hypothetical protein CTRG_05378 [Candida tropicalis MYA-3404]
Protein Classification
G-protein coupled receptor( domain architecture ID 10569525)
G-protein coupled receptor (GPCR) transmits physiological signals from the outside of the cell to the inside by binding to an extracellular agonist, which induces conformational changes that lead to the activation of heterotrimeric G proteins, which then bind to and activate numerous downstream effector proteins
List of domain hits
| Name | Accession | Description | Interval | E-value | ||||
| Git3 | pfam11710 | G protein-coupled glucose receptor regulating Gpa2; Git3 is one of six proteins required for ... |
125-324 | 5.06e-94 | ||||
G protein-coupled glucose receptor regulating Gpa2; Git3 is one of six proteins required for glucose-triggered adenylate cyclase activation, and is a G protein-coupled receptor responsible for the activation of adenylate cyclase through Gpa2 - heterotrimeric G protein alpha subunit, part of the glucose-detection pathway. Git3 contains seven predicted transmembrane domains, a third cytoplasmic loop and a cytoplasmic tail. This is the conserved N-terminus of these proteins, and the C-terminal conserved region is now in family Git3_C. : Pssm-ID: 371685 Cd Length: 201 Bit Score: 292.66 E-value: 5.06e-94
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| GPR_Gpa2_C | pfam11970 | G protein-coupled glucose receptor regulating Gpa2 C-term; GPR1 is one of six proteins ... |
455-530 | 5.24e-43 | ||||
G protein-coupled glucose receptor regulating Gpa2 C-term; GPR1 is one of six proteins required for glucose-triggered adenylate cyclase activation, and is a G protein-coupled receptor responsible for the activation of adenylate cyclase through Gpa2 - heterotrimeric G protein alpha subunit, part of the glucose-detection pathway. The protein contains seven predicted transmembrane domains, a third cytoplasmic loop and a cytoplasmic tail. This family is the conserved C-terminal domain of the member proteins. : Pssm-ID: 371826 Cd Length: 76 Bit Score: 150.18 E-value: 5.24e-43
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| Name | Accession | Description | Interval | E-value | ||||
| Git3 | pfam11710 | G protein-coupled glucose receptor regulating Gpa2; Git3 is one of six proteins required for ... |
125-324 | 5.06e-94 | ||||
G protein-coupled glucose receptor regulating Gpa2; Git3 is one of six proteins required for glucose-triggered adenylate cyclase activation, and is a G protein-coupled receptor responsible for the activation of adenylate cyclase through Gpa2 - heterotrimeric G protein alpha subunit, part of the glucose-detection pathway. Git3 contains seven predicted transmembrane domains, a third cytoplasmic loop and a cytoplasmic tail. This is the conserved N-terminus of these proteins, and the C-terminal conserved region is now in family Git3_C. Pssm-ID: 371685 Cd Length: 201 Bit Score: 292.66 E-value: 5.06e-94
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| GPR_Gpa2_C | pfam11970 | G protein-coupled glucose receptor regulating Gpa2 C-term; GPR1 is one of six proteins ... |
455-530 | 5.24e-43 | ||||
G protein-coupled glucose receptor regulating Gpa2 C-term; GPR1 is one of six proteins required for glucose-triggered adenylate cyclase activation, and is a G protein-coupled receptor responsible for the activation of adenylate cyclase through Gpa2 - heterotrimeric G protein alpha subunit, part of the glucose-detection pathway. The protein contains seven predicted transmembrane domains, a third cytoplasmic loop and a cytoplasmic tail. This family is the conserved C-terminal domain of the member proteins. Pssm-ID: 371826 Cd Length: 76 Bit Score: 150.18 E-value: 5.24e-43
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| 7tmE_cAMP_R_Slime_mold | cd14940 | slime mold cyclic AMP receptor, member of the class E family of seven-transmembrane G ... |
219-313 | 1.33e-05 | ||||
