ID   5.6.2.4
DE   DNA 3'-5' helicase.
AN   Holliday junction DNA helicase.
CA   Couples ATP hydrolysis with the unwinding of duplex DNA by translocating
CA   in the 3'-5' direction.
CC   -!- Helicases are motor proteins that can transiently catalyze the
CC       unwinding of energetically stable duplex DNA or RNA molecules by
CC       using ATP hydrolysis as the source of energy (although other
CC       nucleoside triphosphates can replace ATP in some cases).
CC   -!- DNA helicases unwind duplex DNA and are involved in replication,
CC       repair, recombination, transcription, pre-rRNA processing,
CC       and translation initiation.
CC   -!- Mechanistically, DNA helicases are divided into those that can
CC       translocate in the 3'-5' direction and those that translocate in the
CC       5'-3' direction with respect to the strand on which they initially
CC       bind.
CC   -!- This entry describes a number of DNA helicases that translocate in
CC       the 3'-5' direction.
CC   -!- Many of the enzymes require a 3' single-stranded DNA tail.
CC   -!- The Rep protein is a component of the bacterial replisome, providing
CC       a replication fork-specific motor. The UvrD enzyme, found in Gram-
CC       negative bacteria, is involved in maintenance of chromosomal
CC       integrity. The RecQ proteins are a family of eukaryotic helicases
CC       that are involved in DNA replication, transcription and repair. The
CC       Mer3 helicase, found in fungi and plants, is required for crossover
CC       formation during meiosis. cf. EC 5.6.2.3, DNA 5'-3' helicase.
DR   A3DH19, ADDA_ACET2 ;  A6TVN2, ADDA_ALKMQ ;  A8MJ41, ADDA_ALKOO ;
DR   B7GM51, ADDA_ANOFW ;  A0RAX7, ADDA_BACAH ;  Q81TW1, ADDA_BACAN ;
DR   B7JDU4, ADDA_BACC0 ;  Q73C23, ADDA_BACC1 ;  B7IL84, ADDA_BACC2 ;
DR   B7HGP9, ADDA_BACC4 ;  B7HZR5, ADDA_BACC7 ;  A7GM37, ADDA_BACCN ;
DR   B9ITE9, ADDA_BACCQ ;  Q81GP9, ADDA_BACCR ;  Q63EM2, ADDA_BACCZ ;
DR   Q6HM43, ADDA_BACHK ;  Q65LJ9, ADDA_BACLD ;  A9VJ02, ADDA_BACMK ;
DR   A8FBR1, ADDA_BACP2 ;  P23478, ADDA_BACSU ;  A7Z368, ADDA_BACVZ ;
DR   Q8RCZ0, ADDA_CALS4 ;  Q3AA35, ADDA_CARHZ ;  Q97GV3, ADDA_CLOAB ;
DR   A7FPG0, ADDA_CLOB1 ;  C3L047, ADDA_CLOB6 ;  A6LPC4, ADDA_CLOB8 ;
DR   B2UX57, ADDA_CLOBA ;  B2THC8, ADDA_CLOBB ;  A5HYY0, ADDA_CLOBH ;
DR   C1FSA8, ADDA_CLOBJ ;  B1IEN0, ADDA_CLOBK ;  A7GAJ8, ADDA_CLOBL ;
DR   B1KUZ8, ADDA_CLOBM ;  Q18AN9, ADDA_CLOD6 ;  B9DZK4, ADDA_CLOK1 ;
DR   A5N628, ADDA_CLOK5 ;  A0PY67, ADDA_CLONN ;  Q0TV46, ADDA_CLOP1 ;
DR   Q8XPE2, ADDA_CLOPE ;  Q0SWW4, ADDA_CLOPS ;  B1I493, ADDA_DESAP ;
DR   B8FXD7, ADDA_DESHD ;  Q24WW8, ADDA_DESHY ;  A4J4E3, ADDA_DESRM ;
