sodium potassium adenosine triphosphatase, partial [Pseudoheriades moricei]
Protein Classification
HAD family hydrolase( domain architecture ID 229399)
HAD (haloacid dehalogenase) family hydrolase; the HAD family includes phosphoesterases, ATPases, phosphonatases, dehalogenases, and sugar phosphomutases acting on a remarkably diverse set of substrates
List of domain hits
| Name | Accession | Description | Interval | E-value | ||||||||
| HAD_like super family | cl21460 | Haloacid Dehalogenase-like Hydrolases; The haloacid dehalogenase (HAD) superfamily includes ... |
1-496 | 0e+00 | ||||||||
Haloacid Dehalogenase-like Hydrolases; The haloacid dehalogenase (HAD) superfamily includes carbon and phosphorus hydrolases such as 2-haloalkonoate dehalogenase, epoxide hydrolase, phosphoserine phosphatase, phosphomannomutase, phosphoglycolate phosphatase, P-type ATPase, among others. These proteins catalyze nucleophilic substitution reactions at phosphorus or carbon centers, using a conserved Asp carboxylate in covalent catalysis. All members possess a conserve alpha/beta core domain, and many also possess a small cap domain, with varying folds and functions. The actual alignment was detected with superfamily member cd02608: Pssm-ID: 473868 [Multi-domain] Cd Length: 905 Bit Score: 751.10 E-value: 0e+00
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| Name | Accession | Description | Interval | E-value | |||||||||
| P-type_ATPase_Na-K_like | cd02608 | alpha-subunit of Na(+)/K(+)-ATPases and of gastric H(+)/K(+)-ATPase, similar to the human Na(+) ... |
1-496 | 0e+00 | |||||||||
alpha-subunit of Na(+)/K(+)-ATPases and of gastric H(+)/K(+)-ATPase, similar to the human Na(+)/K(+)-ATPase alpha subunits 1-4; This subfamily includes the alpha subunit of Na(+)/K(+)-ATPase a heteromeric transmembrane protein composed of an alpha- and beta-subunit and an optional third subunit belonging to the FXYD proteins which are more tissue specific regulatory subunits of the enzyme. The alpha-subunit is the catalytic subunit responsible for transport activities of the enzyme. This subfamily includes all four isotopes of the human alpha subunit: (alpha1-alpha4, encoded by the ATP1A1- ATP1A4 genes). Na(+)/K(+)-ATPase functions chiefly as an ion pump, hydrolyzing one molecule of ATP to pump three Na(+) out of the cell in exchange for two K(+)entering the cell per pump cycle. In addition Na(+)/K(+)-ATPase acts as a signal transducer. This subfamily also includes Oreochromis mossambicus (tilapia) Na(+)/K(+)-ATPase alpha 1 and alpha 3 subunits, and gastric H(+)/K(+)-ATPase which exchanges hydronium ion with potassium and is responsible for gastric acid secretion. Gastric H(+)/K(+)-ATPase is an alpha,beta-heterodimeric enzyme. 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. Pssm-ID: 319794 [Multi-domain] Cd Length: 905 Bit Score: 751.10 E-value: 0e+00
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| ATPase-IIC_X-K | TIGR01106 | sodium or proton efflux -- potassium uptake antiporter, P-type ATPase, alpha subunit; This ... |
1-496 | 0e+00 | |||||||||
sodium or proton efflux -- potassium uptake antiporter, P-type ATPase, alpha subunit; This model describes the P-type ATPases responsible for the exchange of either protons or sodium ions for potassium ions across the plasma membranes of eukaryotes. Unlike most other P-type ATPases, members of this subfamily require a beta subunit for activity. This model encompasses eukaryotes and consists of two functional types, a Na/K antiporter found widely distributed in eukaryotes and a H/K antiporter found only in vertebrates. The Na+ or H+/K+ antiporter P-type ATPases have been characterized as Type IIC based on a published phylogenetic analysis. Sequences from Blastocladiella emersonii (GP|6636502, GP|6636502 and PIR|T43025), C. elegans (GP|2315419, GP|6671808 and PIR|T31763) and Drosophila melanogaster (GP|7291424) score below trusted cutoff, apparently due to long branch length (excessive divergence from the last common ancestor) as evidenced by a phylogenetic tree. Experimental evidence is needed to determine whether these sequences represent ATPases with conserved function. Aside from fragments, other sequences between trusted and noise appear to be bacterial ATPases of unclear lineage, but most likely calcium pumps. [Energy metabolism, ATP-proton motive force interconversion] Pssm-ID: 273445 [Multi-domain] Cd Length: 997 Bit Score: 706.17 E-value: 0e+00
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| MgtA | COG0474 | Magnesium-transporting ATPase (P-type) [Inorganic ion transport and metabolism]; |
21-496 | 5.55e-75 | |||||||||
Magnesium-transporting ATPase (P-type) [Inorganic ion transport and metabolism]; Pssm-ID: 440242 [Multi-domain] Cd Length: 874 Bit Score: 253.11 E-value: 5.55e-75
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| Cation_ATPase | pfam13246 | Cation transport ATPase (P-type); This domain is found in cation transport ATPases, including ... |
319-414 | 4.96e-35 | |||||||||
Cation transport ATPase (P-type); This domain is found in cation transport ATPases, including phospholipid-transporting ATPases, calcium-transporting ATPases, and sodium-potassium ATPases. Pssm-ID: 463817 [Multi-domain] Cd Length: 91 Bit Score: 125.79 E-value: 4.96e-35
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| PRK10517 | PRK10517 | magnesium-transporting P-type ATPase MgtA; |
21-175 | 4.62e-29 | |||||||||
magnesium-transporting P-type ATPase MgtA; Pssm-ID: 236705 [Multi-domain] Cd Length: 902 Bit Score: 121.33 E-value: 4.62e-29
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| Name | Accession | Description | Interval | E-value | |||||||||
| P-type_ATPase_Na-K_like | cd02608 | alpha-subunit of Na(+)/K(+)-ATPases and of gastric H(+)/K(+)-ATPase, similar to the human Na(+) ... |
