Entry
Name
(RefSeq) bifunctional UDP-N-acetylglucosamine 2-epimerase/N-acetylmannosamine kinase-like isoform X1
KO
Organism
aamu Asterias amurensis (Northern Pacific seastar)
Pathway
aamu00520 Amino sugar and nucleotide sugar metabolism
aamu00541 Biosynthesis of various nucleotide sugars
Module
aamu_M00955 CMP-Neu5Ac/Neu5Gc biosynthesis, animals, UDP-GlcNAc => CMP-Neu5Ac => CMP-Neu5Gc
Brite
Enzymes [BR:aamu01000 ]
2. Transferases
2.7 Transferring phosphorus-containing groups
2.7.1 Phosphotransferases with an alcohol group as acceptor
2.7.1.60 N-acylmannosamine kinase
139940505
3. Hydrolases
3.2 Glycosylases
3.2.1 Glycosidases, i.e. enzymes that hydrolyse O- and S-glycosyl compounds
3.2.1.183 UDP-N-acetylglucosamine 2-epimerase (hydrolysing)
139940505
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Other DBs
LinkDB
All DBs
Position
8:complement(3974723..4019143)
Genome browser
AA seq
783 aa AA seq DB search
MPVFGGSLQGSRVSSRHKKDPHDFDNIHSNLVQRNLKHVLNSQDNSMEPTAAKRANCVSV
ESNNATSEAYKMRICVATCNRADYSKLAPIMQAIKKDEELELSVIVLGCHLIDDYGSTYR
YIEQDGIYIDSRLHTIVRGEDEAAMVESVGLAMVKLPDVLLRLKPDVLIIHGDRFDALSL
AASAALMNIRIVHVEGGEISGTIDDMIRHSITKLAHYHVCCTERAHSRLLAMCEDNTAIL
LAGCTSYDKLLNTDSTNSSAVIQKWVPLDGQPHEYIVALQHPVTTNIKHSLKMFGLMIDA
LLEFGKKVIILFPNIDAGSKEMTRVMRLKGVEHHPDFKTAKHIPFEEFIVLVANAGCMIG
NSSAGIREAGAFGTPVINLGSRQTGRETGENVLHCREADTTQKIIHALDIQYQKQYPPSY
IYGDGHAIPRIMKFLKSIDITCETQKSFVFPPMPASHSRDIDHILETQSALAVDLGGTHL
RVALVDNHGTILIQESSATPASNEERMTRLLEMLMNISQKAISLNCRVLGVGISTGGRVD
PSQGVVKHSTKALEGWSEIDLRTPISSLLHLPVWVDNDGNCAALGVRAFGCGKGIDDFVT
IATGTGIGGGVVLGGKLIHGTNFCAAELGHTKVSLGGPVCQCGGTGCVEAYSSGLALQKE
AQRLHADGALGQGDGLIENDQPVSAKHLIDAAKNGNNDAQEILNRGAKAIGALVVNLVHI
LNPSMVVLCGVLAPVYFETVRNVVRKDTLPSASNLDVRASSLQEPALLGAASLVLEYATR
RTY
NT seq
2352 nt NT seq +upstream nt +downstream nt
atgccagtgtttggtgggtcattgcaaggcagtcgtgtcagcagtaggcataagaaagat
cctcacgattttgataacatccattccaatctggtacaaaggaatctgaagcatgtgctg
aactcgcaagacaacagtatggaaccaacagcagcaaagcgtgcaaactgtgtcagtgta
gagagtaacaatgctacatctgaagcttataagatgcgtatctgcgtggcgacgtgtaac
cgtgccgactactctaagcttgcgcccataatgcaagccatcaagaaggatgaggaactg
gagttatcagtcatagtccttggatgtcatcttattgatgattatgggtcaacctatcgt
tacatcgagcaggatggcatatacattgacagtcgtcttcatactatcgttagaggtgag
gatgaggcagctatggtggagtctgttggcctagccatggttaaactccccgatgtccta
cttcgtctcaaaccagacgtcttaatcatacacggtgaccgctttgatgccttgtccctc
gctgcctctgctgccctcatgaacattcgtatagtgcacgtggaaggtggagaaatcagc
ggaacaatcgacgacatgatccgccattcaatcaccaagctggctcactaccatgtctgc
tgcaccgagcgggcgcacagccggctgctggccatgtgtgaagacaacacagccatcttg
ctcgccggttgcacgtcgtatgataaactcttgaacaccgactccaccaatagctcagct
gtgattcagaagtgggtgccgttggacggacagccgcacgagtacattgtggccttgcag
catccagtcactaccaacatcaaacattccttgaagatgttcgggctgatgattgatgcc
ctgctggaattcggcaagaaagtcatcattctctttccgaatattgatgctggaagtaaa
gaaatgacacgcgtgatgcggctaaaaggtgttgaacatcatccggacttcaagaccgcc
aagcatataccatttgaggagttcatcgttctggtggctaatgctggctgcatgatcggt
aacagcagtgctgggataagggaggccggagcgttcggcactccagttattaacctcggg
tcgaggcagacaggcagagaaactggtgagaatgtactgcattgtagagaggcagacacc
actcagaagataatccatgcccttgatattcagtaccagaaacagtacccaccgtcgtac
atttatggagatggccacgcaattccaaggatcatgaagttccttaagtccattgacatc
acctgcgagacccagaagtcatttgtattcccacccatgcctgcgagtcatagtcgggat
atagaccacatattggagacgcagagcgccctcgctgttgaccttgggggcacgcatctc
agggtggcccttgttgacaatcatgggacaatacttattcaagaatctagtgccacccct
gcatcaaatgaagagcggatgacgcgtctgttagagatgctgatgaatatatcccagaag
gcaatatctctcaactgtagagtactgggagtgggtatcagcacaggaggcagagtggat
cctagccagggagttgtcaaacattccactaaggcactggaaggttggtcggagattgat
cttcggacaccaatatcgagcttgttgcatctgcctgtgtgggtcgataacgatggcaac
tgcgctgctctaggggtgcgagccttcggctgcggcaagggtatcgatgactttgttacc
atagcaactggaactggaatcggtggaggtgttgtactcggcgggaaactgattcacggg
acaaatttctgcgcagctgagttgggtcacaccaaggtgtcgttagggggtccagtgtgc
cagtgtggagggacaggatgtgttgaagcgtacagctctggtttggcactccagaaggaa
gcacagaggctacatgcagatggcgctctgggtcaaggagatggcttgattgagaatgat
cagccagtatccgctaagcatcttattgatgctgccaagaacggaaacaatgatgcccag
gagatcctcaataggggagctaaagccatcggtgccctcgtggtgaacctagtgcacatc
ctgaacccctcaatggtcgtactatgtggtgtcttggcaccagtctatttcgagacagtc
cgcaacgtcgtcaggaaagataccctcccgtctgcatccaatctggacgtcagggcctcg
tccctccaggaaccagcccttctaggagcagctagtctggtcctggagtatgctactcgg
aggacatactaa