P0A183 (MERR_PSEAI) Pseudomonas aeruginosa
Mercuric resistance operon regulatory protein UniProtKBInterProInteractive Modelling
144 aa; Sequence (Fasta) ;
111 identical sequences 111 identical sequences
Stutzerimonas stutzeri: A0A4P1SA81; Cupriavidus oxalaticus: A0A375FND6; Burkholderia cenocepacia: A0A109EES1; Cupriavidus sp. USMAA2-4: A0A1D9HCS8; Malikia spinosa: A0A7C9IXC0; Sphingomonas sp. SH: A0A0X9NFN9; Pseudomonas syringae pv. papulans: A0AA43E024; uncultured bacterium: Q7AS74; Pseudomonas rhodesiae: A0A8I1E2K2; Actinobacillus pleuropneumoniae: A0A5B8HP76; Pseudomonas plecoglossicida: A0A2A3M2J3; Stenotrophomonas sp: A0A5N7SIG6; Cupriavidus basilensis: A0A643FSI0; mixed culture bacterium VUN 10010: C8CKV0; Pseudomonas aeruginosa PA14: A0A9Q9N7G1; Aeromonas caviae: A0AA37G7B9; Serratia marcescens: A0A2V4G350; Proteus mirabilis: B7SFR4; Morganella morganii: A0A514C8S3; Klebsiella pneumoniae: A0A1Y6M3D6; Delftia lacustris: A0A1H3SND8; Achromobacter sp. AO22: C0J1P3; Enterobacter cloacae: A0A144TXX2; Citrobacter freundii: A0A1C0NVJ0; Bordetella bronchiseptica: A0SJA0; Alcaligenes faecalis: A0A1Z3MKJ4; Burkholderia contaminans: A0A250LKY0; Pseudomonas luteola: A0A2X2EF41; Pseudomonas fulva: A0A7S9LLW7; Massilia timonae: A0A1S2NAK7; Stenotrophomonas maltophilia: A0A7G7Q0S1; Pseudomonas putida: B1J7V9; Pseudomonas aeruginosa: A6UXG2; Comamonas thiooxydans: A0A0E3BAH8; Citrobacter amalonaticus: A0A8I0T1A7; Ralstonia pickettii: A0A1C0XE24; Pseudomonas otitidis: A0A7X3H4J8; Stutzerimonas stutzeri: Q79BG7; Pseudomonas sp: P69413; Pelomonas saccharophila: A0A4R3VKF6; Pseudomonas sp. FeN3W: A0AA97FW39; Ralstonia sp. GP73: A0AA43SR00; Pseudomonas putida: A0A179SKR7; Pseudomonas oleovorans: A0A379KAU2; Pseudomonas sp. NBB: A0AA96YD35; Stenotrophomonas sp. GD03794: A0AA42VJC3; Pseudomonas sp. GD03730: A0AA90GBX8; Pseudomonas fluorescens: P0A184; Pseudomonas aeruginosa: B6ECZ7; Comamonas testosteroni: G9CA11; Sym plasmid: A0A515HHR4; Diaphorobacter sp. JS3051: A0A7T1GRB4; Aminobacter sp. SR38: A0A7L8S7F4; Citrobacter sp. RHB35-C21: A0A7L6UAK2; Hydrogenophaga crocea: A0A6G8IFJ4; Stutzerimonas xanthomarina: A0A3R8V6W2; Methylobacterium sp. DB0501: A0A6M1MFP4; Pseudomonas sp. ALS1131: A0A550FR14; Pseudomonas juntendi: A0A7W2PT27; Cupriavidus metallidurans: Q5NUU7; Cupriavidus sp. SW-Y-13: A0A7X3HR32; Cupriavidus pinatubonensis: Q6UP68; Brevundimonas sp. 357: A0A3R8Z6R4; Pseudomonas lutea: A0A9X8MHB3; Pseudomonas psychrotolerans: A0A1G5PHU3; Pseudomonas sp. AFG_SD02_1510_Pfu_092: A0A368AYG2; Pseudomonas asiatica: A0A9X4DH31; Pseudomonas