a tool for identifying drug-targetable redox-active disulphides

Acid-sensing ion channel 2

Intramolecular

Cysteine 289 and cysteine 364

Cysteine 307 and cysteine 360

Cysteine 320 and cysteine 342

Cysteine 322 and cysteine 334

Cysteine 311 and cysteine 358

Cysteine 92 and cysteine 193

Cysteine 171 and cysteine 178

Cysteine 358 and cysteine 360

Cysteine 320 and cysteine 322

Cysteine 320 and cysteine 334

Cysteine 307 and cysteine 358

Cysteine 307 and cysteine 311

Cysteine 334 and cysteine 342

Cysteine 322 and cysteine 342

Cysteine 311 and cysteine 360

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 289 and 364.

Details

Redox score ?

86

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

2

Half-sphere exposure sum ?

50

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

289

Residue number B

364

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 289 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 364 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 307 and 360.

Details

Redox score ?

85

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

2

Half-sphere exposure sum ?

59

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

307

Residue number B

360

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 307 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 360 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 320 and 342.

Details

Redox score ?

84

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

2

Half-sphere exposure sum ?

53

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

320

Residue number B

342

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 320 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 342 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 322 and 334.

Details

Redox score ?

83

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

2

Half-sphere exposure sum ?

61

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

322

Residue number B

334

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 322 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 334 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 311 and 358.

Details

Redox score ?

83

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

2

Half-sphere exposure sum ?

54

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

311

Residue number B

358

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 311 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 358 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 92 and 193.

Details

Redox score ?

80

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

2

Half-sphere exposure sum ?

82

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

92

Residue number B

193

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 92 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 193 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 171 and 178.

Details

Redox score ?

80

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

4

Half-sphere exposure sum ?

56

Minimum pK_a ?

8

% buried

60

Peptide accession

Residue number A

171

Residue number B

178

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 171 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 178 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 358 and 360.

Details

Redox score ?

73

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

4

Half-sphere exposure sum ?

53

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

358

Residue number B

360

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 358 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 360 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 320 and 322.

Details

Redox score ?

65

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

5

Half-sphere exposure sum ?

59

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

320

Residue number B

322

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 320 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 322 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 320 and 334.

Details

Redox score ?

65

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

6

Half-sphere exposure sum ?

58

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

320

Residue number B

334

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 320 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 334 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 307 and 358.

Details

Redox score ?

63

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

6

Half-sphere exposure sum ?

53

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

307

Residue number B

358

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 307 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 358 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 307 and 311.

Details

Redox score ?

62

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

5

Half-sphere exposure sum ?

53

Minimum pK_a ?

10

% buried

nan

Peptide accession

Residue number A

307

Residue number B

311

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 307 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 311 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 334 and 342.

Details

Redox score ?

61

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

6

Half-sphere exposure sum ?

55

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

334

Residue number B

342

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 334 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 342 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 322 and 342. However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

60

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

6

Half-sphere exposure sum ?

56

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

322

Residue number B

342

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 322 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 342 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

A redox-regulated disulphide may form within Acid-sensing ion channel 2 between cysteines 311 and 360. However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

58

PDB code

Structure name

hasic2a co-crystallized with mamb-1

Structure deposition date

2019-10-29

Thiol separation (Å)

6

Half-sphere exposure sum ?

51

Minimum pK_a ?

10

% buried

nan

Peptide accession

Residue number A

311

Residue number B

360

Peptide name

Acid-sensing ion channel 2

Ligandability

Cysteine 311 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

Cysteine 360 of Acid-sensing ion channel 2

Not ligandable in the dataset of Yang et al.

Not ligandable in the dataset of Yan et al.

Not ligandable in the dataset of Backus et al.

Not ligandable in the dataset of Vinogradova et al.

Not ligandable in the dataset of Cao et al.

Not ligandable in the dataset of Kuljanin et al.

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