ID 5.1.99.6 DE NAD(P)H-hydrate epimerase. AN NAD(P)HX epimerase. CA (1) (6R)-NADHX = (6S)-NADHX. CA (2) (6R)-NADPHX = (6S)-NADPHX. CC -!- The enzyme can use either (R)-NADH-hydrate or (R)-NADPH-hydrate as a CC substrate. CC -!- Its physiological role is to convert the (R) forms to the (S) forms, CC which could then be restored to active dinucleotides by EC 4.2.1.93. DR E3HVU4, NNRE_ACHXA ; Q17GW6, NNRE_AEDAE ; C0NNH7, NNRE_AJECG ; DR C7RGH4, NNRE_ANAPD ; E3XA68, NNRE_ANODA ; Q7Q0G5, NNRE_ANOGA ; DR Q4WUG4, NNRE_ASPFU ; Q7WGX4, NNRE_BORBR ; Q7W9T3, NNRE_BORPA ; DR F4LHM0, NNRE_BORPC ; A9IJP4, NNRE_BORPD ; Q7VVH8, NNRE_BORPE ; DR Q6QRN6, NNRE_BOVIN ; C3YDS7, NNRE_BRAFL ; A8X5H6, NNRE_CAEBR ; DR Q9XW15, NNRE_CAEEL ; Q59VX9, NNRE_CANAL ; C4YF50, NNRE_CANAW ; DR E2QRY6, NNRE_CANLF ; A0RY06, NNRE_CENSY ; B9KJP6, NNRE_CERSK ; DR A5CSB9, NNRE_CLAM3 ; B0RHY9, NNRE_CLAMS ; Q5KJ55, NNRE_CRYNJ ; DR Q6DHK1, NNRE_DANRE ; E9HCD7, NNRE_DAPPU ; D8K3Q1, NNRE_DEHLB ; DR Q55CV0, NNRE_DICDI ; B3N0Q8, NNRE_DROAN ; B3NW64, NNRE_DROER ; DR B4JJQ3, NNRE_DROGR ; Q9W2Y3, NNRE_DROME ; B4L8C7, NNRE_DROMO ; DR B4GWP5, NNRE_DROPE ; Q29FV5, NNRE_DROPS ; B4IDM2, NNRE_DROSE ; DR B4M2R8, NNRE_DROVI ; B4NEH6, NNRE_DROWI ; B4PXF5, NNRE_DROYA ; DR B2KES3, NNRE_ELUMP ; C4M2B8, NNRE_ENTH1 ; B0RZQ3, NNRE_FINM2 ; DR C7Z508, NNRE_FUSV7 ; A8BQZ5, NNRE_GIAIC ; Q8NCW5, NNRE_HUMAN ; DR E8R1E4, NNRE_ISOPI ; B7QDG3, NNRE_IXOSC ; D5TAM8, NNRE_LEGP2 ; DR Q5X170, NNRE_LEGPA ; A5IHZ5, NNRE_LEGPC ; Q5ZRQ9, NNRE_LEGPH ; DR F4FTW6, NNRE_LENBN ; B1MW95, NNRE_LEUCK ; D8MHV4, NNRE_LEUGG ; DR D5T3F2, NNRE_LEUKI ; Q03UV9, NNRE_LEUMM ; F8HWV7, NNRE_LEUS2 ; DR Q03NP0, NNRE_LEVBA ; B2GER9, NNRE_LIMF3 ; A5VML0, NNRE_LIMRD ; DR B2G9W3, NNRE_LIMRJ ; F8DQP1, NNRE_LIMRS ; E8N877, NNRE_MICTS ; DR F7FIH8, NNRE_MONDO ; Q8K4Z3, NNRE_MOUSE ; A7RPT4, NNRE_NEMVE ; DR Q7SGL3, NNRE_NEUCR ; A9A432, NNRE_NITMS ; Q04HC3, NNRE_OENOB ; DR A0E3W6, NNRE_PARTE ; E0V9D8, NNRE_PEDHC ; Q0UZH1, NNRE_PHANO ; DR Q0PIT9, NNRE_PIG ; D2QYP6, NNRE_PIRSD ; Q8IKN4, NNRE_PLAF7 ; DR B3L9G8, NNRE_PLAKH ; D5SRZ4, NNRE_PLAL2 ; A5K3F9, NNRE_PLAVS ; DR E3KGP2, NNRE_PUCGT ; B0BNM1, NNRE_RAT ; Q7ULX4, NNRE_RHOBA ; DR D5ATX8, NNRE_RHOCB ; F7ZKE9, NNRE_ROSLO ; F0SLK8, NNRE_RUBBR ; DR O13725, NNRE_SCHPO ; A7F1E9, NNRE_SCLS1 ; B8LCD8, NNRE_THAPS ; DR D7CWZ0, NNRE_TRURR ; Q4PB52, NNRE_USTMA ; F8I1D0, NNRE_WEIKK ; DR F7DL67, NNRE_XENTR ; Q6CDL0, NNRE_YARLI ; P40165, NNRE_YEAST ; DR O67377, NNR_AQUAE ; O29407, NNR_ARCFU ; Q8NSS3, NNR_CORGL ; DR Q83CM5, NNR_COXBU ; B8E2P6, NNR_DICTD ; P31806, NNR_ECOLI ; DR Q7NIE6, NNR_GLOVI ; Q9ZJM4, NNR_HELPJ ; P56176, NNR_HELPY ; DR A2BLC0, NNR_HYPBU ; B1L3W1, NNR_KORCO ; A4H7T9, NNR_LEIBR ; DR A4HW65, NNR_LEIIN ; Q4QFL5, NNR_LEIMA ; Q2FT57, NNR_METHJ ; DR Q58981, NNR_METJA ; Q8TX67, NNR_METKA ; O27324, NNR_METTH ; DR Q2RGI2, NNR_MOOTA ; P37391, NNR_MYCLE ; P9WF10, NNR_MYCTO ; DR P9WF11, NNR_MYCTU ; Q8ZV04, NNR_PYRAE ; Q2S580, NNR_SALRD ; DR P74217, NNR_SYNY3 ; D1BAA5, NNR_THEAS ; Q9X024, NNR_THEMA ; DR A1S0R2, NNR_THEPD ; Q8DGC3, NNR_THEVB ; B5YIM0, NNR_THEYD ; DR Q9KMX5, NNR_VIBCH ; Q9LTX3, PPOX1_ARATH; //