sp. MB-090624: A0A2V4KHV4; Achromobacter spanius: A0A3Q9KPY8; Pseudomonas aeruginosa: A0A0H2ZEV9; Pseudomonas sp. FFUP_PS_41: A0A2N5B9P5; Hyphomonadaceae bacterium: A0A2E4S662; Pseudomonadota bacterium: A0A9E0T8X3; Hydrogenophilales bacterium 32-62-9: A0A258FAM2; Sphingobium sp: A0A2E9CHH3; Ralstonia insidiosa: A0A848NX11; Klebsiella sp. LTGPAF-6F: A0A1D8K358; Burkholderiales bacterium: A0A3S0DXP5; Pseudomonas abyssi: A0A2A3MCI7; Burkholderia sp. TGCL-27: A0A2Z6ITB3; Cupriavidus sp. TGCL-26: A0A2Z6IUR8; Ralstonia sp. TGCL-16: A0A2Z6IUV2; Cupriavidus sp. TGCL-3: A0A2Z6IU16; Cupriavidus sp. TGCL-2: A0A2Z6ITT3; Paraburkholderia terricola: A0A1M6YKP0; Pseudomonas sp.: A0A0A0REU4; Aeromonas sp. ASNIH1: A0A2L0U0A3; Arthrobacter woluwensis: C8CKU6; Ideonella sakaiensis: A0A0K8NUG2; Oryzisolibacter propanilivorax: A0A1G9VVP5; Cupriavidus sp. STW8_10: A0A2Z6IUL2; Cupriavidus sp. STW8_7: A0A2Z6IUJ3; Cupriavidus sp. STW8_1: A0A2Z6ITH8; Peribacillus simplex: A0A0Y0J6H6; Achromobacter sp. LM16: A0A0D5A0P0; Pseudomonas sp. EGD-AK9: U2BBE7; Pseudomonas indica: A0A1G8TS04; Sphingomonas sp. SRS2: A0A0F5P8J5; Mycobacteroides abscessus subsp. bolletii CRM-0020: A0A829HMS9; Cupriavidus sp. HMR-1: L2E8G3; Ralstonia sp. AU12-08: S9SWK9; Comamonas sp. 7D-2: M9UWT1; Stutzerimonas stutzeri NF13: M2TW92; Cupriavidus metallidurans: A0A132HRA0; Variovorax sp. DB1: I3RYH0; Salmonella enterica subsp. enterica serovar Ohio: A0A6X8TU10; Herbaspirillum sp. GW103: I3CVC5; Mycobacteroides abscessus subsp. bolletii F1725: I2ALK0; Stutzerimonas nosocomialis: A0A5R9Q8V4; Ralstonia mannitolilytica: A0A2N5L875; Pseudomonas putida: F8G244
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It is possible new templates exist for this target since these models were created.
Available Structures
1 Experimental Structure
| Description | PDB ID | Oligo-state | Range | Ligands | ||
|---|---|---|---|---|---|---|
| Crystal Structure of the Transcription Activator Tn501 MerR in Complex with Mercury (II) | homo-2-mer | 6-134 | 2×HG; | |||
| Assess | ||||||
2 SWISS-MODEL models
| Template | Oligo-state | QMEANDisCo | Range | Ligands | Trg-Tpl Seq id (%) | |
|---|---|---|---|---|---|---|
| 5crl.1.A | homo-2-mer | 0.80 | 6-134 | 2×HG; | 100.00 | |
| Assess | ||||||
| 6jgv.1.A | homo-2-mer | 0.70 | 8-135 | 33.85 | ||
| Assess | ||||||
| Model ID | Oligo-state | Avg pLDDT | Range | Trg-Mdl Seq Id (%) |
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| Model ID | Oligo-state | Avg Confidence | Range | Trg-Mdl Seq id (%) |
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