STRENDA Guidelines - List Level 1A
Data required for a complete Description of an Experiment
This list defines data that are recommended for the methods section for publishing enzyme data. This information should allow the reproducibility of the results.
Version 1.7, September 22, 2016; doi:10.3762/strenda.17
|
Data |
Comments |
|---|---|
| Identiy of the enzyme | |
| Name of the reaction catalyst | name, preferably the accepted name from the IUBMB Enzyme list |
| EC number | |
| Sequence accession number | |
| Organism/species & strain | NCBI Taxonomy ID |
| Additional information on the enzyme | |
| Isoenzyme | naturally occuring variant |
| Tissue | |
| Organelle | |
| Localization | within cell. Specify what localization is based on |
| Post-translational modification | add only when determined |
| Preparation | |
| Description | e.g., commercial source, procedure used or reference along with modifications |
| Artificial modification | e.g., truncated, His-tagged, fusion protein, lacking native glycosylation |
| Enzyme or protein purity | purity defined by which criteria. Specify whether protein or enzyme was purified |
| Metalloenzyme | mutant, content, cofactors |
| Storage Conditions | |
| Storage temperature | If frozen, freezing method, e.g., -20 °C flash |
| Atmosphere if not air | |
| pH | e.g., 7.0 |
| At which temperature was the pH measured? | e.g., 25 °C |
| Buffer & concentrations (including counter-ion) | e.g., 200 mM potassium phosphate, 100 mM HEPES-KOH |
| Metal salt(s) & concentrations | e.g., 10 mM KCl, 1.0 mM MgSO4 |
| Other components | e.g., 1.0 mM EDTA, 1.0 mM dithiothreitol, 10% glycerol, 20% DMSO, 1 mg/ml PEG2000, 2 mg/ml BSA, peptidase inhibitors |
| Enzyme/protein concentration | molar concentration if known, otherwise mass concentration; e.g., mg ml-1 or better: µM |
| Optional: Statement about observed loss of activity under the above conditions |
e.g., less than 10% loss after 1 month |
| Statement about the thawing procedure | e.g., on ice |
| Assay Conditions | |
| Substrate purity | Origin of substrate |
| Measured reaction | as a stoichiometrically balanced equation e.g., 2 mol substrate oxidized per mol O2 consumed |
| Assay temperature | |
| Assay pressure | if it is not atmospheric; indicate if not aerobic |
| Atmosphere if not air | |
| Assay pH | How was it measured? |
| Buffer & concentrations | e.g., 100 mM Tris-HCl, 200 mM potassium phosphate, including counter-ion |
| Metal salt(s) & concentrations | e.g., 10 mM KCl, 1.0 mM MgSO4 |
| Other assay components | e.g., 1.0 mM EDTA, 1.0 mM dithiothreitol |
| Coupled assay components | if relevant |
| Substrate & concentration ranges | e.g., 1 - 100 mM glucose, 5 mM ATP |
| Enzyme/protein concentration | molar concentration if known, otherwise mass concentration, e.g., mg ml-1 or better: µM |
| Varied components | e.g., inhibitor concentration |
| Total assay mixture ionic strength | |
| Activity | |
| Initial rates of the reaction measured | determine how established |
| Proportionality between initial velocity and enzyme concentration | if available |
| Enzyme activity | Ideally kcat otherwise expressed as amount product formed per amount enzyme protein present - sometimes referred to as enzyme unit or international unit (1 IU) = 1 µmol min-1. The katal (mol/s) may alternatively be used as a unit of activity (conversion factor 1 unit = 16.67 nkat) |
| Methodology | |
| Assay method | a literature reference may suffice for an established procedure but any modification should be detailed |
| Type of assasy | e.g., continuous or discontinuous, direct or coupled |
| Reaction stopping procedure | in the case of discontinuous assays |
| Direction of the assay | with respect to the reaction equation provided, e.g., NAD reduction by alcohol dehydrogenase; alcohol + NAD+ → aldehyde or ketone + NADH + H+ |
| Reactant determined | e.g., NADH formation, O2 utilization |
| Additional material desirable | |
| Free metal cation concentration | e.g., of Mg2+ and Ca2+, specify how calculated |
| Reaction equilibrium constant | define conditions and reaction direction |