1-496 | 0e+00 | |||||||||
alpha-subunit of Na(+)/K(+)-ATPases and of gastric H(+)/K(+)-ATPase, similar to the human Na(+)/K(+)-ATPase alpha subunits 1-4; This subfamily includes the alpha subunit of Na(+)/K(+)-ATPase a heteromeric transmembrane protein composed of an alpha- and beta-subunit and an optional third subunit belonging to the FXYD proteins which are more tissue specific regulatory subunits of the enzyme. The alpha-subunit is the catalytic subunit responsible for transport activities of the enzyme. This subfamily includes all four isotopes of the human alpha subunit: (alpha1-alpha4, encoded by the ATP1A1- ATP1A4 genes). Na(+)/K(+)-ATPase functions chiefly as an ion pump, hydrolyzing one molecule of ATP to pump three Na(+) out of the cell in exchange for two K(+)entering the cell per pump cycle. In addition Na(+)/K(+)-ATPase acts as a signal transducer. This subfamily also includes Oreochromis mossambicus (tilapia) Na(+)/K(+)-ATPase alpha 1 and alpha 3 subunits, and gastric H(+)/K(+)-ATPase which exchanges hydronium ion with potassium and is responsible for gastric acid secretion. Gastric H(+)/K(+)-ATPase is an alpha,beta-heterodimeric enzyme. 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. Pssm-ID: 319794 [Multi-domain] Cd Length: 905 Bit Score: 751.10 E-value: 0e+00
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| ATPase-IIC_X-K | TIGR01106 | sodium or proton efflux -- potassium uptake antiporter, P-type ATPase, alpha subunit; This ... |
1-496 | 0e+00 | |||||||||
sodium or proton efflux -- potassium uptake antiporter, P-type ATPase, alpha subunit; This model describes the P-type ATPases responsible for the exchange of either protons or sodium ions for potassium ions across the plasma membranes of eukaryotes. Unlike most other P-type ATPases, members of this subfamily require a beta subunit for activity. This model encompasses eukaryotes and consists of two functional types, a Na/K antiporter found widely distributed in eukaryotes and a H/K antiporter found only in vertebrates. The Na+ or H+/K+ antiporter P-type ATPases have been characterized as Type IIC based on a published phylogenetic analysis. Sequences from Blastocladiella emersonii (GP|6636502, GP|6636502 and PIR|T43025), C. elegans (GP|2315419, GP|6671808 and PIR|T31763) and Drosophila melanogaster (GP|7291424) score below trusted cutoff, apparently due to long branch length (excessive divergence from the last common ancestor) as evidenced by a phylogenetic tree. Experimental evidence is needed to determine whether these sequences represent ATPases with conserved function. Aside from fragments, other sequences between trusted and noise appear to be bacterial ATPases of unclear lineage, but most likely calcium pumps. [Energy metabolism, ATP-proton motive force interconversion] Pssm-ID: 273445 [Multi-domain] Cd Length: 997 Bit Score: 706.17 E-value: 0e+00
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| MgtA | COG0474 | Magnesium-transporting ATPase (P-type) [Inorganic ion transport and metabolism]; |
21-496 | 5.55e-75 | |||||||||
Magnesium-transporting ATPase (P-type) [Inorganic ion transport and metabolism]; Pssm-ID: 440242 [Multi-domain] Cd Length: 874 Bit Score: 253.11 E-value: 5.55e-75
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| P-type_ATPase_cation | cd02080 | P-type cation-transporting ATPase similar to Exiguobacterium aurantiacum Mna, an Na(+)-ATPase, ... |
26-496 | 2.97e-53 | |||||||||
P-type cation-transporting ATPase similar to Exiguobacterium aurantiacum Mna, an Na(+)-ATPase, and Synechocystis sp. PCC 6803 PMA1, a putative Ca(2+)-ATPase; This subfamily includes the P-type Na(+)-ATPase of an alkaliphilic bacterium Exiguobacterium aurantiacum Mna and cyanobacterium Synechocystis sp. PCC 6803 PMA1, a cation-transporting ATPase which may translocate calcium. The P-type ATPases, are 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. Pssm-ID: 319775 [Multi-domain] Cd Length: 819 Bit Score: 192.09 E-value: 2.97e-53
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| P-type_ATPase_Ca_prok | cd02089 | prokaryotic P-type Ca(2+)-ATPase similar to Synechococcus elongatus sp. strain PCC 7942 PacL ... |
27-496 | 1.73e-51 | |||||||||
prokaryotic P-type Ca(2+)-ATPase similar to Synechococcus elongatus sp. strain PCC 7942 PacL and Listeria monocytogenes LMCA1; Ca(2+) transport ATPase is a plasma membrane protein which pumps Ca(2+) ion out of the cytoplasm. This prokaryotic subfamily includes the Ca(2+)-ATPase Synechococcus elongatus PacL, Listeria monocytogenes Ca(2+)-ATPase 1 (LMCA1) which has a low Ca(2+) affinity and a high pH optimum (pH about 9) and may remove Ca(2+) from the microorganism in environmental conditions when e.g. stressed by high Ca(2+) and alkaline pH, and the Bacillus subtilis putative P-type Ca(2+)-transport ATPase encoded by the yloB gene, which is expressed during sporulation. 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. Pssm-ID: 319781 [Multi-domain] Cd Length: 674 Bit Score: 185.51 E-value: 1.73e-51
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| Cation_ATPase | pfam13246 | Cation transport ATPase (P-type); This domain is found in cation transport ATPases, including ... |
319-414 | 4.96e-35 | |||||||||
Cation transport ATPase (P-type); This domain is found in cation transport ATPases, including phospholipid-transporting ATPases, calcium-transporting ATPases, and sodium-potassium ATPases. Pssm-ID: 463817 [Multi-domain] Cd Length: 91 Bit Score: 125.79 E-value: 4.96e-35
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| P-type_ATPase_Mg | cd02077 | magnesium transporting ATPase (MgtA), similar to Escherichia coli MgtA and Salmonella ... |
1-188 | 2.17e-34 | |||||||||
