Protein profile

KP13_32128

maltose/maltodextrin import ATP-binding protein MalK

Genome: KpKP13

Gene: AHE45989.1 Structure source: AlphaFold + ColabFold UniProt A0A0H3GNM6

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Amino acids 371

Annotations 7

Features 24

PDB binders 7

Druggability 0.441

Overview

Basic information about this protein and its source genome.

Accession: KP13_32128
Assembly: Klebsiella pneumoniae subsp. pneumoniae Kp13, complete sequence
Gene: AHE45989.1
Status: annotated
Amino acids: 371
Structure source: AlphaFold + ColabFold

GO:0008643 The directed movement of carbohydrate into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. Carbohydrates are a group of organic compounds based of the general formula Cx(H2O)y. GO:0016887 Catalysis of the reaction: ATP + H2O = ADP + H+ phosphate. ATP hydrolysis is used in some reactions as an energy source, for example to catalyze a reaction or drive transport against a concentration gradient. GO:0005524 Binding to ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. GO:0140359 Primary active transporter characterized by two nucleotide-binding domains and two transmembrane domains. Uses the energy generated from ATP hydrolysis to drive the transport of a substance across a membrane. GO:0055052 A complex for the transport of metabolites into the cell, consisting of 5 subunits: two ATP-binding subunits, two membrane spanning subunits, and one substrate-binding subunit. In organisms with two membranes, the substrate-binding protein moves freely in the periplasmic space and joins the other subunits only when bound with substrate. In organisms with only one membrane the substrate-binding protein is tethered to the cytoplasmic membrane and associated with the other subunits. Transport of the substrate across the membrane is driven by the hydrolysis of ATP. GO:1990060 Protein complex facilitating ATP-dependent maltose transport through inner cell membrane (periplasm to cytoplasm) in Gram-negative bacteria. In E. coli the system is composed of a periplasmic maltose-binding protein (MBP), two integral membrane proteins, MalF and MalG, and two copies of the cytoplasmic ATP-binding cassette MalK.

Target profile

Computed evidence for target prioritization.

Human off-target: hit
Human identity (%): 57.143
Human E-value: 1.11e-06
Gut microbiome off-target: hit
Essential (DEG): Y
DEG identity (%): 51.955
DEG E-value: 1.93e-128
Localization: CytoplasmicMembrane
ColabFold pLDDT: 93.55

Selected Druggability evidence

AlphaFold / UniProt model

Selected Druggability is the FPocket score chosen for ranking using the curated structure priority. The 3D viewer may show a different loaded structure, so its visible pockets can differ.

FPocket 0.441

Structure A0A0H3GNM6

Pocket Pocket 28

P2Rank 0.33

Structure A0A0H3GNM6

Pocket Pocket 1

ColabFold model

FPocket 0.706 · Pocket 18

P2Rank 0.245 · Pocket 1

Core conservation Conserved core gene

Roary core

CoreCruncher core

Gut microbiome 1329 / 4744 genomes with a hit

Normalized 0.28

Sequence

Primary amino-acid sequence viewer.

Functional Annotations

Enzyme classification and Gene Ontology terms linked to this protein.

7 GO

Gene Ontology (GO)

GO:0008643 The directed movement of carbohydrate into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. Carbohydrates are a group of organic compounds based of the general formula Cx(H2O)y.
GO:0016887 Catalysis of the reaction: ATP + H2O = ADP + H+ phosphate. ATP hydrolysis is used in some reactions as an energy source, for example to catalyze a reaction or drive transport against a concentration gradient.
GO:0005524 Binding to ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.
GO:0140359 Primary active transporter characterized by two nucleotide-binding domains and two transmembrane domains. Uses the energy generated from ATP hydrolysis to drive the transport of a substance across a membrane.
GO:0055052 A complex for the transport of metabolites into the cell, consisting of 5 subunits: two ATP-binding subunits, two membrane spanning subunits, and one substrate-binding subunit. In organisms with two membranes, the substrate-binding protein moves freely in the periplasmic space and joins the other subunits only when bound with substrate. In organisms with only one membrane the substrate-binding protein is tethered to the cytoplasmic membrane and associated with the other subunits. Transport of the substrate across the membrane is driven by the hydrolysis of ATP.
GO:1990060 Protein complex facilitating ATP-dependent maltose transport through inner cell membrane (periplasm to cytoplasm) in Gram-negative bacteria. In E. coli the system is composed of a periplasmic maltose-binding protein (MBP), two integral membrane proteins, MalF and MalG, and two copies of the cytoplasmic ATP-binding cassette MalK.
GO:0015423 Enables the transfer of a solute or solutes from one side of a membrane to the other according to the reaction: ATP + H2O + maltose(out) = ADP + phosphate + maltose(in).

