PubMed:1911548
Annnotations
DisGeNET
{"project":"DisGeNET","denotations":[{"id":"T0","span":{"begin":71,"end":77},"obj":"gene:1437"},{"id":"T1","span":{"begin":164,"end":185},"obj":"disease:C0023493"}],"relations":[{"id":"R1","pred":"associated_with","subj":"T0","obj":"T1"}],"namespaces":[{"prefix":"gene","uri":"http://www.ncbi.nlm.nih.gov/gene/"},{"prefix":"disease","uri":"http://purl.bioontology.org/ontology/MEDLINEPLUS/"}],"text":"A nuclear factor NF-GM2 that interacts with a regulatory region of the GM-CSF gene essential for its induction in responses to T-cell activation: purification from human T-cell leukemia line Jurkat cells and similarity to NF-kappa B.\nActivation of T cells by antigen, lectin, or a combination of phorbol-12-myristate acetate (PMA) and calcium ionophore (A23187) leads to the induction of genes for a set of lymphokines, including granulocyte-macrophage colony-stimulating factor (GM-CSF). We demonstrated in earlier studies that the upstream region of the mouse GM-CSF promoter at positions between -95 and -73 is essential for transcriptional activation in response to PMA/A23187. This region contains two DNA-binding motifs, GM2 and GC-box. The GM2 sequence (GGTAGTTCCC) is recognized by an inducible factor NF-GM2; the other (CCGCCC) by constitutive factors A1, A2, and B. To elucidate the mechanism of GM-CSF gene activation, we have purified the inducible factor NF-GM2 from the nuclear extract of stimulated Jurkat cells on the basis of specific DNA-binding activity. The purified NF-GM2 consists of 50 (p50) and 65 kDa (p65) polypeptides and has a binding activity specific for both the GM-CSF and immunoglobulin kappa (GGAAAGTCCC) enhancers. Electrophoretically purified p50 alone can form a protein-DNA complex, but in the mixture, p50 associates preferentially with p65 to form the NF-GM2 complex. In addition, p65 gave per se, with low affinity, a protein-DNA complex that migrated more slowly than native NF-GM2 complex. Furthermore, an antiserum against KBF1 (identical to 50 kDa NF-kappa B protein) reacted with the p50 of NF-GM2, indicating that the NF-GM2 polypeptide cannot be immunologically differentiated from the 50 kDa subunit of NF-kappa B. The purified NF-GM2 activated in vitro transcription from the kappa B enhancer, while it failed to stimulate transcription from the GM-CSF promoter harboring the GM2 sequence. This suggests that the activation mechanism of the GM-CSF gene through the GM2/GC-box sequence is different from that of genes carrying the kappa B enhancer alone."}
jnlpba-st-training
{"project":"jnlpba-st-training","denotations":[{"id":"T1","span":{"begin":2,"end":16},"obj":"protein"},{"id":"T2","span":{"begin":17,"end":23},"obj":"protein"},{"id":"T3","span":{"begin":46,"end":63},"obj":"DNA"},{"id":"T4","span":{"begin":71,"end":82},"obj":"DNA"},{"id":"T5","span":{"begin":170,"end":203},"obj":"cell_line"},{"id":"T6","span":{"begin":222,"end":232},"obj":"protein"},{"id":"T7","span":{"begin":248,"end":255},"obj":"cell_type"},{"id":"T8","span":{"begin":268,"end":274},"obj":"protein"},{"id":"T9","span":{"begin":407,"end":418},"obj":"protein"},{"id":"T10","span":{"begin":430,"end":478},"obj":"protein"},{"id":"T11","span":{"begin":480,"end":486},"obj":"protein"},{"id":"T12","span":{"begin":533,"end":548},"obj":"DNA"},{"id":"T13","span":{"begin":556,"end":577},"obj":"DNA"},{"id":"T14","span":{"begin":599,"end":610},"obj":"DNA"},{"id":"T15","span":{"begin":707,"end":725},"obj":"DNA"},{"id":"T16","span":{"begin":727,"end":730},"obj":"DNA"},{"id":"T17","span":{"begin":735,"end":741},"obj":"DNA"},{"id":"T18","span":{"begin":747,"end":759},"obj":"DNA"},{"id":"T19","span":{"begin":793,"end":816},"obj":"protein"},{"id":"T20","span":{"begin":840,"end":860},"obj":"protein"},{"id":"T21","span":{"begin":861,"end":863},"obj":"protein"},{"id":"T22","span":{"begin":865,"end":867},"obj":"protein"},{"id":"T23","span":{"begin":873,"end":874},"obj":"protein"},{"id":"T24","span":{"begin":906,"end":912},"obj":"protein"},{"id":"T25","span":{"begin":951,"end":974},"obj":"protein"},{"id":"T26","span":{"begin":1014,"end":1026},"obj":"cell_line"},{"id":"T27","span":{"begin":1087,"end":1093},"obj":"protein"},{"id":"T28","span":{"begin":1110,"end":1113},"obj":"protein"},{"id":"T29","span":{"begin":1127,"end":1130},"obj":"protein"},{"id":"T30","span":{"begin":1194,"end":1200},"obj":"protein"},{"id":"T31","span":{"begin":1205,"end