{"gene":"GP5","run_date":"2026-06-10T01:55:21","timeline":{"discoveries":[{"year":2000,"finding":"GPV (CD42d) appears at a late stage of megakaryocyte maturation; in mouse bone marrow culture, 1C2+ (GPV+) megakaryocytes emerged from CD41(GPIIb)+/1C2- megakaryocytes and exhibited higher DNA ploidy distribution, indicating GPV expression is temporally restricted to late-stage megakaryocyte development.","method":"Mouse bone marrow culture with monoclonal antibody staining (anti-GPV mAb 1C2) and DNA ploidy analysis; recombinant GPV expression in NIH-3T3 cells to confirm antibody specificity","journal":"Hybridoma","confidence":"Medium","confidence_rationale":"Tier 2 / Weak — direct localization/timing experiment with functional implication in megakaryopoiesis, single lab, single study","pmids":["11152397"],"is_preprint":false}],"current_model":"GP5 (CD42d, platelet glycoprotein V) is expressed at a late stage of megakaryocyte maturation, appearing after GPIIb (CD41) expression, and forms part of the GPIb/IX/V receptor complex on platelets involved in von Willebrand factor-mediated hemostasis; its specific function within the complex remains poorly defined mechanistically."},"narrative":{"mechanistic_narrative":"GP5 (CD42d, platelet glycoprotein V) is a megakaryocyte/platelet marker whose expression is temporally restricted to the late stage of megakaryocyte maturation [PMID:11152397]. In mouse bone marrow culture, GPV-positive (1C2+) megakaryocytes arise from CD41(GPIIb)+/GPV- precursors and display higher DNA ploidy, placing GPV induction downstream of GPIIb during megakaryopoiesis [PMID:11152397]. Beyond this developmental-timing evidence, no further mechanistic detail regarding GPV's molecular function has been characterized in the available corpus.","teleology":[{"year":2000,"claim":"Established when GPV is expressed during megakaryocyte development, addressing whether it marks an early or late maturation stage relative to GPIIb.","evidence":"Mouse bone marrow culture with anti-GPV mAb (1C2) staining and DNA ploidy analysis, with recombinant GPV in NIH-3T3 cells to confirm antibody specificity","pmids":["11152397"],"confidence":"Medium","gaps":["Does not define GPV's molecular function within the platelet receptor complex","Single-lab, single-study observation in mouse; human megakaryocyte timing not directly addressed","No mechanistic link between GPV induction and the ploidy increase"]},{"year":null,"claim":"The molecular function of GPV within the GPIb/IX/V complex and in hemostasis remains undefined in the available corpus.","evidence":"No timeline discovery addresses GPV ligand binding, signaling, or complex assembly mechanism","pmids":[],"confidence":"Low","gaps":["No biochemical characterization of GPV function","No structural or interaction data for GPV within the receptor complex","No loss-of-function phenotype documented in the timeline"]}],"mechanism_profile":{"molecular_activity":[],"localization":[],"pathway":[],"complexes":[],"partners":[],"other_free_text":[]}},"prefetch_data":{"uniprot":{"accession":"P40197","full_name":"Platelet glycoprotein V","aliases":["Glycoprotein 5"],"length_aa":560,"mass_kda":61.0,"function":"The GPIb-V-IX complex functions as the vWF receptor and mediates vWF-dependent platelet adhesion to blood vessels. The adhesion of platelets to injured vascular surfaces in the arterial circulation is a critical initiating event in hemostasis","subcellular_location":"Membrane","url":"https://www.uniprot.org/uniprotkb/P40197/entry"},"depmap":{"release":"DepMap","has_data":true,"is_common_essential":false,"resolved_as":"","url":"https://depmap.org/portal/gene/GP5","classification":"Not Classified","n_dependent_lines":0,"n_total_lines":1208,"dependency_fraction":0.0},"opencell":{"profiled":false,"resolved_as":"","ensg_id":"","cell_line_id":"","localizations":[],"interactors":[],"url":"https://opencell.sf.czbiohub.org/search/GP5","total_profiled":1310},"omim":[{"mim_id":"613160","title":"VON