CN1667115A - Aspergillus niger strain and its use in solid fermentation production of pectinase - Google Patents
Aspergillus niger strain and its use in solid fermentation production of pectinase Download PDFInfo
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- CN1667115A CN1667115A CN 200410006199 CN200410006199A CN1667115A CN 1667115 A CN1667115 A CN 1667115A CN 200410006199 CN200410006199 CN 200410006199 CN 200410006199 A CN200410006199 A CN 200410006199A CN 1667115 A CN1667115 A CN 1667115A
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- aspergillus niger
- bacterial strain
- solid
- state fermentation
- pectase
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Abstract
This invention relates to an aspergillus niger strain and its application in solid fermentation generation. The aspergillus niger strain preservation number is CGMCC.NO.1100 in Chinese microorganism bacterium preservation management committee common mircens. The microorganism strain in this invention can be used solid fermentation generation of pectinase. Nutrient source of cultivate the aspergillus niger F02 strain is carbon source, nitrogen source, inorganic salt and micro nutrient. The main generation materials are wheat bran, rice bran and flour and other agricultural and sideline products. So the investment is few, operation is convenient. The activity of solid fermentation pectinase is 5~6 times than liquid fermentation by unit volume.
Description
Technical field
The present invention relates to a kind of Aspergillus niger strain and the application in solid-state fermentation of pectase is produced thereof.
Background technology
In recent decades, China's living standards of the people improve constantly, and the demand of meat, fowl is also being risen year by year.How satisfying this demand is herding industry problem to be solved; feed is the food of livestock and poultry; improve the utilization ratio of feed and the growth performance of animal, under the preceding topic of protection environment, ensure lasting, healthy, the steady progression of husbandry, become the major issue that the mankind press for solution.
By the feed that microbial fermentation is produced, its used enzyme preparation is nontoxic, pollution-free residual green feed additive, adds an amount of zymin that is complementary with feed diet and can obviously improve efficiency of feed utilization in feed, reduces the pollution to environment.
Polygalacturonase is the important enzyme preparation that is used for feed, can obviously improve the digestive utilization ratio of feed, can also reduce the mortality ratio of beasts, birds and aquatic products simultaneously.Can also play the effect that substitutes duomycin in early days in animal rearing.But also there is not a kind of good microorganism strains that is used for the polygalacturonase preparation so far.The at present industrial microorganism strains that is used for the polygalacturonase preparation, before 1993, a lot of about the aspergillus niger research report of high yield polygalacturonase, limited but the fermenting enzyme vigor rises, maximum is about 1270 units/gram; In the report in recent years, it also only is about 3200 units/gram that a kind of Tabin aspergillus produces polygalacturonase, and it is about 6000 units/gram that another kind of aspergillus niger produces polygalacturonase.But therefore industrially press for a kind of new bacterial strain of microorganism of high yield polygalacturonase and it is used in fermentation.
Summary of the invention
The Aspergillus niger strain that the objective of the invention is to improve the shortcoming of prior art and but a kind of high yield polygalacturonase is provided.
Another object of the present invention is to provide the application of a kind of described Aspergillus niger strain in solid-state fermentation of pectase is produced.
But for realizing the above-mentioned purpose that a kind of microorganism strains of high yield polygalacturonase is provided, the present invention takes following design, the applicant isolates a strain mould from mouldy orange skin, with this as starting strain, adopt mutagenic compound to handle somatic cells, but obtained the new bacterial strain of aspergillus niger of the present invention's high yield polygalacturonase.Concrete mutagenic and breeding process is as follows:
1, the set out screening of bacterium
Taking a sample from tangerine peel and making concentration is 10
-2, 10
-3, 10
-4, 10
-5, 10
-6Bacteria suspension, be seeded on the solid potato agar substratum, kept 30~32 ℃ of constant temperature culture 4 days, 10
-4Separate obtaining a strain aspergillus on the dilution agar plate,, carry out follow-up mutagenic and breeding as the strain of setting out.Described solid potato agar culture medium prescription and making: peeling potato 200~300 grams, glucose 15~20 grams, agar 15~20 grams, 1000 milliliters of aquae destillatas, penicillin 3~6ppm, 5.5~6.0,121 ℃ of autoclavings of pH value 15~20 minutes.
