CN114946657A - Hispid fig tissue culture method - Google Patents

Abstract

The invention discloses a hispid fig tissue culture method, which comprises the following steps: selecting the top bud of the hispid fig as an explant, cleaning and disinfecting the explant, washing the explant, and sucking surface water; inoculating the explant into a cluster bud induction culture medium, transferring the induced cluster buds into the cluster bud induction culture medium, and continuously proliferating and growing the cluster buds to obtain a large number of cluster buds and plantlets for subculture proliferation and rooting culture in a proliferation culture medium; and transferring the robust plantlets to a rooting culture medium to induce rooting so as to obtain robust plants. According to the invention, by adjusting the composition of the culture medium at each culture stage, the inductivity, the multiplication coefficient, the rooting rate and the transplanting survival rate of the hispid fig tissue culture are improved, the pollution rate and the browning rate are reduced, and the rapid propagation efficiency of the hispid fig is improved. The method for culturing the hispid fig tissue is simple and easy to operate, has high emergence rate and robust plants, shortens the seedling culture time and reduces the seedling culture cost.

Description

Hispid fig tissue culture method

Technical Field

The invention relates to the technical field of plant tissue culture, in particular to a hispid fig tissue culture method.

Background

Ficus hirta Vahl (Ficus hirta Vahl) is called Ficus microcarpa and Ficus benjamina, and is called Wuzhuanglong in Guangdong of Guangzhou plant essences, also called Wuzhuangtao, Wuzhuang milk, radix astragali, Astragalus membranaceus, etc. The plant shape, shrub or arbour, the whole stem, pericarp and leaves contain emulsion, and the root and bark have fragrance. The hispid fig is distributed in the south and the southwest of China, is a common herb in Lingnan, is used as a medicine by using the root of ficus microcarpa which belongs to the ficus genus of Moraceae, has the advantages of mild nature, sweet and pungent taste, has the functions of strengthening spleen, tonifying lung, promoting diuresis and relaxing tendons, and is used for treating symptoms such as spleen deficiency and edema, anorexia and weakness, phthisis cough, night sweat, rheumatic arthralgia, anorexia and abdominal distension, edema, postpartum agalactia and the like. In addition, hispid fig is a plant with the same source of food and medicine and is used for cooking soup in Guangdong region. In recent years, the hispid fig, a precious plant resource, draws high attention of pharmaceutical workers, researches on chemical components, pharmacological activity and other aspects are deepened, and the psoralen is proved to be one of the main active components of the hispid fig and has the effects of resisting bacteria, viruses, blood coagulation, inhibiting tumors, regulating immunity and the like. Has the functions of invigorating spleen, nourishing lung, promoting qi circulation and eliminating dampness.

In recent years, with the development of south medicine industry, hispid fig is abused in mining and disorderly digging, wild resources are exhausted, the natural propagation speed is slow, and the application and popularization of economic interplanting of hispid fig under forests is one of the development directions of modern south medicine industry. Traditional hispid fig seedlings are sown and bred through seeds, the seedling raising time is long, the seedling supply requirements are difficult to meet, and the demand of the seedlings has a supply-short demand trend. The rapid and stable propagation of the hispid fig is realized through a tissue culture way, and the ever-increasing market demand can be met.

Disclosure of Invention

Based on the above, the present invention aims to provide a hispid fig tissue culture method.

The method for culturing the hispid fig tissue comprises the following steps:

selecting the top bud of the hispid fig as an explant, cleaning and disinfecting the explant, washing the explant, and sucking surface water;

inoculating the explant to a cluster bud induction culture medium, transferring the induced cluster buds into the cluster bud induction culture medium, continuously proliferating and growing the cluster buds to obtain a large number of cluster buds and plantlets for subculture proliferation and rooting culture in a proliferation culture medium;

and transferring the robust plantlets to a rooting culture medium to induce rooting so as to obtain robust plants.

In one embodiment, the washing step of washing the explant after cleaning and sterilization, and the blotting of the surface moisture comprises: cleaning explant with clear water, placing into sterilized culture container, placing on super clean bench, sterilizing with 75% ethanol surface for 1-2min, and adding 0.1% (w/v) HgCl ₂ Soaking for 8-12min, washing with sterile water for 3-5 times, and drying with sterile filter paper.