Sequence Features

Domain/signature hits from InterPro and related databases.

24 records

Show feature table

Start	End	DB	Term	Name
242	358	Gene3D	G3DSA:2.40.50.100	-
6	245	SUPERFAMILY	SSF52540	P-loop containing nucleoside triphosphate hydrolases
6	245	InterPro	IPR027417	P-loop containing nucleoside triphosphate hydrolase
6	236	ProSiteProfiles	PS50893	ATP-binding cassette, ABC transporter-type domain profile.
6	236	InterPro	IPR003439	ABC transporter-like, ATP-binding domain
3	359	PANTHER	PTHR43875	MALTODEXTRIN IMPORT ATP-BINDING PROTEIN MSMX
3	359	InterPro	IPR047641	ABC transporter, ATP-binding protein MalK/UgpC-like
1	240	Gene3D	G3DSA:3.40.50.300	-
1	240	InterPro	IPR027417	P-loop containing nucleoside triphosphate hydrolase
30	213	SMART	SM00382	AAA_5
30	213	InterPro	IPR003593	AAA+ ATPase domain
290	346	Gene3D	G3DSA:2.40.50.140	-
290	346	InterPro	IPR012340	Nucleic acid-binding, OB-fold
136	150	ProSitePatterns	PS00211	ABC transporters family signature.
136	150	InterPro	IPR017871	ABC transporter-like, conserved site
21	163	Pfam	PF00005	ABC transporter
21	163	InterPro	IPR003439	ABC transporter-like, ATP-binding domain
238	358	SUPERFAMILY	SSF50331	MOP-like
238	358	InterPro	IPR008995	Molybdate/tungstate binding, C-terminal
6	218	CDD	cd03301	ABC_MalK_N
6	218	InterPro	IPR015855	ABC transporter, maltose/maltodextrin import, MalK-like
3	240	FunFam	G3DSA:3.40.50.300:FF:000042	Maltose/maltodextrin ABC transporter, ATP-binding protein
237	290	Pfam	PF17912	MalK OB fold domain
237	290	InterPro	IPR040582	MalK-like, OB fold domain

3D Structure

Selected loaded structure. Experimental PDB entries may cover only a portion of the sequence; predicted models typically cover the full protein.

Loading 3D structure...

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Structural evidence

0 + 2

Experimental PDB entries and predicted models. Click Switch to display a different structure in the viewer.

Entry	Method	Resolution	Chain	Coverage	Links	Status
AlphaFold AF_A0A0H3GNM6	AlphaFold	—	—	full sequence	—	Viewing
ColabFold KP13_32128	ColabFold	—	—	full sequence	—	Loaded

Pocket details FPocket · P2Rank — toggle visibility and zoom from here, or open full viewer

Pockets (FPOCKET)

Showing top-ranked FPocket candidates by druggability. Druggability is color-coded: high (0.7 or higher), medium (0.4 to 0.69), low (below 0.4).

FPOCKET	Sticks	Spheres	Surfaces	Druggability	Labels	Zoom	Positions
28				0.441

Pockets (P2RANK)

Showing top-ranked P2Rank candidates by probability. Probability is color-coded per P2Rank calibration: high (≥ 0.5), medium (0.2 – 0.49), low (< 0.2).

P2RANK	Score	Probability
1	3.16	0.107
2	2.82	0.087
3	2.54	0.072
4	1.59	0.025
5	0.68	0.001

Pockets (FPOCKET)

Showing top-ranked FPocket candidates by druggability. Druggability is color-coded: high (0.7 or higher), medium (0.4 to 0.69), low (below 0.4).

FPOCKET	Sticks	Spheres	Surfaces	Druggability	Labels	Zoom	Positions
18				0.706

Pockets (P2RANK)

Showing top-ranked P2Rank candidates by probability. Probability is color-coded per P2Rank calibration: high (≥ 0.5), medium (0.2 – 0.49), low (< 0.2).

P2RANK	Score	Probability
1	3.03	0.1
2	1.6	0.025
3	1.46	0.02
4	0.55	0.0

Ligand evidence

Ligands grouped by evidence source. PDB ligands keep the source crystal visible, and loaded crystals can be opened directly in the structure viewer.

57 records

Highest-confidence structural evidence: ligands co-crystallized with this exact protein. If the source PDB is loaded in TPW, use Open crystal to inspect it in the structure viewer.

No PDB structure with a co-crystallized ligand found for this exact protein.

Structural evidence inferred from similar proteins. The source crystal indicates where the ligand was observed; the UniProt column identifies the homologous protein carrying that ligand.