2, mutagenic and breeding
The above-mentioned bacterium that sets out is carried out mutagenesis screening and shake-flask culture, its enzymatic productivity of determination and analysis, main analysis indexes is a polygalacturonase.
The mutagenic and breeding process is undertaken by following flow process:
Starting strain → ultraviolet mutagenesis → gamma-ray and mutagenesis → NTG is handled the single bacterium colony of spore → select.
Described NTG is meant N-methyl-N '-nitro-N-nitrosoguanidine
The screening of bacterium colony and product enzyme performance are measured according to following method:
Select 40~60 single bacterium colonies, do and shake the pipe test, measure enzymatic productivity, select 2~3 strains, shake flask test is selected a strain at last.
Ultraviolet mutagenesis: ultraviolet power is 15 watts, and irradiation distance is 20~30 centimetres, and irradiation time is 10 minutes, prepares the pityrosporion ovale suspension with stroke-physiological saline solution, and the spore count of bacteria suspension is 10
6~10
7Individual/milliliter, the thickness of liquid layer is 0.4~0.6 centimetre, and irradiation back tranquillization in enrichment culture medium was cultivated 8~12 hours, and dilution is coated on the potato solid nutrient agar then, 30~32 ℃ of constant temperature culture 4 days, selects single bacterium colony, is used for next step mutagenesis;
Gamma-ray and mutagenesis: gamma-rays derives from cobalt 60, and the spore count of pending bacteria suspension is 10
5~10
6Individual/milliliter, irradiation dose is 600~800 Curie, and dilution immediately is coated on the potato solid nutrient agar after the mutagenesis, 30~32 ℃ of following constant temperature culture 4 days, selects single bacterium colony, is used for next step mutagenesis;
NTG handles spore; The concentration of NTG medicine mutagenic compound is 200~300ppm, and the spore count of pending bacteria suspension is 10
5~10
6Individual/milliliter, be 20~30 minutes action time, and operative temperature is 28~35 ℃, after the mutagenesis in enrichment culture medium tranquillization cultivated 6~10 hours, dilution is coated on the potato solid nutrient agar then, 30~32 ℃ of following constant temperature culture 4 days, selects single bacterium colony and is used for next step mutagenesis;
Complex mutation: the bacterium colony that obtains with the circulation of above-mentioned first round is as the bacterium that sets out, carry out complex mutation, screening once more, so repeat 3 times, but final several 10 strains of mutant strain that obtain the high yield polygalacturonase, bacterial strain F02 preferably wherein, the pectinase activity of its solid state fermentation dry medium is 1800 units/gram (the pH value is 3.5).
Solid slant culture based formulas: NaNO
30.2~0.4%, KCL0.04~0.06%, KH
2PO
40.09 FeSO~0.11%,
40.001 MgSO~0.002%,
40.04~0.06%, sucrose 2.5~3.5%, agar 1.8~2.0%, pH value 6.6~6.8, culture temperature are 28~30 ℃, incubation time 5~6 days, and spore is black, slant strains preservation under 4 ℃ of conditions, switching in 6 months is once.
Enrichment culture medium prescription: NaNO
30.2~0.4%, KCL 0.04~0.06%, KH
2PO
40.09 FeSO~0.11%,
40.001 MgSO~0.002%,
40.04~0.06%, sucrose 2.5~3.5%, pH value 6.6~6.8.
Regulation according to patent law of china and detailed rules for the implementation thereof, the new bacterial strain of aspergillus niger of the present invention (Aspergillusniger) F02 is deposited in China Committee for Culture Collection of Microorganisms common micro-organisms center (CGMCC) on March 1st, 2004, and preserving number is NO.1100.
