PMC:7152911 / 132945-133731 JSONTXT

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    LitCovid-PubTator

    {"project":"LitCovid-PubTator","denotations":[{"id":"2004","span":{"begin":398,"end":405},"obj":"Species"},{"id":"2005","span":{"begin":415,"end":426},"obj":"Species"},{"id":"2006","span":{"begin":667,"end":674},"obj":"Species"},{"id":"2007","span":{"begin":684,"end":693},"obj":"Species"}],"attributes":[{"id":"A2004","pred":"tao:has_database_id","subj":"2004","obj":"Tax:562"},{"id":"A2005","pred":"tao:has_database_id","subj":"2005","obj":"Tax:666"},{"id":"A2006","pred":"tao:has_database_id","subj":"2006","obj":"Tax:562"},{"id":"A2007","pred":"tao:has_database_id","subj":"2007","obj":"Tax:1280"}],"namespaces":[{"prefix":"Tax","uri":"https://www.ncbi.nlm.nih.gov/taxonomy/"},{"prefix":"MESH","uri":"https://id.nlm.nih.gov/mesh/"},{"prefix":"Gene","uri":"https://www.ncbi.nlm.nih.gov/gene/"},{"prefix":"CVCL","uri":"https://web.expasy.org/cellosaurus/CVCL_"}],"text":"Multiplexed detection of pathogens has emerged as a technique for phenotype identification and identification of multiple pathogenic threats. Multiplexing can be achieved via various approaches, but typically involves the use of multiple transducers that exhibit different biorecognition elements. For example, a strategy for multiplexed bacterial detection by Li et al. via immobilization of anti-E. coli and anti-V. cholerae on AuNPs is shown in Fig. 4b (Li et al. 2017). Spatially-distributed biorecognition elements on a single electrode or multiple electrodes can also provide multiplexing capability. For example, a strategy based on the immobilization of anti-E. coli and anti-S. aureus within a microfluidic chamber created by Tian et al. is shown in Fig. 4c (Tian et al. 2016)."}

    LitCovid-PD-CLO

    {"project":"LitCovid-PD-CLO","denotations":[{"id":"T208","span":{"begin":35,"end":38},"obj":"http://purl.obolibrary.org/obo/CLO_0051582"},{"id":"T209","span":{"begin":50,"end":51},"obj":"http://purl.obolibrary.org/obo/CLO_0001020"},{"id":"T210","span":{"begin":311,"end":312},"obj":"http://purl.obolibrary.org/obo/CLO_0001020"},{"id":"T211","span":{"begin":361,"end":363},"obj":"http://purl.obolibrary.org/obo/CLO_0001022"},{"id":"T212","span":{"begin":361,"end":363},"obj":"http://purl.obolibrary.org/obo/CLO_0007314"},{"id":"T213","span":{"begin":457,"end":459},"obj":"http://purl.obolibrary.org/obo/CLO_0001022"},{"id":"T214","span":{"begin":457,"end":459},"obj":"http://purl.obolibrary.org/obo/CLO_0007314"},{"id":"T215","span":{"begin":523,"end":524},"obj":"http://purl.obolibrary.org/obo/CLO_0001020"},{"id":"T216","span":{"begin":620,"end":621},"obj":"http://purl.obolibrary.org/obo/CLO_0001020"},{"id":"T217","span":{"begin":701,"end":702},"obj":"http://purl.obolibrary.org/obo/CLO_0001020"},{"id":"T218","span":{"begin":764,"end":766},"obj":"http://purl.obolibrary.org/obo/CLO_0001387"}],"text":"Multiplexed detection of pathogens has emerged as a technique for phenotype identification and identification of multiple pathogenic threats. Multiplexing can be achieved via various approaches, but typically involves the use of multiple transducers that exhibit different biorecognition elements. For example, a strategy for multiplexed bacterial detection by Li et al. via immobilization of anti-E. coli and anti-V. cholerae on AuNPs is shown in Fig. 4b (Li et al. 2017). Spatially-distributed biorecognition elements on a single electrode or multiple electrodes can also provide multiplexing capability. For example, a strategy based on the immobilization of anti-E. coli and anti-S. aureus within a microfluidic chamber created by Tian et al. is shown in Fig. 4c (Tian et al. 2016)."}