":1248},"obj":"DNA"},{"id":"T32","span":{"begin":1279,"end":1282},"obj":"protein"},{"id":"T33","span":{"begin":1300,"end":1319},"obj":"protein"},{"id":"T34","span":{"begin":1341,"end":1344},"obj":"protein"},{"id":"T35","span":{"begin":1376,"end":1379},"obj":"protein"},{"id":"T36","span":{"begin":1392,"end":1406},"obj":"protein"},{"id":"T37","span":{"begin":1421,"end":1424},"obj":"protein"},{"id":"T38","span":{"begin":1459,"end":1478},"obj":"protein"},{"id":"T39","span":{"begin":1517,"end":1531},"obj":"protein"},{"id":"T40","span":{"begin":1567,"end":1571},"obj":"protein"},{"id":"T41","span":{"begin":1586,"end":1611},"obj":"protein"},{"id":"T42","span":{"begin":1630,"end":1633},"obj":"protein"},{"id":"T43","span":{"begin":1637,"end":1643},"obj":"protein"},{"id":"T44","span":{"begin":1665,"end":1683},"obj":"protein"},{"id":"T45","span":{"begin":1734,"end":1748},"obj":"protein"},{"id":"T46","span":{"begin":1752,"end":1762},"obj":"protein"},{"id":"T47","span":{"begin":1777,"end":1783},"obj":"protein"},{"id":"T48","span":{"begin":1826,"end":1842},"obj":"DNA"},{"id":"T49","span":{"begin":1896,"end":1911},"obj":"DNA"},{"id":"T50","span":{"begin":1991,"end":2002},"obj":"DNA"},{"id":"T51","span":{"begin":2015,"end":2034},"obj":"DNA"},{"id":"T52","span":{"begin":2080,"end":2096},"obj":"DNA"}],"text":"A nuclear factor NF-GM2 that interacts with a regulatory region of the GM-CSF gene essential for its induction in responses to T-cell activation: purification from human T-cell leukemia line Jurkat cells and similarity to NF-kappa B.\nActivation of T cells by antigen, lectin, or a combination of phorbol-12-myristate acetate (PMA) and calcium ionophore (A23187) leads to the induction of genes for a set of lymphokines, including granulocyte-macrophage colony-stimulating factor (GM-CSF). We demonstrated in earlier studies that the upstream region of the mouse GM-CSF promoter at positions between -95 and -73 is essential for transcriptional activation in response to PMA/A23187. This region contains two DNA-binding motifs, GM2 and GC-box. The GM2 sequence (GGTAGTTCCC) is recognized by an inducible factor NF-GM2; the other (CCGCCC) by constitutive factors A1, A2, and B. To elucidate the mechanism of GM-CSF gene activation, we have purified the inducible factor NF-GM2 from the nuclear extract of stimulated Jurkat cells on the basis of specific DNA-binding activity. The purified NF-GM2 consists of 50 (p50) and 65 kDa (p65) polypeptides and has a binding activity specific for both the GM-CSF and immunoglobulin kappa (GGAAAGTCCC) enhancers. Electrophoretically purified p50 alone can form a protein-DNA complex, but in the mixture, p50 associates preferentially with p65 to form the NF-GM2 complex. In addition, p65 gave per se, with low affinity, a protein-DNA complex that migrated more slowly than native NF-GM2 complex. Furthermore, an antiserum against KBF1 (identical to 50 kDa NF-kappa B protein) reacted with the p50 of NF-GM2, indicating that the NF-GM2 polypeptide cannot be immunologically differentiated from the 50 kDa subunit of NF-kappa B. The purified NF-GM2 activated in vitro transcription from the kappa B enhancer, while it failed to stimulate transcription from the GM-CSF promoter harboring the GM2 sequence. This suggests that the activation mechanism of the GM-CSF gene through the GM2/GC-box sequence is different from that of genes carrying the kappa B enhancer alone."}
DisGeNET5_gene_disease
{"project":"DisGeNET5_gene_disease","denotations":[{"id":"1911548-0#71#77#gene1437","span":{"begin":71,"end":77},"obj":"gene1437"},{"id":"1911548-0#164#185#diseaseC0023493","span":{"begin":164,"end":185},"obj":"diseaseC0023493"}],"relations":[{"id":"71#77#gene1437164#185#diseaseC0023493","pred":"associated_with","subj":"1911548-0#71#77#gene1437","obj":"1911548-0#164#185#diseaseC0023493"}],"text":"A nuclear factor NF-GM2 that interacts with a regulatory region of the GM-CSF gene essential for its induction in responses to T-cell activation: purification from human T-cell leukemia line Jurkat cells and similarity to NF-kappa B.