Phospholipid-transporting ATPase IG

Structure name

crystal structure of atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

168

Residue number B

200

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 168 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 200 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 168 and 174 (165 and 171 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

168

Residue number B

174

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 168 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 174 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 688 and 691 (685 and 688 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

100

Peptide accession

Residue number A

688

Residue number B

691

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 688 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 691 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 782 and 785 (779 and 782 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

100

Peptide accession

Residue number A

782

Residue number B

785

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 782 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 785 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 427 and 428 (424 and 425 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

427

Residue number B

428

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 427 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 428 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 472 and 565 (469 and 562 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

472

Residue number B

565

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 472 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 565 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 565 and 600 (562 and 597 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

565

Residue number B

600

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 565 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 600 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 44 and 214 (41 and 211 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

Residue number B

214

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 44 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 214 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 470 and 565 (467 and 562 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

470

Residue number B

565

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 470 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 565 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 309 and 898 (306 and 895 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

309

Residue number B

898

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 309 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 898 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 174 and 187 (171 and 184 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

174

Residue number B

187

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 174 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 187 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 428 and 600 (425 and 597 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

428

Residue number B

600

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 428 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 600 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 790 and 791 (787 and 788 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

790

Residue number B

791

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 790 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 791 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 782 and 790 (779 and 787 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

782

Residue number B

790

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 782 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 790 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 470 and 472 (467 and 469 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

470

Residue number B

472

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 470 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 472 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 688 and 791 (685 and 788 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

Peptide accession

Residue number A

688

Residue number B

791

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 688 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 791 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

A redox-regulated disulphide may form within Phospholipid-transporting ATPase IG between cysteines 785 and 790 (782 and 787 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 atp11c-cdc50a in ptdser-bound e2p state

Structure deposition date

2019-12-19

Thiol separation (Å)

Half-sphere exposure sum ?

Minimum pK_a ?

% buried

100

Peptide accession

Residue number A

785

Residue number B

790

Peptide name

Phospholipid-transporting ATPase IG

Ligandability

Cysteine 785 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.

Cysteine 790 of Phospholipid-transporting ATPase IG

Not ligandable in the dataset of Vinogradova et al.