CN109988732B - Weissella mesenteroides and application thereof - Google Patents

Abstract

The invention discloses Weissella mesenteroides JT13 with the preservation number of CGMCC No.17539 and application of the Weissella mesenteroides in preparing a medicament for inhibiting Penicillium digitatum (Penicillium digitatum), in particular to a medicament for preventing postharvest green mold of citrus fruits caused by the Penicillium digitatum. The invention not only enriches the lactobacillus strain resource pool, widens the application range of the lactobacillus in the field of fruit and vegetable preservation, but also provides a new solution for preventing and treating the postharvest green mold of citrus fruits.

Description

Weissella mesenteroides and application thereof

Technical Field

The invention relates to Weissella mesenteroides and application thereof.

Background

Lactic acid bacteria are gram-positive bacilli or cocci which can ferment saccharides and have main products of lactic acid, have good inhibition effect on part of gram-positive or negative bacteria which are relatively close to the gram-positive bacilli or the gram-negative bacilli, and are widely used in the fields of food fermentation, fresh keeping and the like at present. However, the inhibitory action of lactic acid bacteria on fungi has not been reported yet.

Citrus is a plant of Citrus in Citrus subfamily of Rutaceae, and the citrus fruit is the fruit with the highest yield in the world, and is easily rotten, edematous, floating skin and the like under the influence of microorganism infection and storage environment in storage, so that the commodity value of the fruit is seriously influenced. The green mold caused by the fungus Penicillium digitatum is a major invasive disease during storage of citrus fruits. At present, chemical bactericides such as carbendazim, thiophanate methyl and imazalil are mainly adopted for preventing and treating the postharvest diseases of the citrus fruits, but the problems of residue of the chemical bactericides, easy generation of drug resistance of microorganisms to the chemical bactericides and the like exist.

Disclosure of Invention

The invention aims to screen and identify lactic acid bacteria which have the effect of inhibiting penicillium digitatum and can particularly prevent the postharvest green mold of citrus fruits from citrus orchards, enrich the lactic acid bacteria strain resource library, widen the application range of the lactic acid bacteria in the field of fruit and vegetable preservation, and provide a new solution for preventing the postharvest green mold of the citrus fruits.

Through research, the invention provides the following technical scheme:

1. weissella mesenteroides (Weissella parameteroides) JT13 with accession number CGMCC No. 17539.

2. Use of Weissella mesenteroides (Weissella parameteroides) JT13 in preparing medicine for inhibiting Penicillium digitatum (Penicillium digitatum) is provided.

Further, use of Weissella mesenteroides (Weissella parameteroides) JT13 in preparing medicine for preventing postharvest green mold of citrus fruit caused by Penicillium digitatum (Penicillium digitatum) is provided.

Weissella mesenteroides (Weissella parameteroides) JT13 is preserved in China general microbiological culture Collection center (CGMCC for short, address: No.3 Xilu-1. Beijing area of the rising area of Beijing) in 2019 at 4 months and 10 days, and the preservation number is CGMCC No. 17539.

The invention has the beneficial effects that: the invention screens out the lactic acid bacteria which have the effect of inhibiting penicillium digitatum and can especially prevent the postharvest green mold of the citrus fruits caused by the penicillium digitatum from the citrus orchard, enriches the lactic acid bacteria resource library, widens the application range of the lactic acid bacteria in the field of fruit and vegetable preservation, and provides a new solution for preventing and treating the postharvest green mold of the citrus fruits.

Drawings

FIG. 1 shows the in vitro bacteriostatic effect of lactic acid bacteria on Penicillium digitatum.

FIG. 2 shows the in vitro bacteriostatic effect of lactobacillus aseptic fermentation broth on penicillium digitatum.

FIG. 3 shows the control effect of the lactobacillus-fermented sterile liquid on postharvest green mold of citrus fruit caused by Penicillium digitatum, where there is no significant difference (p > 0.05) between the groups marked with the same lower case English letters (a, b, c); there was a significant difference (p <0.05) between the groups labeled with different lower case english letters (a, b, c).

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

1. Screening of lactic acid bacteria

Orange fruits, leaves, soil and peanut leaves are respectively collected from an orange orchard in Jinyun mountain in Beiyun region of Chongqing city as samples. Completely immersing each sample in 100mL MRS broth culture medium, performing enrichment culture at 37 deg.C for 24h, diluting with 10 times gradient, and spreading on a medium containing 0.3% CaCO₃Culturing the cells on the MRS plate at 37 ℃ for 48h, selecting single colonies with obvious calcium-dissolving rings, separating and purifying, and performing microscopic examination and gram staining. The purified strain is stored in a refrigerator at-80 ℃.

