic acid + FMN + H2O + light - ir 231415 1.14.14.3 dodecanal + FMNH + O2 - Vibrio harveyi dodecanoic acid + FMN + H2O + light - ? 231415 1.14.14.3 dodecanal + FMNH + O2 - Vibrio harveyi dodecanoic acid + FMN + H2O + light - ir 231415 1.14.14.3 dodecanal + FMNH + O2 - Photorhabdus luminescens dodecanoic acid + FMN + H2O + light - ir 231415 1.14.14.3 dodecanal + FMNH + O2 - Vibrio sp. dodecanoic acid + FMN + H2O + light - ir 231415 1.14.14.3 dodecanal + FMNH + O2 - Vibrio cholerae serotype O1 dodecanoic acid + FMN + H2O + light - ir 231415 1.14.14.3 dodecanal + FMNH + O2 - Photobacterium sp. dodecanoic acid + FMN + H2O + light - ir 231415 1.14.14.3 dodecanal + FMNH2 + O2 - Aliivibrio fischeri dodecanoate + FMN + H2O + hn - ? 376745 1.14.14.3 dodecanal + FMNH2 + O2 - Photobacterium leiognathi dodecanoate + FMN + H2O + hn - ? 376745 1.14.14.3 dodecanal + FMNH2 + O2 - Vibrio harveyi dodecanoate + FMN + H2O + hn - ? 376745 1.14.14.3 dodecanal + FMNH2 + O2 - Vibrio harveyi dodecanoate + FMN + H2O + hn - ir 376745 1.14.14.3 dodecanal + FMNH2 + O2 - Vibrio harveyi ATCC 14126 dodecanoate + FMN + H2O + hn - ? 376745 1.14.14.3 dodecanal + FMNH2 + O2 - Aliivibrio fischeri ATCC 7744 dodecanoate + FMN + H2O + hn - ? 376745 1.14.14.3 dodecanal + FMNH2 + O2 - Aliivibrio fischeri dodecanoic acid + FMN + H2O + hv - ? 428598 1.14.14.3 dodecyl aldehyde + FMNH + O2 - Aliivibrio fischeri ? - ? 409336 1.14.14.3 fatty aldehyde + FMNH2 + O2 - Vibrio harveyi fatty acid + FMN + H2O + hn - ir 375125 1.14.14.3 FMNH + O2 - Aliivibrio fischeri FMN + H2O2 - ? 231416 1.14.14.3 FMNH + O2 - Photobacterium leiognathi FMN + H2O2 - ? 231416 1.14.14.3 FMNH + O2 - Vibrio harveyi FMN + H2O2 - ? 231416 1.14.14.3 hexachlorethane + e- - Vibrio harveyi tetrachlorethylene + Cl- - ? 231419 1.14.14.3 luciferin + O2 + ATP - Luciola mingrelica oxyluciferin + AMP + diphosphate + CO2 + light - ir 231420 1.14.14.3 luciferin + O2 + ATP - Pyrocystis lunula oxyluciferin + AMP + diphosphate + CO2 + light - ir 231420 1.14.14.3 additional information aldehydes of chain-length 8 or more required Aliivibrio fischeri ? - ? 89 1.14.14.3 additional information aldehydes of chain-length 8 or more required Photobacterium phosphoreum ? - ? 89 1.14.14.3 additional information aldehydes of chain-length 8 or more required Vibrio harveyi ? - ? 89 1.14.14.3 additional information complex formation in a 1:1 molar ratio between monomeric, but not dimeric, NADPH:FMN oxidoreductase FRP and luciferase for direct transfer of cofactor FMNH2 Vibrio harveyi ? - ? 89 1.14.14.3 additional information luminescence pathway, overview Vibrio harveyi ? - ? 89 1.14.14.3 additional information the decay rate of the enzyme is determined by residue Glu175 of the central region of the LuxA subunit, distinction between slow and fast decay luciferases is primarily due to differences in aldehyde affinity and in the decomposition of the luciferase-flavin-oxygen intermediate Photorhabdus luminescens ? - ? 89 1.14.14.3 additional information the enzyme plays a role in protection of cells against oxidative stress Vibrio harveyi ? - ? 89 1.14.14.3 additional information substrate specificities of mutant enzymes and wild-type enzyme, overview Vibrio harveyi ? - ? 89 1.14.14.3 additional information substrate specificity and quantum yield of mutant E175G as a function of aldehyde chain length Photorhabdus luminescens ? - ? 89 1.14.14.3 additional information the Gluc luciferase retains its luminescence output in the stationary phase of growth and exhibits enhanced stability during exposure to low pH, hydrogen peroxide, and high temperature Gaussia princeps ? - ? 89 1.14.14.3 additional information Vibrio harveyi NADPH-specific flavin reductase FRP transfers reduced riboflavin-5'-phosphate to luciferase by both free diffusion and direct transfer, resulting inbioluminescence production, FRP:luciferase coupled bioluminescence reaction, overview, increases in oxygen concentration lead to gradual decreases of the peak bioluminescence intensity, Km for FMN, and Km for NADPH of NADPH-specific flavin reductase in the coupled reaction with luciferase Vibrio harveyi ? - ? 