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A paraffin section method for gradient dehydration of plant material

A gradient dehydration and paraffin section technology, applied in the field of botany, can solve the problems of affecting the effect of immunolocalization experiments, reducing alcohol concentration, environmental pollution, etc., to improve the quality of slices and experimental efficiency, short transparent processing time, and easy to operate. Effect

Active Publication Date: 2020-12-01
XIAN BOTANICAL GARDEN SHAANXI PROV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, after adding an appropriate amount of safranin to the 70% alcohol in the dehydration process to dye the material, although the efficiency of slicing in the later stages of embedding, slicing and displaying has been improved, on the one hand, the plant samples are treated with 70% alcohol. After the safranin solution is dehydrated, the alcohol concentration will be greatly reduced, and it cannot be used again in dehydration dyeing. Therefore, the alcohol dissolved in safranin will still be thrown away eventually, resulting in waste of dyestuffs and environmental pollution.
On the other hand, the dehydration process in 70% alcohol (containing red dye) is often too long, resulting in too deep staining of plant samples, which may affect the effect of some immunolocalization experiments in the later stage

Method used

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  • A paraffin section method for gradient dehydration of plant material
  • A paraffin section method for gradient dehydration of plant material
  • A paraffin section method for gradient dehydration of plant material

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] Collect fresh materials and immerse in Carnot's reagent, vacuum pump for 15-20 minutes, and then fix in Carnot's reagent for 24-36 hours; pass the fixed materials through mass fractions of 30%, 50%, 70%, 85%, 90% %, 100%, and 100% gradient ethanol solutions for dehydration, and each gradient ethanol solution was dehydrated for 0.2-2 hours; the dehydrated material was first mixed with 1 / 2 absolute ethanol, 1 / 2 xylene and 0.05wt% ~0.1wt% safranin mixed solution for 10~30 minutes, and then in pure xylene solution for 10 minutes each time; after clearing, immerse the material in 1 / 2 xylene and 1 / 2 paraffin mixed solution After 30 minutes, put it into molten pure wax with a melting point of 52-56 °C for 1-2 hours, then put the wax-soaked material into a thermostat at 58 °C to keep warm, then fill the wax box with molten paraffin, and use Pick the material with tweezers and move it into the paraffin wax in the box, place it well, and blow air on the wax surface to make the wa...

Embodiment 2

[0041] Collect fresh materials and immerse in Carnot’s reagent, vacuum pump for 15-20 minutes, and then fix in Carnot’s reagent for 24-36 hours; pass the fixed materials through mass fractions of 30%, 50%, 70% ethanol and 0.05wt% ~0.1wt% safranin, 85%, 90%, 100%, 100% gradient ethanol solution for dehydration, dehydration in each gradient ethanol solution for 0.2~2h; Transparent treatment in the mixed solution of water ethanol and 1 / 2 xylene for 10-30 minutes, then transparent treatment in pure xylene solution twice, each treatment for 10 minutes; after transparent, immerse the material in 1 / 2 xylene and 1 / 2 paraffin to mix Put it in the liquid for 30 minutes, then put it into molten pure wax with a melting point of 52-56°C for 1-2 hours, put the wax-soaked material in a constant temperature box at 58°C to keep warm, and then fill the wax box with molten paraffin. Use tweezers to pick up the material and move it into the paraffin in the box, place it well, and blow air on the ...

Embodiment 3

[0044] Collect fresh materials and immerse in Carnot's reagent, vacuum pump for 15-20 minutes, and then fix in Carnot's reagent for 24-36 hours; pass the fixed materials through mass fractions of 30%, 50%, 70%, 85%, 90% %, 100%, 100% gradient ethanol solution for dehydration, dehydration in each gradient ethanol solution for 0.2~2h; the dehydrated material is first transparent in the mixed solution of 1 / 2 absolute ethanol and 1 / 2 xylene Treat for 10-30 minutes, then transparently treat twice in pure xylene solution, each time for 10 minutes; after transparent, immerse the material in 1 / 2 xylene and 1 / 2 paraffin mixture for 30 minutes, and then put it into After soaking in molten pure wax at ℃ for 1-2 hours, put the wax-soaked material in a constant temperature box at 58℃ to keep warm, then fill the wax box with molten paraffin, pick the material with tweezers and move it into the paraffin wax in the box, and place it Put it well, and blow air on the wax surface to make the sur...

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Abstract

The invention discloses a paraffin slicing method applicable to gradient dehydrating of a plant material. The method comprises the steps of collecting and fixing a sample, dehydrating the sample, transparentizing the sample, immersing the paraffin, embedding, trimming, fixing, slicing, expanding the slices, drying, deparaffinating, and sealing. According to the method, chlorophyll in a plant bodyis completely degraded after the sample material is transparentized through dimethylbenzene, but the cell wall and cell nucleus of the plant cell are dyed red through sarranine, so that the plant sample is red, and the color of the sample is extremely easily distinguished from the color of the embedded paraffin after the sample material is transparentized through dimethylbenzene; the sample is easily embedded as requirement, moreover, the position of the material in an embedded block is clearly viewed during trimming, so that the trimming, slicing, slice expanding and microscopic examining aresimple and convenient, and the material can be avoided after being damaged by mistake; the material expanding degree can be conveniently detected during the microscopic examining, and the slice quality and the test efficiency can be improved.

Description

technical field [0001] The invention relates to the technical field of botany, in particular to a paraffin section method for gradient dehydration of plant materials. Background technique [0002] Paraffin section is the main experimental method of histology and developmental biology research, and also an important means of observing pathological changes in pathology, which has made outstanding contributions to scientific research and clinical diagnosis. This technology uses the basic principle that paraffin wax can be well combined with animal and plant tissues. After specimen collection, fixation, dehydration, transparency, wax dipping, embedding, sectioning, spreading, patching, drying, dewaxing, and dyeing , dehydration, transparency and a series of special methods to make transparent thin slices, observed under a microscope or electron microscope, can faithfully reflect the structure and morphological changes of the body; quantitatively determine the size, quantity and ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N1/28G01N1/30
CPCG01N1/30G01N2001/305
Inventor 周亚福毛少利王宇超石新卫卢元
Owner XIAN BOTANICAL GARDEN SHAANXI PROV
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