Vitamin K-dependent protein C

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

nan

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

Residue number B

111

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 92 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 111 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 59 and 64 (17 and 22 respectively in this structure).

Details

Redox score ?

PDB code

3jtc

Structure name

importance of mg2+ in the ca2+-dependent folding of the gamma- carboxyglutamic acid domains of vitamin k-dependent clotting and anticlotting proteins

Structure deposition date

2009-09-11

Thiol separation (Å)

Half-sphere exposure sum ?

nan

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

Residue number B

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 59 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 64 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 105 and 120 (63 and 78 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

human activated protein c

Structure deposition date

1996-06-08

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

105

Residue number B

120

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 105 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 120 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 122 and 131 (80 and 89 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

human activated protein c

Structure deposition date

1996-06-08

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

122

Residue number B

131

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 122 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 131 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 147 and 160 (105 and 118 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

human activated protein c

Structure deposition date

1996-06-08

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

147

Residue number B

160

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 147 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 160 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 162 and 175.

Details

Redox score ?

PDB code

Structure name

hapc-h1573 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

162

Residue number B

175

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 162 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 175 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 101 and 106 (59 and 64 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

101

Residue number B

106

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 101 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 106 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 140 and 151 (98 and 109 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

human activated protein c

Structure deposition date

1996-06-08

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

140

Residue number B

151

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 140 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 151 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 398 and 426 (191 and 220 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

398

Residue number B

426

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 398 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 426 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 373 and 387.

Details

Redox score ?

PDB code

Structure name

hapc-h1573 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

373

Residue number B

387

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 373 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 387 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 238 and 254 (42 and 58 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

238

Residue number B

254

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 238 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 254 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 120 and 131 (78 and 89 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

120

Residue number B

131

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 120 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 131 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 105 and 111 (63 and 69 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

105

Residue number B

111

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 105 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 111 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 147 and 151 (105 and 109 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

147

Residue number B

151

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 147 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 151 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 105 and 131 (63 and 89 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

human activated protein c

Structure deposition date

1996-06-08

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

105

Residue number B

131

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 105 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 131 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 111 and 120 (69 and 78 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

111

Residue number B

120

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 111 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 120 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 140 and 147.

Details

Redox score ?

PDB code

Structure name

hapc-h1573 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

140

Residue number B

147

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 140 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 147 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 151 and 160.

Details

Redox score ?

PDB code

Structure name

hapc-h1573 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

151

Residue number B

160

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 151 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 160 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 120 and 122 (78 and 80 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

120

Residue number B

122

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 120 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 122 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 92 and 120 (50 and 78 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

nan

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

Residue number B

120

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 92 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 120 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 92 and 105 (50 and 63 respectively in this structure).

Details

Redox score ?

PDB code

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

nan

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

Residue number B

105

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 92 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 105 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 105 and 122 (63 and 80 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

105

Residue number B

122

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 105 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 122 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 140 and 160. However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

hapc-h1573 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

140

Residue number B

160

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 140 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 160 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 106 and 131 (64 and 89 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

106

Residue number B

131

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 106 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 131 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 106 and 120 (64 and 78 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

106

Residue number B

120

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 106 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 120 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 160 and 175. However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

hapc-h1573 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

160

Residue number B

175

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 160 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 175 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 92 and 131 (50 and 89 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

human activated protein c

Structure deposition date

1996-06-08

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

Residue number B

131

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 92 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 131 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 147 and 175 (105 and 133 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

human activated protein c

Structure deposition date

1996-06-08

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

147

Residue number B

175

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 147 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 175 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 160 and 162 (118 and 120 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

160

Residue number B

162

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 160 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 162 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 105 and 106 (63 and 64 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

105

Residue number B

106

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 105 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 106 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 111 and 131 (69 and 89 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

111

Residue number B

131

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 111 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 131 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 101 and 120 (59 and 78 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

human activated protein c

Structure deposition date

1996-06-08

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

101

Residue number B

120

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 101 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 120 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 101 and 131 (59 and 89 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

101

Residue number B

131

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 101 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 131 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 106 and 122 (64 and 80 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

106

Residue number B

122

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 106 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 122 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 101 and 105 (59 and 63 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

101

Residue number B

105

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 101 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 105 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 147 and 162 (105 and 120 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

hapc-c25k23 fab complex

Structure deposition date

2020-03-03

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

147

Residue number B

162

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 147 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 162 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 92 and 122 (50 and 80 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

crystal structure of human activated protein c (apc) complexed with ppack

Structure deposition date

2008-11-06

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

Residue number B

122

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 92 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 122 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Vitamin K-dependent protein C between cysteines 111 and 122 (69 and 80 respectively in this structure). However, the redox score of this cysteine pair is lower than any known redox-active intermolecular disulphide. ?

Details

Redox score ?

PDB code

Structure name

human activated protein c

Structure deposition date

1996-06-08

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

nan

% buried

nan

Peptide accession

Residue number A

111

Residue number B

122

Peptide name

Vitamin K-dependent protein C

Ligandability

Cysteine 111 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.

Cysteine 122 of Vitamin K-dependent protein C

Not ligandable in the dataset of Vinogradova et al.