The present invention carries out having adopted in the mensuration (pH3.5) of pectinase activity following method:
1, enzyme is lived and is defined
Under experiment condition, the per hour interior needed enzyme amount of release 1 milligram of reducing substance (being expressed as galacturonic acid) of decomposing from substrate solution is an enzyme unit alive.
2, reagent
[damping fluid]
Take by weighing sodium acetate trihydrate 2 grams (being accurate to 0.01 gram), add 10.6 milliliters of glacial acetic acids (being accurate to 0.01 milliliter).Be dissolved in water again, be settled to 1000 milliliters.Measure the pH value of solution,, be adjusted to 3.5 at sodium acetate solution with 0.1 milliliter/liter if the pH value departs from 3.5.
[substrate solution]
Take by weighing 1.00 gram pectin (Fluka76280 or SigmaP9135), with the buffered soln dissolving of pH3.5, magnetic agitation 2 hours is settled to 100 milliliters.Be stored in 4 ℃ of refrigerators validity period 2 days.
[DNS reagent]
With 400 ml distilled waters dissolving, 3.15 grams 3,5-dinitrosalicylic acid, progressively add 200 milliliters of NaOH solution (containing 20 gram NaOH), constantly stir simultaneously.Warm water bath (being no more than 48 ℃) is constantly stirred simultaneously, and is transparent limpid up to solution.Progressively add 91 gram Rochelle salts, 2.5 gram phenol and 2.5 gram sodium sulphite anhydrous 99.3s again, constantly stir simultaneously.Warm water bath (being no more than 48 ℃), as clear as crystal up to solution.Be settled to 1000 milliliters with distilled water, filter, get filtrate, be kept in the brown bottle with fritted glass filter.Can use after 5 days, be 6 months in validity period.
3, typical curve
Preparation standard one water D-galacturonic acid solution.
Dissolving 1.0 grams one water galacturonic acid is settled to 100 milliliters, and obtaining concentration is the galacturonic acid solution of 10 mg/ml.Make serial dilution with damping fluid then, compound concentration is the standardized solution of 0.1 mg/ml, 0.2 mg/ml, 0.3 mg/ml, 0.4 mg/ml, 0.5 mg/ml, 0.6 mg/ml and 0.7 mg/ml.Draw 2.0 milliliters of standardized solution and 2.0 ml distilled waters, join in the test tube, concussion adds 4 milliliters of DNS reagent, concussion, boiling 5 minutes.Tap water cooling rapidly then.Be settled to 20 milliliters with distilled water again.Concussion shakes up, with No. 6 filter paper filterings of Whatman.Get filter and cross, with concentration be 0 reaction solution (the blank sample of standard) as benchmark, zeroing.Measure absorbancy at the 540nm place.Measured value is done 2 repetitions, averages.Each DNS reagent of changing, typical curve need repaint.
4, enzyme activity determination
Accurately take by weighing 1.000 gram samples with damping fluid lytic enzyme sample, be diluted to proper concn.
[enzyme sample absorbance A
x]
Draw 2.0 milliliters of enzyme diluents, join in the test tube, add 2.0 milliliters of pectin substrate solution, 50 ℃ of balances, concussion.50 ℃ 2.0 milliliters accurate water-baths 30 minutes.Add 4 milliliters of DNS reagent mix.Cover test tube with cap stopper.In boiling water, accurately be incubated 5 minutes.Then, cool off with termination reaction with tap water rapidly.Be settled to 20 milliliters with distilled water again.With Whatman6 filter paper filtering or under the 3000rpm condition centrifugal 10 minutes.Getting supernatant liquor, is benchmark with the blank sample of standard, and absorbancy (absorbancy if surpass this scope, redefines extent of dilution between 0.15~0.7) is measured in zeroing at the 540nm place.Measured value is done 2 repetitions, averages.(relative error before the repetition values is no more than 8.0%, otherwise must redeterminate.)