\nActivation of T cells by antigen, lectin, or a combination of phorbol-12-myristate acetate (PMA) and calcium ionophore (A23187) leads to the induction of genes for a set of lymphokines, including granulocyte-macrophage colony-stimulating factor (GM-CSF). We demonstrated in earlier studies that the upstream region of the mouse GM-CSF promoter at positions between -95 and -73 is essential for transcriptional activation in response to PMA/A23187. This region contains two DNA-binding motifs, GM2 and GC-box. The GM2 sequence (GGTAGTTCCC) is recognized by an inducible factor NF-GM2; the other (CCGCCC) by constitutive factors A1, A2, and B. To elucidate the mechanism of GM-CSF gene activation, we have purified the inducible factor NF-GM2 from the nuclear extract of stimulated Jurkat cells on the basis of specific DNA-binding activity. The purified NF-GM2 consists of 50 (p50) and 65 kDa (p65) polypeptides and has a binding activity specific for both the GM-CSF and immunoglobulin kappa (GGAAAGTCCC) enhancers. Electrophoretically purified p50 alone can form a protein-DNA complex, but in the mixture, p50 associates preferentially with p65 to form the NF-GM2 complex. In addition, p65 gave per se, with low affinity, a protein-DNA complex that migrated more slowly than native NF-GM2 complex. Furthermore, an antiserum against KBF1 (identical to 50 kDa NF-kappa B protein) reacted with the p50 of NF-GM2, indicating that the NF-GM2 polypeptide cannot be immunologically differentiated from the 50 kDa subunit of NF-kappa B. The purified NF-GM2 activated in vitro transcription from the kappa B enhancer, while it failed to stimulate transcription from the GM-CSF promoter harboring the GM2 sequence. This suggests that the activation mechanism of the GM-CSF gene through the GM2/GC-box sequence is different from that of genes carrying the kappa B enhancer alone."}
pubmed-sentences-benchmark
{"project":"pubmed-sentences-benchmark","denotations":[{"id":"S1","span":{"begin":0,"end":233},"obj":"Sentence"},{"id":"S2","span":{"begin":234,"end":488},"obj":"Sentence"},{"id":"S3","span":{"begin":489,"end":681},"obj":"Sentence"},{"id":"S4","span":{"begin":682,"end":742},"obj":"Sentence"},{"id":"S5","span":{"begin":743,"end":875},"obj":"Sentence"},{"id":"S6","span":{"begin":876,"end":1073},"obj":"Sentence"},{"id":"S7","span":{"begin":1074,"end":1249},"obj":"Sentence"},{"id":"S8","span":{"begin":1250,"end":1407},"obj":"Sentence"},{"id":"S9","span":{"begin":1408,"end":1532},"obj":"Sentence"},{"id":"S10","span":{"begin":1533,"end":1763},"obj":"Sentence"},{"id":"S11","span":{"begin":1764,"end":1939},"obj":"Sentence"},{"id":"S12","span":{"begin":1940,"end":2103},"obj":"Sentence"}],"text":"A nuclear factor NF-GM2 that interacts with a regulatory region of the GM-CSF gene essential for its induction in responses to T-cell activation: purification from human T-cell leukemia line Jurkat cells and similarity to NF-kappa B.\nActivation of T cells by antigen, lectin, or a combination of phorbol-12-myristate acetate (PMA) and calcium ionophore (A23187) leads to the induction of genes for a set of lymphokines, including granulocyte-macrophage colony-stimulating factor (GM-CSF). We demonstrated in earlier studies that the upstream region of the mouse GM-CSF promoter at positions between -95 and -73 is essential for transcriptional activation in response to PMA/A23187. This region contains two DNA-binding motifs, GM2 and GC-box. The GM2 sequence (GGTAGTTCCC) is recognized by an inducible factor NF-GM2; the other (CCGCCC) by constitutive factors A1, A2, and B. To elucidate the mechanism of GM-CSF gene activation, we have purified the inducible factor NF-GM2 from the nuclear extract of stimulated Jurkat cells on the basis of specific DNA-binding activity. The purified NF-GM2 consists of 50 (p50) and 65 kDa (p65) polypeptides and has a binding activity specific for both the GM-CSF and immunoglobulin kappa (GGAAAGTCCC) enhancers. Electrophoretically purified p50 alone can form a protein-DNA complex, but in the mixture, p50 associates preferentially with p65 to form the NF-GM2 complex. In addition, p65 gave per se, with low affinity, a protein-DNA complex that migrated more slowly than native NF-GM2 complex. Furthermore, an antiserum against KBF1 (identical to 50 kDa NF-kappa B protein) reacted with the p50 of NF-GM2, indicating that the NF-GM2 polypeptide cannot be immunologically differentiated from the 50 kDa subunit of NF-kappa B. The purified NF-GM2 activated in vitro transcription from the kappa B enhancer, while it failed to stimulate transcription from the GM-CSF promoter harboring the GM2 sequence. This suggests that the activation mechanism of the GM-CSF gene through the GM2/GC-box sequence is different from that of genes carrying the kappa B enhancer alone."}