magnesium transporting ATPase (MgtA), similar to Escherichia coli MgtA and Salmonella typhimurium MgtA; MgtA is a membrane protein which actively transports Mg(2+) into the cytosol with its electro-chemical gradient rather than against the gradient as other cation transporters do. It may act both as a transporter and as a sensor for Mg(2+). In Salmonella typhimurium and Escherichia coli, the two-component system PhoQ/PhoP regulates the transcription of the mgtA gene by sensing Mg(2+) concentrations in the periplasm. MgtA is activated by cardiolipin and it highly sensitive to free magnesium in vitro. It consists of a transmembrane domain and three cytosolic domains: nucleotide-binding domain, phosphorylation domain and actuator domain, and belongs to the P-type ATPase type III subfamily. The P-type ATPases, are 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. Pssm-ID: 319772 [Multi-domain] Cd Length: 768 Bit Score: 137.38 E-value: 2.17e-34
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| ATPase-IIA2_Ca | TIGR01522 | golgi membrane calcium-translocating P-type ATPase; This model describes the P-type ATPase ... |
27-496 | 6.19e-33 | |||||||||
golgi membrane calcium-translocating P-type ATPase; This model describes the P-type ATPase responsible for translocating calcium ions across the golgi membrane of fungi and animals, and is of particular importance in the sarcoplasmic reticulum of skeletal and cardiac muscle in vertebrates. The calcium P-type ATPases have been characterized as Type IIA based on a phylogenetic analysis which distinguishes this group from the Type IIB PMCA calcium pump modelled by TIGR01517. A separate analysis divides Type IIA into sub-types, SERCA and PMR1, the former of which is modelled by TIGR01116. Pssm-ID: 130585 [Multi-domain] Cd Length: 884 Bit Score: 133.04 E-value: 6.19e-33
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| P-type_ATPase_Na_ENA | cd02086 | fungal-type Na(+)-ATPase, similar to the plasma membrane sodium transporters Saccharomyces ... |
26-496 | 4.28e-31 | |||||||||
fungal-type Na(+)-ATPase, similar to the plasma membrane sodium transporters Saccharomyces cerevisiae Ena1p, Ena2p and Ustilago maydis Ena1, and the endoplasmic reticulum sodium transporter Ustilago maydis Ena2; Fungal-type Na(+)-ATPase (also called ENA ATPases). This subfamily includes the Saccharomyces cerevisiae plasma membrane transporters: Na(+)/Li(+)-exporting ATPase Ena1p which may also extrudes K(+), and Na(+)-exporting P-type ATPase Ena2p. It also includes Ustilago maydis plasma membrane Ena1, an K(+)/Na(+)-ATPase whose chief role is to pump Na(+) and K(+) out of the cytoplasm, especially at high pH values, and endoplasmic reticulum Ena2 ATPase which mediates Na(+) or K(+) fluxes in the ER or in other endomembranes. 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. Pssm-ID: 319780 [Multi-domain] Cd Length: 920 Bit Score: 127.57 E-value: 4.28e-31
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| P-type_ATPase_SPCA | cd02085 | golgi-associated secretory pathway Ca(2+) transport ATPases, similar to human ATPase secretory ... |
27-496 | 4.92e-30 | |||||||||
golgi-associated secretory pathway Ca(2+) transport ATPases, similar to human ATPase secretory pathway Ca(2+) transporting 1/hSPCA1 and Saccharomyces cerevisiae Ca(2+)/Mn(2+)-transporting P-type ATPase, Pmr1p; SPCAs are Ca(2+) pumps important for the golgi-associated secretion pathway, in addition some function as Mn(2+) pumps in Mn(2+) detoxification. Saccharomyces cerevisiae Pmr1p is a high affinity Ca(2+)/Mn(2+) ATPase which transports Ca(2+) and Mn(2+) from the cytoplasm into the Golgi. Pmr1p also contributes to Cd(2+) detoxification. This subfamily includes human SPCA1 and SPCA2, encoded by the ATP2C1 and ATP2C2 genes; autosomal dominant Hailey-Hailey disease is caused by mutations in the human ATP2C1 gene. It also includes Strongylocentrotus purpuratus testis secretory pathway calcium transporting ATPase SPCA which plays an important role in fertilization. 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. Pssm-ID: 319779 [Multi-domain] Cd Length: 804 Bit Score: 124.43 E-value: 4.92e-30
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| E1-E2_ATPase | pfam00122 | E1-E2 ATPase; |
56-197 | 3.66e-29 | |||||||||
E1-E2 ATPase; Pssm-ID: 425475 [Multi-domain] Cd Length: 181 Bit Score: 113.05 E-value: 3.66e-29
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| PRK10517 | PRK10517 | magnesium-transporting P-type ATPase MgtA; |
21-175 | 4.62e-29 | |||||||||
magnesium-transporting P-type ATPase MgtA; Pssm-ID: 236705 [Multi-domain] Cd Length: 902 Bit Score: 121.33 E-value: 4.62e-29
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| P-type_ATPase | cd07539 | uncharacterized subfamily of P-type ATPase transporters; This subfamily contains P-type ATPase ... |
27-178 | 1.23e-26 | |||||||||
uncharacterized subfamily of P-type ATPase transporters; This subfamily contains P-type ATPase transporters of unknown function. The P-type ATPases, are 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. They 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. A general characteristic of P-type ATPases is a bundle of transmembrane helices which make up the transport path, and three domains on the cytoplasmic side of the membrane. Members include pumps that transport various light metal ions, such as H(+), Na(+), K(+), Ca(2+), and Mg(2+), pumps that transport indispensable trace elements, such as Zn(2+) and Cu(2+), pumps that remove toxic heavy metal ions, such as Cd2+, and pumps such as aminophospholipid translocases which transport phosphatidylserine and phosphatidylethanolamine. Pssm-ID: 319840 [Multi-domain] Cd Length: 634 Bit Score: 113.67 E-value: 1.23e-26
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| P-type_ATPase_SERCA | cd02083 | sarco/endoplasmic reticulum Ca(2+)-ATPase (SERCA), similar to mammalian ATP2A1-3/SERCA1-3; ... |
