transmembrane and coiled-coil domain-containing protein 3 isoform 4 precursor [Homo sapiens]
Protein Classification
List of domain hits
| Name | Accession | Description | Interval | E-value | ||||
| KefB | COG0475 | Kef-type K+ transport system, membrane component KefB [Inorganic ion transport and metabolism]; ... |
209-283 | 1.52e-17 | ||||
Kef-type K+ transport system, membrane component KefB [Inorganic ion transport and metabolism]; : Pssm-ID: 440243 [Multi-domain] Cd Length: 384 Bit Score: 84.43 E-value: 1.52e-17
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| ATP-synt_Fo_b super family | cl21478 | F-type ATP synthase, membrane subunit b; Membrane subunit b is a component of the Fo complex ... |
133-213 | 6.96e-04 | ||||
F-type ATP synthase, membrane subunit b; Membrane subunit b is a component of the Fo complex of FoF1-ATP synthase. The F-type ATP synthases (FoF1-ATPase) consist of two structural domains: the F1 (assembly factor one) complex containing the soluble catalytic core, and the Fo (oligomycin sensitive factor) complex containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. F1 is composed of alpha (or A), beta (B), gamma (C), delta (D) and epsilon (E) subunits with a stoichiometry of 3:3:1:1:1, while Fo consists of the three subunits a, b, and c (1:2:10-14). An oligomeric ring of 10-14 c subunits (c-ring) make up the Fo rotor. The flux of protons through the ATPase channel (Fo) drives the rotation of the c-ring, which in turn is coupled to the rotation of the F1 complex gamma subunit rotor due to the permanent binding between the gamma and epsilon subunits of F1 and the c-ring of Fo. The F-ATP synthases are primarily found in the inner membranes of eukaryotic mitochondria, in the thylakoid membranes of chloroplasts or in the plasma membranes of bacteria. The F-ATP synthases are the primary producers of ATP, using the proton gradient generated by oxidative phosphorylation (mitochondria) or photosynthesis (chloroplasts). Alternatively, under conditions of low driving force, ATP synthases function as ATPases, thus generating a transmembrane proton or Na(+) gradient at the expense of energy derived from ATP hydrolysis. This group also includes F-ATP synthase that has also been found in the archaea Candidatus Methanoperedens. The actual alignment was detected with superfamily member cd06503: Pssm-ID: 473877 [Multi-domain] Cd Length: 132 Bit Score: 39.73 E-value: 6.96e-04
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| YhaN super family | cl34808 | Uncharacterized conserved protein YhaN, contains AAA domain [Function unknown]; |
50-201 | 1.36e-03 | ||||
Uncharacterized conserved protein YhaN, contains AAA domain [Function unknown]; The actual alignment was detected with superfamily member COG4717: Pssm-ID: 443752 [Multi-domain] Cd Length: 641 Bit Score: 41.29 E-value: 1.36e-03
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| Name | Accession | Description | Interval | E-value | ||||
| KefB | COG0475 | Kef-type K+ transport system, membrane component KefB [Inorganic ion transport and metabolism]; ... |
209-283 | 1.52e-17 | ||||
Kef-type K+ transport system, membrane component KefB [Inorganic ion transport and metabolism]; Pssm-ID: 440243 [Multi-domain] Cd Length: 384 Bit Score: 84.43 E-value: 1.52e-17
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| Na_H_Exchanger | pfam00999 | Sodium/hydrogen exchanger family; Na/H antiporters are key transporters in maintaining the pH ... |
210-309 | 2.98e-16 | ||||
Sodium/hydrogen exchanger family; Na/H antiporters are key transporters in maintaining the pH of actively metabolising cells. The molecular mechanisms of antiport are unclear. These antiporters contain 10-12 transmembrane regions (M) at the amino-terminus and a large cytoplasmic region at the carboxyl terminus. The transmembrane regions M3-M12 share identity with other members of the family. The M6 and M7 regions are highly conserved. Thus, this is thought to be the region that is involved in the transport of sodium and hydrogen ions. The cytoplasmic region has little similarity throughout the family. Pssm-ID: 425982 [Multi-domain] Cd Length: 377 Bit Score: 80.38 E-value: 2.98e-16
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| 2a37 | TIGR00932 | transporter, monovalent cation:proton antiporter-2 (CPA2) family; [Transport and binding ... |
220-283 | 8.45e-12 | ||||
transporter, monovalent cation:proton antiporter-2 (CPA2) family; [Transport and binding proteins, Cations and iron carrying compounds] Pssm-ID: 273348 [Multi-domain] Cd Length: 273 Bit Score: 65.75 E-value: 8.45e-12
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| PRK03659 | PRK03659 | glutathione-regulated potassium-efflux system protein KefB; Provisional |
228-280 | 1.70e-07 | ||||
glutathione-regulated potassium-efflux system protein KefB; Provisional Pssm-ID: 179625 [Multi-domain] Cd Length: 601 Bit Score: 53.88 E-value: 1.70e-07
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| ATP-synt_Fo_b | cd06503 | F-type ATP synthase, membrane subunit b; Membrane subunit b is a component of the Fo complex ... |
