Sequences were designed via Synthyra's protein design environment. It is similar to an already established method on ProteinBase, DSM Synteract, but leverages more oracles. It works by generating a large amount of protein variants and ranking them via models: predicting PPI probability, binding affinity, foldability, thermostability, and optimal embedding distances. Promising variants are further optimized via a monte carlo scheme.
id: young-dove-birch
Nipah Virus Glycoprotein G
None
71.93
False
27.1 kDa
241
id: rapid-deer-wave
Nipah Virus Glycoprotein G
None
73.30
False
26.7 kDa
241
id: mellow-fox-thorn
Nipah Virus Glycoprotein G
None
73.91
False
26.9 kDa
242
id: noble-heron-jade
Nipah Virus Glycoprotein G
None
75.98
False
26.4 kDa
240
id: green-lynx-leaf
Nipah Virus Glycoprotein G
None
81.00
True
26.7 kDa
242
id: strong-lion-marble
Nipah Virus Glycoprotein G
None
75.28
False
26.8 kDa
241
id: shy-bee-bronze
Nipah Virus Glycoprotein G
None
80.01
False
25.5 kDa
235
id: mellow-toad-jade
Nipah Virus Glycoprotein G
None
76.97
True
26.5 kDa
240
id: quiet-crow-snow
Nipah Virus Glycoprotein G
None
75.74
True
26.6 kDa
240
id: golden-hawk-reed
Nipah Virus Glycoprotein G
None
77.49
False
25.8 kDa
234