slime mold cyclic AMP receptor, member of the class E family of seven-transmembrane G protein-coupled receptors; This family represents the class E of seven-transmembrane G-protein coupled receptors found in soil-living amoebas, commonly referred to as slime molds. The class E family includes cAMP receptors (cAR1-4) and cAMP receptors-like proteins (CrlA-C) from Dictyostelium discoideum, and their highly homologous cAMP receptors (TasA and TasB) from Polysphondylium pallidum. So far, four subtypes of cAMP receptors (cAR1-4) have been identified that play an essential role in the detection and transmit of the periodic extracellular cAMP waves that regulate chemotactic cell movement during Dictyostelium development, from the unicellular amoeba aggregate into many multicellular slugs and then differentiate into a sporocarp, a fruiting body with cells specialized for different functions. These four subtypes differ in their expression levels and patterns during development. cAR1 is high-affinity receptor that is the first one to be expressed highly during early aggregation and continues to be expressed at low levels during later developmental stages. cAR1 detects extracellular cAMP and is coupled to G-alpha2 protein. Cells lacking cAR1 fail to aggregate, demonstrating that cAR1 is responsible for aggregation. During later aggregation the high-affinity cAR3 receptor is expressed at low levels. Nonetheless, cells lacking cAR3 do not show an obviously altered pattern of development and are still able to aggregate into fruiting bodies. In contrast, cAR2 and cAR4 are low affinity receptors expressed predominantly after aggregation in pre-stalk cells. cAR2 is essential for normal tip formation and deletion of the receptor arrests development at the mound stage. On the other hand, CAR4 regulates axial patterning and cellular differentiation, and deletion of the receptor results in defects during culmination. Furthermore, three cAMP receptor-like proteins (CrlA-C) were identified in Dictyostelium that show limited sequence similarity to the cAMP receptors. Of these CrlA is thought to be required for normal cell growth and tip formation in developing aggregates. Pssm-ID: 320094 [Multi-domain] Cd Length: 256 Bit Score: 47.35 E-value: 1.33e-05
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| 7tmE_cAMP_R_Slime_mold | cd14940 | slime mold cyclic AMP receptor, member of the class E family of seven-transmembrane G ... |
455-525 | 3.92e-03 | ||||
slime mold cyclic AMP receptor, member of the class E family of seven-transmembrane G protein-coupled receptors; This family represents the class E of seven-transmembrane G-protein coupled receptors found in soil-living amoebas, commonly referred to as slime molds. The class E family includes cAMP receptors (cAR1-4) and cAMP receptors-like proteins (CrlA-C) from Dictyostelium discoideum, and their highly homologous cAMP receptors (TasA and TasB) from Polysphondylium pallidum. So far, four subtypes of cAMP receptors (cAR1-4) have been identified that play an essential role in the detection and transmit of the periodic extracellular cAMP waves that regulate chemotactic cell movement during Dictyostelium development, from the unicellular amoeba aggregate into many multicellular slugs and then differentiate into a sporocarp, a fruiting body with cells specialized for different functions. These four subtypes differ in their expression levels and patterns during development. cAR1 is high-affinity receptor that is the first one to be expressed highly during early aggregation and continues to be expressed at low levels during later developmental stages. cAR1 detects extracellular cAMP and is coupled to G-alpha2 protein. Cells lacking cAR1 fail to aggregate, demonstrating that cAR1 is responsible for aggregation. During later aggregation the high-affinity cAR3 receptor is expressed at low levels. Nonetheless, cells lacking cAR3 do not show an obviously altered pattern of development and are still able to aggregate into fruiting bodies. In contrast, cAR2 and cAR4 are low affinity receptors expressed predominantly after aggregation in pre-stalk cells. cAR2 is essential for normal tip formation and deletion of the receptor arrests development at the mound stage. On the other hand, CAR4 regulates axial patterning and cellular differentiation, and deletion of the receptor results in defects during culmination. Furthermore, three cAMP receptor-like proteins (CrlA-C) were identified in Dictyostelium that show limited sequence similarity to the cAMP receptors. Of these CrlA is thought to be required for normal cell growth and tip formation in developing aggregates. Pssm-ID: 320094 [Multi-domain] Cd Length: 256 Bit Score: 40.03 E-value: 3.92e-03