27-195 | 3.10e-26 | |||||||||
sarco/endoplasmic reticulum Ca(2+)-ATPase (SERCA), similar to mammalian ATP2A1-3/SERCA1-3; SERCA is a transmembrane (Ca2+)-ATPase and a major regulator of Ca(2+) homeostasis and contractility in cardiac and skeletal muscle. It re-sequesters cytoplasmic Ca(2+) to the sarco/endoplasmic reticulum store, thereby also terminating Ca(2+)-induced signaling such as in muscle contraction. Three genes (ATP2A1-3/SERCA1-3) encode SERCA pumps in mammals, further isoforms exist due to alternative splicing of transcripts. The activity of SERCA is regulated by two small membrane proteins called phospholamban and sarcolipin. 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. Pssm-ID: 319778 [Multi-domain] Cd Length: 979 Bit Score: 112.77 E-value: 3.10e-26
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| ATPase-IID_K-Na | TIGR01523 | potassium and/or sodium efflux P-type ATPase, fungal-type; Initially described as a calcium ... |
26-164 | 2.86e-25 | |||||||||
potassium and/or sodium efflux P-type ATPase, fungal-type; Initially described as a calcium efflux ATPase, more recent work has shown that the S. pombe CTA3 gene is in fact a potassium ion efflux pump. This model describes the clade of fungal P-type ATPases responsible for potassium and sodium efflux. The degree to which these pumps show preference for sodium or potassium varies. This group of ATPases has been classified by phylogentic analysis as type IID. The Leishmania sequence (GP|3192903), which falls between trusted and noise in this model, may very well turn out to be an active potassium pump. Pssm-ID: 130586 [Multi-domain] Cd Length: 1053 Bit Score: 110.10 E-value: 2.86e-25
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| ATPase_P-type | TIGR01494 | ATPase, P-type (transporting), HAD superfamily, subfamily IC; The P-type ATPases are a large ... |
28-496 | 4.62e-25 | |||||||||
ATPase, P-type (transporting), HAD superfamily, subfamily IC; The P-type ATPases are a large family of trans-membrane transporters acting on charged substances. The distinguishing feature of the family is the formation of a phosphorylated intermediate (aspartyl-phosphate) during the course of the reaction. Another common name for these enzymes is the E1-E2 ATPases based on the two isolable conformations: E1 (unphosphorylated) and E2 (phosphorylated). Generally, P-type ATPases consist of only a single subunit encompassing the ATPase and ion translocation pathway, however, in the case of the potassium (TIGR01497) and sodium/potassium (TIGR01106) varieties, these functions are split between two subunits. Additional small regulatory or stabilizing subunits may also exist in some forms. P-type ATPases are nearly ubiquitous in life and are found in numerous copies in higher organisms (at least 45 in Arabidopsis thaliana, for instance). Phylogenetic analyses have revealed that the P-type ATPase subfamily is divided up into groups based on substrate specificities and this is represented in the various subfamily and equivalog models that have been made: IA (K+) TIGR01497, IB (heavy metals) TIGR01525, IIA1 (SERCA-type Ca++) TIGR01116, IIA2 (PMR1-type Ca++) TIGR01522, IIB (PMCA-type Ca++) TIGR01517, IIC (Na+/K+, H+/K+ antiporters) TIGR01106, IID (fungal-type Na+ and K+) TIGR01523, IIIA (H+) TIGR01647, IIIB (Mg++) TIGR01524, IV (phospholipid, flippase) TIGR01652 and V (unknown specificity) TIGR01657. The crystal structure of one calcium-pumping ATPase and an analysis of the fold of the catalytic domain of the P-type ATPases have been published. These reveal that the catalytic core of these enzymes is a haloacid dehalogenase(HAD)-type aspartate-nucleophile hydrolase. The location of the ATP-binding loop in between the first and second HAD conserved catalytic motifs defines these enzymes as members of subfamily I of the HAD superfamily (see also TIGR01493, TIGR01509, TIGR01549, TIGR01544 and TIGR01545). Based on these classifications, the P-type ATPase _superfamily_ corresponds to the IC subfamily of the HAD superfamily. Pssm-ID: 273656 [Multi-domain] Cd Length: 545 Bit Score: 108.17 E-value: 4.62e-25
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| P-type_ATPase | cd07538 | uncharacterized subfamily of P-type ATPase transporters; This subfamily contains P-type ATPase ... |
26-195 | 5.07e-25 | |||||||||
uncharacterized subfamily of P-type ATPase transporters; This subfamily contains P-type ATPase transporters of unknown function. The P-type ATPases, are 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. They 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. A general characteristic of P-type ATPases is a bundle of transmembrane helices which make up the transport path, and three domains on the cytoplasmic side of the membrane. Members include pumps that transport various light metal ions, such as H(+), Na(+), K(+), Ca(2+), and Mg(2+), pumps that transport indispensable trace elements, such as Zn(2+) and Cu(2+), pumps that remove toxic heavy metal ions, such as Cd2+, and pumps such as aminophospholipid translocases which transport phosphatidylserine and phosphatidylethanolamine. Pssm-ID: 319839 [Multi-domain] Cd Length: 653 Bit Score: 108.68 E-value: 5.07e-25
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| PRK15122 | PRK15122 | magnesium-transporting ATPase; Provisional |
27-164 | 1.33e-23 | |||||||||
magnesium-transporting ATPase; Provisional Pssm-ID: 237914 [Multi-domain] Cd Length: 903 Bit Score: 104.72 E-value: 1.33e-23
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| P-type_ATPase_Ca_PMCA-like | cd02081 | animal plasma membrane Ca2(+)-ATPases (PMCA), similar to human ATP2B1-4/PMCA1-4, and related ... |
26-176 | 7.85e-21 | |||||||||
