HHsearch alignment for GI: 254780267 and conserved domain: TIGR01235

>TIGR01235 pyruv_carbox pyruvate carboxylase; InterPro: IPR005930 In the postabsorptive state, blood glucose concentration is kept constant by a combination of glycogenolysis and gluconeogenesis. During prolonged fasting, when hepatic glycogen is exhausted, gluconeogenesis becomes the only source of plasma glucose. Gluconeogenesis (the production of new glucose molecules) occurs mainly in liver and, to a small extent, in kidneys. Pyruvate carboxylase (6.4.1.1 from EC), a member of the biotin-dependent enzyme family, catalyses the ATP-dependent carboxylation of pyruvate to oxaloacetate, thus playing a crucial role in gluconeogenesis. ATP + pyruvate + HCO3- = ADP + phosphate + oxaloacetate Most well characterised forms of active enzyme consist of four identical subunits arranged in a tetrahedron-like structure. Each subunit contains three functional domains: the biotin carboxylation domain, the transcarboxylation domain and the biotin carboxyl carrier domain.; GO: 0004736 pyruvate carboxylase activity, 0006094 gluconeogenesis, 0005737 cytoplasm.
Probab=95.84  E-value=0.0084  Score=37.43  Aligned_cols=31  Identities=48%  Similarity=0.781  Sum_probs=29.1

Q ss_pred             EEECCCCCEEEEEECCCCCCCCCCCEEEEEE
Q ss_conf             9998998199999848986836997299995
Q gi|254780267|r  135 HIVAPCSGKVQDINVKDGQSVEYGDALLVLE  165 (171)
Q Consensus       135 ~I~a~~~G~I~~i~v~~G~~V~~gq~L~~i~  165 (171)
T Consensus      1102 hvGApMpG~v~~v~v~~G~~v~kGd~l~~~~ 1132 (1169)
T TIGR01235      1102 HVGAPMPGVVIEVKVEAGQKVNKGDPLVVLE 1132 (1169)
T ss_pred             HCCCCCCCCEEEEEEECCCEECCCCEEEEEE
T ss_conf             2256899707999941387301678489960