CN113249230B - Endophytic fungus AT177 with stable growth promoting effect and application thereof - Google Patents

Abstract

The invention discloses an endophytic fungus AT177(Leptosphaerulina chartarum AT177) with a stable growth promoting effect and application thereof. Belongs to the technical field of microorganisms. The invention aims to promote the growth of tobacco and improve the quality of tobacco leaves, screens the separated tobacco endophytic fungi to obtain functional strains with obvious growth promoting effect, and can be applied to the preparation of special microbial fertilizer for tobacco.

Description

Endophytic fungus AT177 with stable growth promoting effect and application thereof

Technical Field

The invention relates to the technical field of microorganisms, in particular to endophytic fungus AT177 with a stable growth promoting effect and application thereof.

Background

Tobacco (scientific name: Nicotiana tabacum L.) is a plant of the genus Nicotiana of the family Solanaceae, an annual or limited perennial herb, with all glandular hairs; the root is thick and strong. The stem is 0.7-2 m high, and the base is slightly lignified. The leaves are rectangular and round like needles, rectangular circles or ovals, the tips are tapered, the base part is tapered to the stem to form an ear-shaped half-clasping stem. The inflorescence grows at the top, is conical and has a plurality of flowers; the flower stalk is 5-20 mm long. The shape of the capsule is egg-shaped or rectangular, and the length is approximately equal to the length of the persistent calyx. The seeds are round or wide rectangular round, the diameter is about 0.5 mm, and the seeds are brown. Blossoming and bearing fruit in summer and autumn. Native to south america. China is widely cultivated in the north and south provinces.

Endophytic fungi are a group of microorganisms that grow in healthy plant tissues and play an important role in plant growth and development and in plant resistance to biotic and abiotic stresses. Research shows that the endophytic fungi can promote plant growth, induce plant to produce disease resistance, raise the tolerance of plant to heavy metal, etc. Tobacco is an important leaf economic crop and occupies an important position in national economy. The improvement of the tobacco yield and quality is the basis of the healthy development of the tobacco industry. By exploring and utilizing the tobacco endophytic fungi resources, the method has positive significance for promoting the growth of tobacco, improving the disease and pest resistance of tobacco, and resisting heavy metal and drought stress.

Therefore, the technical personnel in the field need to solve the problem that how to realize stable growth promotion effect by screening and obtaining strains with obvious growth promotion effect from tobacco endophytic fungi and making the individual difference of tobacco seedlings smaller by a tobacco-endophytic fungi co-culture system is urgent.

Disclosure of Invention

In view of the above, the present invention provides an endophytic fungus AT177 with stable growth promoting effect and an application thereof.

Wherein, endophytic fungi (Leptosphaerulina chartarum AT177) AT177 is preserved in China general microbiological culture Collection center, address: xilu No. 1 Hospital No. 3, Beijing, Chaoyang, North. The preservation number is: CGMCC No. 21951; the preservation date is 2021, 4 months and 12 days.

The invention aims to promote the growth of tobacco and improve the quality of tobacco leaves, screens the separated tobacco endophytic fungi to obtain functional strains with obvious growth promoting effect, and can be applied to the preparation of special microbial fertilizer for tobacco

In order to achieve the purpose, the invention adopts the following technical scheme:

a bacterial fertilizer for promoting tobacco growth comprises endophytic fungus AT177(Leptosphaerulina chartarum AT177) with a preservation number of CGMCC No. 21951.

The invention also provides a method for promoting the growth of tobacco, which uses endophytic fungi AT177 as bacterial manure for application, and the preservation number is CGMCC No. 21951.

The invention also provides application of the endophytic fungi AT177 in promoting tobacco production, wherein bacterial manure containing the endophytic fungi AT177 is used, and the preservation number is CGMCC No. 21951.

Preferably: the method comprises the following steps:

1) seedling culture: soaking tobacco seeds in sterile water, and rubbing; the seedling raising soil is filled with water for standby, the kneaded seeds are uniformly sprinkled in the seedling raising plate and cultured in a greenhouse, and the seedlings are transplanted when 4 leaves grow;

2) preparing bacterial manure: soaking barley grains in water overnight, sealing, sterilizing at high temperature under humid heat, and cooling to obtain barley grain solid culture medium; after the strain is activated, inoculating the strain in a wheat grain solid culture medium, and culturing at constant temperature in the dark until hyphae are covered with wheat grains;

3) application of bacterial manure: the bacterial manure is applied by adopting a method of 'soil layer + bacterial manure layer + soil layer', after moisture is absorbed thoroughly, the seedlings are transplanted to flowerpots when 5 leaves are grown, and the seedlings are cultured in a greenhouse.

