a tool for identifying drug-targetable redox-active disulphides

Sodium leak channel NALCN

Intramolecular

Cysteine 1046 and cysteine 1057

Cysteine 207 and cysteine 239

Cysteine 229 and cysteine 245

Cysteine 1405 and cysteine 1417

Cysteine 239 and cysteine 245

Cysteine 229 and cysteine 239

Cysteine 207 and cysteine 229

Cysteine 207 and cysteine 245

Cysteine 376 and cysteine 439

Cysteine 900 and cysteine 1348

Cysteine 898 and cysteine 900

Cysteine 990 and cysteine 1348

Cysteine 900 and cysteine 990

A redox-regulated disulphide may form within Sodium leak channel NALCN between cysteines 1046 and 1057.

Details

Redox score ?

85

PDB code

Structure name

structure of mammalian nalcn-fam155a-unc79-unc80 quanternary complex

Structure deposition date

2021-12-04

Thiol separation (Å)

2

Half-sphere exposure sum ?

62

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

1046

Residue number B

1057

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 1046 of Sodium leak channel NALCN

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 1057 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 207 and 239.

Details

Redox score ?

84

PDB code

Structure name

cryo-em structure of the sodium leak channel nalcn-fam155a complex

Structure deposition date

2020-06-22

Thiol separation (Å)

2

Half-sphere exposure sum ?

74

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

207

Residue number B

239

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 207 of Sodium leak channel NALCN

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 239 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 229 and 245.

Details

Redox score ?

81

PDB code

Structure name

cryo-em structure of human nalcn in complex with fam155a

Structure deposition date

2020-07-24

Thiol separation (Å)

2

Half-sphere exposure sum ?

72

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

229

Residue number B

245

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 229 of Sodium leak channel NALCN

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 245 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 1405 and 1417.

Details

Redox score ?

80

PDB code

Structure name

structure of mammalian nalcn-fam155a-unc79-unc80 quanternary complex

Structure deposition date

2021-12-04

Thiol separation (Å)

2

Half-sphere exposure sum ?

78

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

1405

Residue number B

1417

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 1405 of Sodium leak channel NALCN

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 1417 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 239 and 245.

Details

Redox score ?

75

PDB code

Structure name

cryo-em structure of human nalcn in complex with fam155a

Structure deposition date

2020-07-24

Thiol separation (Å)

4

Half-sphere exposure sum ?

70

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

239

Residue number B

245

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 239 of Sodium leak channel NALCN

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 245 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 229 and 239.

Details

Redox score ?

75

PDB code

Structure name

structure of mammalian nalcn-fam155a complex at 2

Structure deposition date

2020-08-20

Thiol separation (Å)

3

Half-sphere exposure sum ?

71

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

229

Residue number B

239

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 229 of Sodium leak channel NALCN

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 239 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 207 and 229.

Details

Redox score ?

72

PDB code

Structure name

cryo-em structure of the sodium leak channel nalcn-fam155a complex

Structure deposition date

2020-06-22

Thiol separation (Å)

3

Half-sphere exposure sum ?

76

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

207

Residue number B

229

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 207 of Sodium leak channel NALCN

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 229 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 207 and 245.

Details

Redox score ?

64

PDB code

Structure name

cryo-em structure of human nalcn in complex with fam155a

Structure deposition date

2020-07-24

Thiol separation (Å)

5

Half-sphere exposure sum ?

76

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

207

Residue number B

245

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 207 of Sodium leak channel NALCN

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 245 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 376 and 439. However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

57

PDB code

Structure name

cryo-em structure of human nalcn in complex with fam155a

Structure deposition date

2020-07-24

Thiol separation (Å)

8

Half-sphere exposure sum ?

38

Minimum pK_a ?

9

% buried

0

Peptide accession

Residue number A

376

Residue number B

439

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 376 of Sodium leak channel NALCN

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 439 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 900 and 1348. However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

42

PDB code

Structure name

structure of mammalian nalcn-fam155a complex at 2

Structure deposition date

2020-08-20

Thiol separation (Å)

7

Half-sphere exposure sum ?

69

Minimum pK_a ?

12

% buried

99

Peptide accession

Residue number A

900

Residue number B

1348

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 900 of Sodium leak channel NALCN

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 1348 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 898 and 900. However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

38

PDB code

Structure name

cryo-em structure of the sodium leak channel nalcn-fam155a complex

Structure deposition date

2020-06-22

Thiol separation (Å)

9

Half-sphere exposure sum ?

56

Minimum pK_a ?

10

% buried

56

Peptide accession

Residue number A

898

Residue number B

900

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 898 of Sodium leak channel NALCN

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 900 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 990 and 1348. However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

37

PDB code

Structure name

cryo-em structure of the sodium leak channel nalcn-fam155a complex

Structure deposition date

2020-06-22

Thiol separation (Å)

8

Half-sphere exposure sum ?

74

Minimum pK_a ?

12

% buried

100

Peptide accession

Residue number A

990

Residue number B

1348

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 990 of Sodium leak channel NALCN

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 1348 of Sodium leak channel NALCN

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 Sodium leak channel NALCN between cysteines 900 and 990. However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

28

PDB code

Structure name

cryo-em structure of the sodium leak channel nalcn-fam155a complex

Structure deposition date

2020-06-22

Thiol separation (Å)

10

Half-sphere exposure sum ?

71

Minimum pK_a ?

12

% buried

98

Peptide accession

Residue number A

900

Residue number B

990

Peptide name

Sodium leak channel NALCN

Ligandability

Cysteine 900 of Sodium leak channel NALCN

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 990 of Sodium leak channel NALCN

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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