HHsearch alignment for GI: 254780872 and conserved domain: TIGR00740

>TIGR00740 TIGR00740 methyltransferase, putative; InterPro: IPR005271 Methyl transfer from the ubiquitous S-adenosyl-L-methionine (AdoMet) to either nitrogen, oxygen or carbon atoms is frequently employed in diverse organisms ranging from bacteria to plants and mammals. The reaction is catalyzed by methyltransferases (Mtases) and modifies DNA, RNA, proteins and small molecules, such as catechol for regulatory purposes. The various aspects of the role of DNA methylation in prokaryotic restriction-modification systems and in a number of cellular processes in eukaryotes including gene regulation and differentiation is well documented. Three classes of DNA Mtases transfer the methyl group from AdoMet to the target base to form either N-6-methyladenine, or N-4-methylcytosine, or C-5- methylcytosine. In C-5-cytosine Mtases, ten conserved motifs are arranged in the same order . Motif I (a glycine-rich or closely related consensus sequence; FAGxGG in M.HhaI ), shared by other AdoMet-Mtases , is part of the cofactor binding site and motif IV (PCQ) is part of the catalytic site. In contrast, sequence comparison among N-6-adenine and N-4-cytosine Mtases indicated two of the conserved segments , although more conserved segments may be present. One of them corresponds to motif I in C-5-cytosine Mtases, and the other is named (D/N/S)PP(Y/F). Crystal structures are known for a number of Mtases , , , . The cofactor binding sites are almost identical and the essential catalytic amino acids coincide. The comparable protein folding and the existence of equivalent amino acids in similar secondary and tertiary positions indicate that many (if not all) AdoMet-Mtases have a common catalytic domain structure. This permits tertiary structure prediction of other DNA, RNA, protein, and small-molecule AdoMet-Mtases from their amino acid sequences . The proteins of this family are restricted to the Proteobacteria, sharing consistent length, full-length homology, and on average better than 35 0dentity. It is reasonable to predict equivalent function within this subfamily. .
Probab=98.94  E-value=2.7e-09  Score=78.28  Aligned_cols=117  Identities=17%  Similarity=0.281  Sum_probs=89.8

Q ss_pred             HHHHHHHHHHCCCCCCCCCCHHHCCEEEECCCHHHHHHHHHHC----CCCEEEECCHHHHHHHHHHHHHCC--CCCCCCC
Q ss_conf             9999998865187644458800162888569856999999731----981699521356778888653101--1211112
Q gi|254780872|r   45 KYIQDKIMQHFQCKSDDTHPFKGLRILDLGCGGGLLSEPMAQM----GATVTGIDPSTKNIAIAKNHANMK--NINIDYR  118 (254)
Q Consensus        45 ~~I~~~i~~~~~~~~~~~~~l~g~~VLDiGCG~G~~s~~la~~----g~~V~giD~S~~~i~~Ak~~a~~~--~~~i~~~  118 (254)
T Consensus        45 yfI~~nL~E~~~~k-----slp~~~vYDLGCS~G~~~l~~~R~I~~~~~~~igIDNS~pM~~~~~~~~~~y~~~~Pv~~~  119 (247)
T TIGR00740        45 YFIGMNLAERFVPK-----SLPKPLVYDLGCSTGAATLSLRRNIQQDNIKIIGIDNSMPMLERCREHIKAYKNAIPVEVL  119 (247)
T ss_pred             HHHHHHHHHHHHHH-----CCCCCCEEECCCCHHHHHHHHHHCCCCCCEEEEEECCCHHHHHHHHHHHHHHCCCCCEEEE
T ss_conf             99987777654331-----1688741223343235776653046878537988418888999999999874247882320


Q ss_pred             CCCCCCCCCCCCCHHHHEECCCHHCCC--CHHHHHHHHHHHCCCCCEEEEEC
Q ss_conf             210012321115301300124310268--88899888875213332157743
Q gi|254780872|r  119 VSCAEEIAETDEKFDIILNMEVIEHVD--NIPYFIKTCCSLLLSNGLMFIST  168 (254)
Q Consensus       119 ~~~~~~l~~~~~~FD~V~~~~vleHv~--d~~~~l~~~~~~LkpgG~liist  168 (254)
T Consensus       120 ~~D~~~v~~~~AS--~~~L~F~LQFl~P~~R~~LL~KIY~~L~~nGvL~lsE  169 (247)
T TIGR00740       120 CMDIREVEIKNAS--MVVLNFTLQFLRPEEREALLKKIYNGLNPNGVLVLSE  169 (247)
T ss_pred             HHHHHHHHHHHHH--HHHHHHHHHCCCCHHHHHHHHHHHHHCCCCCEEEEEC
T ss_conf             1024566665546--8878877604782347999999874107786688632