Ligand	Source crystal	UniProt (homolog)	MW · LogP · TPSA	Lipinski	PAINS	SMILES
2BA	7AHE	Q9KIF7	658.4 Da LogP -1.63 TPSA 309.7	3 viol.	✓ Clean	`c1nc(c2c(n1)n(cn2)[C@H]3[C@@H]([C@H]4[C@H](O3)C…`
AGS	3C4J	D0VWX4	523.2 Da LogP -1.51 TPSA 262.1	3 viol.	✓ Clean	`c1nc(c2c(n1)n(cn2)[C@H]3[C@@H]([C@@H]([C@H](O3)…`
ANP	3C41	D0VWX4	506.2 Da LogP -2.06 TPSA 281.9	3 viol.	✓ Clean	`c1nc(c2c(n1)n(cn2)[C@H]3[C@@H]([C@@H]([C@H](O3)…`
AT4	2OLK	D0VWX4	443.3 Da LogP -0.81 TPSA 212.4	2 viol.	✓ Clean	`c1nc(c2c(n1)n(cn2)[C@H]3[C@@H]([C@@H]([C@H](O3)…`
BET	7AHH	Q9KIF7	118.2 Da LogP -0.22 TPSA 37.3	✓ Ro5	✓ Clean	`C[N+](C)(C)CC(=O)O`
NH4	1G29	Q9YGA6	18.0 Da LogP 0.38 TPSA 36.5	✓ Ro5	✓ Clean	`[NH4+]`
POP	2D62	O57933	176.0 Da LogP -2.08 TPSA 129.9	✓ Ro5	✓ Clean	`O[P@@](=O)([O-])O[P@@](=O)(O)[O-]`

Experimental bioactivity from ChEMBL measured directly on this protein. Score = pchembl (−log Ki/IC₅₀; higher = more potent).

No ChEMBL bioactivity data found for this exact protein.

Bioactivity inferred from similar proteins in ChEMBL. Score = pchembl (−log Ki/IC₅₀; higher = more potent).

No ChEMBL hits found through similar proteins.

Proposed virtual-screening candidates from ZINC. Score = Tanimoto similarity to a known binder (0–1; higher = more similar).