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| Name | Accession | Description | Interval | E-value | ||||
| Git3 | pfam11710 | G protein-coupled glucose receptor regulating Gpa2; Git3 is one of six proteins required for ... |
125-324 | 5.06e-94 | ||||
G protein-coupled glucose receptor regulating Gpa2; Git3 is one of six proteins required for glucose-triggered adenylate cyclase activation, and is a G protein-coupled receptor responsible for the activation of adenylate cyclase through Gpa2 - heterotrimeric G protein alpha subunit, part of the glucose-detection pathway. Git3 contains seven predicted transmembrane domains, a third cytoplasmic loop and a cytoplasmic tail. This is the conserved N-terminus of these proteins, and the C-terminal conserved region is now in family Git3_C. Pssm-ID: 371685 Cd Length: 201 Bit Score: 292.66 E-value: 5.06e-94
|
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| GPR_Gpa2_C | pfam11970 | G protein-coupled glucose receptor regulating Gpa2 C-term; GPR1 is one of six proteins ... |
455-530 | 5.24e-43 | ||||
G protein-coupled glucose receptor regulating Gpa2 C-term; GPR1 is one of six proteins required for glucose-triggered adenylate cyclase activation, and is a G protein-coupled receptor responsible for the activation of adenylate cyclase through Gpa2 - heterotrimeric G protein alpha subunit, part of the glucose-detection pathway. The protein contains seven predicted transmembrane domains, a third cytoplasmic loop and a cytoplasmic tail. This family is the conserved C-terminal domain of the member proteins. Pssm-ID: 371826 Cd Length: 76 Bit Score: 150.18 E-value: 5.24e-43
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| 7tmE_cAMP_R_Slime_mold | cd14940 | slime mold cyclic AMP receptor, member of the class E family of seven-transmembrane G ... |
219-313 | 1.33e-05 | ||||
slime mold cyclic AMP receptor, member of the class E family of seven-transmembrane G protein-coupled receptors; This family represents the class E of seven-transmembrane G-protein coupled receptors found in soil-living amoebas, commonly referred to as slime molds. The class E family includes cAMP receptors (cAR1-4) and cAMP receptors-like proteins (CrlA-C) from Dictyostelium discoideum, and their highly homologous cAMP receptors (TasA and TasB) from Polysphondylium pallidum. So far, four subtypes of cAMP receptors (cAR1-4) have been identified that play an essential role in the detection and transmit of the periodic extracellular cAMP waves that regulate chemotactic cell movement during Dictyostelium development, from the unicellular amoeba aggregate into many multicellular slugs and then differentiate into a sporocarp, a fruiting body with cells specialized for different functions. These four subtypes differ in their expression levels and patterns during development. cAR1 is high-affinity receptor that is the first one to be expressed highly during early aggregation and continues to be expressed at low levels during later developmental stages. cAR1 detects extracellular cAMP and is coupled to G-alpha2 protein. Cells lacking cAR1 fail to aggregate, demonstrating that cAR1 is responsible for aggregation. During later aggregation the high-affinity cAR3 receptor is expressed at low levels. Nonetheless, cells lacking cAR3 do not show an obviously altered pattern of development and are still able to aggregate into fruiting bodies. In contrast, cAR2 and cAR4 are low affinity receptors expressed predominantly after aggregation in pre-stalk cells. cAR2 is essential for normal tip formation and deletion of the receptor arrests development at the mound stage. On the other hand, CAR4 regulates axial patterning and cellular differentiation, and deletion of the receptor results in defects during culmination. Furthermore, three cAMP receptor-like proteins (CrlA-C) were identified in Dictyostelium that show limited sequence similarity to the cAMP receptors. Of these CrlA is thought to be required for normal cell growth and tip formation in developing aggregates. Pssm-ID: 320094 [Multi-domain] Cd Length: 256 Bit Score: 47.35 E-value: 1.33e-05
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| 7tm_classA_rhodopsin-like | cd00637 | rhodopsin receptor-like class A family of the seven-transmembrane G protein-coupled receptor ... |
