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4,299,418 works, Canadian by any of four routes.

Every filter state is a URL; the URL is the query; the query is citable via /q/⟨hash⟩. The page, the API and the export parse the same parameters.

The current cohort, streamed from the database: every work column, the machine labels, the provisional scores, and the per-row validation status. Exports are capped at 100,000 rows. Mints a permanent /q/ link for this exact query. The same filters always produce the same link, whoever asks.

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Metalloenzymes and iron-sulfur proteins
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Direct Codex and Gemma labels are unvalidated and sparse. Distilled predictions cover the full frame and are also unvalidated. Choose the evidence source explicitly; absence of a direct label is never a negative label.

affaffiliation
fundfunder
venuejournal
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The four routes compose: require the funder route and exclude affiliation to get the funder-only stratum no affiliation-based frame ever sees.

315 results · 1 filter active ·
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20002025
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Machine labels · sparse coverage
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An unlabeled work is unknown, not a negative. Label coverage is reported on every query.
315 works in the cohort · of 4,299,418page 1 of 7

Labels cover 0 of 315 works in this cohort. The rest are unlabeled, which is not a negative label: the label table is sparse today and grows as labeling rounds land.

Distilled predictions cover 315 of 315 works in this cohort. Predictions are machine_predicted_unvalidated teacher distillation outputs. Candidate is the union; consensus is the intersection.

affno abstractunlabeled
The prokaryotic complex iron–sulfur molybdoenzyme family
Richard A. Rothery, Gregory J. Workun, Joël H. Weiner
2007· review· en· Biochimica et Biophysica Acta (BBA) - Biomembranes· Energy
distilled prediction:candidate · metaepi_narrow+insufficient_payloadconsensus · metaepi_narrow
219
citations
fundno affunlabeled
Dithiolato-Bridged Dinuclear Iron−Nickel Complexes [Fe(CO)<sub>2</sub>(CN)<sub>2</sub>(μ-SCH<sub>2</sub>CH<sub>2</sub>CH<sub>2</sub>S)Ni(S<sub>2</sub>CNR<sub>2</sub>)]<sup>-</sup>Modeling the Active Site of [NiFe] Hydrogenase
Zilong Li, Yasuhiro Ohki, Kazuyuki Tatsumi
2005· article· en· Journal of the American Chemical Society· Energy
distilled prediction:candidate · metaepi_narrow+metaepi_broad+sts+scholarly_communication+open_science+research_integrity+insufficient_payloadconsensus · metaepi_narrow+sts+research_integrity
145
citations
afffundunlabeled
[NiFe]-Hydrogenase Maturation
Michael J. Lacasse, Deborah B. Zamble
2016· article· en· Biochemistry· Energy
distilled prediction:candidate · insufficient_payloadconsensus · none
128
citations
affunlabeled
Atmospheric Hydrogen Scavenging: from Enzymes to Ecosystems
Chris Greening, Philippe Constant, Kiel Hards, Sergio E. Morales, John G. Oakeshott, Robyn J. Russell +4 more
2014· review· en· Applied and Environmental Microbiology· Energy
distilled prediction:candidate · metaepi_narrow+insufficient_payloadconsensus · insufficient_payload
112
citations
afffundno abstractunlabeled
Metallocenter assembly of the hydrogenase enzymes
Michael R. Leach, Deborah B. Zamble
2007· review· en· Current Opinion in Chemical Biology· Energy
distilled prediction:candidate · metaepi_narrowconsensus · none
102
citations
afffundunlabeled
Microbial nickel proteins
Harini Kaluarachchi, Kim C. Chan Chung, Deborah B. Zamble
2010· review· en· Natural Product Reports· Energy
distilled prediction:candidate · metaepi_narrow+research_integrity+insufficient_payloadconsensus · none
98
citations
affno abstractunlabeled
Enzymatic catalysis on conducting graphite particles
Kylie A. Vincent, Xiang Li, Christopher F. Blanford, Natalie A. Belsey, Joël H. Weiner, Fräser A. Armstrong
2007· article· en· Nature Chemical Biology· Energy
distilled prediction:candidate · noneconsensus · none
72
citations

How this was built: Screen · Findings · About