5A1GA

The structure of human mat2a in complex with s-adenosylethionine and ppnp.
Knot K +31
Knot core range Knot core length Knot tails range Slipknot tails range Slipknot loops range N-end length C-end length Type
view details
+31 11-271 261 1-10, 272-380 10 109 knot
Chain Sequence
GTFLFTSESVGEGHPDKICDQISDAVLDAHLQQDPDAKVACETVAKTGMILLAGEITSRAAVDYQKVVREAVKHIGYDDSSKGFDYKTCNVLVALEQQSPDIAQGVHLDRNEEDIGAGDQGLMFGYATDETEECMPLTIVLAHKLNAKLAELRRNGTLPWLRPDSKTQVTVQYMQDRGAVLPIRVHTIVISVQHDEEVCLDEMRDALKEKVIKAVVPAKYLDEDTIYHLQPSGRFVIGGPQGDAGLTGRKIIVDTYGGWGAHGGGAFSGKDYTKVDRSAAYAARWVAKSLVKGGLCRRVLVQVSYAIGVSHPLSISIFHYGTSQKSERELLEIVKKNFDLRPGVIVRDLDLKKPIYQRTAAYGHFGRDSFPWEVPKKLKY
Whole chain analysis
Subchain analysis 

Knotoid cutoff: 0.5


Knotoid matrix content: 1

Knot core range Knot core length Knot tails range Slipknot tails range Slipknot loops range N-end length C-end length Type
view details
2.1 18-278 261 1-2, 356-380 3-17, 279-355 2 25 slipknot
view details
3.1 17-355 339 1-2, 374-380 3-16, 356-373 2 7 slipknot
view details
1.1 13-247 235 1-5, 258-380 6-12, 248-257 5 123 slipknot
sequence length 380
structure length 380
publication title Crystallography Captures Catalytic Steps in Human Methionine Adenosyltransferase Enzymes.
pubmed doi rcsb
molecule tags Transferase
molecule keywords S-ADENOSYLMETHIONINE SYNTHASE ISOFORM TYPE-2
source organism Homo sapiens
total genus Genus: 139
ec nomenclature
pdb deposition date 2015-04-30
KnotProt deposition date 2018-09-12
Image from the rcsb pdb (www.rcsb.org)
...loading similar chains, please wait...
similar chains in the KnotProt database (?% sequence similarity)
...loading similar chains, please wait...
similar chains in the pdb database (?% sequence similarity)

 
#similar chains in the KnotProt database (?% sequence similarity)
...loading similar chains, please wait...
#similar chains, but unknotted
...loading similar chains, please wait...
#similar chains in the pdb database (?% sequence similarity)
...loading similar chains, please wait...

KnotProt | Interdisciplinary Laboratory of Biological Systems Modelling