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ESR1, D538G (c.1613A>G)

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Expand Collapse ESR1  - General Description The ESR1 gene encodes an estrogen receptor, which is a ligand-activated transcription factor composed of hormone binding domain, DNA binding domain, and transcription activation domain. The protein localizes to the nucleus, where it forms homodimers, or heterodimerizes with ESR2. Transactivation in the nucleus involves either direct homodimer binding to an estrogen response element (ERE) sequence, or association with other DNA-binding transcription factors such as AP-1/c-Jun, c-Fos, ATF-2, Sp1 and Sp3 to mediate ERE-independent signaling. Mutual trans-repression occurs between the ESR and NF-kapa-B in a cell-type specific manner. Alternative promoter usage and alternative splicing result in dozens of transcript variants, but the full length nature of many of these variants has not been determined. Estrogen and its receptors are essential for sexual development and reproductive function, but also play a role in other tissues such as bone. Sources: Ref Sequence Mar 2014; NCBI Gene; UniProt;The ESR1 gene encodes an estrogen receptor, which is a ligand-activated transcription factor composed of hormone binding domain, DNA binding domain, and transcription activation domain. The protein localizes to the nucleus, where it forms homodimers, or heterodimerizes with ESR2. Transactivation in the nucleus involves either direct homodimer binding to an estrogen response element (ERE) sequence, or association with other DNA-binding transcription factors such as AP-1/c-Jun, c-Fos, ATF-2, Sp1 and Sp3 to mediate ERE-independent signaling. Mutual trans-repression occurs between the ESR and NF-kapa-B in a cell-type specific manner. Alternative promoter usage and alternative splicing result in dozens of transcript variants, but the full length nature of many of these variants has not been determined. Estrogen and its receptors are essential for sexual development and reproductive function, but also play a role in other tissues such as bone. Sources: Ref Sequence Mar 2014; NCBI Gene; UniProt;
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The ESR1 gene encodes an estrogen receptor, which is a ligand-activated transcription factor composed of hormone binding domain, DNA binding domain, and transcription activation domain. The protein localizes to the nucleus, where it forms homodimers, or heterodimerizes with ESR2. Transactivation in the nucleus involves either direct homodimer binding to an estrogen response element (ERE) sequence, or association with other DNA-binding transcription factors such as AP-1/c-Jun, c-Fos, ATF-2, Sp1 and Sp3 to mediate ERE-independent signaling. Mutual trans-repression occurs between the ESR and NF-kapa-B in a cell-type specific manner. Alternative promoter usage and alternative splicing result in dozens of transcript variants, but the full length nature of many of these variants has not been determined. Estrogen and its receptors are essential for sexual development and reproductive function, but also play a role in other tissues such as bone.

Sources: Ref Sequence Mar 2014; NCBI Gene; UniProt;
The ESR1 gene encodes an estrogen receptor, which is a ligand-activated transcription factor composed of hormone binding domain, DNA binding domain, and transcription activation domain. The protein localizes to the nucleus, where it forms homodimers, or heterodimerizes with ESR2. Transactivation in the nucleus involves either direct homodimer binding to an estrogen response element (ERE) sequence, or association with other DNA-binding transcription factors such as AP-1/c-Jun, c-Fos, ATF-2, Sp1 and Sp3 to mediate ERE-independent signaling. Mutual trans-repression occurs between the ESR and NF-kapa-B in a cell-type specific manner. Alternative promoter usage and alternative splicing result in dozens of transcript variants, but the full length nature of many of these variants has not been determined. Estrogen and its receptors are essential for sexual development and reproductive function, but also play a role in other tissues such as bone.

Sources: Ref Sequence Mar 2014; NCBI Gene; UniProt;
PubMed ID's
24217577, 12496244, 24398047, 24583794
Expand Collapse D538G (c.1613A>G)  in ESR1
The ESR1 mutation arises from a single nucleotide change (c.1613A>G) that results in an amino acid substitution of the aspartic acid (D) at position 538 by a glycine(G) in the protein. This alteration creates what is called a “missense” mutation.
The ESR1 mutation arises from a single nucleotide change (c.1613A>G) that results in an amino acid substitution of the aspartic acid (D) at position 538 by a glycine(G) in the protein. This alteration creates what is called a “missense” mutation.
PubMed ID's
24217577, 12496244, 24398047, 24583794

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Your Matched Clinical Trials

Trial Matches: (G) - Gene, (M) - Mutation
Trial Status: Showing all 2 results Per Page:
Protocol # Title Location Status Match
NCT01857193 Phase Ib Trial of LEE011 With Everolimus (RAD001) and Exemestane in the Treatment of Hormone Receptor Positive HER2 Negative Advanced Breast Cancer Phase Ib Trial of LEE011 With Everolimus (RAD001) and Exemestane in the Treatment of Hormone Receptor Positive HER2 Negative Advanced Breast Cancer MGH Open GM
NCT01872260 Study of LEE011, BYL719 and Letrozole in Advanced ER+ Breast Cancer Study of LEE011, BYL719 and Letrozole in Advanced ER+ Breast Cancer MGH Open G
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