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Recombinant Human Phosphoacetylglucosamine mutase(PGM3)

Recombinant Human Phosphoacetylglucosamine mutase(PGM3)

Manufacturer	Cusabio
Category	Peptides & Proteins Recombinant Proteins
Type	Proteins Recombinant
Specific against	other
Format	Liquid or Lyophilized powder
Amount	500ug
Host	E.coli
Item no.	CSB-EP017869HU-500
eClass 6.1	34160400
eClass 9.0	42020190
Available
Research Topic	Metabolism
Uniprot ID	O95394
Gene Names	PGM3
Organism	Homo sapiens (Human)
AA Sequence	MDLGAITKYSALHAKPNGLILQYGTAGFRTKAEHL DHVMFRMGLLAVLRSKQTKSTIGVMVTASHNPEED NGVKLVDPLGEMLAPSWEEHATCLANAEEQDMQRV LIDISEKEAVNLQQDAFVVIGRDTRPSSEKLSQSV IDGVTVLGGQFHDYGLLTTPQLHYMVYCRNTGGRY GKATIEGYYQKLSKAFVELTKQASCSGDEYRSLKV DCANGIGALKLREMEHYFSQGLSVQLFNDGSKGKL NHLCGADFVKSHQKPPQGMEIKSNERCCSFDGDAD RIVYYYHDADGHFHLIDGDKIATLISSFLKELLVE IGESLNIGVVQTAYANGSSTRYLEEVMKVPVYCTK TGVKHLHHKAQEFDIGVYFEANGHGTALFSTAVEM KIKQSAEQLEDKKRKAAKMLENIIDLFNQAAGDAI SDMLVIEAILALKGLTVQQWDALYTDLPNRQLKVQ VADRRVISTTDAERQAVTPPGLQEAINDLVKKYKL SRAFVRPSGTEDVVRVYAEADSQESADHLAHEVSL AVFQLAGGIGERPQPGF
Expression Region	1-542aa
Sequence Info	Full Length
Source	E.coli
Tag Info	N-terminal 6xHis-SUMO-tagged
MW	75.9 kDa
Alternative Name(s)	Acetylglucosamine phosphomutaseCurated
Relevance	Catalyzes the conversion of GlcNAc-6-P into GlcNAc-1-P during the synthesis of uridine diphosphate/UDP-GlcNAc, a sugar nucleotide critical to multiple glycosylation pathways including protein N- and O-glycosylation.
Reference	The DNA sequence and analysis of human chromosome 6.Mungall A.J., Palmer S.A., Sims S.K., Edwards C.A., Ashurst J.L., Wilming L., Jones M.C., Horton R., Hunt S.E., Scott C.E., Gilbert J.G.R., Clamp M.E., Bethel G., Milne S., Ainscough R., Almeida J.P., Ambrose K.D., Andrews T.D. , Ashwell R.I.S., Babbage A.K., Bagguley C.L., Bailey J., Banerjee R., Barker D.J., Barlow K.F., Bates K., Beare D.M., Beasley H., Beasley O., Bird C.P., Blakey S.E., Bray-Allen S., Brook J., Brown A.J., Brown J.Y., Burford D.C., Burrill W., Burton J., Carder C., Carter N.P., Chapman J.C., Clark S.Y., Clark G., Clee C.M., Clegg S., Cobley V., Collier R.E., Collins J.E., Colman L.K., Corby N.R., Coville G.J., Culley K.M., Dhami P., Davies J., Dunn M., Earthrowl M.E., Ellington A.E., Evans K.A., Faulkner L., Francis M.D., Frankish A., Frankland J., French L., Garner P., Garnett J., Ghori M.J., Gilby L.M., Gillson C.J., Glithero R.J., Grafham D.V., Grant M., Gribble S., Griffiths C., Griffiths M.N.D., Hall R., Halls K.S., Hammond S., Harley J.L., Hart E.A., Heath P.D., Heathcott R., Holmes S.J., Howden P.J., Howe K.L., Howell G.R., Huckle E., Humphray S.J., Humphries M.D., Hunt A.R., Johnson C.M., Joy A.A., Kay M., Keenan S.J., Kimberley A.M., King A., Laird G.K., Langford C., Lawlor S., Leongamornlert D.A., Leversha M., Lloyd C.R., Lloyd D.M., Loveland J.E., Lovell J., Martin S., Mashreghi-Mohammadi M., Maslen G.L., Matthews L., McCann O.T., McLaren S.J., McLay K., McMurray A., Moore M.J.F., Mullikin J.C., Niblett D., Nickerson T., Novik K.L., Oliver K., Overton-Larty E.K., Parker A., Patel R., Pearce A.V., Peck A.I., Phillimore B.J.C.T., Phillips S., Plumb R.W., Porter K.M., Ramsey Y., Ranby S.A., Rice C.M., Ross M.T., Searle S.M., Sehra H.K., Sheridan E., Skuce C.D., Smith S., Smith M., Spraggon L., Squares S.L., Steward C.A., Sycamore N., Tamlyn-Hall G., Tester J., Theaker A.J., Thomas D.W., Thorpe A., Tracey A., Tromans A., Tubby B., Wall M., Wallis J.M., West A.P., White S.S., Whitehead S.L., Whittaker H., Wild A., Willey D.J., Wilmer T.E., Wood J.M., Wray P.W., Wyatt J.C., Young L., Younger R.M., Bentley D.R., Coulson A., Durbin R.M., Hubbard T., Sulston J.E., Dunham I., Rogers J., Beck S.Nature 425:805-811(2003)
Purity	Greater than 90% as determined by SDS-PAGE.
Storage Buffer	Tris-based buffer, 50% glycerol
Storage	The shelf life is related to many factors, storage state, buffer ingredients, storage temperature and the stability of the protein itself. Generally, the shelf life of liquid form is 6 months at -20C/-80C. The shelf life of lyophilized form is 12 months at -20C/-80C.
Notes	Repeated freezing and thawing is not recommended. Store working aliquots at 4C for up to one week.
Function	Catalyzes the conversion of GlcNAc-6-P into GlcNAc-1-P during the synthesis of uridine diphosphate/UDP-GlcNAc, a sugar nucleotide critical to multiple glycosylation pathways including protein N- and O-glycosylation.
Involvement in disease	Immunodeficiency 23 (IMD23)
Protein Families	Phosphohexose mutase family
Tissue Specificity	Found in many tissues except lung. Relatively high expression in pancreas, heart, liver, and placenta, and relatively low expression in brain, skeletal muscle and kidney.
Tag Information	N-terminal 6xHis-SUMO-tagged

Note: The presented information and documents (Manual, Product Datasheet, Safety Datasheet and Certificate of Analysis) correspond to our latest update and should serve for orientational purpose only. We do not guarantee the topicality. We would kindly ask you to make a request for specific requirements, if necessary.

All products are intended for research use only (RUO). Not for human, veterinary or therapeutic use.

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