89 1.14.14.3 additional information active site hydrophobicity is critical to the bioluminescence activity of Vibrio harveyi luciferase Vibrio harveyi ? - ? 89 1.14.14.3 additional information the 4a-hydroperoxy-4a,5-dihydroFMN intermediate luciferase transforms from a low quantum yield IIx to a high quantum yield IIy fluorescent species on exposure to excitation light Vibrio harveyi ? - ? 89 1.14.14.3 additional information electrochemical luminescence system using bacterial luciferase, in which one of the substrates, FMNH2, is regenerated by the electrochemical reduction of FMN at a Pt-mesh electrode Aliivibrio fischeri ? - ? 89 1.14.14.3 additional information FMNH2 binds to a mobile loop of 29 amino acids in the luciferase protein, loop modeling of ligand-free and -bound enzyme, conformation and dynamics, overview Vibrio harveyi ? - ? 89 1.14.14.3 additional information LuxG is a NADH:FMN oxidoreductase that supplies FMNH- to luciferase in vivo Vibrio campbellii ? - ? 89 1.14.14.3 additional information LuxG is a NADH:FMN oxidoreductase that supplies FMNH? to luciferase in vivo Photobacterium leiognathi ? - ? 89 1.14.14.3 additional information enzyme accepts unsaturated aldehydes as substrates but light emission drops drastically compared to saturated aldehydes. The onset and the decay rate of bioluminescence are much slower, when using unsaturated substrates. As a result the duration of the light emission is doubled Aliivibrio fischeri ? - ? 89 1.14.14.3 additional information enzyme accepts unsaturated aldehydes as substrates but light emission drops drastically compared to saturated aldehydes. The onset and the decay rate of bioluminescence are much slower, when using unsaturated substrates. As a result the duration of the light emission is doubled Photobacterium leiognathi ? - ? 89 1.14.14.3 additional information enzyme accepts unsaturated aldehydes as substrates but light emission drops drastically compared to saturated aldehydes. The onset and the decay rate of bioluminescence are much slower, when using unsaturated substrates. As a result the duration of the light emission is doubled Vibrio harveyi ? - ? 89 1.14.14.3 additional information enzyme accepts unsaturated aldehydes as substrates but light emission drops drastically compared to saturated aldehydes. The onset and the decay rate of bioluminescence are much slower, when using unsaturated substrates. As a result the duration of the light emission is doubled Vibrio harveyi ATCC 14126 ? - ? 89 1.14.14.3 additional information LuxG is a NADH:FMN oxidoreductase that supplies FMNH? to luciferase in vivo Photobacterium leiognathi TH1 ? - ? 89 1.14.14.3 additional information enzyme accepts unsaturated aldehydes as substrates but light emission drops drastically compared to saturated aldehydes. The onset and the decay rate of bioluminescence are much slower, when using unsaturated substrates. As a result the duration of the light emission is doubled Aliivibrio fischeri ATCC 7744 ? - ? 89 1.14.14.3 myristic aldehyde + FMNH + O2 - Photorhabdus luminescens myristic acid + FMN + H2O + light - ? 231417 1.14.14.3 n-caprinaldehyde + FMNH2 + O2 - Aliivibrio fischeri n-caprinoate + FMN + H2O + hv - ir 386588 1.14.14.3 n-decanal + FMNH2 + O2 3-step process via H2O2 as intermediate Aliivibrio fischeri n-decanoate + FMN + H2O + hn generation of blue-green light of wavelength 490 nm ir 377241 1.14.14.3 n-decanal + FMNH2 + O2 3-step process via H2O2 as intermediate Photorhabdus luminescens n-decanoate + FMN + H2O + hn generation of blue-green light of wavelength 490 nm ir 377241 1.14.14.3 nonanal + FMNH2 + O2 - Vibrio harveyi nonanoate + FMN + H2O + hn - ir 377388 1.14.14.3 octanal + FMNH + O2 - Bacteria octanoic acid + FMN + H2O + light - ir 231414 1.14.14.3 octanal + FMNH + O2 - Aliivibrio fischeri octanoic acid + FMN + H2O + light - ir 231414 1.14.14.3 octanal + FMNH + O2 - Photobacterium phosphoreum octanoic acid + FMN + H2O + light - ir 231414 1.14.14.3 octanal + FMNH + O2 - Photobacterium leiognathi octanoic acid + FMN + H2O + light - ir 231414 1.14.14.3 octanal + FMNH + O2 - Vibrio harveyi octanoic acid + FMN + H2O + light - ? 