Results as shown in table 1, 68 suspected strains were screened out in the experiment, wherein 16 strains are from citrus fruits, 6 strains are from citrus leaves, 24 strains are from citrus orchard soil, 22 strains are from peanut leaves, both spherical and rod-shaped forms are observed through microscopic examination, and gram staining is positive.

TABLE 1 screening of lactic acid bacteria

2. In vitro antibacterial effect of lactic acid bacteria on penicillium digitatum

The screened 68 strains are subjected to double-layer plate method to determine the in vitro antibacterial effect on the penicillium digitatum.

Selecting one strain loop of each suspected strain, inoculating the strain loop into 20mL of MRS broth culture medium, and culturing at 37 ℃ for 48h to obtain seed liquid; 1mL of seed liquid is sucked and inoculated in 100mL of MRS broth culture medium, and cultured for 48h at 37 ℃; then, drawing two straight lines with the length of 2cm in parallel in the middle of an MRS plate by using an inoculating needle, and culturing the plate at 37 ℃ for 48 h; then 10mL of 10⁴PDA culture medium of penicillium digitatum spore, after the culture medium is completely solidified, placing the flat plate at 25 deg.C for culture; observation inhibitorBacterial phenomenon, using MRS broth streaking without inoculating bacterial strain as control, and screening out bacterial strain with higher inhibitory activity to Penicillium digitatum.

As shown in FIG. 1, 10 strains with higher inhibitory activity against Penicillium digitatum were selected in the experiment, wherein 7 strains were obtained from peanut leaves, 2 strains were obtained from citrus orchard soil, and 1 strain was obtained from citrus leaves.

3. Identification of lactic acid bacteria

The 10 screened strains with higher inhibitory activity to penicillium digitatum were identified by 16S rDNA sequence analysis.

Taking a culture solution, and extracting thallus DNA by adopting a genome DNA extraction kit; amplifying a 16srDNA sequence by adopting a universal primer PCR, wherein a forward primer is 5'-agagtttgatcctggctcag-3' (SEQ ID No.1), and a reverse primer is 5'-ctacggctaccttgttacga-3' (SEQ ID No. 2); the reaction system comprises: 12.5. mu.L of 2 XEs Taq MasterMix (Dye), 1. mu.L of each primer and 1. mu.L of DNA template; the PCR reaction process is as follows: pre-denaturation at 94 ℃ for 2 min; then 30 cycles: denaturation, at 94 ℃ for 30 s; annealing at 55 ℃ for 30 s; extension at 72 ℃ for 30 s; final elongation, 72 ℃, 2 min. The PCR amplification products were detected by 1% agarose gel electrophoresis, and sequencing was performed by Shanghai Biotech Co., Ltd. and the results of sequencing were analyzed by homology comparison using BLAST program in NCBI.

The results are shown in Table 2, and 10 strains having a higher inhibitory activity against Penicillium digitatum were identified, 8 strains being Lactobacillus succola, 1 strain being Weissella mesenteroides (Weissella parameteroides) and 1 strain being Pediococcus acidilactici.

TABLE 2 identification of lactic acid bacteria

The obtained Lactobacillus sucicola strain is named as JT03, and is preserved in China general microbiological culture Collection center (CGMCC for short, address: No.3 Xilu No.1 Beijing Kogyo Beichen) of China general microbiological culture Collection center (CGMCC), 4 months and 10 days in 2019, and the preservation number is CGMCC No. 17538. The 16S rDNA sequence is shown in SEQ ID No. 3.

The obtained Weissella mesenteroides (Weissella parameteroides) strain is named as JT13, and is preserved in China general microbiological culture Collection center (CGMCC for short, address: No.3 Xilu 1. Beichen of the rising area in Beijing city) in 2019 at 4 months and 10 days, and the preservation number is CGMCC No. 17539. The 16S rDNA sequence is shown in SEQ ID No. 4.

The obtained Pediococcus acidilactici strain is named as JY03, and is preserved in China general microbiological culture Collection center (CGMCC for short, address: Beijing city rising area Beicheng West Lu No.1 Hospital No. 3) 4-10 days in 2019, and the preservation number is CGMCC No. 17540. The 16S rDNA sequence is shown in SEQ ID No. 5.

4. In-vitro antibacterial effect of lactobacillus sterile fermentation liquid on penicillium digitatum

And (3) inspecting the in vitro bacteriostatic effect of the identified 3 strains of lactic acid bacteria on the penicillium digitatum.