WILLEBRAND FACTOR; VWF","url":"https://www.omim.org/entry/613160"},{"mim_id":"606672","title":"GLYCOPROTEIN Ib, PLATELET, ALPHA POLYPEPTIDE; GP1BA","url":"https://www.omim.org/entry/606672"},{"mim_id":"231200","title":"BERNARD-SOULIER SYNDROME; BSS","url":"https://www.omim.org/entry/231200"},{"mim_id":"173515","title":"GLYCOPROTEIN IX, PLATELET; GP9","url":"https://www.omim.org/entry/173515"},{"mim_id":"173511","title":"GLYCOPROTEIN V, PLATELET; GP5","url":"https://www.omim.org/entry/173511"}],"hpa":{"profiled":true,"resolved_as":"","reliability":"Approved","locations":[{"location":"Cytosol","reliability":"Approved"}],"tissue_specificity":"Tissue enhanced","tissue_distribution":"Detected in single","driving_tissues":[{"tissue":"lymphoid tissue","ntpm":1.0}],"url":"https://www.proteinatlas.org/search/GP5"},"hgnc":{"alias_symbol":["CD42d"],"prev_symbol":[]},"alphafold":{"accession":"P40197","domains":[{"cath_id":"3.80.10.10","chopping":"22-134","consensus_level":"medium","plddt":94.1631,"start":22,"end":134},{"cath_id":"3.80.10.10","chopping":"343-468","consensus_level":"medium","plddt":92.8592,"start":343,"end":468}],"viewer_url":"https://alphafold.ebi.ac.uk/entry/P40197","model_url":"https://alphafold.ebi.ac.uk/files/AF-P40197-F1-model_v6.cif","pae_url":"https://alphafold.ebi.ac.uk/files/AF-P40197-F1-predicted_aligned_error_v6.png","plddt_mean":86.5},"mouse_models":{"mgi_url":"https://www.informatics.jax.org/marker/summary?nomen=GP5","jax_strain_url":"https://www.jax.org/strain/search?query=GP5"},"sequence":{"accession":"P40197","fasta_url":"https://rest.uniprot.org/uniprotkb/P40197.fasta","uniprot_url":"https://www.uniprot.org/uniprotkb/P40197/entry","alphafold_viewer_url":"https://alphafold.ebi.ac.uk/entry/P40197"}},"corpus_meta":[{"pmid":"9049358","id":"PMC_9049358","title":"The 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immunogenicity of transgenic potato expressing the GP5 protein of porcine reproductive and respiratory syndrome virus.","date":"2011","source":"Journal of virological methods","url":"https://pubmed.ncbi.nlm.nih.gov/21300109","citation_count":20,"is_preprint":false},{"pmid":"26621496","id":"PMC_26621496","title":"Comparative evaluation of the GP5+/6+, MY09/11 and PGMY09/11 primer sets for HPV detection by PCR in oral squamous cell carcinomas.","date":"2015","source":"Experimental and molecular pathology","url":"https://pubmed.ncbi.nlm.nih.gov/26621496","citation_count":19,"is_preprint":false},{"pmid":"22739441","id":"PMC_22739441","title":"Chimeric viruses containing the N-terminal ectodomains of GP5 and M proteins of porcine reproductive and respiratory syndrome virus do not change the cellular tropism of equine arteritis virus.","date":"2012","source":"Virology","url":"https://pubmed.ncbi.nlm.nih.gov/22739441","citation_count":19,"is_preprint":false},{"pmid":"33692807","id":"PMC_33692807","title":"Isolation of Porcine Reproductive and Respiratory Syndrome Virus GP5-Specific, Neutralizing Monoclonal Antibodies From Hyperimmune Sows.","date":"2021","source":"Frontiers in immunology","url":"https://pubmed.ncbi.nlm.nih.gov/33692807","citation_count":19,"is_preprint":false},{"pmid":"30703122","id":"PMC_30703122","title":"A PRRSV GP5-Mosaic vaccine: Protection of pigs from challenge and ex vivo detection of IFNγ responses against several genotype 2 strains.","date":"2019","source":"PloS one","url":"https://pubmed.ncbi.nlm.nih.gov/30703122","citation_count":18,"is_preprint":false},{"pmid":"23392631","id":"PMC_23392631","title":"Immune responses in mice vaccinated with virus-like particles composed of the GP5 and M proteins of porcine reproductive and respiratory syndrome virus.","date":"2013","source":"Archives of virology","url":"https://pubmed.ncbi.nlm.nih.gov/23392631","citation_count":18,"is_preprint":false},{"pmid":"19447674","id":"PMC_19447674","title":"GP5+/6+ SYBR Green methodology for simultaneous screening and quantification of human papillomavirus.","date":"2009","source":"Journal of clinical virology : the official publication of the Pan American Society for Clinical Virology","url":"https://pubmed.ncbi.nlm.nih.gov/19447674","citation_count":17,"is_preprint":false},{"pmid":"1374982","id":"PMC_1374982","title":"Epitopic mapping of linear and conformation-dependent antigenic determinants on GP5 of five U.S. bluetongue viruses.","date":"1992","source":"Virology","url":"https://pubmed.ncbi.nlm.nih.gov/1374982","citation_count":17,"is_preprint":false},{"pmid":"38932282","id":"PMC_38932282","title":"Development of a Ferritin Protein Nanoparticle Vaccine with PRRSV GP5 Protein.","date":"2024","source":"Viruses","url":"https://pubmed.ncbi.nlm.nih.gov/38932282","citation_count":16,"is_preprint":false},{"pmid":"23036496","id":"PMC_23036496","title":"Production and immunogenicity of chimeric virus-like particles containing porcine reproductive and respiratory syndrome virus GP5 protein.","date":"2012","source":"Vaccine","url":"https://pubmed.ncbi.nlm.nih.gov/23036496","citation_count":16,"is_preprint":false},{"pmid":"32121277","id":"PMC_32121277","title":"Broad Protection of Pigs against Heterologous PRRSV Strains by a GP5-Mosaic DNA Vaccine Prime/GP5-Mosaic rVaccinia (VACV) Vaccine Boost.","date":"2020","source":"Vaccines","url":"https://pubmed.ncbi.nlm.nih.gov/32121277","citation_count":16,"is_preprint":false},{"pmid":"31767075","id":"PMC_31767075","title":"Construction and immunological evaluation of recombinant Newcastle disease virus vaccines expressing highly pathogenic porcine reproductive and respiratory syndrome virus GP3/GP5 proteins in pigs.","date":"2019","source":"Veterinary microbiology","url":"https://pubmed.ncbi.nlm.nih.gov/31767075","citation_count":16,"is_preprint":false},{"pmid":"29423381","id":"PMC_29423381","title":"Targeted Delivery of GP5 Antigen of PRRSV to M Cells Enhances the Antigen-Specific Systemic and Mucosal Immune Responses.","date":"2018","source":"Frontiers in cellular and infection microbiology","url":"https://pubmed.ncbi.nlm.nih.gov/29423381","citation_count":16,"is_preprint":false},{"pmid":"11152397","id":"PMC_11152397","title":"Characterization of monoclonal antibodies against mouse and rat platelet glycoprotein V (CD42d).","date":"2000","source":"Hybridoma","url":"https://pubmed.ncbi.nlm.nih.gov/11152397","citation_count":15,"is_preprint":false},{"pmid":"1318625","id":"PMC_1318625","title":"Complete genomic sequences of the GP5 protein gene of bluetongue virus serotype 11 and 17.","date":"1992","source":"Virus research","url":"https://pubmed.ncbi.nlm.nih.gov/1318625","citation_count":15,"is_preprint":false},{"pmid":"36361998","id":"PMC_36361998","title":"Using Alphafold2 to Predict the Structure of the Gp5/M Dimer of Porcine Respiratory and Reproductive Syndrome Virus.","date":"2022","source":"International journal of molecular sciences","url":"https://pubmed.ncbi.nlm.nih.gov/36361998","citation_count":14,"is_preprint":false},{"pmid":"24378591","id":"PMC_24378591","title":"Recombinant Kluyveromyces lactis expressing highly pathogenic porcine reproductive and respiratory syndrome virus GP5 elicits mucosal and cell-mediated immune responses in mice.","date":"2013","source":"Journal of veterinary science","url":"https://pubmed.ncbi.nlm.nih.gov/24378591","citation_count":14,"is_preprint":false},{"pmid":"34160254","id":"PMC_34160254","title":"Glyceraldehyde-3-Phosphate Dehydrogenase Restricted in Cytoplasmic Location by Viral GP5 Facilitates Porcine Reproductive and Respiratory Syndrome Virus Replication via Its Glycolytic Activity.","date":"2021","source":"Journal of virology","url":"https://pubmed.ncbi.nlm.nih.gov/34160254","citation_count":14,"is_preprint":false},{"pmid":"18336924","id":"PMC_18336924","title":"Generation