    LitCovid-PD-CHEBI

    {"project":"LitCovid-PD-CHEBI","denotations":[{"id":"T41560","span":{"begin":361,"end":363},"obj":"Chemical"},{"id":"T85681","span":{"begin":457,"end":459},"obj":"Chemical"}],"attributes":[{"id":"A60884","pred":"chebi_id","subj":"T41560","obj":"http://purl.obolibrary.org/obo/CHEBI_30145"},{"id":"A35808","pred":"chebi_id","subj":"T85681","obj":"http://purl.obolibrary.org/obo/CHEBI_30145"}],"text":"Multiplexed detection of pathogens has emerged as a technique for phenotype identification and identification of multiple pathogenic threats. Multiplexing can be achieved via various approaches, but typically involves the use of multiple transducers that exhibit different biorecognition elements. For example, a strategy for multiplexed bacterial detection by Li et al. via immobilization of anti-E. coli and anti-V. cholerae on AuNPs is shown in Fig. 4b (Li et al. 2017). Spatially-distributed biorecognition elements on a single electrode or multiple electrodes can also provide multiplexing capability. For example, a strategy based on the immobilization of anti-E. coli and anti-S. aureus within a microfluidic chamber created by Tian et al. is shown in Fig. 4c (Tian et al. 2016)."}

    LitCovid-sentences

    {"project":"LitCovid-sentences","denotations":[{"id":"T1075","span":{"begin":0,"end":141},"obj":"Sentence"},{"id":"T1076","span":{"begin":142,"end":297},"obj":"Sentence"},{"id":"T1077","span":{"begin":298,"end":466},"obj":"Sentence"},{"id":"T1078","span":{"begin":467,"end":473},"obj":"Sentence"},{"id":"T1079","span":{"begin":474,"end":606},"obj":"Sentence"},{"id":"T1080","span":{"begin":607,"end":779},"obj":"Sentence"},{"id":"T1081","span":{"begin":780,"end":786},"obj":"Sentence"}],"namespaces":[{"prefix":"_base","uri":"http://pubannotation.org/ontology/tao.owl#"}],"text":"Multiplexed detection of pathogens has emerged as a technique for phenotype identification and identification of multiple pathogenic threats. Multiplexing can be achieved via various approaches, but typically involves the use of multiple transducers that exhibit different biorecognition elements. For example, a strategy for multiplexed bacterial detection by Li et al. via immobilization of anti-E. coli and anti-V. cholerae on AuNPs is shown in Fig. 4b (Li et al. 2017). Spatially-distributed biorecognition elements on a single electrode or multiple electrodes can also provide multiplexing capability. For example, a strategy based on the immobilization of anti-E. coli and anti-S. aureus within a microfluidic chamber created by Tian et al. is shown in Fig. 4c (Tian et al. 2016)."}

    2_test

    {"project":"2_test","denotations":[{"id":"32364936-28382165-7713195","span":{"begin":467,"end":471},"obj":"28382165"}],"text":"Multiplexed detection of pathogens has emerged as a technique for phenotype identification and identification of multiple pathogenic threats. Multiplexing can be achieved via various approaches, but typically involves the use of multiple transducers that exhibit different biorecognition elements. For example, a strategy for multiplexed bacterial detection by Li et al. via immobilization of anti-E. coli and anti-V. cholerae on AuNPs is shown in Fig. 4b (Li et al. 2017). Spatially-distributed biorecognition elements on a single electrode or multiple electrodes can also provide multiplexing capability. For example, a strategy based on the immobilization of anti-E. coli and anti-S. aureus within a microfluidic chamber created by Tian et al. is shown in Fig. 4c (Tian et al. 2016)."}