In one embodiment, the culture medium for inducing the multiple shoots is MS +6-BA2.0mg/L + sucrose 30 g/L.

In one embodiment, the cluster buds continuously proliferate and grow, and the average propagation coefficient is 5-8.

In one embodiment, the proliferation medium is MS +6-BA1.5mg/L + NAA0.1mg/L + sucrose 30 g/L.

In one embodiment of the above technical means, the multiplication factor is 6 times or more by repeating subculture in a multiplication medium.

In one embodiment of the technical scheme, the rooting medium is 1/2MS, NAA0.5mg/L, IBA0.1mg/L, sucrose 40g/L, alginic acid 0.5mg/L, 0.25% of active carbon and 0.1% of common rhodamine foliar fertilizer.

In one embodiment of the technical scheme, robust seedlings growing to 3-4cm are transferred to a rooting culture medium to induce rooting, and after 20-30 days, the seedlings grow into plants with the plant height of 6-8cm, 2-3 canopy leaves and 2-3 roots, the root systems are strong and the branches are multiple, so that robust plants are obtained.

In one embodiment, the culture conditions of the method for culturing hispid fig tissue are as follows: the temperature is 27 +/-1 ℃, the light source is a fluorescent lamp, the illumination intensity is 2000-3000lx, and the illumination time is 12 h.d < -1 >.

In one embodiment, the method for culturing hispid fig tissue further comprises: culturing the robust plant with the plant height of 6-8cm continuously, obtaining the bottle seedling of the hispid fig when the total culture time on a rooting culture medium is 30-50d, moving the bottle seedling into a greenhouse, hardening the seedling under natural light, then opening a cover to harden the seedling in a shady and ventilated environment, spraying water at proper time, then moving the rooting seedling out of the bottle, cleaning the root culture medium, soaking and sterilizing the root, cleaning with clear water, transplanting the root into a substrate which is sterilized in advance, watering and shading properly, managing conventionally, and then culturing and transplanting the tissue culture seedling.

In one implementation mode of the technical scheme, the seedlings are trained for 2-5 days under natural light, then the seedlings are placed in a cool and ventilated environment, the cover is opened, the seedlings are trained for 2-5 days, water is sprayed timely, then the rooted seedlings are moved out of a bottle, a root culture medium is cleaned, the roots are soaked and disinfected for 5-10min by using 0.1% carbendazim solution, the roots are cleaned by using clear water and transplanted into a substrate which is disinfected in advance, the seedlings are watered and drenched thoroughly, proper moisture preservation and shading are carried out, a nutrient solution is sprayed once when the roots are transplanted into the substrate for 12-18 days, conventional management is carried out, and the seedlings are transplanted into the substrate after the roots are transplanted for 25-35 days and then are transplanted.

Compared with the prior art, the method has the advantages that the induction rate, the multiplication coefficient, the rooting rate and the transplanting survival rate of the hispid fig tissue culture are improved, the pollution rate and the browning rate are reduced, and the rapid propagation efficiency of the hispid fig is improved by adjusting the culture medium composition of each culture stage. The method for culturing the hispid fig tissue is simple and easy to operate, has high emergence rate and robust plants, shortens the seedling culture time and reduces the seedling culture cost.

For a better understanding and practice, the invention is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic representation of explant inoculation.

FIG. 2 is a schematic diagram of the acquisition of a proliferating shoot.

FIG. 3 is a schematic of the proliferation process.

FIG. 4 is a schematic representation of cluster bud acquisition.

FIG. 5 is a schematic diagram of robust seedling body acquisition.

FIG. 6 is a schematic representation of induced rooting.

FIG. 7 is a schematic diagram of a transplanted seedling.

FIG. 8 is a schematic diagram comparing a transplanted seedling with a normal seedling.

Fig. 9 is a real beat diagram of the field after the transplantation of the hispid fig.

FIG. 10 is a diagram of the fruit of hispid fig cultivated by the present invention.

Detailed Description

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like, referred to or may be referred to in this specification, are defined relative to their configuration, and are relative concepts. Therefore, it may be changed according to different positions and different use states. Therefore, these and other directional terms should not be construed as limiting terms.

