ISO 20418-3-2020 pdf download.Textiles – Qualitative and quantitative proteomic analysis of some animal hair fibres – Part 3: Peptide detection using LC-MS without protein reduction.
8 Test method
8.1 Sampling
The general requirement is that the test specimen shall be representative for the lot of material from which it is taken. The method to obtain a fibre test specimen differs depending on the sample form. The terms relating to sampling for the various types of samples shall be in accordance with ISO 1833-1.
8.2 Preliminary identification
The preliminary qualitative analysis of the animal hair fibre shall be carried out based on their morphology, which is determined using light microscopy, according to ISO 17751 (all parts), after removal of non-animal fibre.
8.3 Wash for degreasing
8.3.1 Reflux 1 g of the fibres in a recovery flask (7.11) on a heating mantle (Li) with 200 ml of acetone (J) for 30 mm. This washing step may be omitted in the case of clean samples. Quantity of the fibres can be changed.
8.3.2 Take the degreased fibres out of the recovery flask and dry them in the air. Alternatively, the sample preparation method of ISO 204 18-1 lI can be used.
8.4 Powderization of fibres
Crush the dried fibre sample (&12) using a mill (7.2) to get a fine powder with an average length of 100 pm or less by checking under the microscope and mix thoroughly for securing representative sampling of the fibres.
8.5 Trypsin digestion
8.5.1 Weigh about 10 mg of the crushed sample and place it into a microtube. If more than 10 mg of the sample is used, increase the volumes of the NH4HCO3 solution in 8.52 and Trypsin solution in 8.13 proportionally.
8.5.2 Add 300 p1 of the NH4HCO3 solution (6.3) and vortex for 10 mm to 30 mm.
8.5.3 Add 10 i1 of the Trypsin solution (6.7) to the sample and incubate at 37 °C for 20 h to 24 h.
8.5.4 Centrifuge the tryptic solution for 3 mm using the centrifugal evaporator (2.6). Filter the supernatant through a membrane filter (73) to remove residual fibres.
NOTE Centrifugal filter, syringe filter or other means of filtration can be used.
8.5.5 Transfer the solution to an IC vial, then dry it using the centrifugal evaporator (7.6). If the IC vial does not fit in the dryer, the solution can be dried in other types of container such as a microtube. The sample is transferred to an LC vial after dissolution. Alternatively, a freeze dryer or nitrogen flux can be used as the drying method, Instead of the centrifugal evaporator.
8.5.6 Add 40 p1 of water containing 0,1 % formic acid and 5 % acetonitrile and vortex for 30 mm, for subsequent IC-MS measurements. Sonication shall not be a substitute for vortex when IC-MS sample is dissolved.ISO 20418-3 pdf download.