231414 1.14.14.3 octanal + FMNH + O2 - Vibrio harveyi octanoic acid + FMN + H2O + light - ir 231414 1.14.14.3 octanal + FMNH + O2 - Photorhabdus luminescens octanoic acid + FMN + H2O + light - ir 231414 1.14.14.3 octanal + FMNH + O2 - Vibrio sp. octanoic acid + FMN + H2O + light - ir 231414 1.14.14.3 octanal + FMNH + O2 - Vibrio cholerae serotype O1 octanoic acid + FMN + H2O + light - ir 231414 1.14.14.3 octanal + FMNH + O2 - Photobacterium sp. octanoic acid + FMN + H2O + light - ir 231414 1.14.14.3 octanal + FMNH2 + O2 - Vibrio harveyi octanoate + FMN + H2O + hn - ir 377406 1.14.14.3 pentachlorethane + e- - Vibrio harveyi trichlorethylene + Cl- - ? 231418 1.14.14.3 RCHO + FMNH2 + O2 - Vibrio harveyi RCOOH + FMN + H2O + hn - ir 375269 1.14.14.3 RCHO + FMNH2 + O2 3-step process via H2O2 as intermediate Aliivibrio fischeri RCOOH + FMN + H2O + hn generation of blue-green light of wavelength 490 nm ir 375269 1.14.14.3 RCHO + FMNH2 + O2 3-step process via H2O2 as intermediate Photorhabdus luminescens RCOOH + FMN + H2O + hn generation of blue-green light of wavelength 490 nm ir 375269 1.14.14.3 RCHO + FMNH2 + O2 long-chain aldehydes Photorhabdus luminescens RCOOH + FMN + H2O + hn long-chain fatty acids, bioluminescence reaction ir 375269 1.14.14.3 RCHO + FMNH2 + O2 formation of a 4a-hydroperoxy-FMN intermediate II Vibrio harveyi RCOOH + FMN + H2O + hn - ir 375269 1.14.14.3 RCHO + FMNH2 + O2 formation of a C4a-hydroperoxyflavin intermediate Vibrio harveyi RCOOH + FMN + H2O + hn - ir 375269 1.14.14.3 RCHO + FMNH2 + O2 - Aliivibrio fischeri RCOOH + FMN + H2O + hnu - ? 394977 1.14.14.3 RCHO + FMNH2 + O2 - Vibrio harveyi RCOOH + FMN + H2O + hnu - ? 394977 1.14.14.3 RCHO + FMNH2 + O2 reduced FMN, i.e. FMNH2, generated by several species of flavin reductases, is utilized along with a long-chain aliphatic aldehyde and molecular oxygen by luciferase as substrates for the bioluminescence reaction, direct transfer of reduced flavin cofactor and reduced flavin product of reductase to luciferase, NADPH-specific FMN reductase and luciferase form a complex in vivo, reduction of reductase-bound FMN cofactor by NADPH is reversible, allowing the cellular contents of NADP+ and NADPH as a factor for the regulation of the production of FMNH2 by FRPVh for luciferase bioluminescence, overview Aliivibrio fischeri RCOOH + FMN + H2O + hnu - ? 394977 1.14.14.3 RCHO + FMNH2 + O2 reduced FMN, i.e. FMNH2, generated by several species of flavin reductases, is utilized along with a long-chain aliphatic aldehyde and molecular oxygen by luciferase as substrates for the bioluminescence reaction, direct transfer of reduced flavin cofactor and reduced flavin product of reductase to luciferase, NADPH-specific FMN reductase and luciferase form a complex in vivo, reduction of reductase-bound FMN cofactor by NADPH is reversible, allowing the cellular contents of NADP+ and NADPH as a factor for the regulation of the production of FMNH2 by FRPVh for luciferase bioluminescence, overview Vibrio harveyi RCOOH + FMN + H2O + hnu - ? 394977 1.14.14.3 RCHO + FMNH2 + O2 - Aliivibrio fischeri RCOOH + FMN + H2O + hv - ? 427519 1.14.14.3 RCHO + FMNH2 + O2 - Vibrio harveyi RCOOH + FMN + H2O + hv - ? 427519 1.14.14.3 RCHO + FMNH2 + O2 - Vibrio campbellii RCOOH + FMN + H2O + hv the enzyme is emitting blue-green light at 490 nm ? 427519 1.14.14.3 RCHO + FMNH2 + O2 - Vibrio harveyi BB120 RCOOH + FMN + H2O + hv - ? 427519 1.14.14.3 tetradecanal + FMNH2 + O2 - Aliivibrio fischeri tetradecanoate + FMN + H2O + hn - ? 375327 1.14.14.3 tetradecanal + FMNH2 + O2 - Photobacterium leiognathi tetradecanoate + FMN + H2O + hn - ? 375327 1.14.14.3 tetradecanal + FMNH2 + O2 - Vibrio harveyi tetradecanoate + FMN + H2O + hn - ? 375327 1.14.14.3 tetradecanal + FMNH2 + O2 - Vibrio harveyi tetradecanoate + FMN + H2O + hn - ir 375327 1.14.14.3 tetradecanal + FMNH2 + O2 - Vibrio harveyi ATCC 14126 tetradecanoate + FMN + H2O + hn - ? 375327 1.14.14.3 tetradecanal + FMNH2 + O2 - Aliivibrio fischeri ATCC 7744 tetradecanoate + FMN + H2O + hn - ? 375327 1.14.14.3 undecanal + FMNH2 + O2 - Vibrio harveyi undecanoate + FMN + H2O + hn - ir 378312