animal plasma membrane Ca2(+)-ATPases (PMCA), similar to human ATP2B1-4/PMCA1-4, and related Ca2(+)-ATPases including Saccharomyces cerevisiae vacuolar PMC1; Animal PMCAs function to export Ca(2+) from cells and play a role in regulating Ca(2+) signals following stimulus induction and in preventing calcium toxicity. Many PMCA pump variants exist due to alternative splicing of transcripts. PMCAs are regulated by the binding of calmodulin or by kinase-mediated phosphorylation. Saccharomyces cerevisiae vacuolar transporter Pmc1p facilitates the accumulation of Ca2+ into vacuoles. Pmc1p is not regulated by direct calmodulin binding but responds to the calmodulin/calcineurin-signaling pathway and is controlled by the transcription factor complex Tcn1p/Crz1p. Similarly, the expression of the gene for Dictyostelium discoideum Ca(2+)-ATPase PAT1, patA, is under the control of a calcineurin-dependent transcription factor. Plant vacuolar Ca(2+)-ATPases, are regulated by direct-calmodulin binding. Plant Ca(2+)-ATPases are present at various cellular locations including the plasma membrane, endoplasmic reticulum, chloroplast and vacuole. 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. Pssm-ID: 319776 [Multi-domain] Cd Length: 721 Bit Score: 96.12 E-value: 7.85e-21
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| P-type_ATPase_H | cd02076 | plant and fungal plasma membrane H(+)-ATPases, and related bacterial and archaeal putative H(+) ... |
26-195 | 9.56e-20 | |||||||||
plant and fungal plasma membrane H(+)-ATPases, and related bacterial and archaeal putative H(+)-ATPases; This subfamily includes eukaryotic plasma membrane H(+)-ATPase which transports H(+) from the cytosol to the extracellular space, thus energizing the plasma membrane for the uptake of ions and nutrients, and is expressed in plants and fungi. This H(+)-ATPase consists of four domains: a transmembrane domain and three cytosolic domains: nucleotide-binding domain, phosphorylation domain and actuator domain, and belongs to the P-type ATPase type III subfamily. This subfamily also includes the putative P-type H(+)-ATPase, MJ1226p of the anaerobic hyperthermophilic archaea Methanococcus jannaschii. The P-type ATPases, are 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. Pssm-ID: 319771 [Multi-domain] Cd Length: 781 Bit Score: 92.68 E-value: 9.56e-20
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| P-type_ATPases | cd01431 | ATP-dependent membrane-bound cation and aminophospholipid transporters; The P-type ATPases, ... |
372-496 | 1.21e-16 | |||||||||
ATP-dependent membrane-bound cation and aminophospholipid transporters; The P-type ATPases, are 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. They 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. A general characteristic of P-type ATPases is a bundle of transmembrane helices which make up the transport path, and three domains on the cytoplasmic side of the membrane. Members include pumps that transport various light metal ions, such as H(+), Na(+), K(+), Ca(2+), and Mg(2+), pumps that transport indispensable trace elements, such as Zn(2+) and Cu(2+), pumps that remove toxic heavy metal ions, such as Cd(2+), and pumps such as aminophospholipid translocases which transport phosphatidylserine and phosphatidylethanolamine. Pssm-ID: 319764 [Multi-domain] Cd Length: 319 Bit Score: 80.57 E-value: 1.21e-16
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| P-type_ATPase | cd02609 | uncharacterized subfamily of P-type ATPase transporter, similar to uncharacterized ... |
28-197 | 1.97e-15 | |||||||||
uncharacterized subfamily of P-type ATPase transporter, similar to uncharacterized Streptococcus pneumoniae exported protein 7, Exp7; This subfamily contains P-type ATPase transporters of unknown function, similar to Streptococcus pneumoniae Exp7. The P-type ATPases, are 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. They 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. A general characteristic of P-type ATPases is a bundle of transmembrane helices which make up the transport path, and three domains on the cytoplasmic side of the membrane. Members include pumps that transport various light metal ions, such as H(+), Na(+), K(+), Ca(2+), and Mg(2+), pumps that transport indispensable trace elements, such as Zn(2+) and Cu(2+), pumps that remove toxic heavy metal ions, such as Cd(2+), and pumps such as aminophospholipid translocases which transport phosphatidylserine and phosphatidylethanolamine. Pssm-ID: 319795 [Multi-domain] Cd Length: 661 Bit Score: 78.86 E-value: 1.97e-15
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| ZntA | COG2217 | Cation-transporting P-type ATPase [Inorganic ion transport and metabolism]; |
7-122 | 2.01e-15 | |||||||||
Cation-transporting P-type ATPase [Inorganic ion transport and metabolism]; Pssm-ID: 441819 [Multi-domain] Cd Length: 717 Bit Score: 79.03 E-value: 2.01e-15
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| ATPase-IIB_Ca | TIGR01517 | plasma-membrane calcium-translocating P-type ATPase; This model describes the P-type ATPase ... |
28-177 | 4.06e-14 | |||||||||
plasma-membrane calcium-translocating P-type ATPase; This model describes the P-type ATPase responsible for translocating calcium ions across the plasma membrane of eukaryotes, out of the cell. In some organisms, this type of pump may also be found in vacuolar membranes. In humans and mice, at least, there are multiple isoforms of the PMCA pump with overlapping but not redundant functions. Accordingly, there are no human diseases linked to PMCA defects, although alterations of PMCA function do elicit physiological effects. The calcium P-type ATPases have been characterized as Type IIB based on a phylogenetic analysis which distinguishes this group from the Type IIA SERCA calcium pump. A separate analysis divides Type IIA into sub-types (SERCA and PMR1) which are represented by two corresponding models (TIGR01116 and TIGR01522). This model is well separated from those. Pssm-ID: 273668 [Multi-domain] Cd Length: 956 Bit Score: 75.20 E-value: 4.06e-14