[the blank sample absorbance A of enzyme]
Draw 2.0 milliliters of pectin solutions, accurately be incubated 30 minutes at 50 ℃.Add 4 milliliters of DNS reagent, concussion.The diluent that adds 2.0 milliliters of enzymes mixes.Accurate boiling is 5 minutes in boiling water.Cool off with termination reaction with tap water rapidly then.Be settled to 20 milliliters with distilled water,, get supernatant liquor with Whatman6 filter paper filtering or under the 3000rpm condition centrifugal 10 minutes.With standard null game of shuttlecocks sample is benchmark, and absorbancy is measured in zeroing at the 540nm place.Measured value is done 2 repetitions, averages.
5, enzyme work is calculated
Enzyme A=[A alive
x-A
o] * K * DF ÷ 0.5 units/gram
A
x: the absorbancy of enzyme sample;
A
o: the absorbancy of the blank sample of enzyme;
K: the slope of typical curve;
DF: extension rate;
0.5: the reaction times (hour)
Microorganism strains of the present invention can be used in the solid state fermentation production of polygalacturonase.In the solid state fermentation of polygalacturonase is produced, be used for strain fermentation substratum of the present invention and be not particularly limited, as long as have contain necessary carbon source, nitrogenous source and somatomedin substratum, all be applicable to bacterial strain of the present invention.The nutrition source that can be used to cultivate microorganism strains of the present invention has carbon source, nitrogenous source, inorganic salt and trace nutrient, and wherein carbon source comprises D-glucose, D-fructose, D-sorbyl alcohol, D-seminose, amylum hydrolysate of the sugar, starch etc.; Nitrogenous source comprises organonitrogen and inorganic nitrogen, and organonitrogen such as corn steep liquor, yeast extract paste, dry yeast, fish meal, meat extract, peptone etc., inorganic nitrogen comprise ammoniacal liquor, ammonia, sulfate of ammoniac, ammonium nitrate, ammonium chloride, amine carbonate, phosphamide etc.; In addition, also contain necessary other materials of each metal ion species, VITAMIN, amino acid and microorganism growth in the substratum.These compositions can disposable in advance adding substratum in, perhaps intermittently or add in the substratum continuously.
For microorganism strains of the present invention, can adopt following solid-state fermentation culture medium prescription: wheat bran 70~90%, ammonium sulfate 3~5.0%, flour 5~10%, orange skin powder 3~5.0%, rice bran 3~10%.Ammonium sulfate is dissolving earlier, mixes with flour, rice bran, orange skin powder and wheat bran then, regulates between pH value to 6.5~7.1.
Solid ferment process comprises sterilization, inoculation, and triangular flask constant temperature culture, culture temperature are 30~35 ℃.After fermentation proceeded to 30 hours, the speed of growth of thalline descended gradually, and the fermentation heat production also reduces, and thalline begins to produce spore, and enzyme is lived, and beginning is rapid to be increased.Ferment after 48 hours, the rate of growth that enzyme is lived descends gradually, and enzyme is lived after 60 hours increases seldom.
[beneficial effect]
With the stable performance in the pH value is 3.5 scope of the polygalacturonase of bacterial strain production of the present invention, enzyme activity (50 ℃) can be stablized and remains on more than 18000 units/gram.Fermentation time is 60~64 hours, and production cost is no more than 5 yuan/kilogram (dry mediums).
Adopting bacterial strain of the present invention to carry out solid state fermentation, to prepare the polygalacturonase raw materials for production mainly be agricultural byproducts such as wheat bran, rice bran and flour, so less investment, easy to operate is calculated with unit volume, the vigor of solid state fermentation polygalacturonase is higher 5~6 times than liquid state fermentation.