The implementations described in the exemplary embodiments below do not represent all implementations consistent with the present disclosure. Rather, they are merely examples of implementations consistent with certain aspects of the present disclosure.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

The invention takes the top bud of the hispid fig as an explant to induce cluster buds, finally realizes plant regeneration and establishes a tissue culture technical system.

The invention relates to a hispid fig tissue culture method, which comprises the following steps:

step 101, explant selection and prophase preparation.

Selecting a hispid fig (Ficus hirta Vahl) terminal bud as an explant, cleaning and disinfecting the explant, washing, and sucking off surface water.

Preferably, the washing, disinfecting, rinsing, and blotting surface moisture of the explant comprises: cleaning explant with clear water, placing into sterilized culture container, placing on super clean bench, sterilizing with 75% ethanol surface for 1-2min, and adding 0.1% (w/v) HgCl ₂ Soaking for sterilization for 8-12min, preferably 10min, washing with sterile water for 3-5 times, and drying with sterile filter paper. In this way, a high induction rate and a low contamination rate can be maintained.

Description of the culture conditions:

the basic culture medium is MS or 1/2MS culture medium, sucrose 30mg/L or 40mg/L (rooting culture), NAA0.5mg/L, IBA0.1mg/L, 6-BA (6-benzyladenine) with different types and concentrations, alginic acid 0.5mg/L and 0.1% common rhodamine foliar fertilizer with pH5.8 are added, and after preparation and split charging, sterilization is carried out for 20min under the conditions of 1.05kg/cm pressure and 121 ℃. The culture conditions can lead the inductivity of the hispid fig to reach more than 70 percent and the average bud height to reach more than 3 cm.

The following culture conditions of the culture stage continued on the rooting medium in steps 102 to 103, and 104 are: the temperature is 27 +/-1 ℃, the light source is a fluorescent lamp, specifically an LED lamp is selected, the illuminance is 2000-. Can obviously improve the multiplication coefficient of the hispid fig tissue culture.

102, inducing cluster buds, and carrying out subculture proliferation.

Please refer to fig. 1-5. Inoculating the explant to a cluster bud induction culture medium, transferring the induced cluster buds to the cluster bud induction culture medium, growing the buds into seedlings after 1 week, wherein the stems are thick and short, the leaves are green, each cluster bud continuously proliferates and grows, the average propagation coefficient is 5-8, and a large number of cluster buds and seedlings are obtained and used for subculture proliferation and rooting in the proliferation culture medium.

Preferably, the cluster bud induction medium is MS +6-BA2.0mg/L + sucrose 30 g/L. Inducing to differentiate large amount of cluster buds, inducing root and culturing to form normal plant. Can obviously improve the inductivity of the hispid fig tissue culture.

The culture medium suitable for explant induction of multiple shoots is MS +6-BA2.0mg/L + sucrose 30g/L, the terminal shoots can be induced to differentiate a large number of multiple shoots, and after rooting culture, normal plants can be formed, and a rapid in vitro propagation system of hispid fig is established. Therefore, it is generally recommended to select the top bud of hispid fig as the explant.

Preferably, the multiplication medium is MS +6-BA1.5mg/L + NAA0.1mg/L + sucrose 30 g/L. Can obviously improve the multiplication coefficient of the hispid fig tissue culture.

The selection of the type, level and combination of plant growth regulators is important for the formation and differentiation of tissues. The propagation speed of the cluster buds is greatly accelerated by adjusting the hormone content in the propagation medium, the propagation coefficient reaches 6-8 times, MS +6-BA1.5mg/L + NAA0.1mg/L + sucrose 30g/L is selected as the propagation medium, and a large amount of required cluster buds can be quickly and stably obtained.

And 103, rooting culture.

Referring to fig. 6, the robust plantlets are transplanted to a rooting medium to induce rooting, and robust plants are obtained.

And (3) transferring the robust seedlings growing to 3-4cm to a rooting culture medium to induce rooting, and growing into plants with the plant height of 6-8cm, 2-3 canopy leaves and 2-3 roots after 20-30 days, wherein the rooting rate is 100%, the root system is robust and has multiple branches, so that robust plants are obtained.