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| P-type_ATPase_HM | cd02079 | P-type heavy metal-transporting ATPase; Heavy metal-transporting ATPases (Type IB ATPases) ... |
30-123 | 5.11e-14 | |||||||||
P-type heavy metal-transporting ATPase; Heavy metal-transporting ATPases (Type IB ATPases) transport heavy metal ions (Cu(+), Cu(2+), Zn(2+), Cd(2+), Co(2+), etc.) across biological membranes. These ATPases include mammalian copper-transporting ATPases, ATP7A and ATP7B, Bacillus subtilis CadA which transports cadmium, zinc and cobalt out of the cell, Bacillus subtilis ZosA/PfeT which transports copper, and perhaps also zinc and ferrous iron, Archaeoglobus fulgidus CopA and CopB, Staphylococcus aureus plasmid pI258 CadA, a cadmium-efflux ATPase, and Escherichia coli ZntA which is selective for Pb(2+), Zn(2+), and Cd(2+). The characteristic N-terminal heavy metal associated (HMA) domain of this group is essential for the binding of metal ions. This family 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. Pssm-ID: 319774 [Multi-domain] Cd Length: 617 Bit Score: 74.56 E-value: 5.11e-14
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| P-type_ATPase_SERCA | cd02083 | sarco/endoplasmic reticulum Ca(2+)-ATPase (SERCA), similar to mammalian ATP2A1-3/SERCA1-3; ... |
309-496 | 4.26e-13 | |||||||||
sarco/endoplasmic reticulum Ca(2+)-ATPase (SERCA), similar to mammalian ATP2A1-3/SERCA1-3; SERCA is a transmembrane (Ca2+)-ATPase and a major regulator of Ca(2+) homeostasis and contractility in cardiac and skeletal muscle. It re-sequesters cytoplasmic Ca(2+) to the sarco/endoplasmic reticulum store, thereby also terminating Ca(2+)-induced signaling such as in muscle contraction. Three genes (ATP2A1-3/SERCA1-3) encode SERCA pumps in mammals, further isoforms exist due to alternative splicing of transcripts. The activity of SERCA is regulated by two small membrane proteins called phospholamban and sarcolipin. 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. Pssm-ID: 319778 [Multi-domain] Cd Length: 979 Bit Score: 71.94 E-value: 4.26e-13
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| P-type_ATPase_Pb_Zn_Cd2-like | cd07546 | P-type heavy metal-transporting ATPase, similar to Escherichia coli ZntA which is selective ... |
23-122 | 2.78e-12 | |||||||||
P-type heavy metal-transporting ATPase, similar to Escherichia coli ZntA which is selective for Pb(2+), Zn(2+), and Cd(2+); Escherichia coli ZntA mediates resistance to toxic levels of selected divalent metal ions. ZntA has the highest selectivity for Pb(2+), followed by Zn(2+) and Cd(2+); it also shows low levels of activity with Cu(2+), Ni(2+), and Co(2+). It is upregulated by the transcription factor ZntR at high zinc concentrations. This subclass of P-type ATPase is also referred to as CPx-type ATPases because their amino acid sequences contain a characteristic CPC or CPH motif associated with a stretch of hydrophobic amino acids and N-terminal ion-binding sequences. 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. Pssm-ID: 319846 [Multi-domain] Cd Length: 597 Bit Score: 68.97 E-value: 2.78e-12
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| P-type_ATPase_Cu-like | cd02094 | P-type heavy metal-transporting ATPase, similar to human copper-transporting ATPases, ATP7A ... |
30-122 | 8.84e-12 | |||||||||
P-type heavy metal-transporting ATPase, similar to human copper-transporting ATPases, ATP7A and ATP7B; The mammalian copper-transporting P-type ATPases, ATP7A and ATP7B are key molecules required for the regulation and maintenance of copper homeostasis. Menkes and Wilson diseases are caused by mutation in ATP7A and ATP7B respectively. This subfamily includes other copper-transporting ATPases such as: Bacillus subtilis CopA , Archeaoglobus fulgidus CopA, and Saccharomyces cerevisiae Ccc2p. This subclass of P-type ATPase is also referred to as CPx-type ATPases because their amino acid sequences contain a characteristic CPC or CPH motif associated with a stretch of hydrophobic amino acids and N-terminal ion-binding sequences. 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. Pssm-ID: 319783 [Multi-domain] Cd Length: 647 Bit Score: 67.50 E-value: 8.84e-12
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| P-type_ATPase_HM_ZosA_PfeT-like | cd07551 | P-type heavy metal-transporting ATPase, similar to Bacillus subtilis ZosA/PfeT which ... |
30-122 | 6.68e-11 | |||||||||
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. Pssm-ID: 319849 [Multi-domain] Cd Length: 611 Bit Score: 64.58 E-value: 6.68e-11
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| zntA | PRK11033 | zinc/cadmium/mercury/lead-transporting ATPase; Provisional |
57-122 | 6.39e-10 | |||||||||
zinc/cadmium/mercury/lead-transporting ATPase; Provisional Pssm-ID: 236827 [Multi-domain] Cd Length: 741 Bit Score: 61.55 E-value: 6.39e-10
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| P-type_ATPase_HM | cd07550 | P-type heavy metal-transporting ATPase; uncharacterized subfamily; Uncharacterized subfamily ... |
64-195 | 6.78e-09 | |||||||||
P-type heavy metal-transporting ATPase; uncharacterized subfamily; Uncharacterized subfamily of the heavy metal-transporting ATPases (Type IB ATPases) which transport heavy metal ions (Cu(+), Cu(2+), Zn(2+), Cd(2+), Co(2+), etc.) across biological membranes. The characteristic N-terminal heavy metal associated (HMA) domain of this group is essential for the binding of metal ions. 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. Pssm-ID: 319848 [Multi-domain] Cd Length: 592 Bit Score: 58.05 E-value: 6.78e-09
