Strain |
Pseudomonas aeruginosa PAO1 (Stover et al., 2000)
GCF_000006765.1|latest |
Locus Tag |
PA4195
|
Name |
|
Replicon | chromosome |
Genomic location | 4692126 - 4692956 (- strand) |
Transposon Mutants | 3 transposon mutants in PAO1 |
Transposon Mutants in orthologs | 1 transposon mutants in orthologs |
Comment | Structural similarity to 2YJP (solute receptors for L-cysteine from Neisseria gonorrhoeae, root-mean-square deviation: 1.4 angstroms). Sequence similarity to 4ZV1 (88%/35,24%) (ARG). Final predicted ligand: L-amino acid (PMID: 31631799) |
RefSeq | NP_252884.1 |
GI | 15599390 |
Affymetrix | PA4195_at |
Entrez | 880469 |
GenBank | AAG07582.1 |
INSDC | AAG07582.1 |
NCBI Locus Tag | PA4195 |
protein_id(GenBank) | gb|AAG07582.1|AE004836_1|gnl|PseudoCAP|PA4195 |
TIGR | NTL03PA04195 |
UniParc | UPI00000C5C68 |
UniProtKB Acc | Q9HWI6 |
UniProtKB ID | Q9HWI6_PSEAE |
UniRef100 | UniRef100_Q9HWI6 |
UniRef50 | UniRef50_A0A093U4W1 |
UniRef90 | UniRef90_Q9HWI6 |
Feature Type | CDS |
Coding Frame | 1 |
Product Name |
putative amino acid ABC transporter substrate-binding protein
|
Synonyms | |
Evidence for Translation |
Detected by MALDI-TOF/TOF (PMID:19333994).
|
Charge (pH 7) | 1.20 |
Kyte-Doolittle Hydrophobicity Value | -0.103 |
Molecular Weight (kDa) | 29.5 |
Isoelectric Point (pI) | 7.87 |
Individual Mappings | |
Additional evidence for subcellular localization |
Results |
Common
Found in both pathogen and nonpathogenic strains
Hits to this gene were found in 435 genera
|
Pseudomonas Ortholog Database | View orthologs at Pseudomonas Ortholog Database |
Pseudomonas Ortholog Group |
POG001211 (994 members) |
Putative Inparalogs | None Found |
STRING database | Search for predicted protein-protein interactions using:
Search term: PA4195
|
Analysis of the periplasmic proteome of Pseudomonas aeruginosa, a metabolically versatile opportunistic pathogen.
Imperi F, Ciccosanti F, Perdomo AB, Tiburzi F, Mancone C, Alonzi T, Ascenzi P, Piacentini M, Visca P, Fimia GM
Proteomics 2009 Apr;9(7):1901-15
PubMed ID: 19333994
|
Uncovering the structure and function of Pseudomonas aeruginosa periplasmic proteins by an in silico approach.
Caprari S, Brandi V, Pasquadibisceglie A, Polticelli F
J Biomol Struct Dyn 2020 Sep;38(15):4508-4520
PubMed ID: 31631799
|