unnamed protein product, partial [Didymodactylos carnosus]
sodium-independent anion transporter( domain architecture ID 10162408)
sodium-independent anion transporter mediates the transport of anions such as bicarbonate, chloride, sulfate and/or oxalate
List of domain hits
Name | Accession | Description | Interval | E-value | |||||
STAS_SulP_like_sulfate_transporter | cd07042 | Sulphate Transporter and Anti-Sigma factor antagonist domain of SulP-like sulfate transporters, ... |
176-247 | 4.29e-14 | |||||
Sulphate Transporter and Anti-Sigma factor antagonist domain of SulP-like sulfate transporters, plays a role in the function and regulation of the transport activity, proposed general NTP binding function; The SulP family is a large and diverse family of anion transporters, with members from eubacteria, plants, fungi, and mammals. They contain 10 to 14 transmembrane helices which form the catalytic core of the protein and a C-terminal extension, the STAS (Sulphate Transporter and AntiSigma factor antagonist) domain which plays a role in the function and regulation of the transport activity. The STAS domain is found in the C-terminal region of sulphate transporters and bacterial anti-sigma factor antagonists. It has been suggested that this domain may have a general NTP binding function. : Pssm-ID: 132913 [Multi-domain] Cd Length: 107 Bit Score: 66.88 E-value: 4.29e-14
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PRK11660 super family | cl46980 | putative transporter; Provisional |
1-250 | 1.81e-09 | |||||
putative transporter; Provisional The actual alignment was detected with superfamily member TIGR00815: Pssm-ID: 481320 [Multi-domain] Cd Length: 552 Bit Score: 58.11 E-value: 1.81e-09
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Name | Accession | Description | Interval | E-value | |||||
STAS_SulP_like_sulfate_transporter | cd07042 | Sulphate Transporter and Anti-Sigma factor antagonist domain of SulP-like sulfate transporters, ... |
176-247 | 4.29e-14 | |||||
Sulphate Transporter and Anti-Sigma factor antagonist domain of SulP-like sulfate transporters, plays a role in the function and regulation of the transport activity, proposed general NTP binding function; The SulP family is a large and diverse family of anion transporters, with members from eubacteria, plants, fungi, and mammals. They contain 10 to 14 transmembrane helices which form the catalytic core of the protein and a C-terminal extension, the STAS (Sulphate Transporter and AntiSigma factor antagonist) domain which plays a role in the function and regulation of the transport activity. The STAS domain is found in the C-terminal region of sulphate transporters and bacterial anti-sigma factor antagonists. It has been suggested that this domain may have a general NTP binding function. Pssm-ID: 132913 [Multi-domain] Cd Length: 107 Bit Score: 66.88 E-value: 4.29e-14
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STAS | pfam01740 | STAS domain; The STAS (after Sulphate Transporter and AntiSigma factor antagonist) domain is ... |
182-250 | 3.10e-11 | |||||
STAS domain; The STAS (after Sulphate Transporter and AntiSigma factor antagonist) domain is found in the C terminal region of Sulphate transporters and bacterial antisigma factor antagonists. It has been suggested that this domain may have a general NTP binding function. Pssm-ID: 426404 [Multi-domain] Cd Length: 106 Bit Score: 59.16 E-value: 3.10e-11
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SUL1 | COG0659 | Sulfate permease or related transporter, MFS superfamily [Inorganic ion transport and ... |
182-256 | 7.21e-11 | |||||
Sulfate permease or related transporter, MFS superfamily [Inorganic ion transport and metabolism]; Pssm-ID: 440424 [Multi-domain] Cd Length: 529 Bit Score: 62.43 E-value: 7.21e-11
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sulP | TIGR00815 | high affinity sulphate transporter 1; The SulP family is a large and ubiquitous family with ... |
1-250 | 1.81e-09 | |||||
high affinity sulphate transporter 1; The SulP family is a large and ubiquitous family with over 30 sequenced members derived from bacteria, fungi, plants and animals. Many organisms including Bacillus subtilis, Synechocystis sp, Saccharomyces cerevisiae, Arabidopsis thaliana and Caenorhabditis elegans possess multiple SulP family paralogues. Many of these proteins are functionally characterized, and all are sulfate uptake transporters. Some transport their substrate with high affinities, while others transport it with relatively low affinities. Most function by SO42- :H+symport, but SO42- :HCO3- antiport has been reported for the rat protein (spP45380). The bacterial proteins vary in size from 434 residues to 566 residues with one exception, a Mycobacterium tuberculosis protein with 784 residues. The eukaryotic proteins vary in size from 611 residues to 893 residues with one exception, a protein designated "early nodulin 70 protein" from Glycine