HHsearch alignment for GI: peg_887 and conserved domain: cd03260

>cd03260 ABC_PstB_phosphate_transporter Phosphate uptake is of fundamental importance in the cell physiology of bacteria because phosphate is required as a nutrient. The Pst system of E. coli comprises four distinct subunits encoded by the pstS, pstA, pstB, and pstC genes. The PstS protein is a phosphate-binding protein located in the periplasmic space. P stA and PstC are hydrophobic and they form the transmembrane portion of the Pst system. PstB is the catalytic subunit, which couples the energy of ATP hydrolysis to the import of phosphate across cellular membranes through the Pst system, often referred as ABC-protein. PstB belongs to one of the largest superfamilies of proteins characterized by a highly conserved adenosine triphosphate (ATP) binding cassette (ABC), which is also a nucleotide binding domain (NBD).
Probab=92.78  E-value=0.086  Score=31.98  Aligned_cols=49  Identities=18%  Similarity=0.098  Sum_probs=30.2

Q ss_pred             CCCCEEEEECCCCCCHHHHHHHHHHHCCCEEEECCHHH-HHCCCCCCCCC
Q ss_conf             89849999879873344999999988198797500442-11682224234
Q 537021.9.peg.8    8 THTKAIFISGPTASGKSLCAVNLAHKFNGAIINADSMQ-VYDTLRILTSR   56 (133)
Q Consensus         8 ~~~~ii~I~GpTasGKT~lai~LA~~~~~~IIs~DS~Q-vYk~l~IgTaK   56 (133)
T Consensus        24 ~~Ge~~~iiG~SGsGKSTll~~i~gL~~~~~~~p~~G~I~~~g~~i~~~~   73 (227)
T cd03260          24 PKGEITALIGPSGCGKSTLLRLLNRLNDLIPGAPDEGEVLLDGKDIYDLD   73 (227)
T ss_pred             CCCCEEEEECCCCCCHHHHHHHHHHHHHCCCCCCCCEEEEECCEECCCCC
T ss_conf             79989999999998199999999744502689981469999999998899