Protocols

Stability of Recombinant Enterokinase at 25 °C

1. Purpose and Scope

Purpose: To quantitatively evaluate, under controlled conditions, the activity retention, structural integrity, and aggregation risk of recombinant enterokinase (rEK) during exposure at 25 °C, and to define acceptable exposure duration and influencing factors.

Scope:

  • Applicable to research-grade materials and in-process intermediates (stock solution, reconstituted from lyophilized form, buffers containing salt or glycerol).
  • Finished enzyme preparations may refer to this procedure, but final judgment should be made in conjunction with their established quality or release specifications.
  • Can be used to assess: room-temperature exposure tolerance, impact of deviations (short-term room temperature), transportation, and online standby conditions.
  • For samples containing strong inhibitors, complexes of enzymes, or requiring buffers other than pH 8.0, separate verification is recommended.

2. Principle and Activity Evaluation

Inactivation and aggregation mechanisms: During exposure at 25 °C, rEK may undergo

(1) decreased catalytic efficiency due to conformational loosening;

(2) autolysis/limited proteolysis leading to damage of the active site;

(3) interface-induced or heat-induced aggregation;

These changes are usually reflected as reduced conversion, appearance of self-degradation bands of the enzyme on SDS-PAGE, or high–molecular weight aggregates remaining at the top of the gel.

Activity evaluation: rEK is a serine protease that recognizes the DDDDK↓X site. Add an equal amount of enzyme to a fixed amount of protein substrate; after reaction at 25 °C for 14–16 h, compare the band densities of substrate and cleavage products by SDS-PAGE, and calculate conversion (% conversion) as the relative activity readout; normalize to the ice-kept t = 0 control to obtain relative activity retention (%).


3. Reagents

Reagent A: 25 mM Tris-HCl buffer, pH 8.0 (25 °C)

Preparation: Weigh 0.303 g Tris (free base), dissolve in ~80 mL ultrapure water (25 °C), adjust to pH 8.0 with 2 M HCl, then bring to volume to 100 mL with water.

Reagent B: Recombinant enterokinase 

Storage: −20 °C (avoid repeated freeze–thaw cycles; keep on ice during use).

Reagent C: Substrate solution (protein substrate)

Storage: −80 °C (aliquoting recommended to avoid freeze–thaw).


4. Procedures

4.1 Sample preparation

  • Remove recombinant enterokinase (rEK) from −20 °C and place immediately on ice to thaw slowly.
  • Check whether the solution is clear, without obvious precipitate or flocculent material; if slight precipitate is present, centrifuge at 4 °C for 5 min (10,000×g) and use the supernatant.
  • Remove the substrate solution (Reagent C) from −80 °C, thaw on ice, and mix gently.
  • Use prechilled pipette tips throughout; avoid generating bubbles.

4.2 Dilution and exposure

  • Take an appropriate amount of rEK solution and dilute with Reagent A to a working concentration of 0.1 U/μL.
  • Aliquot into multiple 1.5 mL microcentrifuge tubes (each tube containing enough for one enzyme activity test, ~20–50 μL), and label as Day 0, 1, 2, 3, 5, 7.
  • Place all samples in a 25 °C incubator or thermostatic water bath for exposure; keep the Day 0 sample on ice throughout as a control.
  • At each set time point (Days 1, 2, 3, 5, 7), immediately remove the corresponding tube and place on ice for later use.

4.3 Enzymatic digestion reaction

  • Take 1 μL of rEK solution (0.1 U/μL) and add to 50 μL of substrate solution (each tube contains 50 μg substrate at 1 mg/mL).
  • Mix gently without vortexing; briefly spin down to collect liquid at the bottom.
  • Incubate at 25 °C for 14–16 h.
  • At the end of the reaction, add an equal volume of 2× SDS-PAGE loading buffer and heat at 95 °C for 5 min to terminate the reaction.

4.4 SDS-PAGE analysis

  • Load 10 μL per lane onto a 12% resolving gel.
  • Electrophoresis conditions: constant voltage 120 V, ~1 h.
  • Staining and destaining: stain with Coomassie Brilliant Blue R-250 for 1 h and destain until the background is clear.
  • Photograph and use image analysis software (e.g., ImageJ) to measure the grayscale values of substrate and cleavage product bands.
  • Calculate conversion (% conversion) = [cleavage product / (substrate + cleavage product)] × 100%.
  • Set the conversion of the t = 0 on-ice sample as 100% and calculate the relative activity retention.

5. Notes and Optimization Recommendations

  • For each measurement, set a t = 0 on-ice control and a historical positive control; compare samples from the same batch on the same gel as much as possible.
  • Keep the substrate batch, loading amount, gel and development conditions consistent; record room temperature and exposure time.
  • Handle gently and avoid foaming; use low-binding consumables to reduce interfacial contact.
  • Strictly control pH 8.0 and ionic strength; keep the enzyme/substrate ratio and reaction time constant (0.1 U : 50 μg, 14–16 h).
  • Aliquot and freeze for storage to avoid repeated freeze–thaw; keep samples on ice throughout experimental intervals.

Categories: Protocols
Explore topics: Recombinant Enterokinase

Da — when not otherwise indicated, molecular weight units are daltons.   Mw — weight-average molecular weight.   Mn — number-average molecular weight.

Products are supplied for research and development use only. Not for use in humans, animals, diagnosis, or therapy.

Cite this article

Aladdin Scientific. "Stability of Recombinant Enterokinase at 25 °C" Aladdin Knowledge Base, updated 31 oct 2025. https://www.aladdinsci.com/us_es/faqs/stability-of-recombinant-enterokinase-at-25-en.html
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