Ligand	Tanimoto	MW · LogP · TPSA	Lipinski	PAINS	SMILES
ZINC12502230	1.000	329.2 Da LogP -0.82 TPSA 154.8	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H]2CO[P@](=O)(O)O[C@@…`
ZINC3581269	1.000	329.2 Da LogP -0.82 TPSA 154.8	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H]2CO[P@](=O)(O)O[C@H…`
ZINC3869448	1.000	329.2 Da LogP -0.82 TPSA 154.8	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@H]2CO[P@](=O)(O)O[C@@H]…`
ZINC3869449	1.000	329.2 Da LogP -0.82 TPSA 154.8	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H]2CO[P@](=O)(O)O[C@@H…`
ZINC3869450	1.000	329.2 Da LogP -0.82 TPSA 154.8	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@H]2CO[P@](=O)(O)O[C@@H]…`
ZINC3869451	1.000	329.2 Da LogP -0.82 TPSA 154.8	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H]2CO[P@](=O)(O)O[C@@H…`
ZINC3873977	1.000	329.2 Da LogP -0.82 TPSA 154.8	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H]2CO[P@](=O)(O)O[C@H…`
ZINC4245698	1.000	329.2 Da LogP -0.82 TPSA 154.8	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H]2CO[P@](=O)(O)O[C@@…`
ZINC8586021	0.855	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@@H](CO[P@@](=O)(O)OP(=O…`
ZINC12360002	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@@](=O)(O)OP(=O…`
ZINC12360703	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@@](=O)(O)OP(=O…`
ZINC12503599	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@@](=O)(O)OP(=O…`
ZINC16546165	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@H](CO[P@](=O)(O)OP(=O)(…`
ZINC31977053	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@@H](CO[P@](=O)(O)OP(=O)…`
ZINC4806433	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@@](=O)(O)OP(=O…`
ZINC53683898	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H](CO[P@@](=O)(O)OP(=…`
ZINC8586019	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@@H](CO[P@](=O)(O)OP(=O)…`
ZINC8586020	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H](CO[P@@](=O)(O)OP(=…`
ZINC8586022	0.810	427.2 Da LogP -1.75 TPSA 232.6	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H](CO[P@@](=O)(O)OP(=…`
ZINC13518964	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H](COP(=O)(O)O)[C@H](…`
ZINC1532515	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@@H](COP(=O)(O)O)[C@H](O…`
ZINC1571045	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H](COP(=O)(O)O)[C@@H]…`
ZINC1842158	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@@H](COP(=O)(O)O)[C@H](O…`
ZINC2046931	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H](COP(=O)(O)O)[C@H](…`
ZINC2126310	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](COP(=O)(O)O)[C@@H](…`
ZINC3201891	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@@H](COP(=O)(O)O)[C@@H]…`
ZINC3201893	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@@H](COP(=O)(O)O)[C@@H](…`
ZINC3830180	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@@H](COP(=O)(O)O)[C@@H](…`
ZINC3860156	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](COP(=O)(O)O)[C@@H](…`
ZINC3977897	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@H](COP(=O)(O)O)[C@@H](O…`
ZINC4806442	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](COP(=O)(O)O)[C@H](O…`
ZINC8613167	0.741	347.2 Da LogP -1.86 TPSA 186.1	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](COP(=O)(O)O)[C@H](O…`
ZINC4096224	0.729	346.2 Da LogP -1.90 TPSA 191.9	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@](N)(=O)O)[C@@…`
ZINC12503850	0.726	427.3 Da LogP -2.04 TPSA 229.4	1 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@](=O)(O)OS(=O)…`
ZINC141161066	0.726	427.3 Da LogP -2.04 TPSA 229.4	1 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@](=O)(O)OS(=O)…`
ZINC141163786	0.726	427.3 Da LogP -2.04 TPSA 229.4	1 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@](=O)(O)OS(=O)…`
ZINC4228246	0.726	427.3 Da LogP -2.04 TPSA 229.4	1 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@@](=O)(O)OS(=O…`
ZINC5158647	0.721	357.3 Da LogP 0.23 TPSA 143.8	1 viol.	✓ Clean	`CCO[P@@]1(=O)OC[C@H]2O[C@@H](n3cnc4c(N)ncnc43)[…`
ZINC5158648	0.721	357.3 Da LogP 0.23 TPSA 143.8	1 viol.	✓ Clean	`CCO[P@]1(=O)OC[C@H]2O[C@@H](n3cnc4c(N)ncnc43)[C…`
ZINC5158649	0.721	357.3 Da LogP 0.23 TPSA 143.8	1 viol.	✓ Clean	`CCO[P@@]1(=O)OC[C@@H]2O[C@@H](n3cnc4c(N)ncnc43)…`
ZINC5158650	0.721	357.3 Da LogP 0.23 TPSA 143.8	1 viol.	✓ Clean	`CCO[P@]1(=O)OC[C@@H]2O[C@@H](n3cnc4c(N)ncnc43)[…`
ZINC105372833	0.712	345.3 Da LogP -1.93 TPSA 197.6	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](COP(N)(N)=O)[C@H](O…`
ZINC105372837	0.712	345.3 Da LogP -1.93 TPSA 197.6	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](COP(N)(N)=O)[C@H](O…`
ZINC17107643	0.712	345.3 Da LogP -1.93 TPSA 197.6	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](COP(N)(N)=O)[C@@H](…`
ZINC204538551	0.712	345.3 Da LogP -1.93 TPSA 197.6	✓ Ro5	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](COP(N)(N)=O)[C@@H](…`
ZINC4095503	0.707	330.2 Da LogP -1.11 TPSA 148.8	✓ Ro5	✓ Clean	`O=c1[nH]cnc2c1ncn2[C@@H]1O[C@@H]2CO[P@](=O)(O)O…`
ZINC4533542	0.707	330.2 Da LogP -1.11 TPSA 148.8	✓ Ro5	✓ Clean	`O=c1[nH]cnc2c1ncn2[C@H]1O[C@H]2CO[P@](=O)(O)O[C…`
ZINC4533545	0.707	330.2 Da LogP -1.11 TPSA 148.8	✓ Ro5	✓ Clean	`O=c1[nH]cnc2c1ncn2[C@H]1O[C@H]2CO[P@](=O)(O)O[C…`
ZINC31475423	0.703	434.3 Da LogP -2.99 TPSA 238.4	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@H]1O[C@H](CO[P@@](=O)(O)OC(=O)…`
ZINC219330894	0.694	425.2 Da LogP -1.64 TPSA 223.4	2 viol.	✓ Clean	`Nc1ncnc2c1ncn2[C@@H]1O[C@H](CO[P@](=O)(O)CP(=O)…`

PDB and ChEMBL records on this protein are shown in full. ChEMBL records from similar proteins are capped at the top 100 per protein (by pchembl) and ZINC at the top 50 (Tanimoto ≥ 0.5). ADME columns are descriptor-based screening flags, not experimental toxicity results.