Entry |
|
Symbol |
SPAM1
|
Name |
(RefSeq) hyaluronidase PH-20 isoform X1
|
KO |
|
Organism |
cbrc Corvus brachyrhynchos (American crow)
|
Pathway |
|
Module |
|
Brite |
KEGG Orthology (KO) [BR:cbrc00001]
09100 Metabolism
09107 Glycan biosynthesis and metabolism
00531 Glycosaminoglycan degradation
103622073 (SPAM1)
09140 Cellular Processes
09141 Transport and catabolism
04142 Lysosome
103622073 (SPAM1)
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
02042 Bacterial toxins [BR:cbrc02042]
103622073 (SPAM1)
00536 Glycosaminoglycan binding proteins [BR:cbrc00536]
103622073 (SPAM1)
00537 Glycosylphosphatidylinositol (GPI)-anchored proteins [BR:cbrc00537]
103622073 (SPAM1)
Enzymes [BR:cbrc01000]
3. Hydrolases
3.2 Glycosylases
3.2.1 Glycosidases, i.e. enzymes that hydrolyse O- and S-glycosyl compounds
3.2.1.35 hyaluronoglucosaminidase
103622073 (SPAM1)
Bacterial toxins [BR:cbrc02042]
Toxins that damage the extracellular matrix
Hyaluronidases/Collagenases
103622073 (SPAM1)
Glycosaminoglycan binding proteins [BR:cbrc00536]
Heparan sulfate / Heparin
Enzymes
103622073 (SPAM1)
Glycosylphosphatidylinositol (GPI)-anchored proteins [BR:cbrc00537]
Enzymes
103622073 (SPAM1)
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
Unknown
|
AA seq |
572 aa
METVRQMQSFGICVTCMYPVASGVVFATLLVSCCSSLNIRAPPLVSNSPFLSIWNAPTEL
CTEKFGVQLDMNIFSLIGSTLKTSIGQNITLFYADRLGYYPYINEVTGETVNGGLPQLSV
LENHLKKAKEDIQFYIPSDEQLGLAVIDWEHWRPLWIRNWGSKDIYRQESIELVLQRDLS
LSEAEARTIAKMEFESAAKSFMLETLKLGIEMKPNRLWGYYLFPDCYNYDYKQKPHNYTG
TCLDIEIERNNELNWLWEKSTALYPSIYLETALKSSRNAQLFVRNRVQEAIRTSYVSNAS
NPLPVFVYTRPVFTDVHEEYLSEDDLVNTIGESAALGASGIVIWGDMNLTQNKNTCRTLD
NYLRRTLTPYLINVTMAARICSQVLCQDSGACARKKRNSSDYLHLNPENIAIQMTKDGKY
TLQGQPSYQDLQTFVEKFDCHCYAGHSCEPRADINDIHYLHVCISEDICIQISTNSLSYI
EAYAEKILPNRSAFSFTSESKVTISTHPEIEDFQSTSGNNILNITTAECNTVTAASSYDL
KENDTRTSSSSSSYKIRMFDLFHLILLLRTLI |
NT seq |
1719 nt +upstreamnt +downstreamnt
atggaaactgtaagacaaatgcaaagttttggcatctgtgttacctgtatgtatcctgta
gcatccggtgtggtgtttgccactcttctagtttcttgctgctcatctctgaacataaga
gctcctccacttgtttctaattcacctttcctttctatctggaatgctcctacagaactt
tgtactgaaaagtttggagtgcagctggacatgaatattttttctctaattggaagtaca
ctaaagacatccattgggcaaaacatcactctcttctatgcagacaggcttggctactac
ccttacataaatgaagtcacaggagagacagtcaatggaggactccctcaactctcggtg
ctggagaatcacttaaaaaaagccaaagaggacatccagttctacattccttcagacgaa
cagcttggattggctgtcattgactgggaacactggagacctctgtggataaggaactgg
ggatcaaaagatatttatagacaggaatccattgagctagttctgcagagagacctcagt
ctatcagaagccgaagccagaactatagctaaaatggaatttgaatctgcagcaaaatca
tttatgttggaaactttgaagctgggcatagaaatgaaaccaaatcgtctgtggggatat
tacctttttccagactgttataactatgattacaaacaaaagccacacaattatacagga
acctgtttagatattgaaatagaaagaaataatgagcttaactggttgtgggagaaaagc
acagcactttatccatctatctatctagagacagccttaaaatcttccagaaatgctcaa
ctctttgttcgcaacagagttcaagaagccattagaacttcctatgtctcgaacgctagt
aatccccttccagtttttgtatatacacgtccagtattcacagatgtccatgaggaatat
ctctctgaggatgacttggtaaataccattggagaatctgctgcactgggtgcttctgga
attgtgatctggggtgatatgaatttaacacaaaataagaacacctgtagaactctggac
aactaccttagaaggactttgaccccatacctcatcaacgtcacaatggcagccagaata
tgtagccaagtgctatgccaagactctggtgcttgtgcacggaaaaaacggaattccagt
gactatcttcacttgaaccctgagaatattgcaattcaaatgacaaaggatggaaaatac
actttacaagggcaaccatcatatcaggatctgcaaacatttgtagaaaaatttgattgc
cattgttatgcagggcacagctgtgaacctagagctgatataaatgacatccattacctc
catgtttgcatttcagaagatatttgcattcagatatccacaaattcactttcttatata
gaagcctatgcagaaaagatcctgcctaacagatctgcattttcatttacctctgagagt
aaggtgacaatatctacacatcctgaaatagaagatttccaatctacctctggaaataat
atacttaatataacaactgcagaatgtaacactgttacagctgccagtagctatgattta
aaagaaaatgatactcgtacttccagtagttcttcatcttataagataaggatgtttgat
ctgtttcacttaattctgcttttgagaaccttaatatga |