node1 | node2 | node1 accession | node2 accession | node1 annotation | node2 annotation | score |
C11orf31 | MSRB1 | ENSP00000373509 | ENSP00000355084 | Selenoprotein H; May be involved in a redox-related process | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | 0.792 |
C11orf31 | SECISBP2 | ENSP00000373509 | ENSP00000364965 | Selenoprotein H; May be involved in a redox-related process | Selenocysteine insertion sequence-binding protein 2; Binds to the SECIS element in the 3’-UTR of some mRNAs encoding selenoproteins. Binding is stimulated by SELB | 0.630 |
C11orf31 | SELK | ENSP00000373509 | ENSP00000418813 | Selenoprotein H; May be involved in a redox-related process | Selenoprotein K; Required for Ca(2+) flux in immune cells and plays a role in T-cell proliferation and in T-cell and neutrophil migration (By similarity). Involved in endoplasmic reticulum- associated degradation (ERAD) of soluble glycosylated proteins. Required for palmitoylation and cell surface expression of CD36 and involved in macrophage uptake of low- density lipoprotein and in foam cell formation (By similarity). Together with ZDHHC6, required for palmitoylation of ITPR1 in immune cells, leading to regulate ITPR1 stability and function. Plays a role in protection of cells from E [...] | 0.817 |
C11orf31 | SELO | ENSP00000373509 | ENSP00000370288 | Selenoprotein H; May be involved in a redox-related process | Selenoprotein O; May be a redox-active mitochondrial selenoprotein which interacts with a redox target protein | 0.821 |
C11orf31 | SELT | ENSP00000373509 | ENSP00000418910 | Selenoprotein H; May be involved in a redox-related process | Thioredoxin reductase-like selenoprotein T; Selenoprotein with thioredoxin reductase-like oxidoreductase activity (By similarity). Protects dopaminergic neurons against oxidative stress ans cell death. Involved in ADCYAP1/PACAP-induced calcium mobilization and neuroendocrine secretion (By similarity). Plays a role in fibroblast anchorage and redox regulation (By similarity). In gastric smooth muscle, modulates the contraction processes through the regulation of calcium release and MYLK activation (By similarity). In pancreatic islets, involved in the control of glucose homeostasis, con [...] | 0.840 |
C11orf31 | SEP15 | ENSP00000373509 | ENSP00000328729 | Selenoprotein H; May be involved in a redox-related process | Selenoprotein F; May be involved in redox reactions associated with the formation of disulfide bonds. May contribute to the quality control of protein folding in the endoplasmic reticulum (By similarity); Belongs to the selenoprotein M/F family | 0.792 |
C11orf31 | SEPN1 | ENSP00000373509 | ENSP00000355141 | Selenoprotein H; May be involved in a redox-related process | Selenoprotein N; Isoform 2- Plays an important role in cell protection against oxidative stress and in the regulation of redox-related calcium homeostasis. Regulates the calcium level of the ER by protecting the calcium pump ATP2A2 against the oxidoreductase ERO1A-mediated oxidative damage. Within the ER, ERO1A activity increases the concentration of H(2)O(2), which attacks the luminal thiols in ATP2A2 and thus leads to cysteinyl sulfenic acid formation (-SOH) and SEPN1 reduces the SOH back to free thiol (- SH), thus restoring ATP2A2 activity. Acts as a modulator of ryanodine receptor [...] | 0.789 |
C11orf31 | SEPP1 | ENSP00000373509 | ENSP00000420939 | Selenoprotein H; May be involved in a redox-related process | Selenoprotein P; Might be responsible for some of the extracellular antioxidant defense properties of selenium or might be involved in the transport of selenium. May supply selenium to tissues such as brain and testis | 0.710 |
C11orf31 | SEPW1 | ENSP00000373509 | ENSP00000473185 | Selenoprotein H; May be involved in a redox-related process | Selenoprotein W; Plays a role as a glutathione (GSH)-dependent antioxidant. May be involved in a redox-related process. May play a role in the myopathies of selenium deficiency (By similarity); Belongs to the SelWTH family. Selenoprotein W subfamily | 0.838 |
C11orf31 | TXNRD2 | ENSP00000373509 | ENSP00000383365 | Selenoprotein H; May be involved in a redox-related process | Thioredoxin reductase 2, mitochondrial; Maintains thioredoxin in a reduced state. Implicated in the defenses against oxidative stress. May play a role in redox- regulated cell signaling; Belongs to the class-I pyridine nucleotide-disulfide oxidoreductase family | 0.669 |
MSRB1 | C11orf31 | ENSP00000355084 | ENSP00000373509 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Selenoprotein H; May be involved in a redox-related process | 0.792 |