Preferably: step 1) and step 3) greenhouse environment: irradiating at 25 deg.C for 16h with illumination intensity of 80 μmm^-2sec^-1Culturing in dark at 22 deg.C for 8 hr, and alternately circulating; the culture time is 45-60 days.

Preferably: step 2) high-temperature moist heat sterilization: sterilizing at 121 deg.C for 20min, and sterilizing for three times.

Preferably: and step 2), keeping the constant temperature at 25 ℃, and culturing in the dark for 24 hours.

Preferably: step 3), adopting mixed soil for the soil layer; the mixed soil comprises peat, vermiculite and perlite, and the mass ratio is 4: 2: 1.

according to the technical scheme, compared with the prior art, the invention discloses and provides the endophytic fungus AT177 with the stable growth promoting effect and the application thereof, and the obtained technical effects are that after the tobacco seedlings and the endophytic fungus are co-cultured, the leaf color of the tobacco seedlings is more dark green, the leaf length, the leaf width, the root length, the number of root hairs and the like are improved to different degrees, the individual difference of the tobacco seedlings is smaller, and the growth promoting effect is more obvious.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a drawing showing the morphological feature of endophytic fungi AT177 on a PDA plate provided by the present invention.

FIG. 2 is a drawing showing the growth of tobacco seedlings co-cultured with an endophytic fungus AT177 plate for 7d, wherein the left drawing is a control, and the right drawing is a tobacco plant co-cultured with AT177 for 7 d.

FIG. 3 is a graph showing the growth promoting effect of the endophytic fungus AT177 with growth promoting effect in a pot culture, wherein the left side is blank control, and the right side is an experimental group.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses an endophytic fungus AT177 with a stable growth promoting effect and application thereof.

The raw materials and reagents related to the embodiment are all obtained from commercial sources, the brands of the raw materials and the reagents are not required, and the methods which are not mentioned are all common experimental methods and are not described in detail.

Example 1

1 sample origin

The tobacco variety is a common cultivated species Yunyan 87, and samples of different tissue parts (roots, stems and leaves), different growth periods (seedling stage, clumping stage, vigorous growth stage and mature stage) and different altitudes (600, 1000 and 1300m) are collected from Enshi state of Hubei province.

2 separation

The collected sample was thoroughly rinsed under tap water to remove soil from the surface. The rinsed tobacco tissue was then surface sterilized by three-step sterilization "75% ethanol (1min) -2.5% sodium hypochlorite (30s) -75% ethanol (1 min)" followed by 3-fold rinsing with sterile water. The tissue is cut into small pieces of 0.5 multiplied by 0.5cm, the cut is inserted into PDA culture medium containing 0.5% chloramphenicol, and cultured in a constant temperature incubator at 28 ℃ for 3-30 days. And (3) when hyphae grow out from the tissue incision in the culture medium, picking the hyphae by using a sterilized inoculating loop, and purifying the hyphae on a new PDA culture medium until pure culture is obtained. The purified strain was stored in 40% glycerol.

3 establishment of co-culture system of tobacco and endophytic fungi and primary screening of growth-promoting effect strains

3.1 activation of the Strain

Picking a little hyphae in the PDA slant storage tube by using a sterilized toothpick, cutting the hyphae on a PDA culture medium, sealing the hyphae, and placing the hyphae in a constant-temperature illumination incubator (24h in darkness, 25 ℃) for activated culture.