133-213 | 6.96e-04 | ||||
F-type ATP synthase, membrane subunit b; Membrane subunit b is a component of the Fo complex of FoF1-ATP synthase. The F-type ATP synthases (FoF1-ATPase) consist of two structural domains: the F1 (assembly factor one) complex containing the soluble catalytic core, and the Fo (oligomycin sensitive factor) complex containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. F1 is composed of alpha (or A), beta (B), gamma (C), delta (D) and epsilon (E) subunits with a stoichiometry of 3:3:1:1:1, while Fo consists of the three subunits a, b, and c (1:2:10-14). An oligomeric ring of 10-14 c subunits (c-ring) make up the Fo rotor. The flux of protons through the ATPase channel (Fo) drives the rotation of the c-ring, which in turn is coupled to the rotation of the F1 complex gamma subunit rotor due to the permanent binding between the gamma and epsilon subunits of F1 and the c-ring of Fo. The F-ATP synthases are primarily found in the inner membranes of eukaryotic mitochondria, in the thylakoid membranes of chloroplasts or in the plasma membranes of bacteria. The F-ATP synthases are the primary producers of ATP, using the proton gradient generated by oxidative phosphorylation (mitochondria) or photosynthesis (chloroplasts). Alternatively, under conditions of low driving force, ATP synthases function as ATPases, thus generating a transmembrane proton or Na(+) gradient at the expense of energy derived from ATP hydrolysis. This group also includes F-ATP synthase that has also been found in the archaea Candidatus Methanoperedens. Pssm-ID: 349951 [Multi-domain] Cd Length: 132 Bit Score: 39.73 E-value: 6.96e-04
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| YhaN | COG4717 | Uncharacterized conserved protein YhaN, contains AAA domain [Function unknown]; |
50-201 | 1.36e-03 | ||||
Uncharacterized conserved protein YhaN, contains AAA domain [Function unknown]; Pssm-ID: 443752 [Multi-domain] Cd Length: 641 Bit Score: 41.29 E-value: 1.36e-03
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| Com_YlbF | pfam06133 | Control of competence regulator ComK, YlbF/YmcA; YlbF Is a family of short Gram-positive and ... |
144-201 | 6.01e-03 | ||||
Control of competence regulator ComK, YlbF/YmcA; YlbF Is a family of short Gram-positive and archaeal proteins that includes both YlbF and YmcA which may interact synergistically. The family is necessary for correct biofilm formation, as null mutants of ymcA and ylbF fail to form pellicles at air-liquid interfaces and grow on solid media as smooth, undifferentiated colonies. During development, YmcA, YlbF and YaaT, family PSPI, pfam04468, interact directly with one another forming a stable ternary complex, in vitro. All three proteins are required for competence, sporulation and the formation of biofilms. The YmcA-YlbF-YaaT complex affects the phosphotransfer between Spo0F and Spo0B, thus accelerating the production of Spo0A~P. The three processes of biofilm formation, mature spore formation and competence all require the active, phosphorylated form of Spo0A, as Spo0A-P. Pssm-ID: 428784 [Multi-domain] Cd Length: 103 Bit Score: 36.36 E-value: 6.01e-03
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| Name | Accession | Description | Interval | E-value | ||||
| KefB | COG0475 | Kef-type K+ transport system, membrane component KefB [Inorganic ion transport and metabolism]; ... |
209-283 | 1.52e-17 | ||||
Kef-type K+ transport system, membrane component KefB [Inorganic ion transport and metabolism]; Pssm-ID: 440243 [Multi-domain] Cd Length: 384 Bit Score: 84.43 E-value: 1.52e-17
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| Na_H_Exchanger | pfam00999 | Sodium/hydrogen exchanger family; Na/H antiporters are key transporters in maintaining the pH ... |
210-309 | 2.98e-16 | ||||
Sodium/hydrogen exchanger family; Na/H antiporters are key transporters in maintaining the pH of actively metabolising cells. The molecular mechanisms of antiport are unclear. These antiporters contain 10-12 transmembrane regions (M) at the amino-terminus and a large cytoplasmic region at the carboxyl terminus. The transmembrane regions M3-M12 share identity with other members of the family. The M6 and M7 regions are highly conserved. Thus, this is thought to be the region that is involved in the transport of sodium and hydrogen ions. The cytoplasmic region has little similarity throughout the family. Pssm-ID: 425982 [Multi-domain] Cd Length: 377 Bit Score: 80.38 E-value: 2.98e-16
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| 2a37 | TIGR00932 | transporter, monovalent cation:proton antiporter-2 (CPA2) family; [Transport and binding ... |
220-283 | 8.45e-12 | ||||
transporter, monovalent cation:proton antiporter-2 (CPA2) family; [Transport and binding proteins, Cations and iron carrying compounds] Pssm-ID: 273348 [Multi-domain] Cd Length: 273 Bit Score: 65.75 E-value: 8.45e-12