max which is reported to be of 485 residues. Thus, the eukaryotic proteins are almost without exception larger than the prokaryotic proteins. These proteins exhibit 10-13 putative transmembrane a-helical spanners (TMSs) depending on the protein. The phylogenetic tree for the SulP family reveals five principal branches. Three of these are bacterial specific as follows: one bears a single protein from M. tuberculosis; a second bears two proteins, one from M. tuberculosis, the other from Synechocystis sp, and the third bears all remaining prokaryotic proteins. The remaining two clusters bear only eukaryotic proteins with the animal proteins all localized to one branch and the plant and fungal proteins localized to the other. The generalized transport reactions catalyzed by SulP family proteins are: (1) SO42- (out) + nH+ (out) --> SO42- (in) + nH+ (in). (2) SO42- (out) + nHCO3- (in) SO42- (in) + nHCO3- (out). [Transport and binding proteins, Anions] Pssm-ID: 273284 [Multi-domain] Cd Length: 552 Bit Score: 58.11 E-value: 1.81e-09
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ant_ant_sig | TIGR00377 | anti-anti-sigma factor; This superfamily includes small (105-125 residue) proteins related to ... |
184-237 | 2.59e-03 | |||||
anti-anti-sigma factor; This superfamily includes small (105-125 residue) proteins related to SpoIIAA of Bacillus subtilis, an anti-anti-sigma factor. SpoIIAA can bind to and inhibit the anti-sigma F factor SpoIIAB. Also, it can be phosphorylated by SpoIIAB on a Ser residue at position 59 of the seed alignment. A similar arrangement is inferred for RsbV, an anti-anti-sigma factor for sigma B. This Ser is fairly well conserved within a motif resembling MXS[STA]G[VIL]X[VIL][VILF] among homologous known or predicted anti-anti-sigma factors. Regions similar to SpoIIAA and apparently homologous, but differing considerably near the phosphorlated Ser of SpoIIAA, appear in a single copy in several longer proteins. [Regulatory functions, Protein interactions] Pssm-ID: 273042 [Multi-domain] Cd Length: 108 Bit Score: 36.81 E-value: 2.59e-03
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Name | Accession | Description | Interval | E-value | |||||
STAS_SulP_like_sulfate_transporter | cd07042 | Sulphate Transporter and Anti-Sigma factor antagonist domain of SulP-like sulfate transporters, ... |
176-247 | 4.29e-14 | |||||
Sulphate Transporter and Anti-Sigma factor antagonist domain of SulP-like sulfate transporters, plays a role in the function and regulation of the transport activity, proposed general NTP binding function; The SulP family is a large and diverse family of anion transporters, with members from eubacteria, plants, fungi, and mammals. They contain 10 to 14 transmembrane helices which form the catalytic core of the protein and a C-terminal extension, the STAS (Sulphate Transporter and AntiSigma factor antagonist) domain which plays a role in the function and regulation of the transport activity. The STAS domain is found in the C-terminal region of sulphate transporters and bacterial anti-sigma factor antagonists. It has been suggested that this domain may have a general NTP binding function. Pssm-ID: 132913 [Multi-domain] Cd Length: 107 Bit Score: 66.88 E-value: 4.29e-14
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STAS | pfam01740 | STAS domain; The STAS (after Sulphate Transporter and AntiSigma factor antagonist) domain is ... |
182-250 | 3.10e-11 | |||||
STAS domain; The STAS (after Sulphate Transporter and AntiSigma factor antagonist) domain is found in the C terminal region of Sulphate transporters and bacterial antisigma factor antagonists. It has been suggested that this domain may have a general NTP binding function. Pssm-ID: 426404 [Multi-domain] Cd Length: 106 Bit Score: 59.16 E-value: 3.10e-11
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SUL1 | COG0659 | Sulfate permease or related transporter, MFS superfamily [Inorganic ion transport and ... |
182-256 | 7.21e-11 | |||||
Sulfate permease or related transporter, MFS superfamily [Inorganic ion transport and metabolism]; Pssm-ID: 440424 [Multi-domain] Cd Length: 529 Bit Score: 62.43 E-value: 7.21e-11
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sulP | TIGR00815 | high affinity sulphate transporter 1; The SulP family is a large and ubiquitous family with ... |
1-250 | 1.81e-09 | |||||