3.2 sprouting of Yunyan 87

A proper amount of Yunyan 87 seeds are placed in a 1.5mL centrifuge tube, and are soaked in sterile water for 48 hours. The seed coat of the Yunyan 87 is thick, the seed is required to be rubbed before sprouting, the soaked tobacco seeds are transferred into a PE glove and are gently rubbed for 20-30 min until the seeds are light brown. After the seeds are rubbed, the seeds are moved into a sterilized 1.5mL centrifuge tube, 1mL of 70% alcohol is added, the mixture is subjected to shock sterilization for 30s, 2% sodium hypochlorite is added after the alcohol is sucked out, the mixture is subjected to shock sterilization for 10min, and then the mixture is washed with sterile water for 5-6 times. The filter paper is put into a glass dish for sterilization and standby, the washed seeds are poured on a sterile filter paper sheet, the seeds are dipped by a sterilized toothpick and are spotted on an MS culture medium, and about 30 seeds are placed in each dish. Sealing, placing in an illumination incubator (illumination at 25 deg.C for 16 hr 80 μmm-2sec-1 and illumination at 22 deg.C and dark period for 8 hr) for germination, and allowing the tobacco to grow 4 true leaves for establishment of co-culture system.

3.3 establishment of Co-culture System

And selecting tobacco seedlings with the same growth vigor and the same size for co-culture. The co-cultivation system used a 10X 10cm disposable plastic square dish. Before transplanting tobacco seedlings, 10X 10cm of 1/2MS modified medium was cut off 1/3 in advance with sterilized glass slides, leaving a blank for tobacco leaf growth. After the culture medium is treated, the tobacco seedlings growing to 4 leaves are transferred to 1/2MS culture medium, the roots of the tobacco seedlings are spread on the culture medium, the positions of the leaves are left empty, and 3 tobacco seedlings can be placed in each square dish. Transferring tobacco, picking endophytic fungi hypha with sterilized toothpick, dropping 1cm below tobacco seedling root, inoculating no fungi to blank tobacco seedling, sealing culture medium, and placing in light incubator (25 deg.C, 16 hr with 80 μmm light irradiation)^-2sec^-1Culturing at 22 deg.C for 8h in dark), observing tobacco growth after 14d, screening out experimental group with growth condition superior to that of control, and taking picture for recording.

3.4 obtaining of strains with good, stable growth promoting effects

Strains with growth promoting effects on tobacco are preliminarily selected according to indexes such as leaf length, leaf width, leaf number, leaf color, root length, root number and the like of the tobacco, but whether the growth promoting effects of the strains are stable or not, whether endophytic fungi are easy to change or not and the like also need to be further verified, so that repeated screening experiments are needed for re-screening the strains. The rescreening indexes are mainly two: firstly, the growth promoting effect of endophytic fungi is durable and stable, and the difference between individuals is small; the second is that the variation is not easy to occur in the process of the subculture of the endophytic fungi, and the strain is relatively stable.

3.5 rescreening on a plate with good growth promoting effect

The method for activating the strains, germinating the tobacco and establishing the co-culture system is the same as the method for establishing the co-culture system, the co-culture experiment of the tobacco and the endophytic fungi with the growth promoting effect is repeated, each strain is repeated for 5-6 batches after three plates are made, the growth promoting effect is observed, the strains with the good growth promoting effect are obtained, the biomass is photographed and recorded, and the growth promoting effect is calculated.

3.6 growth promoting effect of the strain in the pot culture with good growth promoting effect

Preparation of soil: according to the peat: vermiculite: perlite 4: 2: 1, mixing the mixture with soil, and uniformly mixing the mixture for later use. Before the flowerpot is filled with soil, 9cm of filter paper needs to be placed at the bottom to prevent the soil from leaking, and the soil amount of each pot is consistent as much as possible when the soil is filled. The flowerpot filled with the soil is placed in the tray, the tray is filled with water to enable the soil to absorb water, the requirement on the water content is high in the tobacco seedling stage, the water in the tray needs to be supplemented in time, the soil is guaranteed to absorb water fully, and the water-absorbing soil is used for transplanting tobacco seedlings.

Transplanting tobacco seedlings: taking out the tobacco seedlings with better growth promoting effect after co-culture and blank control tobacco seedlings, carefully cleaning roots and then transplanting the tobacco seedlings into a pot culture, and keeping the root system complete as much as possible during transplanting so as to improve the transplanting survival rate. The pot culture was placed in a greenhouse (25 deg.C, 16h illumination 80 μmm)^-2sec^-1Alternating with 22 ℃ and 8h of darkness). After transplanting, watering is not suitable for work at the initial stage, after potted plant cultivation is carried out for about 20 days, observing the growth condition of tobacco seedlings, photographing and recording, collecting tobacco leaves, cleaning, putting the tobacco leaves in an oven at 80 ℃ until the weight is constant, weighing and counting the dry weight of the leaves, and calculating the growth promoting effect.