Embodiment
Embodiment 1
Get one of aspergillus niger (Aspergillus niger) F02 slant strains, add 5 ml sterile waters, the spore of washing aspergillus niger, draw 5 milliliters of spore liquid then, be inoculated in the 50 gram seed culture mediums of forming by wheat bran (96%), ammonium sulfate (2.0%) and potassium primary phosphate (2.0%) (pH6.0, water content are 50%), cultivate after 48 hours for 30 ℃, in 2 kilograms of solid mediums that access is made up of wheat bran (80%), ammonium sulfate (2.0%) flour (5.0%), rice bran (5.0%), orange meal (3%) (pH6.8, water content is 60%).Cultivated 58 hours down at 28 ℃, pectinase activity reaches 17000 units/gram in the substratum.
Embodiment 2
Get one of aspergillus niger (Aspergillus niger) F02 slant strains, add 10 ml sterile waters, the spore of washing aspergillus niger, draw 5 milliliters of spore liquid then, be inoculated in the 50 gram seed culture mediums of forming by wheat bran (96%), ammonium sulfate (2.0%) and potassium primary phosphate (2.0%) (pH6.0, water content are 50%), cultivate after 48 hours for 30 ℃, in 2 kilograms of solid mediums that access is made up of wheat bran (80%), ammonium sulfate (2.0%) flour (5.0%), rice bran (5.0%), orange meal (3%) (pH6.7, water content is 60%).Cultivated 60 hours down at 28 ℃, pectinase activity reaches 18000 units/gram in the substratum.
Embodiment 3
Get one of aspergillus niger (Aspergillus niger) F02 slant strains, add 5 ml sterile waters, the spore of washing aspergillus niger, draw 3 milliliters of spore liquid then, be inoculated into the 20 gram solid medium (pH6.8 that forming by wheat bran (80%), ammonium sulfate (2.0%), flour (5.0%), rice bran (5.0%), orange meal (3%), water content is 60%) in, substratum is contained in 250 milliliters of triangular flasks 30 ℃ and cultivates after 62 hours, and pectinase activity reaches 16000 units/gram in the substratum.
Claims (7)
1, a kind of aspergillus niger F02 bacterial strain (Aspergillus niger F02), its deposit number at China Committee for Culture Collection of Microorganisms common micro-organisms center is CGMCC.NO.1100.
2, the described a kind of aspergillus niger F02 bacterial strain of claim 1 (Aspergillus niger F02) is characterized in that: as the application in solid-state fermentation of pectase is produced.
3, the application of a kind of aspergillus niger F02 bacterial strain according to claim 2 (Aspergillus niger F02) in solid-state fermentation of pectase is produced is characterized in that: the nutrition source that is used to cultivate aspergillus niger F02 bacterial strain of the present invention (Aspergillus niger F02) has carbon source, nitrogenous source, inorganic salt and trace nutrient.
4, the application of a kind of aspergillus niger F02 bacterial strain according to claim 3 (Aspergillus niger F02) in solid-state fermentation of pectase is produced, it is characterized in that: wherein carbon source comprises D-glucose, D-fructose, D-sorbyl alcohol, D-seminose, amylum hydrolysate of the sugar, starch.
5, the application of a kind of aspergillus niger F02 bacterial strain according to claim 3 (Aspergillus niger F02) in solid-state fermentation of pectase is produced, it is characterized in that: nitrogenous source comprises organonitrogen and inorganic nitrogen, and described organonitrogen has corn steep liquor, yeast extract paste, dry yeast, fish meal, meat extract, peptone; Described inorganic nitrogen has ammoniacal liquor, ammonia, sulfate of ammoniac, ammonium nitrate, ammonium chloride, amine carbonate, phosphamide.
6, the application of a kind of aspergillus niger F02 bacterial strain according to claim 3 (Aspergillus niger F02) in solid-state fermentation of pectase is produced, it is characterized in that: contained inorganic salt and trace nutrient have necessary other materials of metal ion, VITAMIN, amino acid and microorganism growth in the substratum.