DR   Q836J8, ADDA_ENTFA ;  B1YKM8, ADDA_EXIS2 ;  Q5L263, ADDA_GEOKA ;
DR   A4IKW7, ADDA_GEOTN ;  B0TDI0, ADDA_HELMI ;  Q5FJX0, ADDA_LACAC ;
DR   B3WEJ1, ADDA_LACCB ;  Q1GAA9, ADDA_LACDA ;  Q04AN7, ADDA_LACDB ;
DR   Q043G6, ADDA_LACGA ;  A8YVK0, ADDA_LACH4 ;  Q74JA6, ADDA_LACJO ;
DR   Q9CJI9, ADDA_LACLA ;  A2RH77, ADDA_LACLM ;  Q033I1, ADDA_LACLS ;
DR   Q038V7, ADDA_LACP3 ;  A9KTE6, ADDA_LACP7 ;  Q88U41, ADDA_LACPL ;
DR   Q38X69, ADDA_LATSS ;  B1MZM2, ADDA_LEUCK ;  Q03W49, ADDA_LEUMM ;
DR   Q03NA7, ADDA_LEVBA ;  Q1WRS0, ADDA_LIGS1 ;  B2GEY4, ADDA_LIMF3 ;
DR   A5VHK2, ADDA_LIMRD ;  B2G532, ADDA_LIMRJ ;  Q929A9, ADDA_LISIN ;
DR   Q71X99, ADDA_LISMF ;  B8DF44, ADDA_LISMH ;  Q8Y511, ADDA_LISMO ;
DR   A0AL18, ADDA_LISW6 ;  B1HN90, ADDA_LYSSC ;  Q2RL77, ADDA_MOOTA ;
DR   B2A610, ADDA_NATTJ ;  Q8ERW5, ADDA_OCEIH ;  Q04GY7, ADDA_OENOB ;
DR   Q03D71, ADDA_PEDPA ;  A5D1P3, ADDA_PELTS ;  B8I2Y2, ADDA_RUMCH ;
DR   A7X0I2, ADDA_STAA1 ;  A6U074, ADDA_STAA2 ;  Q2FIA8, ADDA_STAA3 ;
DR   Q2FZT5, ADDA_STAA8 ;  A5IRE5, ADDA_STAA9 ;  Q2YWW4, ADDA_STAAB ;
DR   Q5HHB7, ADDA_STAAC ;  A6QFH8, ADDA_STAAE ;  Q99VC3, ADDA_STAAM ;
DR   Q7A6H4, ADDA_STAAN ;  Q6GIC1, ADDA_STAAR ;  Q6GAV9, ADDA_STAAS ;
DR   A8Z073, ADDA_STAAT ;  Q8NXE9, ADDA_STAAW ;  B9DIS2, ADDA_STACT ;
DR   Q5HQJ4, ADDA_STAEQ ;  Q8CPT9, ADDA_STAES ;  Q4L4Y3, ADDA_STAHJ ;
DR   Q49WA6, ADDA_STAS1 ;  Q3K1I4, ADDA_STRA1 ;  Q8E5T9, ADDA_STRA3 ;
DR   Q8E061, ADDA_STRA5 ;  B4U2H1, ADDA_STREM ;  A8AY33, ADDA_STRGC ;
DR   Q8DT76, ADDA_STRMU ;  Q9A0H3, ADDA_STRP1 ;  Q04KF8, ADDA_STRP2 ;
DR   P0CZ52, ADDA_STRP3 ;  B5E4P5, ADDA_STRP4 ;  Q5XCW6, ADDA_STRP6 ;
DR   Q8P1J2, ADDA_STRP8 ;  Q1JCJ8, ADDA_STRPB ;  Q1JMH5, ADDA_STRPC ;
DR   Q1JHM1, ADDA_STRPD ;  Q1J7E4, ADDA_STRPF ;  A2RFA8, ADDA_STRPG ;
DR   B1IBR6, ADDA_STRPI ;  B8ZQ32, ADDA_STRPJ ;  Q48UB8, ADDA_STRPM ;
DR   Q97QP9, ADDA_STRPN ;  P0CZ53, ADDA_STRPQ ;  B2IPX3, ADDA_STRPS ;
DR   B5XKR4, ADDA_STRPZ ;  Q8DPR6, ADDA_STRR6 ;  A4W0M7, ADDA_STRS2 ;
DR   C0MGY6, ADDA_STRS7 ;  A3CNT9, ADDA_STRSV ;  A4VUD2, ADDA_STRSY ;
DR   Q5LY80, ADDA_STRT1 ;  Q5M2T7, ADDA_STRT2 ;  Q03IZ8, ADDA_STRTD ;
DR   B9DRV0, ADDA_STRU0 ;  Q67MD5, ADDA_SYMTH ;  Q0AXU8, ADDA_SYNWW ;
DR   B0KDB7, ADDA_THEP3 ;  B0K213, ADDA_THEPX ;  O18017, BLM_CAEEL  ;
DR   Q9I920, BLM_CHICK  ;  Q9VGI8, BLM_DROME  ;  P54132, BLM_HUMAN  ;
DR   O88700, BLM_MOUSE  ;  Q9DEY9, BLM_XENLA  ;  Q9VDA0, FANCM_DROME;
DR   F1ND48, FBH1_CHICK ;  Q8NFZ0, FBH1_HUMAN ;  Q8K2I9, FBH1_MOUSE ;
DR   Q9USU3, FBH1_SCHPO ;  P15038, HELD_ECOLI ;  Q9YFQ8, HELS_AERPE ;
DR   P0DMI1, HELS_ARCFU ;  A8MB76, HELS_CALMQ ;  Q5UYM9, HELS_HALMA ;
