PubMed:21966459 / 1927-2044 JSONTXT

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    21k_plant_trait_mention

    {"project":"21k_plant_trait_mention","denotations":[{"id":"M_10","span":{"begin":19,"end":27},"obj":"funRiceGene:332"},{"id":"M_23","span":{"begin":19,"end":38},"obj":"funRiceGene:2, xzyao:14763"},{"id":"M_27","span":{"begin":54,"end":61},"obj":"WTO:0000218, funRiceGene:356"},{"id":"M_53","span":{"begin":19,"end":27},"obj":"hunflair:NA:Chemical"},{"id":"M_60","span":{"begin":74,"end":78},"obj":"hunflair:NA:Species"},{"id":"M_68","span":{"begin":114,"end":117},"obj":"hunflair:NA:Gene"},{"id":"M_84","span":{"begin":19,"end":27},"obj":"pubtator:MESH:D005030:Chemical"},{"id":"M_91","span":{"begin":74,"end":78},"obj":"pubtator:4530:Species"}],"text":"ERF3, showing that ethylene production contributed to drought response in rice. Thus our data reveal that a novel ERF"}

    pqqtest_sentence

    {"project":"pqqtest_sentence","denotations":[{"id":"M_29","span":{"begin":19,"end":38},"obj":"funRiceGene:2, xzyao:25982"},{"id":"M_42","span":{"begin":54,"end":61},"obj":"WTO:0000218, funRiceGene:356"},{"id":"M_48","span":{"begin":54,"end":70},"obj":"xzyao:11087"},{"id":"M_62","span":{"begin":19,"end":27},"obj":"funRiceGene:332"},{"id":"M_76","span":{"begin":114,"end":117},"obj":"hunflair:NA:Gene"},{"id":"M_88","span":{"begin":19,"end":27},"obj":"hunflair:NA:Chemical"},{"id":"M_108","span":{"begin":74,"end":78},"obj":"hunflair:NA:Species"},{"id":"M_125","span":{"begin":19,"end":27},"obj":"pubtator:MESH:D005030:Chemical"},{"id":"M_132","span":{"begin":74,"end":78},"obj":"pubtator:4530:Species"}],"text":"ERF3, showing that ethylene production contributed to drought response in rice. Thus our data reveal that a novel ERF"}

    OryzaGP_2021_FLAIR

    {"project":"OryzaGP_2021_FLAIR","denotations":[{"id":"M_11","span":{"begin":19,"end":27},"obj":"hunflair:NA:Chemical"},{"id":"M_23","span":{"begin":74,"end":78},"obj":"hunflair:NA:Species"},{"id":"M_40","span":{"begin":114,"end":117},"obj":"hunflair:NA:Gene"}],"text":"ERF3, showing that ethylene production contributed to drought response in rice. Thus our data reveal that a novel ERF"}

    OryzaGP_2021

    {"project":"OryzaGP_2021","denotations":[{"id":"T28","span":{"begin":114,"end":117},"obj":"http://identifiers.org/ricegap/LOC_Os03g49500"},{"id":"T78644","span":{"begin":114,"end":117},"obj":"http://identifiers.org/rapdb.locus/Os03g0701700"},{"id":"M_11","span":{"begin":19,"end":27},"obj":"hunflair:NA:Chemical"},{"id":"M_23","span":{"begin":74,"end":78},"obj":"hunflair:NA:Species"},{"id":"M_40","span":{"begin":114,"end":117},"obj":"hunflair:NA:Gene"}],"text":"ERF3, showing that ethylene production contributed to drought response in rice. Thus our data reveal that a novel ERF"}

    OryzaGP

    {"project":"OryzaGP","denotations":[{"id":"T23","span":{"begin":19,"end":27},"obj":"gene"}],"text":"ERF3, showing that ethylene production contributed to drought response in rice. Thus our data reveal that a novel ERF"}