| NZ_CP012150.1|WP_049745182.1|2889834_2891118_+|phosphopyruvate-hydratase |
gnl|CDD|234617 |
PRK00077, eno, enolase; Provisional.
|
0 |
| NZ_CP012150.1|WP_049745186.1|2893339_2894374_-|MPT63-family-protein |
gnl|CDD|370335 |
pfam09167, DUF1942, Domain of unknown function (DUF1942). Members of this family of bacterial proteins assume a beta-sandwich structure consisting of two antiparallel beta-sheets similar to an immunoglobulin-like fold, with an additional small, antiparallel beta-sheet. The longer-stranded beta-sheet is made up of four antiparallel beta-strands. The shorter-stranded beta-sheet consists of five beta-strands, four of these beta-strands form an antiparallel beta-sheet. The exact function of this family of proteins is unknown, though a putative role includes involvement in host-bacterial interactions involved in endocytosis or phagocytosis, possibly during bacterial internalisation.
|
2.97989e-52 |
| NZ_CP012150.1|WP_049745185.1|2892312_2893263_+|Ppx/GppA-family-phosphatase |
gnl|CDD|223326 |
COG0248, GppA, Exopolyphosphatase [Nucleotide transport and metabolism / Inorganic ion transport and metabolism].
|
4.08332e-95 |
| NZ_CP012150.1|WP_049745184.1|2891830_2892322_+|DUF501-domain-containing-protein |
gnl|CDD|224424 |
COG1507, COG1507, Uncharacterized conserved protein [Function unknown].
|
1.17346e-86 |
| NZ_CP012150.1|WP_049745194.1|2903378_2904170_+|SDR-family-NAD(P)-dependent-oxidoreductase |
gnl|CDD|223377 |
COG0300, DltE, Short-chain dehydrogenases of various substrate specificities [General function prediction only].
|
1.07007e-53 |
| NZ_CP012150.1|WP_049745193.1|2901386_2903258_-|propionyl-CoA-synthetase |
gnl|CDD|341271 |
cd05967, PrpE, Propionyl-CoA synthetase (PrpE). EC 6.2.1.17: propanoate:CoA ligase (AMP-forming) or propionate#CoA ligase (PrpE) catalyzes the first step of the 2-methylcitric acid cycle for propionate catabolism. It activates propionate to propionyl-CoA in a two-step reaction, which proceeds through a propionyl-AMP intermediate and requires ATP and Mg2+. In Salmonella enterica, the PrpE protein is required for growth of Salmonella enterica on propionate and can substitute for the acetyl-CoA synthetase (Acs) enzyme during growth on acetate. PrpE can also activate acetate, 3HP, and butyrate to their corresponding CoA-thioesters, although with less efficiency.
|
0 |
| NZ_CP012150.1|WP_049745190.1|2896972_2897758_-|diacylglyceryl-transferase |
gnl|CDD|376615 |
pfam01790, LGT, Prolipoprotein diacylglyceryl transferase.
|
4.64399e-35 |
| NZ_CP012150.1|WP_049745188.1|2894772_2896341_-|radical-SAM-protein |
gnl|CDD|224875 |
COG1964, COG1964, Predicted Fe-S oxidoreductases [General function prediction only].
|
9.80152e-35 |
| NZ_CP012150.1|WP_049745198.1|2907018_2909562_-|sensor-histidine-kinase-KdpD |
gnl|CDD|225115 |
COG2205, KdpD, Osmosensitive K+ channel histidine kinase [Signal transduction mechanisms].
|
0 |
| NZ_CP012150.1|WP_049745196.1|2904657_2906250_+|NAD(P)/FAD-dependent-oxidoreductase |
gnl|CDD|224154 |
COG1233, COG1233, Phytoene dehydrogenase and related proteins [Secondary metabolites biosynthesis, transport, and catabolism].
|
2.16266e-81 |
| NZ_CP012150.1|WP_049745191.1|2898941_2899295_-|winged-helix-turn-helix-transcriptional-regulator |
gnl|CDD|197713 |
smart00418, HTH_ARSR, helix_turn_helix, Arsenical Resistance Operon Repressor.