1mL of lactobacillus seed liquid is absorbed and inoculated in 100mL of MRS broth culture medium, and the culture is carried out at 37 ℃; taking out a certain amount of fermentation liquor every 2h, centrifuging at 5000rpm for 15min, and passing the supernatant through a 0.22 μm microporous membrane to obtain sterile fermentation liquor with different culture times. Mixing 100 μ L fermentation liquid with 100 μ L10⁴Mixing Penicillium digitatum spore suspension (containing 5% PDB culture medium), culturing in MRS broth without lactobacillus at 25 deg.C for 48 hr, and determining OD₆₀₀The value is obtained.

As shown in FIG. 2, the bacteria-free fermentation broth of 3 strains of lactic acid bacteria (JT03, JT13, JY03) showed various inhibitory effects on Penicillium digitatum, and the inhibitory effects were gradually increased with the increase of the culture time, and the growth of Penicillium digitatum was completely inhibited after the culture time reached 60 hours.

5. Control effect of lactobacillus sterile fermentation liquor on postharvest green mold of citrus fruits

And (3) investigating the inhibition effect of the identified sterile fermentation liquor of the 3 strains of lactic acid bacteria on the postharvest green mold of the citrus fruits through a same-hole inoculation experiment.

1mL of lactic acid bacteria seed liquid is absorbed and inoculated in 100mL of MRS broth culture mediumCulturing at 37 deg.C for 48h, centrifuging at 5000rpm for 15min, and passing the supernatant through 0.22 μm microporous membrane to obtain lactobacillus sterile fermentation liquid; selecting healthy citrus fruits with uniform size, consistent maturity and no mechanical injury, soaking in 2% sodium hypochlorite solution for 2min for surface disinfection, washing with water and drying in the air; sterilizing equator part of fruit with 70% ethanol, punching 2 holes (diameter 3mm, depth 3mm) at equal intervals with punch, inoculating 10 μ L10⁴Inoculating 20 μ L of lactobacillus sterile fermentation liquid after the liquid is completely absorbed, taking MRS broth culture medium without lactobacillus as control, packaging the fruit after the liquid is completely absorbed, and storing in an environment with a temperature of 25 deg.C and a relative humidity of 90-95%; the incidence of fruit and lesion diameter were recorded daily.

As shown in FIG. 3, the sterile fermentation broth of 3 strains of lactic acid bacteria (JT03, JT13, JY03) can inhibit the onset of citrus fruits and the increase of lesion diameter to some extent. Of these, JT03 and JT13 work better.

Finally, it is noted that the above-mentioned embodiments illustrate rather than limit the invention, and that, while the invention has been described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Sequence listing

<110> university of southwest

<120> Weissella mesenteroides and application thereof

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agagtttgat cctggctcag 20

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<212> DNA

<213> Artificial Sequence (Artificial Sequence)

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ctacggctac cttgttacga 20

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<212> DNA

<213> Lactobacillus sucicola JT03

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ggagggcggc agctatacat gcagtcgtac gcaaaacttt ctctgagtgt tcgcactcac 60

tgaaagattt gagtggcgaa cgggtgagta acacgtgggt aacctgccca gaagaagggg 120

ataacacttg gaaacaggtg ctaataccgt ataacaacaa agaccgcatg gtctttgttt 180

aaaagatggt tctgctatca cttctggatg gacccgcggc gtattagcta gttggtgagg 240

taatggctca ccaaggcaat gatacgtagc cgaactgaga ggttgatcgg ccacattggg 300

actgagacac ggcccaaact cctacgggag gcagcagtag ggaatcttcc acaatggacg 360

aaagtctgat ggagcaacgc cgcgtgagtg aagaaggttt tcggatcgta aaactctgtt 420

gttagagaag aacgtgtgtg agagtaactg ttcatgcagt gacggtatct aaccagaaag 480

ccacggctaa ctacgtgcca gcagccgcgg taatacgtag gtggcaagcg ttgtccggat 540

ttattgggcg taaagggaac gcaggcggtt ttttaagtct gatgtgaaag ccttcggctt 600

aaccgaagtc gtgcattgga aactggaaga cttgagtgca gaagaggaga gtggaactcc 660

atgtgtagcg gtgaaatgcg tagatatatg gaagaacacc agtggcgaaa gcggctctct 720

ggtctgtaac tgacgctgag gttcgaaagc atgggtagca aacaggatta gataccctgg 780

tagtccatgc cgtaaacgat gaatgctaag tgttggaggg tttccgccct tcagtgctgc 840

agctaacgca ttaagcattc cgcctgggga gtacgatcgc aagattgaaa ctcaaaggaa 900

ttgacggggg cccgcacaag cggtggagca tgtggtttaa ttcgaagcaa cgcgaagaac 960

cttaccaggt cttgacatct tctgccaatc tgagagatca gatgttccct tcggggacaa 1020

gaatgacacg tg 1032

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tggcatgcgg tgctatacat gcagtcgaac gctttgtctt taattgatct gacgagcttg 60