3.7 morphological identification and Classification of endophytic fungi having growth promoting effects

Activation of the Strain

Picking a little hyphae in the PDA slant storage tube by using a sterilized toothpick, cutting the hyphae on a PDA culture medium, sealing the hyphae, and placing the hyphae in a constant-temperature illumination incubator (24h in darkness, 25 ℃) for activated culture.

Observation of colony morphology and morphology

Observing during the activation culture process of endophytic fungi, recording colony morphology, change of morphology in different growth periods, colony texture, growth speed, hypha morphology and the like, and recording colony diameter and taking a picture after 7 days.

The origin and classification of endophytic fungi

Searching and sorting the information of the separated host plant and the separated part of the endophytic fungi. Finding out the most similar sequence information according to the BLAST of the PCR amplification products of the universal primer ITS in a GenBank database, and determining the approximate classification position.

Specifically, the method comprises the following steps: extracting the genome DNA of the purified strain by a CTAB method, detecting the integrity of the DNA by using 1% agarose gel electrophoresis, wherein the electrophoresis conditions are as follows: the voltage is 120V, and the time is 15-20 min; and (5) Maker: lambda DNA/Hind III marker, DNA concentration and purity were determined using Nanodrop.

The ITS sequences of the strains were amplified using the universal primers ITS1 (5'-TCCGTAGGTGAACCTGCGG-3') and ITS4 (5'-TCCTCCGCTTATTGATATGC-3').

The PCR amplification system is as follows: 0.3. mu.L Taq DNA polymerase (5U/. mu.L), 5.0. mu.L Taq buffer (10 XPCR buffer), 3.0. mu.L MgCl₂(25mmol/L), 1.0. mu.L dNTP (10 mmol/L for each base), 1.5. mu.L ITS1 primer, 1.5. mu.L ITS4 primer, 3.0. mu.L template DNA, 34.7. mu.L ultrapure water (pH 8.0).

PCR reaction procedure: 15min at 95 ℃; 30 cycles of 95 ℃ for 30s, 56 ℃ for 30s, and 72 ℃ for 1 min; 10min at 72 ℃; storing at 25 deg.C for 10min and 4 deg.C.

And (3) purifying the PCR product successfully amplified, and then sequencing by Shanghai biological engineering technical service company Limited. And performing NR comparison on the ITS sequence successfully sequenced on NCBI, searching sequence fragments similar to the PCR product sequence, and preliminarily determining the classification status of the species.

The sequences were aligned and analyzed using the DNAMAN tool in combination with the sequences of the closely related species already present at NCBI, and their homology to known sequences was judged based on similarity.

The experimental results are as follows:

the endophytic fungi obtained by separation and the Yunyan 87 are subjected to co-culture in a plate for preliminary screening, and the strain with good growth promoting effect, small difference among individuals and obvious growth promoting effect is obtained and is numbered as AT177 (see figure 1).

AT177 is identified as the endophytic fungus Leptosphaerulina chartarum AT177 by a method combining morphology and molecular biology. The preservation number is CGMCC No. 21951.

Example 2

A bacterial fertilizer for promoting growth of tobacco contains endophytic fungus AT177 with preservation number of CGMCC No.21951 as effective component.

Culturing the Yunyan 87 seedlings: a proper amount of Yunyan 87 seeds are placed in a 1.5mL centrifuge tube, and are soaked in sterile water for 48 hours. Transferring the soaked tobacco seeds into a PE glove, and gently rubbing for 20-30 min. The seedling soil is filled with water for standby, the seeds are spread uniformly in the seedling tray after being rubbed, and the seedling tray is placed in a greenhouse (25 ℃, 16h illumination 80 mu mm-2 sec)^-1And culturing at 22 ℃ for 8h in darkness) for about 45-60 days, and transplanting when 4 leaves are grown.

Activation of the strain: picking a little hyphae in the PDA slant storage tube by using a sterilized toothpick, cutting the hyphae on a PDA culture medium, sealing the hyphae, and placing the hyphae in a constant-temperature illumination incubator (24h in darkness, 25 ℃) for activated culture.

Preparing bacterial manure: after soaking barley grains in water overnight, placing the barley grains in a 800mL conical flask, wherein the volume of each flask is about 200mL, sealing the flask by using four layers of 8 layers of gauze, and then sterilizing the flask by high-temperature moist heat. Sterilizing at 121 deg.C for 20min, sterilizing for three times, and cooling.