|
6.83648e-17 |
| NZ_CP012150.1|WP_049748740.1|2897783_2898485_-|hypothetical-protein |
gnl|CDD|223505 |
COG0428, COG0428, Predicted divalent heavy-metal cations transporter [Inorganic ion transport and metabolism].
|
2.61872e-05 |
| NZ_CP012150.1|WP_049745183.1|2891154_2891838_+|septum-formation-initiator-family-protein |
gnl|CDD|225471 |
COG2919, COG2919, Septum formation initiator [Cell division and chromosome partitioning].
|
3.88218e-15 |
| NZ_CP012150.1|WP_049745181.1|2889038_2889770_+|hypothetical-protein |
gnl|CDD|225501 |
COG2951, MltB, Membrane-bound lytic murein transglycosylase B [Cell envelope biogenesis, outer membrane].
|
1.07533e-48 |
| NZ_CP012150.1|WP_049745180.1|2887900_2888833_-|iron-transporter |
gnl|CDD|272930 |
TIGR00145, Uncharacterized_protein_slr0964, FTR1 family protein. A characterized member from yeast acts as oxidase-coupled high affinity iron transporter. Note that the apparent member from E. coli K12-MG1655 has a frameshift by homology with member sequences from other species. [Unknown function, General].
|
5.63169e-40 |
| NZ_CP012150.1|WP_049745195.1|2904184_2904661_+|SRPBCC-family-protein |
gnl|CDD|176854 |
cd07812, SRPBCC, START/RHO_alpha_C/PITP/Bet_v1/CoxG/CalC (SRPBCC) ligand-binding domain superfamily. SRPBCC domains have a deep hydrophobic ligand-binding pocket; they bind diverse ligands. Included in this superfamily are the steroidogenic acute regulatory protein (StAR)-related lipid transfer (START) domains of mammalian STARD1-STARD15, and the C-terminal catalytic domains of the alpha oxygenase subunit of Rieske-type non-heme iron aromatic ring-hydroxylating oxygenases (RHOs_alpha_C), as well as the SRPBCC domains of phosphatidylinositol transfer proteins (PITPs), Bet v 1 (the major pollen allergen of white birch, Betula verrucosa), CoxG, CalC, and related proteins. Other members of this superfamily include PYR/PYL/RCAR plant proteins, the aromatase/cyclase (ARO/CYC) domains of proteins such as Streptomyces glaucescens tetracenomycin, and the SRPBCC domains of Streptococcus mutans Smu.440 and related proteins.
|
3.9196e-11 |
| NZ_CP012150.1|WP_049745197.1|2906329_2907022_-|response-regulator |
gnl|CDD|182522 |
PRK10529, PRK10529, DNA-binding transcriptional activator KdpE; Provisional.
|
9.23026e-84 |
| NZ_CP012150.1|WP_049745192.1|2899392_2901360_+|heavy-metal-translocating-P-type-ATPase |
gnl|CDD|319849 |
cd07551, P-type_ATPase_HM_ZosA_PfeT-like, P-type heavy metal-transporting ATPase, similar to Bacillus subtilis ZosA/PfeT which transports copper, and perhaps zinc under oxidative stress, and perhaps ferrous iron. Bacillus subtilis ZosA/PfeT (previously known as YkvW) transports copper, it may also transport zinc under oxidative stress and may also be involved in ferrous iron efflux. ZosA/PfeT is expressed under the regulation of the peroxide-sensing repressor PerR. It is involved in competence development. Disruption of the zosA/pfeT gene results in low transformability. This subfamily belongs to the P-type ATPases, a large family of integral membrane transporters that are of critical importance in all kingdoms of life. They generate and maintain (electro-) chemical gradients across cellular membranes, by translocating cations, heavy metals and lipids, and are distinguished from other main classes of transport ATPases (F- , V- , and ABC- type) by the formation of a phosphorylated (P-) intermediate state in the catalytic cycle.
|
0 |
