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Method for identifying ancient wool fabric-pieces fur variety based on proteomics

A proteomics, wool fabric technology, applied in the field of cultural relics detection, can solve the problems of difficult identification and protection of wool cultural relics, difficult to accurately identify different animal hairs, and analysis of the morphology of staying fibers, etc., to reduce temperature and achieve high accuracy. , the effect of promoting hydrolysis

Active Publication Date: 2019-01-18
ZHEJIANG SCI-TECH UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

After being unearthed, due to drastic changes in environmental conditions, the aging of fibers was further accelerated. Therefore, it is not difficult to imagine that in the long history, woolen fabrics buried in tombs or ruins have already lost their original appearance and degraded into Peptides or amino acids cannot be recognized by the naked eye, and the older the evidence, the harder it is to find, which brings great difficulties to the identification and protection of fur cultural relics
Moreover, for these ancient wool fabric fragments that are difficult to distinguish with the naked eye, it is even more difficult to distinguish the type of wool
[0005] At present, ordinary analysis and detection techniques, such as Fourier transform infrared spectroscopy, Raman spectroscopy, X-ray diffraction analysis, etc., are often at a loss when encountering this kind of residue analysis. Most of the identification of ancient woolen fabrics at home and abroad are still stuck. In the analysis of fiber morphology, it is difficult to accurately identify different kinds of animal hairs, and there is nothing to do with different purpose animal hairs; therefore, it is very important to find a more scientific and convenient method to identify the hair types of ancient wool fabric fragments. necessary

Method used

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0049] A method for discriminating wool species of ancient wool fabric fragments based on proteomics, comprising the following steps:

[0050] 1) Weigh the same amount of mixed ancient goat hair, sheep wool, and camel hair fabrics, wash them repeatedly with deionized water to remove surface stains, put them in a 32°C vacuum oven to dry, and record them as groups A, B, and C respectively.

[0051] 2) The three groups of samples A, B, and C dried in step 1) were respectively immersed in the oxalic acid solution with pH = 2, stood for 1.5 hours, scrubbed with deionized water until neutral, and dried in vacuum at 32°C.

[0052] 3) Submerge the three groups of samples A, B, and C dried in step 2) into a solution containing 0.1mol / L LiBr and 0.03mol / L sodium dodecyl sulfate at a bath ratio of 1:20 to adjust the pH When the value reaches 10, after ultrasonication at 45°C with a power of 200W for 40min, put it into a microwave reactor for radiation hydrolysis for 6.5min.

[0053] 4) ...

Embodiment 2

[0067] A method for discriminating wool species of ancient wool fabric fragments based on proteomics, comprising the following steps:

[0068] 1) Weigh the same amount of mixed ancient goat hair, sheep wool, and camel hair fabrics, wash them repeatedly with deionized water to remove surface stains, put them in a vacuum oven at 30°C and dry them, and record them as groups A, B, and C respectively.

[0069] 2) The three groups of samples A, B, and C dried in step 1) were respectively immersed in the oxalic acid solution with pH = 1.5, stood for 1 hour, scrubbed with deionized water until neutral, and dried in vacuum at 30°C.

[0070] 3) Submerge the three groups of samples A, B, and C dried in step 2) into a solution containing 0.05mol / L LiBr and 0.02mol / L sodium dodecyl sulfate at a bath ratio of 1:15 to adjust the pH When the value reaches 8, after ultrasonication at 40°C with a power of 190W for 30 minutes, put it into a microwave reactor for radiation hydrolysis for 6 minute...

Embodiment 3

[0085] A method for discriminating wool species of ancient wool fabric fragments based on proteomics, comprising the following steps:

[0086] 1) Weigh the same amount of mixed ancient goat hair, sheep wool, and camel hair fabrics, wash them repeatedly with deionized water to remove surface stains, put them in a vacuum oven at 35°C and dry them, and record them as groups A, B, and C respectively.

[0087] 2) The three groups of samples A, B, and C dried in step 1) were respectively immersed in the oxalic acid solution with pH = 2.5, stood for 2 hours, scrubbed with deionized water until neutral, and dried in vacuum at 35°C.

[0088] 3) Submerge the three groups of samples A, B, and C dried in step 2) into a solution containing 0.15mol / L LiBr and 0.04mol / L sodium dodecyl sulfate at a bath ratio of 1:25 to adjust the pH When the value reaches 11, after ultrasonication at 50°C with a power of 210W for 50 minutes, put it into a microwave reactor for radiation hydrolysis for 8 minu...

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Abstract

The invention relates to the field of the culture relic detection, and discloses a method for identifying ancient wool fabric-pieces fur variety based on proteomics. The method specifically comprisesthe following steps: taking the same amounts of mixed ancient goat wool, sheep wool, camel hair fabric samples, extracting keratin by utilizing a metal salt method and a reduction method, respectivelyperforming SDS-PAGE gel electrophoresis to separate protein, and preparing carbon quantum dot solution as a staining solution by utilizing a reverse micro-emulsion method; performing enzymolysis on astrip, adopting the HPLC-MS / MS mass spectrography, comparing an amino acid sequence obtained through the mass spectrum detection with an amino acid sequence database to identify whether the ancient wool fabric is goat wool, sheep wool and camel hair. The detection method of the ancient wool fabric has the advantages of being clear in gel electrophoresis image, high in dissolving rate and extraction efficiency, and especially suitable for the identification of the fur variety of ancient wool fabric-pieces in different order-family species which are of early era and hard to be identified by thenaked eyes.

Description

technical field [0001] The invention relates to the field of detection of cultural relics, and more specifically relates to a method for identifying wool types of ancient wool fabric fragments based on proteomics. Background technique [0002] In the Shang Dynasty four thousand years ago, the ethnic minorities living in the western region introduced a woolen fabric called "罽罽" to the Central Plains through offerings. Since then, woolen fabrics have appeared in the Central Plains. The ingredients of these wool fabrics include wool, camel hair, cow hair, rabbit hair and so on. [0003] A large number of wool products have been unearthed from early Chinese tombs. The quantity and the exquisite weaving are both amazing. The ethnic minorities in ancient my country used creative labor to produce wool fabrics with national characteristics. In the economic and cultural exchanges among the people of all ethnic groups, woolen fabrics have become a medium for friendly exchanges bet...

Claims

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N27/447
CPCG01N27/44747G01N27/44782
Inventor 王秉王钟元朱诚胡铭周彭志勤胡智文
Owner ZHEJIANG SCI-TECH UNIV
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