genia-medco-coref
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nuclear factor NF-GM2 that interacts with a regulatory region of the GM-CSF gene essential for its induction in responses to T-cell activation: purification from human T-cell leukemia line Jurkat cells and similarity to NF-kappa B.\nActivation of T cells by antigen, lectin, or a combination of phorbol-12-myristate acetate (PMA) and calcium ionophore (A23187) leads to the induction of genes for a set of lymphokines, including granulocyte-macrophage colony-stimulating factor (GM-CSF). We demonstrated in earlier studies that the upstream region of the mouse GM-CSF promoter at positions between -95 and -73 is essential for transcriptional activation in response to PMA/A23187. This region contains two DNA-binding motifs, GM2 and GC-box. The GM2 sequence (GGTAGTTCCC) is recognized by an inducible factor NF-GM2; the other (CCGCCC) by constitutive factors A1, A2, and B. To elucidate the mechanism of GM-CSF gene activation, we have purified the inducible factor NF-GM2 from the nuclear extract of stimulated Jurkat cells on the basis of specific DNA-binding activity. The purified NF-GM2 consists of 50 (p50) and 65 kDa (p65) polypeptides and has a binding activity specific for both the GM-CSF and immunoglobulin kappa (GGAAAGTCCC) enhancers. Electrophoretically purified p50 alone can form a protein-DNA complex, but in the mixture, p50 associates preferentially with p65 to form the NF-GM2 complex. In addition, p65 gave per se, with low affinity, a protein-DNA complex that migrated more slowly than native NF-GM2 complex. Furthermore, an antiserum against KBF1 (identical to 50 kDa NF-kappa B protein) reacted with the p50 of NF-GM2, indicating that the NF-GM2 polypeptide cannot be immunologically differentiated from the 50 kDa subunit of NF-kappa B. The purified NF-GM2 activated in vitro transcription from the kappa B enhancer, while it failed to stimulate transcription from the GM-CSF promoter harboring the GM2 sequence. This suggests that the activation mechanism of the GM-CSF gene through the GM2/GC-box sequence is different from that of genes carrying the kappa B enhancer alone."}
GENIAcorpus
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nuclear factor NF-GM2 that interacts with a regulatory region of the GM-CSF gene essential for its induction in responses to T-cell activation: purification from human T-cell leukemia line Jurkat cells and similarity to NF-kappa B.\nActivation of T cells by antigen, lectin, or a combination of phorbol-12-myristate acetate (PMA) and calcium ionophore (A23187) leads to the induction of genes for a set of lymphokines, including granulocyte-macrophage colony-stimulating factor (GM-CSF). We demonstrated in earlier studies that the upstream region of the mouse GM-CSF promoter at positions between -95 and -73 is essential for transcriptional activation in response to PMA/A23187. This region contains two DNA-binding motifs, GM2 and GC-box. The GM2 sequence (GGTAGTTCCC) is recognized by an inducible factor NF-GM2; the other (CCGCCC) by constitutive factors A1, A2, and B. To elucidate the mechanism of GM-CSF gene activation, we have purified the inducible factor NF-GM2 from the nuclear extract of stimulated Jurkat cells on the basis of specific DNA-binding activity. The purified NF-GM2 consists of 50 (p50) and 65 kDa (p65) polypeptides and has a binding activity specific for both the GM-CSF and immunoglobulin kappa (GGAAAGTCCC) enhancers. Electrophoretically purified p50 alone can form a protein-DNA complex, but in the mixture, p50 associates preferentially with p65 to form the NF-GM2 complex. In addition, p65 gave per se, with low affinity, a protein-DNA complex that migrated more slowly than native NF-GM2 complex. Furthermore, an antiserum against KBF1 (identical to 50 kDa NF-kappa B protein) reacted with the p50 of NF-GM2, indicating that the NF-GM2 polypeptide cannot be immunologically differentiated from the 50 kDa subunit of NF-kappa B. The purified NF-GM2 activated in vitro transcription from the kappa B enhancer, while it failed to stimulate transcription from the GM-CSF promoter harboring the GM2 sequence. This suggests that the activation mechanism of the GM-CSF gene through the GM2/GC-box sequence is different from that of genes carrying the kappa B enhancer alone."}