After the strains are activated, a puncher is used for punching a fungus cake, the fungus cake is placed in a wheat solid culture medium, a conical flask is placed in a constant-temperature illumination incubator (24h in darkness and 25 ℃) for culture, and the fungi can be used after the wheat grains are covered with hyphae.

Application of bacterial manure: the bacterial manure is applied by adopting a ' three-Ming ' method, namely a method of ' soil layer + bacterial manure layer + soil ', the soil layer adopts mixed soil (peat: vermiculite: perlite mass ratio is 4: 2: 1), a flowerpot is filled with soil and microbial inoculum according to the ' three-Ming ' method ', the flowerpot is put into a tray filled with water to absorb water, after the water is absorbed thoroughly, the Yunyan 87 seedlings which are grown to 5 leaves in a seedling tray are transplanted into the flowerpot, and a greenhouse (the temperature is 25 ℃, the illumination time is 16h and the illumination time is 80 mu mm)^-2sec^-1Alternating with 22 ℃ and 8h dark) for about 60 days.

Results of the experiment

After the tobacco seedlings and the endophytic fungi AT177 are co-cultured for 7d, the leaf color of the tobacco seedlings is more dark green, the leaf length, the leaf width, the root length, the number of root hairs and the like are improved to different degrees, the individual difference of the tobacco seedlings is small, the growth promoting effect of the strain with the obvious growth promoting effect is shown in figure 2, 15 repetitions are set for each group, the maximum leaf length, the maximum leaf width, the root length, the dry weight of leaves and the dry weight of roots of the treated tobacco are obviously different from the control, and the specific data are shown in table 1.

TABLE 1

Endophytic fungi plate co-culture of tobacco biomass for 7d

After the co-culture for 14 days, transplanting the pot culture, and culturing the pot culture in a greenhouse for 20 days, the growth potential of the experimental group is observed to be superior to that of a blank control, and the growth promoting effect is shown in figure 3.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The bacterial fertilizer for promoting the growth of tobacco is characterized by being Leptosphaerulina chartarum AT177 with the preservation number of CGMCC No. 21951.

2. A method for promoting tobacco growth is characterized in that Leptosphaerulina chartarum AT177 is used as bacterial manure and applied, and the preservation number is CGMCC No. 21951.

3. An application of Leptosphaerulina chartarum AT177 in promoting tobacco production is characterized in that the Leptosphaerulina chartarum AT177 is used as bacterial manure, and the preservation number is CGMCC No. 21951.

4. Use according to claim 3, characterized in that: the method comprises the following steps:

1) seedling culture: soaking tobacco seeds in sterile water, and rubbing; the seedling raising soil is filled with water for standby, the kneaded seeds are uniformly sprinkled in the seedling raising plate and cultured in a greenhouse, and the seedlings are transplanted when 4 leaves grow;

2) preparing bacterial manure: soaking barley grains in water overnight, sealing, sterilizing at high temperature under humid heat, and cooling to obtain barley grain solid culture medium; after the strain is activated, inoculating the strain in a wheat grain solid culture medium, and culturing at constant temperature in the dark until hyphae are covered with wheat grains;

3) application of bacterial manure: the bacterial manure is applied by adopting a method of 'soil layer + bacterial manure layer + soil layer', after moisture is absorbed thoroughly, the seedlings are transplanted to flowerpots when 5 leaves are grown, and the seedlings are cultured in a greenhouse.

5. Use according to claim 4, characterized in that the environment of the greenhouse of step 1) and step 3): irradiating at 25 deg.C for 16h with illumination intensity of 80 μmm^-2sec^-1Culturing in dark at 22 deg.C for 8 hr, and alternately circulating; the culture time is 45-60 days.

6. Use according to claim 4, wherein step 2) of the high temperature moist heat sterilization: sterilizing at 121 deg.C for 20min, and sterilizing for three times.

7. The use according to claim 4, wherein the constant temperature in step 2) is 25 ℃ and the dark culture time is 24 h.

8. The use of claim 4, wherein said soil layer of step 3) is a mixed soil; the mixed soil comprises peat, vermiculite and perlite, and the mass ratio is 4: 2: 1.

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