7, the application of a kind of aspergillus niger F02 bacterial strain according to claim 3 (Aspergillus niger F02) in solid-state fermentation of pectase is produced is characterized in that: aspergillus niger F02 bacterial strain of the present invention (Aspergillus niger F02) adopts following solid-state fermentation culture medium prescription: wheat bran 70~90%, ammonium sulfate 3~5.0%, flour 5~10%, orange skin powder 3~5.0%, rice bran 3~10%; Ammonium sulfate is dissolving earlier, mixes with flour, rice bran, orange skin powder and wheat bran then, regulates between pH value to 6.5~7.1.
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|---|---|---|---|
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|---|---|
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| CN100480367C CN100480367C (en) | 2009-04-22 |
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|---|---|---|---|
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Cited By (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100467586C (en) * | 2006-06-14 | 2009-03-11 | 浙江工业大学 | Aspergillus niger WZ001 capable of producing naringinase and cirmtimase simultaneously and its application |
| CN102660526A (en) * | 2012-05-30 | 2012-09-12 | 山东大学 | Method for producing pectate lyase by two-section pH (potential of hydrogen) control |
| CN102998269A (en) * | 2012-11-29 | 2013-03-27 | 武汉新华扬生物股份有限公司 | DNS (dinitrosalicylic acid) detection method for fodder pectinase |
| CN113755483A (en) * | 2021-03-12 | 2021-12-07 | 江苏悠恒生物技术有限公司 | Mutagenesis method of high-yield pectinase enzyme activity strain and optimization of solid state fermentation conditions thereof |
| CN113897343A (en) * | 2021-09-10 | 2022-01-07 | 常州大学 | Method for producing pectinase by aspergillus niger solid-state fermentation |
| CN114621877A (en) * | 2022-01-15 | 2022-06-14 | 乔胤淇 | Alternaria solani strain for producing pectinase and application thereof |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106467899B (en) * | 2015-08-17 | 2020-05-05 | 中国科学院天津工业生物技术研究所 | Aspergillus niger strain capable of producing fructose transferase in high yield and application thereof |
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2004
- 2004-03-08 CN CNB2004100061995A patent/CN100480367C/en not_active Expired - Fee Related
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100467586C (en) * | 2006-06-14 | 2009-03-11 | 浙江工业大学 | Aspergillus niger WZ001 capable of producing naringinase and cirmtimase simultaneously and its application |
| CN102660526A (en) * | 2012-05-30 | 2012-09-12 | 山东大学 | Method for producing pectate lyase by two-section pH (potential of hydrogen) control |
| CN102660526B (en) * | 2012-05-30 | 2013-05-29 | 山东大学 | Method for producing pectate lyase by two-section pH (potential of hydrogen) control |
| CN102998269A (en) * | 2012-11-29 | 2013-03-27 | 武汉新华扬生物股份有限公司 | DNS (dinitrosalicylic acid) detection method for fodder pectinase |
| CN113755483A (en) * | 2021-03-12 | 2021-12-07 | 江苏悠恒生物技术有限公司 | Mutagenesis method of high-yield pectinase enzyme activity strain and optimization of solid state fermentation conditions thereof |
| CN113897343A (en) * | 2021-09-10 | 2022-01-07 | 常州大学 | Method for producing pectinase by aspergillus niger solid-state fermentation |
| CN114621877A (en) * | 2022-01-15 | 2022-06-14 | 乔胤淇 | Alternaria solani strain for producing pectinase and application thereof |
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| Publication number | Publication date |
|---|---|
| CN100480367C (en) | 2009-04-22 |
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Assignee: Weifang Zhongkejiayi Bio-fodder Technology Co., Ltd. Assignor: Yu Shoucun Contract fulfillment period: 2009.9.15 to 2014.9.15 contract change Contract record no.: 2009370000359 Denomination of invention: Aspergillus niger strain and its use in solid fermentation production of pectinase Granted publication date: 20090422 License type: Exclusive license Record date: 2009.9.28 |
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