177-317 | 1.59e-03 | ||||
rhodopsin receptor-like class A family of the seven-transmembrane G protein-coupled receptor superfamily; Class A rhodopsin-like receptors constitute about 90% of all GPCRs. The class A GPCRs include the light-sensitive rhodopsin as well as receptors for biogenic amines, lipids, nucleotides, odorants, peptide hormones, and a variety of other ligands. All GPCRs have a common structural architecture comprising of seven-transmembrane (TM) alpha-helices interconnected by three extracellular and three intracellular loops. A general feature of GPCR signaling is agonist-induced conformational changes in the receptors, leading to activation of the heterotrimeric G proteins, which consist of the guanine nucleotide-binding G-alpha subunit and the dimeric G-beta-gamma subunits. The activated G proteins then bind to and activate numerous downstream effector proteins, which generate second messengers that mediate a broad range of cellular and physiological processes. Based on sequence similarity, GPCRs can be divided into six major classes: class A (rhodopsin-like family), class B (Methuselah-like, adhesion and secretin-like receptor family), class C (metabotropic glutamate receptor family), class D (fungal mating pheromone receptors), class E (cAMP receptor family), and class F (frizzled/smoothened receptor family). Nearly 800 human GPCR genes have been identified and are involved essentially in all major physiological processes. Approximately 40% of clinically marketed drugs mediate their effects through modulation of GPCR function for the treatment of a variety of human diseases including bacterial infections. Pssm-ID: 410626 [Multi-domain] Cd Length: 275 Bit Score: 41.12 E-value: 1.59e-03
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| 7tmE_cAMP_R_Slime_mold | cd14940 | slime mold cyclic AMP receptor, member of the class E family of seven-transmembrane G ... |
455-525 | 3.92e-03 | ||||
slime mold cyclic AMP receptor, member of the class E family of seven-transmembrane G protein-coupled receptors; This family represents the class E of seven-transmembrane G-protein coupled receptors found in soil-living amoebas, commonly referred to as slime molds. The class E family includes cAMP receptors (cAR1-4) and cAMP receptors-like proteins (CrlA-C) from Dictyostelium discoideum, and their highly homologous cAMP receptors (TasA and TasB) from Polysphondylium pallidum. So far, four subtypes of cAMP receptors (cAR1-4) have been identified that play an essential role in the detection and transmit of the periodic extracellular cAMP waves that regulate chemotactic cell movement during Dictyostelium development, from the unicellular amoeba aggregate into many multicellular slugs and then differentiate into a sporocarp, a fruiting body with cells specialized for different functions. These four subtypes differ in their expression levels and patterns during development. cAR1 is high-affinity receptor that is the first one to be expressed highly during early aggregation and continues to be expressed at low levels during later developmental stages. cAR1 detects extracellular cAMP and is coupled to G-alpha2 protein. Cells lacking cAR1 fail to aggregate, demonstrating that cAR1 is responsible for aggregation. During later aggregation the high-affinity cAR3 receptor is expressed at low levels. Nonetheless, cells lacking cAR3 do not show an obviously altered pattern of development and are still able to aggregate into fruiting bodies. In contrast, cAR2 and cAR4 are low affinity receptors expressed predominantly after aggregation in pre-stalk cells. cAR2 is essential for normal tip formation and deletion of the receptor arrests development at the mound stage. On the other hand, CAR4 regulates axial patterning and cellular differentiation, and deletion of the receptor results in defects during culmination. Furthermore, three cAMP receptor-like proteins (CrlA-C) were identified in Dictyostelium that show limited sequence similarity to the cAMP receptors. Of these CrlA is thought to be required for normal cell growth and tip formation in developing aggregates. Pssm-ID: 320094 [Multi-domain] Cd Length: 256 Bit Score: 40.03 E-value: 3.92e-03
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