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Quantitative high-vitality yeast cell screening method based on TTC (2,3,5-triphenyltetrazolium chloride) staining method

A yeast cell and screening method technology, which is applied in the fields of pharmacy, bioengineering technology and medicine, can solve the problems of time-consuming, labor-intensive, slow growth, and inability to quantify, and achieve the effects of reducing screening time, reducing human errors, and saving testing costs

Inactive Publication Date: 2014-01-22
NANJING UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The first is that the preparation of the plate containing TTC medium is complicated, and the growth of the yeast after inoculation is relatively slow, and the subsequent operation of picking darker yeast is cumbersome and takes a long time; the second is the color development by TTC staining. Reaction, using the human eye to observe the color of the reaction to judge the cell viability and predict the level of ethanol production by yeast. Due to the large number of cells to be screened, the disadvantages are: ①It cannot be quantified, and the content of the product cannot be accurately judged by naked eyes, and it is easy to produce Fatigue and mistakes, and the high-viability cells screened from different culture plates will lead to misjudgment due to the limitation of human eyesight, so that the cells finally screened may not be the required high-viability and high-ethanol-producing cells; ②The workload of screening a large number of cells Large, time-consuming and labor-intensive, affecting the progress of cell screening
However, in these studies, there are also many deficiencies, that is, these literature reports only transfer the detection of the number of bacteria per unit volume in a cuvette to a 96-well plate for microbial culture, and all follow-up studies need to transfer The strains with higher OD value in the 96-well cell culture plate are spread on the plate medium for growth, and then other screening methods are used to screen high-yield ethanol-producing strains, which takes a long time. For example, Cai Wanlin used a 96-well plate and S. Subsequent yeast selection in Pachysomyces requires 7-9 days of growth
Therefore, although these methods use 96-well plates, they do not significantly reduce the working time and workload. The key point is that the results measured by these methods when using 96-well plates are only quantification of the density of the cell population, which reflects the density of the cells. Proliferation in a certain growth cycle is not the vitality of individual cells

Method used

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  • Quantitative high-vitality yeast cell screening method based on TTC (2,3,5-triphenyltetrazolium chloride) staining method
  • Quantitative high-vitality yeast cell screening method based on TTC (2,3,5-triphenyltetrazolium chloride) staining method

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Embodiment 1

[0027] High Throughput Screening of Highly Viable Yeast

[0028] 1. Drawing of TTF standard curve

[0029] Take 0.005, 0.01, 0.02, 0.03, 0.04, 0.05, 0.06, 0.07, 0.08, 0.09, 0.1% (W (g) / V (mL)) TTC solution 1ml into a 10ml centrifuge tube, add 2ml of Tris- HCl (pH8.4), finally add 10% (W(g) / V(mL)) of Na 2 S 2 o 4 Solution 1ml, shake in 37℃ water bath for 5min (the above steps are all performed in the dark), so that TTC is completely reduced to TTF, centrifuge at 10000r / min for 10min, discard the supernatant, add 5ml of dimethyl sulfoxide with a concentration of 85% (v / v) The solution is fully mixed, and the absorbance value is measured at 486nm, and the absorbance value of the mixed solution at 486nm is used as the ordinate, and the TTC concentration is used as the abscissa to draw a standard curve. The standard curve obtained by drawing is shown in figure 1 : It can be seen from the standard curve that when the TTC concentration is 0.01-0.06%, the OD value is in the range...

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Abstract

The invention discloses a quantitative high-vitality yeast cell screening method based on a TTC staining method. The quantitative high-vitality yeast cell screening method comprises the steps as follows: coating a plate with a yeast cell liquid to be detected, and culturing the yeast cell liquid until single colonies grow; then inoculating the yeast cell liquid in a culture solution in each hole of a 96-hole cell culture plate, culturing the yeast cell liquid until OD values of thalli obtained through measurement are in a range of 1-3, centrifuging the liquid and abandoning supernatant; adding a TTF extracting agent to each hole of the 96-hole cell culture plate, and oscillating the liquid for 10-15S before centrifugation; and absorbing oscillated and centrifuged supernatant in a 96-hole EKISA plate, measuring a TTF absorption value under the wavelength of 486nm through an EKLSA reader, and calculating the content of TTF in each hole according to a TTF standard curve and the measured cell OD values to determine the vitality of cells. Screening results reflect the vitality of the cells directly and reliably, the screening time can be reduced obviously, and human errors caused by visual judgments during an operation process can also be reduced.

Description

technical field [0001] The invention is applicable to the fields of bioengineering technology, medicine and pharmacy, and specifically relates to a method for quantitatively screening high-activity yeast based on a TTC staining method. Background technique [0002] 2,3,5-Triphenyltetrazolium chloride (TTC) is a chromogenic agent that can produce color reactions to various cells (yeast, bacteria, plant cells, etc.), TTC itself is colorless, when It reacts with dehydrogenase in normal cells and turns red. The principle is that TTC replaces O in cellular respiration. 2 Accept H + , TTC is reduced to red TTF (triphenylmethyl month replacement) and appears red. The reaction equation is as follows: [0003] [0004] Due to the above color reaction, TTC, as the proton acceptor of the pyridine-nucleoside structural enzyme system in the respiratory chain, can be reduced from the colorless oxidized TTC to red TTF by the respiratory chain dehydrogenase in living cells. Therefore,...

Claims

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Application Information

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IPC IPC(8): C12Q1/06
Inventor 陈怡露徐俊韦萍陈亚利雍晓雨郑涛柏建新许琳费文斌
Owner NANJING UNIV OF TECH
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