of internal image monoclonal anti-idiotypic antibodies against idiotypic antibodies to GP5 antigen of porcine reproductive and respiratory syndrome virus.","date":"2008","source":"Journal of virological methods","url":"https://pubmed.ncbi.nlm.nih.gov/18336924","citation_count":14,"is_preprint":false},{"pmid":"38940560","id":"PMC_38940560","title":"PRRSV GP5 inhibits the antivirus effects of chaperone-mediated autophagy by targeting LAMP2A.","date":"2024","source":"mBio","url":"https://pubmed.ncbi.nlm.nih.gov/38940560","citation_count":13,"is_preprint":false},{"pmid":"37078873","id":"PMC_37078873","title":"MARCO Inhibits Porcine Reproductive and Respiratory Syndrome Virus Infection through Intensifying Viral GP5-Induced Apoptosis.","date":"2023","source":"Microbiology spectrum","url":"https://pubmed.ncbi.nlm.nih.gov/37078873","citation_count":13,"is_preprint":false},{"pmid":"23058982","id":"PMC_23058982","title":"Positive inductive effect of IL-18 on virus-specific immune responses induced by PRRSV-GP5 DNA vaccine in swine.","date":"2012","source":"Research in veterinary science","url":"https://pubmed.ncbi.nlm.nih.gov/23058982","citation_count":13,"is_preprint":false},{"pmid":"20129069","id":"PMC_20129069","title":"High genotyping concordance between the digene HPV Genotyping RH Test and the Reverse Line Blot genotyping assay on GP5+/6+-PCR products.","date":"2009","source":"Journal of clinical virology : the official publication of the Pan American Society for Clinical Virology","url":"https://pubmed.ncbi.nlm.nih.gov/20129069","citation_count":13,"is_preprint":false},{"pmid":"24882496","id":"PMC_24882496","title":"Enhanced immune responses in pigs by DNA vaccine coexpressing GP3 and GP5 of European type porcine reproductive and respiratory syndrome virus.","date":"2014","source":"Journal of virological methods","url":"https://pubmed.ncbi.nlm.nih.gov/24882496","citation_count":12,"is_preprint":false},{"pmid":"23073996","id":"PMC_23073996","title":"Lack of evidence for an association between seminoma and human papillomavirus infection using GP5+/GP6+ consensus primers.","date":"2012","source":"Journal of medical virology","url":"https://pubmed.ncbi.nlm.nih.gov/23073996","citation_count":12,"is_preprint":false},{"pmid":"36275018","id":"PMC_36275018","title":"Immunological evaluation of recombination PRRSV GP3 and GP5 DNA vaccines in vivo.","date":"2022","source":"Frontiers in cellular and infection microbiology","url":"https://pubmed.ncbi.nlm.nih.gov/36275018","citation_count":11,"is_preprint":false},{"pmid":"32650038","id":"PMC_32650038","title":"Replacing the decoy epitope of PCV2 capsid protein with epitopes of GP3 and/or GP5 of PRRSV enhances the immunogenicity of bivalent vaccines in mice.","date":"2020","source":"Journal of virological methods","url":"https://pubmed.ncbi.nlm.nih.gov/32650038","citation_count":11,"is_preprint":false},{"pmid":"36695606","id":"PMC_36695606","title":"N-Acetyltransferase 9 Inhibits Porcine Reproductive and Respiratory Syndrome Virus Proliferation by N-Terminal Acetylation of the Structural Protein GP5.","date":"2023","source":"Microbiology spectrum","url":"https://pubmed.ncbi.nlm.nih.gov/36695606","citation_count":11,"is_preprint":false},{"pmid":"29577951","id":"PMC_29577951","title":"Interaction of porcine reproductive and respiratory syndrome virus major envelope proteins GP5 and M with the cellular protein Snapin.","date":"2018","source":"Virus research","url":"https://pubmed.ncbi.nlm.nih.gov/29577951","citation_count":11,"is_preprint":false},{"pmid":"20467206","id":"PMC_20467206","title":"Construction and characterization of a recombinant canine adenovirus expressing GP5 and M proteins of porcine reproductive and respiratory syndrome virus.","date":"2010","source":"The Journal of veterinary medical