HHsearch alignment for GI: 254780750 and conserved domain: TIGR01189

>TIGR01189 ccmA heme ABC exporter, ATP-binding protein CcmA; InterPro: IPR005895 ABC transporters belong to the ATP-Binding Cassette (ABC) superfamily, which uses the hydrolysis of ATP to energize diverse biological systems. ABC transporters are minimally constituted of two conserved regions: a highly conserved ATP binding cassette (ABC) and a less conserved transmembrane domain (TMD). These regions can be found on the same protein or on two different ones. Most ABC transporters function as a dimer and therefore are constituted of four domains, two ABC modules and two TMDs. ABC transporters are involved in the export or import of a wide variety of substrates ranging from small ions to macromolecules. The major function of ABC import systems is to provide essential nutrients to bacteria. They are found only in prokaryotes and their four constitutive domains are usually encoded by independent polypeptides (two ABC proteins and two TMD proteins). Prokaryotic importers require additional extracytoplasmic binding proteins (one or more per systems) for function. In contrast, export systems are involved in the extrusion of noxious substances, the export of extracellular toxins and the targeting of membrane components. They are found in all living organisms and in general the TMD is fused to the ABC module in a variety of combinations. Some eukaryotic exporters encode the four domains on the same polypeptide chain . The ABC module (approximately two hundred amino acid residues) is known to bind and hydrolyze ATP, thereby coupling transport to ATP hydrolysis in a large number of biological processes. The cassette is duplicated in several subfamilies. Its primary sequence is highly conserved, displaying a typical phosphate-binding loop: Walker A, and a magnesium binding site: Walker B. Besides these two regions, three other conserved motifs are present in the ABC cassette: the switch region which contains a histidine loop, postulated to polarize the attaching water molecule for hydrolysis, the signature conserved motif (LSGGQ) specific to the ABC transporter, and the Q-motif (between Walker A and the signature), which interacts with the gamma phosphate through a water bond. The Walker A, Walker B, Q-loop and switch region form the nucleotide binding site , , . The 3D structure of a monomeric ABC module adopts a stubby L-shape with two distinct arms. ArmI (mainly beta-strand) contains Walker A and Walker B. The important residues for ATP hydrolysis and/or binding are located in the P-loop. The ATP-binding pocket is located at the extremity of armI. The perpendicular armII contains mostly the alpha helical subdomain with the signature motif. It only seems to be required for structural integrity of the ABC module. ArmII is in direct contact with the TMD. The hinge between armI and armII contains both the histidine loop and the Q-loop, making contact with the gamma phosphate of the ATP molecule. ATP hydrolysis leads to a conformational change that could facilitate ADP release. In the dimer the two ABC cassettes contact each other through hydrophobic interactions at the antiparallel beta-sheet of armI by a two-fold axis , , , , , . Proteins known to belong to this family are classified in several functional subfamilies depending on the substrate used (for further information see http://www.tcdb.org/tcdb/index.php?tc=3.A.1). This family contains the cytochrome c biogenesis protein encoded by ccmA in bacteria and one arabidopsis protein, possibly encoded by an organelle. Bacterial c-type cytochromes are located on the periplasmic side of the cytoplasmic membrane. Several gene products encoded in a locus designated as 'ccm' are implicated in the transport and assembly of the functional cytochrome C. This cluster includes genes: ccmA;B;C;D;E;F;G and H. The post-translational pathway includes the transport of a heme moiety, the secretion of the apoprotein and the covalent attachment of the heme with the apoprotein. The proteins ccmA and B represent an ABC transporter; ccmC and D participate in heme transfer to ccmE, which functions as a periplasmic heme chaperone. The presence of ccmF, G and H is suggested to be obligatory for the final functional assembly of cytochrome c.; GO: 0005215 transporter activity, 0017004 cytochrome complex assembly, 0030288 outer membrane-bounded periplasmic space.
Probab=97.21  E-value=0.00036  Score=49.57  Aligned_cols=124  Identities=27%  Similarity=0.280  Sum_probs=64.6

Q ss_conf             0444345635877776643999967784407899999999999997-----------198530353-2068221056765
Q Consensus       633 ~fVpNdi~l~~~~~~~~~~~~iiTGpNmgGKSt~lRqval~vilAQ-----------iG~fVPA~~-a~i~~~D~IftRi  700 (920)
T Consensus        15 ~f~~l~F~l~------aGe~l~v~GpNG~GKTtLLR~LAGL~~P~~G~v~~~~~~~~~~~~~~~~~~~YlGH~~GlK~~L   88 (204)
T ss_conf             3011234540------7827898606987357899999850588665575288224211564778788885100345013

Q ss_pred             ECCCCCCCCCCHHHHHHHH---------------------HHHHHH----------------HCCCCCEEEEECCCCCCC
Q ss_conf             2376611385328999999---------------------999999----------------589985699932588988
Q gi|254780750|r  701 GSADNLASGRSTFMVEMIE---------------------TASILN----------------QATNQSFVILDEIGRGTA  743 (920)
Q Consensus       701 Ga~D~l~~g~STF~vEm~e---------------------~~~IL~----------------~at~~SLVllDElGrGTs  743 (920)
T Consensus        89 sa~ENL-----~F~~~~~~stCs~~~~~~~~AL~~vgL~g~e~~p~~~LSAGQqRRlaLARL~l~~~PlWiLDEP---~t  160 (204)
T ss_conf             778879-----9999985201683124779999760843314589874061468999999886337972220365---14

Q ss_conf             056--79999999-999997269849997487
Q gi|254780750|r  744 TLD--GLSIAWAT-IEYLHETNRCRGLLATHF  772 (920)
Q Consensus       744 t~D--G~aiA~ai-le~l~~~~~~~~lfaTHy  772 (920)
T Consensus       161 ALD~~Gv~~l~~~~~~H~-~r-GG~vlltTH~  190 (204)
T ss_conf             306899999999999998-60-0513663475