ctctgatttg attttatctg acaaagagtg gcgaacgggt gagtaacacg tgggtaacct 120

acctcttagc aggggataac atttggaaac aagtgctaat accgtataat accaacaacc 180

gcatggttgt tggttgaaag atggttctgc tatcactaag agatggaccc gcggtgcatt 240

agctagttgg taaggtaacg gcttaccaag gcaatgatgc atagccgagt tgagagactg 300

atcggccaca atgggactga gacacggccc atactcctac gggaggcagc agtagggaat 360

cttccacaat gggcgcaagc ctgatggagc aacgccgcgt gtgtgatgaa gggtttcggc 420

tcgtaaaaca ctgttataag agaagaacgg cactgagagt aactgttcag tgtgtgacgg 480

tatcttacca gaaaggaacg gctaaatacg tgccagcagc cgcggtaata cgtatgttcc 540

aagcgttatc cggatttatt gggcgtaaag cgagcgcaga cggttattta agtctgaagt 600

gaaagccctc agctcaactg aggaatggct ttggaaactg gatgacttga gtgcagtaga 660

ggaaagtgga actccatgtg tagcggtgaa atgcgtagat atatggaaga acaccagtgg 720

cgaaggcggc tttctggact gtaactgacg ttgaggctcg aaagtgtggg tagcaaacag 780

gattagatac cctggtagtc cacaccgtaa acgatgagtg ctagatgttc gagggtttcc 840

gcccttgagt gtcgcagcta acgcattaag cactccgcct ggggagtacg accgcaaggt 900

tgaaactcaa aggaattgac ggggacccgc acaagcggtg gagcatgtgg tttaattcga 960

agcaacgcga agaaccttac caggtcttga catcccttgc taatcctaga aataggacgt 1020

tcccttcggg gaca 1034

<210> 5

<211> 895

<212> DNA

<213> Pediococcus acidilactici JY03(Pediococcus acidilactici JY03)

<400> 5

aaggatgcgc atgctataca tgcagtcgaa cgaacttccg ttaattgatt atgacgtgct 60

tgcactgaat gagattttaa cacgaagtga gtggcggacg ggtgagtaac acgtgggtaa 120

cctgcccaga agcaggggat aacacctgga aacagatgct aataccgtat aacagagaaa 180

accgcctggt tttcttttaa aagatggctc tgctatcact tctggatgga cccgcggcgc 240

attagctagt tggtgaggta acggctcacc aaggcgatga tgcgtagccg acctgagagg 300

gtaatcggcc acattgggac tgagacacgg cccagactcc tacgggaggc agcagtaggg 360

aatcttccac aatggacgca agtctgatgg agcaacgccg cgtgagtgaa gaagggtttc 420

ggctcgtaaa gctctgttgt taaagaagaa cgtgggtgag agtaactgtt cacccagtga 480

cggtatttaa ccagaaagcc acggctaact acgtgccagc agccgcggta atacgtaggt 540

ggcaagcgtt atccggattt attgggcgta aagcgagcgc aggcggtctt ttaagtctaa 600

tgtgaaagcc ttcggctcaa ccgaagaagt gcattggaaa ctgggagact tgagtgcaga 660

agaggatagt ggaactccat gtgtagcggt gaaatgcgta gatatatgga agaacaccag 720

tggcgaaggc ggctgtctgg tctgtaactg acgctgaggc tcgaaagcat gggtagcgaa 780

caggattaga taccctggta gtccatgccg taaacgatga ttactaagtg ttggagggtt 840

tccgcccttc agtgctgcag ctaacgcatt aagtaatccg cctggggagt acgac 895

Claims (3)

1. Weissella mesenteroides (Weissella mesenteroides)Weissella paramesenteroides) JT13 with preservation number CGMCC No. 17539.

2. The Weissella mesenteroides of claim 1 (Weissella mesenteroides: (Weissella) mesenteroides of claim 1Weissella paramesenteroides) JT13 application in preparation of medicines for inhibiting penicillium digitatum (Penicillium digitatum) The use of (1) in medicine.

3. The use of claim 2, wherein Weissella mesenteroides (Weissella mesenteroides)Weissella paramesenteroides) JT13 use in preparation of medicine for preventing and treating penicillium digitatum (A) and BPenicillium digitatum) Application of the drug for causing the postharvest green mold of citrus fruits.

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