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| P-type_ATPase_cation | cd07542 | P-type cation-transporting ATPases, similar to human ATPase type 13A2 (ATP13A2) protein and ... |
30-163 | 7.04e-09 | |||||||||
P-type cation-transporting ATPases, similar to human ATPase type 13A2 (ATP13A2) protein and Saccharomyces cerevisiae Ypk9p; Saccharomyces cerevisiae Yph9p localizes to the yeast vacuole and may play a role in sequestering heavy metal ions, its deletion confers sensitivity for growth for cadmium, manganese, nickel or selenium. Human ATP13A2 (PARK9/CLN12) is a lysosomal transporter with zinc as the possible substrate. Mutation in the ATP13A2 gene has been linked to Parkinson's disease and Kufor-Rakeb syndrome, and to neuronal ceroid lipofuscinoses. ATP13A3/AFURS1 is a candidate gene for oculo auriculo vertebral spectrum (OAVS), being one of nine genes included in a 3q29 microduplication in a patient with OAVS. Mutation in the human ATP13A4 may be involved in a speech-language disorder. This subfamily also includes zebrafish ATP13A2 a lysosome-specific transmembrane ATPase protein of unknown function which plays a crucial role during embryonic development, its deletion is lethal. 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. Pssm-ID: 319842 [Multi-domain] Cd Length: 760 Bit Score: 58.41 E-value: 7.04e-09
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| P-type_ATPase-Cd_Zn_Co_like | cd07548 | P-type heavy metal-transporting ATPase, similar to Bacillus subtilis CadA which appears to ... |
30-122 | 1.54e-08 | |||||||||
P-type heavy metal-transporting ATPase, similar to Bacillus subtilis CadA which appears to transport cadmium, zinc and cobalt but not copper out of the cell; Bacillus subtilis CadA/YvgW appears to transport cadmium, zinc and cobalt but not copper, out of the cell. Functions in metal ion resistance and cellular metal ion homeostasis. CadA/YvgW is also important for sporulation in B. subtilis, the significant specific expression of the cadA/yvgW gene during the late stage of sporulation, is controlled by forespore-specific sigma factor, sigma G, and mother cell-specific sigma factor, sigma E. This subfamily also includes Helicobacter pylori CadA an essential resistance pump with ion specificity towards Cd(2+), Zn(2+) and Co(2+), and Zn-transporting ATPase, ZiaA(N) in Synechocystis PCC 6803. Transcription of ziaA is induced by Zn under the control of the Zn responsive repressor ZiaR. This subclass of P-type ATPase is also referred to as CPx-type ATPases because their amino acid sequences contain a characteristic CPC or CPH motif associated with a stretch of hydrophobic amino acids and N-terminal ion-binding sequences. 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. Pssm-ID: 319847 [Multi-domain] Cd Length: 604 Bit Score: 57.25 E-value: 1.54e-08
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| P-ATPase-V | TIGR01657 | P-type ATPase of unknown pump specificity (type V); These P-type ATPases form a distinct clade ... |
32-122 | 2.69e-08 | |||||||||
P-type ATPase of unknown pump specificity (type V); These P-type ATPases form a distinct clade but the substrate of their pumping activity has yet to be determined. This clade has been designated type V in. Pssm-ID: 273738 [Multi-domain] Cd Length: 1054 Bit Score: 56.60 E-value: 2.69e-08
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| P-type_ATPase_HM | cd07544 | P-type heavy metal-transporting ATPase; uncharacterized subfamily; Uncharacterized subfamily ... |
23-122 | 1.59e-07 | |||||||||
P-type heavy metal-transporting ATPase; uncharacterized subfamily; Uncharacterized subfamily of the heavy metal-transporting ATPases (Type IB ATPases) which transport heavy metal ions (Cu(+), Cu(2+), Zn(2+), Cd(2+), Co(2+), etc.) across biological membranes. The characteristic N-terminal heavy metal associated (HMA) domain of this group is essential for the binding of metal ions. This subclass of P-type ATPase is also referred to as CPx-type ATPases because their amino acid sequences contain a characteristic CPC or CPH motif associated with a stretch of hydrophobic amino acids and N-terminal ion-binding sequences. 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. Pssm-ID: 319844 [Multi-domain] Cd Length: 596 Bit Score: 53.86 E-value: 1.59e-07
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| P-type_ATPase_Cu-like | cd07552 | P-type heavy metal-transporting ATPase, similar to Archaeoglobus fulgidus CopB, a Cu(2+) ... |
57-122 | 2.94e-07 | |||||||||
P-type heavy metal-transporting ATPase, similar to Archaeoglobus fulgidus CopB, a Cu(2+)-ATPase; Archaeoglobus fulgidus CopB transports Cu(2+) from the cytoplasm to the exterior of the cell using ATP as energy source, it transports preferentially Cu(2+) over Cu(+), it is activated by Cu(2+) with high affinity and partially by Cu(+) and Ag(+). This subclass of P-type ATPase is also referred to as CPx-type ATPases because their amino acid sequences contain a characteristic CPC or CPH motif associated with a stretch of hydrophobic amino acids and N-terminal ion-binding sequences. 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. Pssm-ID: 319850 [Multi-domain] Cd Length: 632 Bit Score: 53.08 E-value: 2.94e-07
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| P-type_ATPase_K | cd02078 | potassium-transporting ATPase ATP-binding subunit, KdpB, a subunit of the prokaryotic ... |
61-117 | 2.17e-06 | |||||||||
potassium-transporting ATPase ATP-binding subunit, KdpB, a subunit of the prokaryotic high-affinity potassium uptake system KdpFABC; similar to Escherichia coli KdpB; KdpFABC is a prokaryotic high-affinity potassium uptake system. It is expressed under K(+) limiting conditions when the other potassium transport systems are not able to provide a sufficient flow of K(+) into the bacteria. The KdpB subunit represents the catalytic subunit performing ATP hydrolysis. KdpB is comprised of four domains: the transmembrane domain, the nucleotide-binding domain, the phosphorylation domain, and the actuator domain. The P-type ATPases, are 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. Pssm-ID: 319773 [Multi-domain] Cd Length: 667 Bit Score: 50.34 E-value: 2.17e-06