DR   B0R7Q2, HELS_HALS3 ;  Q9HMV6, HELS_HALSA ;  Q8TL39, HELS_METAC ;
DR   Q0W6L1, HELS_METAR ;  A7IB61, HELS_METB6 ;  Q465R3, HELS_METBF ;
DR   Q12WZ6, HELS_METBU ;  Q58524, HELS_METJA ;  Q8PZR7, HELS_METMA ;
DR   O26901, HELS_METTH ;  A6UN73, HELS_METVS ;  Q3IU46, HELS_NATPD ;
DR   Q9V0A9, HELS_PYRAB ;  A3MSA1, HELS_PYRCJ ;  O73946, HELS_PYRFU ;
DR   O59025, HELS_PYRHO ;  Q97VY9, HELS_SACS2 ;  D0KN27, HELS_SACS9 ;
DR   Q4JC00, HELS_SULAC ;  F0NDL2, HELS_SULIR ;  Q974S1, HELS_SULTO ;
DR   Q9HJX7, HELS_THEAC ;  Q5JGV6, HELS_THEKO ;  Q97AI2, HELS_THEVO ;
DR   Q12039, HMI1_YEAST ;  Q09811, HUS2_SCHPO ;  O34580, PCRA_BACSU ;
DR   P56255, PCRA_GEOSE ;  Q9S3Q0, PCRA_LEUCI ;  Q53727, PCRA_STAA8 ;
DR   Q5HEL7, PCRA_STAAC ;  P64318, PCRA_STAAM ;  P64319, PCRA_STAAN ;
DR   Q6GFF2, PCRA_STAAR ;  Q6G828, PCRA_STAAS ;  Q8NVT1, PCRA_STAAW ;
DR   Q5HN29, PCRA_STAEQ ;  Q8CRT9, PCRA_STAES ;  O51578, RECB_BORBU ;
DR   P57529, RECB_BUCAI ;  Q8K9A9, RECB_BUCAP ;  Q89AB3, RECB_BUCBP ;
DR   Q9PLT8, RECB_CHLMU ;  Q9Z7G7, RECB_CHLPN ;  O84645, RECB_CHLTR ;
DR   P08394, RECB_ECOLI ;  P45157, RECB_HAEIN ;  A0QS29, RECB_MYCS2 ;
DR   P9WMQ2, RECB_MYCTO ;  P9WMQ3, RECB_MYCTU ;  A8WK63, RECQ1_CAEBR;
DR   Q9TXJ8, RECQ1_CAEEL;  P46063, RECQ1_HUMAN;  Q9Z129, RECQ1_MOUSE;
DR   Q5RF63, RECQ1_PONAB;  Q6AYJ1, RECQ1_RAT  ;  Q9FT73, RECQ2_ARATH;
DR   O94761, RECQ4_HUMAN;  Q75NR7, RECQ4_MOUSE;  O94762, RECQ5_HUMAN;
DR   Q8VID5, RECQ5_MOUSE;  D4ACP5, RECQ5_RAT  ;  O34748, RECQ_BACSU ;
DR   P15043, RECQ_ECOLI ;  P71359, RECQ_HAEIN ;  Q9CL21, RECQ_PASMU ;
DR   P40724, RECQ_SALTY ;  P73421, RECQ_SYNY3 ;  P50729, RECS_BACSU ;
DR   P57654, REP_BUCAI  ;  O51889, REP_BUCAP  ;  Q89A21, REP_BUCBP  ;
DR   P09980, REP_ECOLI  ;  P44804, REP_HAEIN  ;  Q9L6S1, REP_SALTY  ;
DR   Q9FT74, RQL1_ARATH ;  Q9FT72, RQL3_ARATH ;  Q8L840, RQL4A_ARATH;
DR   Q9FT70, RQL4B_ARATH;  Q0WVW7, RQL5_ARATH ;  Q9FT69, RQSIM_ARATH;
DR   P35187, SGS1_YEAST ;  D1KF50, SRS2L_ARATH;  Q10213, SRS2_SCHPO ;
DR   P12954, SRS2_YEAST ;  P0CT33, TLH1_SCHPO ;  Q1RKN3, TLH2_SCHPO ;
DR   P0A5A4, UVRD1_MYCBO;  Q9CD72, UVRD1_MYCLE;  P9WMQ0, UVRD1_MYCTO;
DR   P9WMQ1, UVRD1_MYCTU;  P64321, UVRD2_MYCBO;  P53528, UVRD2_MYCLE;
DR   P9WMP8, UVRD2_MYCTO;  P9WMP9, UVRD2_MYCTU;  P03018, UVRD_ECOLI ;
DR   Q02322, UVRD_HAEIN ;  P45612, UVRD_MYCCT ;  P47486, UVRD_MYCGE ;
DR   P75437, UVRD_MYCPN ;  Q1RIP8, UVRD_RICBR ;  Q92HZ6, UVRD_RICCN ;
DR   Q4ULN5, UVRD_RICFE ;  Q9ZD95, UVRD_RICPR ;  Q68WT1, UVRD_RICTY ;
DR   Q05311, UVRD_SALTY ;  Q19546, WRN_CAEEL  ;  Q14191, WRN_HUMAN  ;
DR   O09053, WRN_MOUSE  ;  O93530, WRN_XENLA  ;  P75438, Y340_MYCPN ;
DR   O31626, YJCD_BACSU ;  Q5UR49, YR568_MIMIV;
//