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{PDOC00589}
{PS00710; PGM_PMM}
{BEGIN}
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* Phosphoglucomutase and phosphomannomutase phosphoserine signature *
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 - Phosphoglucomutase (EC 5.4.2.2) (PGM). PGM  is  an  enzyme  responsible for
   the conversion  of  D-glucose 1-phosphate into  D-glucose 6-phosphate.  PGM
   participates in both the breakdown and synthesis of glucose [1].
 - Phosphomannomutase (EC 5.4.2.8) (PMM).  PMM  is  an enzyme  responsible for
   the conversion of D-mannose 1-phosphate into D-mannose 6-phosphate.  PMM is
   required for  different biosynthetic pathways in bacteria.  For example, in
   enterobacteria  such  as Escherichia coli  there  are  two  different genes
   coding for this  enzyme:  rfbK  which is involved in the synthesis of the O
   antigen of lipopolysaccharide and cpsG  which is required for the synthesis
   of the M antigen capsular polysaccharide [2]. In Pseudomonas aeruginosa PMM
   (gene algC) is  involved  in the biosynthesis of the alginate layer [3] and
   in Xanthomonas campestris (gene xanA) it is involved in the biosynthesis of
   xanthan [4].  In  Rhizobium strain ngr234 (gene noeK) it is involved in the
   biosynthesis of the nod factor.
 - Phosphoacetylglucosamine  mutase  (EC  5.4.2.3)  which converts N-acetyl-D-
   glucosamine 1-phosphate into the 6-phosphate isomer.

The  catalytic  mechanism  of  both  PGM  and  PMM involves the formation of a
phosphoserine intermediate [1]. The sequence around the serine residue is well
conserved and can be used as a signature pattern.

In addition to PGM and PMM there  are  at least three uncharacterized proteins
that belong to this family [5,6]:

 - Urease operon protein ureC from Helicobacter pylori.
 - Escherichia coli protein mrsA.
 - Paramecium   tetraurelia   parafusin,  a  phosphoglycoprotein  involved  in
   exocytosis.
 - A Methanococcus vannielii hypothetical protein  in the 3'region of the gene
   for ribosomal protein S10.

-Consensus pattern: [GSA]-[LIVMF]-x-[LIVM]-[ST]-[PGA]-S-H-[NIC]-P
                    [S is the phosphoserine residue]
-Sequences known to belong to this class detected by the pattern: ALL.
-Other sequence(s) detected in Swiss-Prot: NONE.

-Note: PMM from fungi do not belong to this family.

-Last update: December 2001 / Pattern and text revised.

[ 1] Dai J.B., Liu Y., Ray W.J. Jr., Konno M.
     "The crystal structure of muscle phosphoglucomutase refined at
     2.7-angstrom resolution."
     J. Biol. Chem. 267:6322-6337(1992).
     PubMed=1532581
[ 2] Stevenson G., Lee S.J., Romana L.K., Reeves P.R.
     "The cps gene cluster of Salmonella strain LT2 includes a second
     mannose pathway: sequence of two genes and relationship to genes in
     the rfb gene cluster."
     Mol. Gen. Genet. 227:173-180(1991).
     PubMed=1712067
[ 3] Zielinski N.A., Chakrabarty A.M., Berry A.
     "Characterization and regulation of the Pseudomonas aeruginosa algC
     gene encoding phosphomannomutase."
     J. Biol. Chem. 266:9754-9763(1991).
     PubMed=1903398
[ 4] Koeplin R., Arnold W., Hoette B., Simon R., Wang G., Puehler A.
     J. Bacteriol. 174:191-199(1992).
[ 5] Bairoch A.
     Unpublished observations (1993).
[ 6] Subramanian S.V., Wyroba E., Andersen A.P., Satir B.H.
     Proc. Natl. Acad. Sci. U.S.A. 91:9832-9836(1994).

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