high affinity sulphate transporter 1; The SulP family is a large and ubiquitous family with over 30 sequenced members derived from bacteria, fungi, plants and animals. Many organisms including Bacillus subtilis, Synechocystis sp, Saccharomyces cerevisiae, Arabidopsis thaliana and Caenorhabditis elegans possess multiple SulP family paralogues. Many of these proteins are functionally characterized, and all are sulfate uptake transporters. Some transport their substrate with high affinities, while others transport it with relatively low affinities. Most function by SO42- :H+symport, but SO42- :HCO3- antiport has been reported for the rat protein (spP45380). The bacterial proteins vary in size from 434 residues to 566 residues with one exception, a Mycobacterium tuberculosis protein with 784 residues. The eukaryotic proteins vary in size from 611 residues to 893 residues with one exception, a protein designated "early nodulin 70 protein" from Glycine max which is reported to be of 485 residues. Thus, the eukaryotic proteins are almost without exception larger than the prokaryotic proteins. These proteins exhibit 10-13 putative transmembrane a-helical spanners (TMSs) depending on the protein. The phylogenetic tree for the SulP family reveals five principal branches. Three of these are bacterial specific as follows: one bears a single protein from M. tuberculosis; a second bears two proteins, one from M. tuberculosis, the other from Synechocystis sp, and the third bears all remaining prokaryotic proteins. The remaining two clusters bear only eukaryotic proteins with the animal proteins all localized to one branch and the plant and fungal proteins localized to the other. The generalized transport reactions catalyzed by SulP family proteins are: (1) SO42- (out) + nH+ (out) --> SO42- (in) + nH+ (in). (2) SO42- (out) + nHCO3- (in) SO42- (in) + nHCO3- (out). [Transport and binding proteins, Anions] Pssm-ID: 273284 [Multi-domain] Cd Length: 552 Bit Score: 58.11 E-value: 1.81e-09
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SpoIIAA | COG1366 | Anti-anti-sigma regulatory factor (antagonist of anti-sigma factor) [Signal transduction ... |
184-233 | 2.45e-07 | |||||
Anti-anti-sigma regulatory factor (antagonist of anti-sigma factor) [Signal transduction mechanisms]; Pssm-ID: 440977 [Multi-domain] Cd Length: 93 Bit Score: 47.93 E-value: 2.45e-07
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STAS_anti-anti-sigma_factors | cd07043 | Sulphate Transporter and Anti-Sigma factor antagonist) domain of anti-anti-sigma factors, key ... |
184-232 | 1.36e-06 | |||||
Sulphate Transporter and Anti-Sigma factor antagonist) domain of anti-anti-sigma factors, key regulators of anti-sigma factors by phosphorylation; Anti-anti-sigma factors play an important role in the regulation of several sigma factors and their corresponding anti-sigma factors. Upon dephosphorylation they bind the anti-sigma factor and induce the release of the sigma factor from the anti-sigma factor. In a feedback mechanism the anti-anti-sigma factor can be inactivated via phosphorylation by the anti-sigma factor. Well studied examples from Bacillus subtilis are SpoIIAA (regulating sigmaF and sigmaC which play an important role in sporulation) and RsbV (regulating sigmaB involved in the general stress response). The STAS domain is also found in the C- terminal region of sulphate transporters and stressosomes. Pssm-ID: 132914 [Multi-domain] Cd Length: 99 Bit Score: 45.97 E-value: 1.36e-06
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STAS | cd06844 | Sulphate Transporter and Anti-Sigma factor antagonist domain found in the C-terminal region of ... |
178-230 | 4.98e-06 | |||||
Sulphate Transporter and Anti-Sigma factor antagonist domain found in the C-terminal region of sulphate transporters as well as in bacterial and archaeal proteins involved in the regulation of sigma factors; The STAS (Sulphate Transporter and Anti-Sigma factor antagonist) domain is found in the C-terminal region of sulphate transporters as well as in bacterial and archaeal proteins involved in the regulation of sigma factors, like anti-anti-sigma factors and "stressosome" components. The sigma factor regulators are involved in protein-protein interaction which is regulated by phosphorylation. Pssm-ID: 132911 [Multi-domain] Cd Length: 100 Bit Score: 44.39 E-value: 4.98e-06
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ant_ant_sig | TIGR00377 | anti-anti-sigma factor; This superfamily includes small (105-125 residue) proteins related to ... |
184-237 | 2.59e-03 | |||||
anti-anti-sigma factor; This superfamily includes small (105-125 residue) proteins related to SpoIIAA of Bacillus subtilis, an anti-anti-sigma factor. SpoIIAA can bind to and inhibit the anti-sigma F factor SpoIIAB. Also, it can be phosphorylated by SpoIIAB on a Ser residue at position 59 of the seed alignment. A similar arrangement is inferred for RsbV, an anti-anti-sigma factor for sigma B. This Ser is fairly well conserved within a motif resembling MXS[STA]G[VIL]X[VIL][VILF] among homologous known or predicted anti-anti-sigma factors. Regions similar to SpoIIAA and apparently homologous, but differing considerably near the phosphorlated Ser of SpoIIAA, appear in a single copy in several longer proteins. [Regulatory functions, Protein interactions] Pssm-ID: 273042 [Multi-domain] Cd Length: 108 Bit Score: 36.81 E-value: 2.59e-03
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Blast search parameters | ||||
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