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| PRK03659 | PRK03659 | glutathione-regulated potassium-efflux system protein KefB; Provisional |
228-280 | 1.70e-07 | ||||
glutathione-regulated potassium-efflux system protein KefB; Provisional Pssm-ID: 179625 [Multi-domain] Cd Length: 601 Bit Score: 53.88 E-value: 1.70e-07
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| PRK03562 | PRK03562 | glutathione-regulated potassium-efflux system protein KefC; Provisional |
226-280 | 5.11e-06 | ||||
glutathione-regulated potassium-efflux system protein KefC; Provisional Pssm-ID: 235131 [Multi-domain] Cd Length: 621 Bit Score: 49.22 E-value: 5.11e-06
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| ATP-synt_Fo_b | cd06503 | F-type ATP synthase, membrane subunit b; Membrane subunit b is a component of the Fo complex ... |
133-213 | 6.96e-04 | ||||
F-type ATP synthase, membrane subunit b; Membrane subunit b is a component of the Fo complex of FoF1-ATP synthase. The F-type ATP synthases (FoF1-ATPase) consist of two structural domains: the F1 (assembly factor one) complex containing the soluble catalytic core, and the Fo (oligomycin sensitive factor) complex containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. F1 is composed of alpha (or A), beta (B), gamma (C), delta (D) and epsilon (E) subunits with a stoichiometry of 3:3:1:1:1, while Fo consists of the three subunits a, b, and c (1:2:10-14). An oligomeric ring of 10-14 c subunits (c-ring) make up the Fo rotor. The flux of protons through the ATPase channel (Fo) drives the rotation of the c-ring, which in turn is coupled to the rotation of the F1 complex gamma subunit rotor due to the permanent binding between the gamma and epsilon subunits of F1 and the c-ring of Fo. The F-ATP synthases are primarily found in the inner membranes of eukaryotic mitochondria, in the thylakoid membranes of chloroplasts or in the plasma membranes of bacteria. The F-ATP synthases are the primary producers of ATP, using the proton gradient generated by oxidative phosphorylation (mitochondria) or photosynthesis (chloroplasts). Alternatively, under conditions of low driving force, ATP synthases function as ATPases, thus generating a transmembrane proton or Na(+) gradient at the expense of energy derived from ATP hydrolysis. This group also includes F-ATP synthase that has also been found in the archaea Candidatus Methanoperedens. Pssm-ID: 349951 [Multi-domain] Cd Length: 132 Bit Score: 39.73 E-value: 6.96e-04
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| YhaN | COG4717 | Uncharacterized conserved protein YhaN, contains AAA domain [Function unknown]; |
50-201 | 1.36e-03 | ||||
Uncharacterized conserved protein YhaN, contains AAA domain [Function unknown]; Pssm-ID: 443752 [Multi-domain] Cd Length: 641 Bit Score: 41.29 E-value: 1.36e-03
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| NhaP | COG0025 | NhaP-type Na+/H+ or K+/H+ antiporter [Inorganic ion transport and metabolism]; |
210-283 | 1.42e-03 | ||||
NhaP-type Na+/H+ or K+/H+ antiporter [Inorganic ion transport and metabolism]; Pssm-ID: 439796 [Multi-domain] Cd Length: 506 Bit Score: 41.10 E-value: 1.42e-03
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| YhaN | COG4717 | Uncharacterized conserved protein YhaN, contains AAA domain [Function unknown]; |
18-200 | 1.85e-03 | ||||
Uncharacterized conserved protein YhaN, contains AAA domain [Function unknown]; Pssm-ID: 443752 [Multi-domain] Cd Length: 641 Bit Score: 40.91 E-value: 1.85e-03
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| PLN03159 | PLN03159 | cation/H(+) antiporter 15; Provisional |
230-282 | 4.37e-03 | ||||
cation/H(+) antiporter 15; Provisional Pssm-ID: 215608 [Multi-domain] Cd Length: 832 Bit Score: 39.87 E-value: 4.37e-03
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| Com_YlbF | pfam06133 | Control of competence regulator ComK, YlbF/YmcA; YlbF Is a family of short Gram-positive and ... |
144-201 | 6.01e-03 | ||||
Control of competence regulator ComK, YlbF/YmcA; YlbF Is a family of short Gram-positive and archaeal proteins that includes both YlbF and YmcA which may interact synergistically. The family is necessary for correct biofilm formation, as null mutants of ymcA and ylbF fail to form pellicles at air-liquid interfaces and grow on solid media as smooth, undifferentiated colonies. During development, YmcA, YlbF and YaaT, family PSPI, pfam04468, interact directly with one another forming a stable ternary complex, in vitro. All three proteins are required for competence, sporulation and the formation of biofilms. The YmcA-YlbF-YaaT complex affects the phosphotransfer between Spo0F and Spo0B, thus accelerating the production of Spo0A~P. The three processes of biofilm formation, mature spore formation and competence all require the active, phosphorylated form of Spo0A, as Spo0A-P. Pssm-ID: 428784 [Multi-domain] Cd Length: 103 Bit Score: 36.36 E-value: 6.01e-03
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| Blast search parameters | ||||
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