Preferably, the rooting culture medium is 1/2MS + NAA0.5mg/L + IBA0.1mg/L + sucrose 40g/L + alginic acid 0.5mg/L + 0.25% active carbon + 0.1% common rhodamine foliar fertilizer. Can obviously improve the rooting rate, the root length and the root number of the hispid fig tissue culture seedlings.

The rooting culture medium is selected from 1/2MS, NAA0.5mg/L, IBA0.1mg/L, sucrose 40g/L, alginic acid 0.5mg/L, 0.25% of active carbon and 0.1% of common rhodamine foliar fertilizer, so that the nutrient content and the sugar content in the rooting culture medium are reduced, the rooting can be promoted, and in the experiment, the rooting rate of 1/2MS with half of nutrients as the rooting culture medium can reach 100%, and the root system grows robustly.

And 104, hardening and transplanting the seedlings.

Please refer to fig. 7-10. Culturing the robust plant with the plant height of 6-8cm continuously, obtaining the bottle seedling of the hispid fig when the total culture time on a rooting culture medium is 30-50d, moving the bottle seedling into a greenhouse, hardening the seedling under natural light, then opening a cover to harden the seedling in a shady and ventilated environment, spraying water at proper time, then moving the rooting seedling out of the bottle, cleaning the root culture medium, soaking and sterilizing the root, cleaning with clear water, transplanting the root into a substrate which is sterilized in advance, watering and shading properly, managing conventionally, and then culturing and transplanting the tissue culture seedling.

In specific implementation, preferably, the seedlings are acclimatized under natural light for 2-5 days, then the seedlings are acclimatized in a cool and ventilated environment for 2-5 days, water is sprayed timely, then the rooted seedlings are moved out of a bottle, a root culture medium is cleaned, the roots are soaked and disinfected for 5-10min by using 0.1% carbendazim solution, the roots are transplanted into a substrate which is disinfected in advance after being cleaned by using clear water, watering and drenching are carried out, proper moisture preservation and shading are carried out, a nutrient solution is sprayed once when the roots are transplanted into the substrate for 12-18 days, conventional management is carried out, and the tissue culture seedlings are transplanted after being transplanted into the substrate for 25-35 days.

The transplanting survival rate of the tissue culture seedlings reaches more than 90 percent, which indicates that the hardening seedlings are favorable for the transplanting of the test-tube seedlings.

The method for culturing the hispid fig tissue has the beneficial effects that:

the invention takes the apical bud of hispid fig as the explant and determines that 0.1% (w/v) HgCl is adopted ₂ The most suitable time for sterilization is 10 min; the culture medium suitable for inducing explant terminal bud is MS +6-BA2.0mg/L + sucrose 30g/L, and after inducing large amount of cluster buds, they can be formed after rooting cultureNormal plants, and establishes a rapid in vitro propagation system of hispid fig. Therefore, it is generally recommended to select the top bud of hispid fig as the explant.

In plant tissue culture, the selection of the type, level and combination of plant growth regulators is important for the formation and differentiation of tissues. By regulating the hormone content in the culture medium, the differentiation speed of the cluster buds is greatly accelerated, the propagation coefficient reaches 6-8 times, and the proliferation culture medium is selected

MS +6-BA1.5mg/L + NAA0.1mg/L + sucrose 30g/L can obtain a large amount of required cluster buds.

In the rooting stage of plant tissue culture, the nutrient content and sugar content in the culture medium are reduced to promote rooting, and 1/2MS + NAA0.5mg/L + IBA0.1mg/L + sucrose 40g/L + alginic acid 0.5mg/L + 0.25% active carbon + 0.1% common rhodamine foliar fertilizer are selected as the rooting culture medium. In the experiment, 1/2MS with half of nutrients is found to have 100 percent of rooting rate as a rooting medium and good growth vigor.

Through hardening off the seedling, the survival rate of transplanting the tissue culture seedling reaches more than 90 percent, and the experiment shows that the hardening off the seedling is beneficial to the transplanting of the test-tube seedling.