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| P-type_ATPase_FixI-like | cd02092 | Rhizobium meliloti FixI and related proteins; belongs to P-type heavy metal-transporting ... |
59-174 | 8.67e-06 | |||||||||
Rhizobium meliloti FixI and related proteins; belongs to P-type heavy metal-transporting ATPase subfamily; FixI may be a pump of a specific cation involved in symbiotic nitrogen fixation. The Rhizobium fixI gene is part of an operon conserved among rhizobia, fixGHIS. FixG, FixH, FixI, and FixS may participate in a membrane-bound complex coupling the FixI cation pump with a redox process catalyzed by FixG, an iron-sulfur protein. This subclass of P-type ATPase is also referred to as CPx-type ATPases because their amino acid sequences contain a characteristic CPC or CPH motif associated with a stretch of hydrophobic amino acids and N-terminal ion-binding sequences. 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. Pssm-ID: 319782 [Multi-domain] Cd Length: 605 Bit Score: 48.12 E-value: 8.67e-06
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| P-type_ATPase_cation | cd07543 | P-type cation-transporting ATPases, similar to human cation-transporting ATPase type 13A1 ... |
49-122 | 5.60e-05 | |||||||||
P-type cation-transporting ATPases, similar to human cation-transporting ATPase type 13A1 (ATP13A1) and Saccharomyces manganese-transporting ATPase 1 Spf1p; Saccharomyces Spf1p may mediate manganese transport into the endoplasmic reticulum (ER); one consequence of deletion of SPF1 is severe ER stress. This subfamily also includes Arabidopsis thaliana MIA (Male Gametogenesis Impaired Anthers) protein which is highly abundant in the endoplasmic reticulum and small vesicles of developing pollen grains and tapetum cells. The MIA gene functionally complements a mutant in the SPF1 from Saccharomyces cerevisiae. The expression of ATP13A1 has been followed during mouse development, ATP13A1 transcript expression showed an increase as development progressed, with the highest expression at the peak of neurogenesis. 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. Pssm-ID: 319843 [Multi-domain] Cd Length: 804 Bit Score: 45.84 E-value: 5.60e-05
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| copA | PRK10671 | copper-exporting P-type ATPase CopA; |
46-122 | 5.60e-05 | |||||||||
copper-exporting P-type ATPase CopA; Pssm-ID: 182635 [Multi-domain] Cd Length: 834 Bit Score: 45.89 E-value: 5.60e-05
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| ATPase-Plipid | TIGR01652 | phospholipid-translocating P-type ATPase, flippase; This model describes the P-type ATPase ... |
22-101 | 3.56e-04 | |||||||||
phospholipid-translocating P-type ATPase, flippase; This model describes the P-type ATPase responsible for transporting phospholipids from one leaflet of bilayer membranes to the other. These ATPases are found only in eukaryotes. Pssm-ID: 273734 [Multi-domain] Cd Length: 1057 Bit Score: 43.52 E-value: 3.56e-04
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| P-type_ATPase_APLT_Dnf-like | cd02073 | Aminophospholipid translocases (APLTs), similar to Saccharomyces cerevisiae Dnf1-3p, Drs2p, ... |
22-153 | 1.18e-03 | |||||||||
Aminophospholipid translocases (APLTs), similar to Saccharomyces cerevisiae Dnf1-3p, Drs2p, and human ATP8A2, -10D, -11B, -11C; Aminophospholipid translocases (APLTs), also known as type 4 P-type ATPases, act as flippases, and translocate specific phospholipids from the exoplasmic leaflet to the cytoplasmic leaflet of biological membranes. Yeast Dnf1 and Dnf2 mediate the transport of phosphatidylethanolamine, phosphatidylserine, and phosphatidylcholine from the outer to the inner leaflet of the plasma membrane. This subfamily includes mammalian flippases such as ATP11C which may selectively transports PS and PE from the outer leaflet of the plasma membrane to the inner leaflet. It also includes Arabidopsis phospholipid flippases including ALA1, and Caenorhabditis elegans flippases, including TAT-1, the latter has been shown to facilitate the inward transport of phosphatidylserine. 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. Pssm-ID: 319770 [Multi-domain] Cd Length: 836 Bit Score: 41.77 E-value: 1.18e-03
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| P-type_ATPase_HM | cd07553 | P-type heavy metal-transporting ATPase; uncharacterized subfamily; Uncharacterized subfamily ... |
69-193 | 2.49e-03 | |||||||||
P-type heavy metal-transporting ATPase; uncharacterized subfamily; Uncharacterized subfamily of the heavy metal-transporting ATPases (Type IB ATPases) which transport heavy metal ions (Cu(+), Cu(2+), Zn(2+), Cd(2+), Co(2+), etc.) across biological membranes. The characteristic N-terminal heavy metal associated (HMA) domain of this group is essential for the binding of metal ions. This subclass of P-type ATPase is also referred to as CPx-type ATPases because their amino acid sequences contain a characteristic CPC or CPH motif associated with a stretch of hydrophobic amino acids and N-terminal ion-binding sequences. 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. Pssm-ID: 319851 [Multi-domain] Cd Length: 610 Bit Score: 40.57 E-value: 2.49e-03
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| PRK15122 | PRK15122 | magnesium-transporting ATPase; Provisional |
368-496 | 2.76e-03 | |||||||||
magnesium-transporting ATPase; Provisional Pssm-ID: 237914 [Multi-domain] Cd Length: 903 Bit Score: 40.39 E-value: 2.76e-03
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