MSRB1 | SECISBP2 | ENSP00000355084 | ENSP00000364965 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Selenocysteine insertion sequence-binding protein 2; Binds to the SECIS element in the 3’-UTR of some mRNAs encoding selenoproteins. Binding is stimulated by SELB | 0.648 |
MSRB1 | SELK | ENSP00000355084 | ENSP00000418813 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Selenoprotein K; Required for Ca(2+) flux in immune cells and plays a role in T-cell proliferation and in T-cell and neutrophil migration (By similarity). Involved in endoplasmic reticulum- associated degradation (ERAD) of soluble glycosylated proteins. Required for palmitoylation and cell surface expression of CD36 and involved in macrophage uptake of low- density lipoprotein and in foam cell formation (By similarity). Together with ZDHHC6, required for palmitoylation of ITPR1 in immune cells, leading to regulate ITPR1 stability and function. Plays a role in protection of cells from E [...] | 0.877 |
MSRB1 | SELO | ENSP00000355084 | ENSP00000370288 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Selenoprotein O; May be a redox-active mitochondrial selenoprotein which interacts with a redox target protein | 0.892 |
MSRB1 | SELT | ENSP00000355084 | ENSP00000418910 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Thioredoxin reductase-like selenoprotein T; Selenoprotein with thioredoxin reductase-like oxidoreductase activity (By similarity). Protects dopaminergic neurons against oxidative stress ans cell death. Involved in ADCYAP1/PACAP-induced calcium mobilization and neuroendocrine secretion (By similarity). Plays a role in fibroblast anchorage and redox regulation (By similarity). In gastric smooth muscle, modulates the contraction processes through the regulation of calcium release and MYLK activation (By similarity). In pancreatic islets, involved in the control of glucose homeostasis, con [...] | 0.818 |
MSRB1 | SEP15 | ENSP00000355084 | ENSP00000328729 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Selenoprotein F; May be involved in redox reactions associated with the formation of disulfide bonds. May contribute to the quality control of protein folding in the endoplasmic reticulum (By similarity); Belongs to the selenoprotein M/F family | 0.854 |
MSRB1 | SEPN1 | ENSP00000355084 | ENSP00000355141 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Selenoprotein N; Isoform 2- Plays an important role in cell protection against oxidative stress and in the regulation of redox-related calcium homeostasis. Regulates the calcium level of the ER by protecting the calcium pump ATP2A2 against the oxidoreductase ERO1A-mediated oxidative damage. Within the ER, ERO1A activity increases the concentration of H(2)O(2), which attacks the luminal thiols in ATP2A2 and thus leads to cysteinyl sulfenic acid formation (-SOH) and SEPN1 reduces the SOH back to free thiol (- SH), thus restoring ATP2A2 activity. Acts as a modulator of ryanodine receptor [...] | 0.830 |
MSRB1 | SEPP1 | ENSP00000355084 | ENSP00000420939 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Selenoprotein P; Might be responsible for some of the extracellular antioxidant defense properties of selenium or might be involved in the transport of selenium. May supply selenium to tissues such as brain and testis | 0.797 |
MSRB1 | SEPW1 | ENSP00000355084 | ENSP00000473185 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Selenoprotein W; Plays a role as a glutathione (GSH)-dependent antioxidant. May be involved in a redox-related process. May play a role in the myopathies of selenium deficiency (By similarity); Belongs to the SelWTH family. Selenoprotein W subfamily | 0.790 |
MSRB1 | TXNRD2 | ENSP00000355084 | ENSP00000383365 | Methionine-R-sulfoxide reductase B1; Methionine-sulfoxide reductase that specifically reduces methionine (R)-sulfoxide back to methionine. While in many cases, methionine oxidation is the result of random oxidation following oxidative stress, methionine oxidation is also a post- translational modification that takes place on specific residue. Acts as a regulator of actin assembly by reducing methionine (R)- sulfoxide mediated by MICALs (MICAL1, MICAL2 or MICAL3) on actin, thereby promoting filament repolymerization. Plays a role in innate immunity by reducing oxidized actin, leading to [...] | Thioredoxin reductase 2, mitochondrial; Maintains thioredoxin in a reduced state. Implicated in the defenses against oxidative stress. May play a role in redox- regulated cell signaling; Belongs to the class-I pyridine nucleotide-disulfide oxidoreductase family | 0.844 |