According to the invention, by adjusting the composition of the culture medium at each culture stage, the inductivity, the multiplication coefficient, the rooting rate and the transplanting survival rate of the hispid fig tissue culture are improved, the pollution rate and the browning rate are reduced, and the rapid propagation efficiency of the hispid fig is improved. The method for culturing the hispid fig tissue is simple and easy to operate, has high emergence rate and robust plants, shortens the seedling culture time and reduces the seedling culture cost.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (10)

1. A hispid fig tissue culture method is characterized by comprising the following steps:

selecting the top bud of the hispid fig as an explant, cleaning and disinfecting the explant, washing the explant, and sucking surface water;

inoculating the explant into a cluster bud induction culture medium, transferring the induced cluster buds into the cluster bud induction culture medium, and continuously proliferating and growing the cluster buds to obtain a large number of cluster buds and plantlets for subculture proliferation and rooting culture in a proliferation culture medium;

and transferring the robust plantlets to a rooting culture medium to induce rooting so as to obtain robust plants.

2. The hispid fig tissue culture method according to claim 1, wherein: the explant is washed after being cleaned and disinfected, and surface moisture is sucked dry, and the method comprises the following steps: cleaning explant with clear water, placing into sterilized culture container, placing on super clean bench, sterilizing with 75% ethanol surface for 1-2min, and adding 0.1% (w/v) HgCl ₂ Soaking for 8-12min, washing with sterile water for 3-5 times, and drying with sterile filter paper.

3. The hispid fig tissue culture method according to claim 1, wherein: the cluster bud induction culture medium is MS +6-BA2.0mg/L + sucrose 30 g/L;

the cluster buds continuously proliferate and grow, and the average proliferation coefficient is 5-8.

4. The hispid fig tissue culture method according to claim 1, wherein: the proliferation culture medium is MS +6-BA1.5mg/L + NAA0.1mg/L + sucrose 30 g/L.

5. The hispid fig tissue culture method according to claim 1, wherein: repeating subculture in the proliferation culture medium to obtain a proliferation multiple of 6 times or more.

6. The hispid fig tissue culture method according to claim 1, wherein: the rooting culture medium is 1/2MS, NAA0.5mg/L, IBA0.1mg/L, sucrose 40g/L, alginic acid 0.5mg/L, 0.25% of active carbon and 0.1% of common rhodamine foliar fertilizer.

7. The hispid fig tissue culture method according to any one of claims 1 to 6, wherein: and (3) transferring the robust seedlings growing to 3-4cm to a rooting culture medium to induce rooting, and growing into plants with the plant height of 6-8cm, 2-3 canopy leaves and 2-3 roots after 20-30 days, wherein the roots are strong and have more branches, so that robust plants are obtained.

8. The hispid fig tissue culture method according to any one of claims 1 to 6, wherein: the culture conditions of the hispid fig tissue culture method are as follows: the temperature is 27 +/-1 ℃, the light source is a fluorescent lamp, the illumination intensity is 2000-3000lx, and the illumination time is 12 h.d < -1 >.

9. The hispid fig tissue culture method according to claim 7, further comprising: culturing the robust plant with the plant height of 6-8cm continuously, obtaining the bottle seedling of the hispid fig when the total culture time on a rooting culture medium is 30-50d, moving the bottle seedling into a greenhouse, hardening the seedling under natural light, then opening a cover to harden the seedling in a shady and ventilated environment, spraying water at proper time, then moving the rooting seedling out of the bottle, cleaning the root culture medium, soaking and sterilizing the root, cleaning with clear water, transplanting the root into a substrate which is sterilized in advance, watering and shading properly, managing conventionally, and then culturing and transplanting the tissue culture seedling.

10. The hispid fig tissue culture method according to claim 9, wherein the wild peach is acclimatized under natural light for 2-5 days, then placed in a cool and ventilated environment to be uncapped for acclimatization for 2-5 days, water is sprayed at a proper time, then the rooted seedlings are removed from the bottles, the root culture medium is cleaned, the roots are soaked and sterilized with 0.1% carbendazim solution for 5-10min, cleaned with clear water and transplanted into a pre-sterilized matrix, the matrix is watered and drenched thoroughly, appropriate moisture and shade are preserved, a nutrient solution is sprayed once when the rooted seedlings are transplanted into the matrix for 12-18 days, conventional management is performed, and the tissue culture seedlings are transplanted after being transplanted into the matrix for 25-35 days.

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