Hyaluronidase (HU) hydrolyzes complex carbohydrates such as hyaluronan which is part of the extracellular matrix. The hydrolysis increases tissue permeability. HU is used in medicine to speed drug delivery. Hyaluronic acid (HUA) is a popular dermal filler material.
 Superposition of the EGF-like domain of hyaluronidase-1 (yellow) and the heparin-binding EGF-like growth factor (light blue). The three disulfide bonds of the EGF domains (highlighted red) exhibit the same pattern in the primary structure and are located in similar positions in the 3D structure. |  Hyaluronidase cleaves the β1,4-glycosidic bond of the glycosaminoglycan hyaluronan |
3D structures of hyaluronidase
Updated on 28-August-2014
1egu, 2brw – SpHU – Streptococcus pneumoniae
1n7n, 1n7o, 1n7p – SpHU (mutant)
1fcq, 1fcu – bHU – bee
1f1s – SaHU – Streptococcus agalactiae
2c3f, 2dp5, 2yw0, 2yx2, 2wb3, 2wh7 - SpyHU – Streptococcus pyogenes
2cbi, 2w1q, 2w1s - CpHU – Clostridium perfringens
2jnk - CpHU residues 1498-1628]] - NMR
2atm - HU – Vespula vulgaris
2pe4 – HU-1 – human
Hyaluronidase binary complex
1c82 – SpHU + HUA disaccharide
1f9g – SpHU + ascorbate
2brv– SpHU + malonate
1fcv - bHU + HUA
1i8q - SaHU + HUA disaccharide
1loh, 1lxk - SpHU + glucuronic acid
1n7q, 1n7r - SpHU (mutant) + glucuronic acid
1lxm - SaHU + glucuronic acid
1ojm, 1ojp - SpHU + condroitin disaccharide
1ojn, 1ojo - SpHU (mutant) + condroitin disaccharide
1w3y - SpHU + palmitoyl-vitamin C
2cbj - CpHU + PugNac
2j1a - CpHU + galactose
2j1e - CpHU + LacNac
2j7m, 2w1u, 2wdb - CpHU + carbohydrates
2j62 - CpHU + GlcNac-statin
2brp – SpHU + inbhibitor
2j88 - bHU + FAB
2yvv - SpyHU + lactose
3eka - SpyHU + ascorbate