science","url":"https://pubmed.ncbi.nlm.nih.gov/20467206","citation_count":11,"is_preprint":false},{"pmid":"28063474","id":"PMC_28063474","title":"Porcine GPX1 enhances GP5-based DNA vaccination against porcine reproductive and respiratory syndrome virus.","date":"2016","source":"Veterinary immunology and immunopathology","url":"https://pubmed.ncbi.nlm.nih.gov/28063474","citation_count":10,"is_preprint":false},{"pmid":"29313103","id":"PMC_29313103","title":"Plant synthetic GP4 and GP5 proteins from porcine reproductive and respiratory syndrome virus elicit immune responses in pigs.","date":"2018","source":"Planta","url":"https://pubmed.ncbi.nlm.nih.gov/29313103","citation_count":10,"is_preprint":false},{"pmid":"25457367","id":"PMC_25457367","title":"GP5 expression in Marc-145 cells inhibits porcine reproductive and respiratory syndrome virus infection by inducing beta interferon activity.","date":"2014","source":"Veterinary microbiology","url":"https://pubmed.ncbi.nlm.nih.gov/25457367","citation_count":9,"is_preprint":false},{"pmid":"25064513","id":"PMC_25064513","title":"Chimeric influenza-virus-like particles containing the porcine reproductive and respiratory syndrome virus GP5 protein and the influenza virus HA and M1 proteins.","date":"2014","source":"Archives of virology","url":"https://pubmed.ncbi.nlm.nih.gov/25064513","citation_count":9,"is_preprint":false},{"pmid":"19477088","id":"PMC_19477088","title":"Function of PRRSV GP5 envelope protein by using pseudotyped virus.","date":"2009","source":"Veterinary microbiology","url":"https://pubmed.ncbi.nlm.nih.gov/19477088","citation_count":9,"is_preprint":false},{"pmid":"26022070","id":"PMC_26022070","title":"Evolution of porcine reproductive and respiratory syndrome virus GP5 and GP3 genes under swIFN-β immune pressure and interferon regulatory factor-3 activation suppressed by GP5.","date":"2015","source":"Research in veterinary science","url":"https://pubmed.ncbi.nlm.nih.gov/26022070","citation_count":9,"is_preprint":false},{"pmid":"9802603","id":"PMC_9802603","title":"Genetic polymorphism in human platelet glycoprotein GP Ib/IX/V complex is enriched in GP V (CD42d).","date":"1998","source":"Tissue antigens","url":"https://pubmed.ncbi.nlm.nih.gov/9802603","citation_count":8,"is_preprint":false},{"pmid":"24916952","id":"PMC_24916952","title":"Construction and immunogenicity of a DNA vaccine coexpressing GP3 and GP5 of genotype-I porcine reproductive and respiratory syndrome virus.","date":"2014","source":"BMC veterinary research","url":"https://pubmed.ncbi.nlm.nih.gov/24916952","citation_count":8,"is_preprint":false}],"cost":{"stage1":{"model":"claude-sonnet-4-6","input_tokens":55931,"output_tokens":719,"usd":0.089289,"stage1_stop_reason":"end_turn"},"stage2":{"model":"claude-opus-4-8","input_tokens":6609,"output_tokens":784,"usd":0.026322,"stage2_stop_reason":"end_turn"},"total_usd":0.115611,"stage1_batch_id":"msgbatch_01DUPACZi7AAWwuZiUjseQF4","stage2_batch_id":"msgbatch_018yt7chE3f48PEFtDwtj6AE","note":"batch pricing = 50% of standard"},"stage1_raw":"Looking at the corpus, I need to identify which papers are about the canonical human GP5 protein (CD42d, platelet glycoprotein V). The vast majority of papers are about:\n1. HPV PCR primers named GP5+/GP6+ (not the gene GP5)\n2. PRRSV (porcine reproductive and respiratory syndrome virus) glycoprotein GP5 - a viral protein, not the human platelet glycoprotein\n3. Bluetongue virus GP5 - another viral protein\n\nOnly papers 76 and 99 appear to be about the human/mammalian platelet glycoprotein GP5 (CD42d). Let me analyze these:\n\n- Paper 76 (PMID 11152397): Characterization of monoclonal antibodies against mouse/rat GPV (CD42d); shows GPV appears in late stage megakaryocyte maturation\n- Paper 99 (PMID 9802603): Genetic polymorphism in human GP Ib/IX/V complex showing GP V (CD42d) tolerates genetic variation; mentions GPV's function in the complex is unclear - this is essentially a genetic survey, not a mechanistic study\n\nPaper 76 contains a direct experimental finding: GPV (CD42d) appears in the late stage of megakaryocyte maturation, established by bone marrow culture and flow cytometry showing 1C2+ megakaryocytes emerge from CD41+1C2- megakaryocytes and exhibit higher DNA ploidy.