ID   2.7.7.2
DE   FAD synthase.
AN   FAD diphosphorylase.
AN   FAD pyrophosphorylase.
AN   FADS.
AN   flavin adenine dinucleotide synthetase.
AN   FMN adenylyltransferase.
CA   FMN + ATP + H(+) = FAD + diphosphate.
CC   -!- Highly specific for ATP as phosphate donor.
CC   -!- The cofactors FMN and FAD participate in numerous processes in all
CC       organisms, including mitochondrial electron transport,
CC       photosynthesis, fatty-acid oxidation, and metabolism of vitamin B6,
CC       vitamin B12 and folates.
CC   -!- While monofunctional FAD synthetase is found in eukaryotes and in
CC       some prokaryotes, most prokaryotes have a bifunctional enzyme that
CC       exhibits both this activity and that of EC 2.7.1.26.
DR   Q9LZE4, FAD1_ARATH ;  Q626I0, FAD1_CAEBR ;  Q22017, FAD1_CAEEL ;
DR   Q6FNA9, FAD1_CANGA ;  A0A2K3D179, FAD1_CHLRE ;  Q68EH8, FAD1_DANRE ;
DR   Q8NFF5, FAD1_HUMAN ;  A0A1U8CC89, FAD1_MESAU ;  Q8R123, FAD1_MOUSE ;
DR   Q5RCH4, FAD1_PONAB ;  D4A4P4, FAD1_RAT   ;  O74841, FAD1_SCHPO ;
DR   P38913, FAD1_YEAST ;  Q6ING7, FLAD1_XENLA;  Q7NBZ0, MNMA_MYCGA ;
DR   Q8Y7F2, RIBCF_LISMO;  P54575, RIBC_BACSU ;  Q8Y914, RIBC_LISMO ;
DR   Q9FMW8, RIBF1_ARATH;  Q8VZR0, RIBF2_ARATH;  P57250, RIBF_BUCAI ;
DR   Q8K9Z1, RIBF_BUCAP ;  Q59263, RIBF_CORAM ;  P0AG42, RIBF_ECO57 ;
DR   P0AG41, RIBF_ECOL6 ;  P0AG40, RIBF_ECOLI ;  A4IT50, RIBF_GEOTN ;
DR   P44957, RIBF_HAEIN ;  P47391, RIBF_MYCGE ;  P75587, RIBF_MYCPN ;
DR   Q10BX9, RIBF_ORYSJ ;  P22990, RIBF_PSEFL ;  O84990, RIBF_RHOOP ;
DR   P0AG43, RIBF_SHIFL ;  P73651, RIBF_SYNY3 ;  B5I9H4, RIBL_ACIB4 ;
DR   O28854, RIBL_ARCFU ;  D2RES5, RIBL_ARCPA ;  D3RZA9, RIBL_FERPA ;
DR   D8J4S4, RIBL_HALJB ;  B9LSN4, RIBL_HALLT ;  C7P4K0, RIBL_HALMD ;
DR   B0R450, RIBL_HALS3 ;  Q9HRB2, RIBL_HALSA ;  D2RTP8, RIBL_HALTV ;
DR   C7NTR1, RIBL_HALUD ;  D4GVJ2, RIBL_HALVD ;  B1L7J8, RIBL_KORCO ;
DR   A6UWK8, RIBL_META3 ;  Q8TPT5, RIBL_METAC ;  Q0W933, RIBL_METAR ;
DR   A7I4S0, RIBL_METB6 ;  Q46AS7, RIBL_METBF ;  Q12YR1, RIBL_METBU ;
DR   D7E8Z9, RIBL_METEZ ;  C7P607, RIBL_METFA ;  E3GWN9, RIBL_METFV ;
DR   Q2FT79, RIBL_METHJ ;  D5VUB0, RIBL_METIM ;  Q58579, RIBL_METJA ;
DR   Q8TXT2, RIBL_METKA ;  A2SQH8, RIBL_METLZ ;  A4FXX6, RIBL_METM5 ;
DR   A9AB01, RIBL_METM6 ;  A6VFN4, RIBL_METM7 ;  Q8Q095, RIBL_METMA ;
DR   A3CXW9, RIBL_METMJ ;  Q6LYP5, RIBL_METMP ;  D5EBS7, RIBL_METMS ;
DR   E1RHM5, RIBL_METP4 ;  B8GJN8, RIBL_METPE ;  D1YZF2, RIBL_METPS ;
DR   D3DZ18, RIBL_METRM ;  A5ULI6, RIBL_METS3 ;  D3S3T0, RIBL_METSF ;
DR   Q2NHB2, RIBL_METST ;  O26932, RIBL_METTH ;  D9PX81, RIBL_METTM ;
DR   A0B7A6, RIBL_METTP ;  D7DTT8, RIBL_METV3 ;  C9RF94, RIBL_METVM ;
DR   A6UNT3, RIBL_METVS ;  D3SYU6, RIBL_NATMM ;  Q3IQ95, RIBL_NATPD ;
DR   Q6L0A7, RIBL_PICTO ;  Q9UZ37, RIBL_PYRAB ;  Q8U1T9, RIBL_PYRFU ;
DR   O58466, RIBL_PYRHO ;  Q9HJ34, RIBL_THEAC ;  C5A1S7, RIBL_THEGJ ;
DR   Q5JHT4, RIBL_THEKO ;  B6YXC8, RIBL_THEON ;  C6A439, RIBL_THESM ;
DR   Q979C2, RIBL_THEVO ;
//