RPSBLAST alignment for GI: 254780273 and conserved domain: TIGR01188
>gnl|CDD|130256 TIGR01188, drrA, daunorubicin resistance ABC transporter ATP-binding subunit. This model describes daunorubicin resistance ABC transporter, ATP binding subunit in bacteria and archaea. This model is restricted in its scope to preferentially recognize the ATP binding subunit associated with effux of the drug, daunorubicin. This transport system belong to the larger ATP-Binding Cassette (ABC) transporter superfamily. The characteristic feature of these transporter is the obligatory coupling of ATP hydrolysis to substrate translocation. The minimal configuration of bacterial ABC transport system: an ATPase or ATP binding subunit; An integral membrane protein; a hydrophilic polypetpide, which likely functions as substrate binding protein. In eukaryotes proteins of similar function include p-gyco proteins, multidrug resistance protein etc. Length = 302
Score = 84.7 bits (210), Expect = 5e-17
Identities = 63/194 (32%), Positives = 93/194 (47%), Gaps = 13/194 (6%)
Query: 325 KSYNDRLLIDNLSFKLPPGGIVGVIGPNGAGKTTLFRMLTGDESPDSGTIHVGETVCLSY 384
K Y D +D ++FK+ G + G +GPNGAGKTT RMLT P SGT V +
Sbjct: 1 KVYGDFKAVDGVNFKVREGEVFGFLGPNGAGKTTTIRMLTTLLRPTSGTARVAGYDVVRE 60
Query: 385 VDQSRDSLE---AEKTVWEDISGGDDIV------KLNGHEINSRAYCSAFNFKGGDQQQR 435
+ R S+ +V ED++G +++ L E RA F+ G+ R
Sbjct: 61 PRKVRRSIGIVPQYASVDEDLTGRENLEMMGRLYGLPKDEAEERAEELLELFELGEAADR 120
Query: 436 -IGSLSGGQRGRVHLAKILKSGGNVILLDEPTNDLDTETLSALEDALENF--AGCAVII- 491
+G+ SGG R R+ +A L +V+ LDEPT LD T A+ D + G +++
Sbjct: 121 PVGTYSGGMRRRLDIAASLIHQPDVLFLDEPTTGLDPRTRRAIWDYIRALKEEGVTILLT 180
Query: 492 SHDRMFLDRLATHI 505
+H D+L I
Sbjct: 181 THYMEEADKLCDRI 194