\n\n```json\n{\n  \"discoveries\": [\n    {\n      \"year\": 2000,\n      \"finding\": \"GPV (CD42d) appears at a late stage of megakaryocyte maturation; in mouse bone marrow culture, 1C2+ (GPV+) megakaryocytes emerged from CD41(GPIIb)+/1C2- megakaryocytes and exhibited higher DNA ploidy distribution, indicating GPV expression is temporally restricted to late-stage megakaryocyte development.\",\n      \"method\": \"Mouse bone marrow culture with monoclonal antibody staining (anti-GPV mAb 1C2) and DNA ploidy analysis; recombinant GPV expression in NIH-3T3 cells to confirm antibody specificity\",\n      \"journal\": \"Hybridoma\",\n      \"confidence\": \"Medium\",\n      \"confidence_rationale\": \"Tier 2 / Weak — direct localization/timing experiment with functional implication in megakaryopoiesis, single lab, single study\",\n      \"pmids\": [\"11152397\"],\n      \"is_preprint\": false\n    }\n  ],\n  \"current_model\": \"GP5 (CD42d, platelet glycoprotein V) is expressed at a late stage of megakaryocyte maturation, appearing after GPIIb (CD41) expression, and forms part of the GPIb/IX/V receptor complex on platelets involved in von Willebrand factor-mediated hemostasis; its specific function within the complex remains poorly defined mechanistically.\"\n}\n```","stage2_raw":"{\n  \"mechanistic_narrative\": \"GP5 (CD42d, platelet glycoprotein V) is a megakaryocyte/platelet marker whose expression is temporally restricted to the late stage of megakaryocyte maturation [#0]. In mouse bone marrow culture, GPV-positive (1C2+) megakaryocytes arise from CD41(GPIIb)+/GPV- precursors and display higher DNA ploidy, placing GPV induction downstream of GPIIb during megakaryopoiesis [#0]. Beyond this developmental-timing evidence, no further mechanistic detail regarding GPV's molecular function has been characterized in the available corpus.\",\n  \"teleology\": [\n    {\n      \"year\": 2000,\n      \"claim\": \"Established when GPV is expressed during megakaryocyte development, addressing whether it marks an early or late maturation stage relative to GPIIb.\",\n      \"evidence\": \"Mouse bone marrow culture with anti-GPV mAb (1C2) staining and DNA ploidy analysis, with recombinant GPV in NIH-3T3 cells to confirm antibody specificity\",\n      \"pmids\": [\"11152397\"],\n      \"confidence\": \"Medium\",\n      \"gaps\": [\n        \"Does not define GPV's molecular function within the platelet receptor complex\",\n        \"Single-lab, single-study observation in mouse; human megakaryocyte timing not directly addressed\",\n        \"No mechanistic link between GPV induction and the ploidy increase\"\n      ]\n    },\n    {\n      \"year\": null,\n      \"claim\": \"The molecular function of GPV within the GPIb/IX/V complex and in hemostasis remains undefined in the available corpus.\",\n      \"evidence\": \"No timeline discovery addresses GPV ligand binding, signaling, or complex assembly mechanism\",\n      \"pmids\": [],\n      \"confidence\": \"Low\",\n      \"gaps\": [\n        \"No biochemical characterization of GPV function\",\n        \"No structural or interaction data for GPV within the receptor complex\",\n        \"No loss-of-function phenotype documented in the timeline\"\n      ]\n    }\n  ],\n  \"mechanism_profile\": {\n    \"molecular_activity\": [],\n    \"localization\": [],\n    \"pathway\": [],\n    \"complexes\": [],\n    \"partners\": [],\n    \"other_free_text\": []\n  }\n}","audit_flag":null,"evaluation":{"pairwise":"tie","faith_supported":1,"faith_total":2,"faith_pct":50.0}}