Polymorphism of Ralstonia solanacearum and it’s plant vaccin development
description
Transcript of Polymorphism of Ralstonia solanacearum and it’s plant vaccin development
25-06-2011 Agricultural microbiology research team
FAAS
Polymorphism of Polymorphism of Ralstonia Ralstonia solanacearumsolanacearum and it’s plant vaccin and it’s plant vaccin
development development
Prof. Dr. Liu BoProf. Dr. Liu Bo
Agricultural Microbiology Research TeamAgricultural Microbiology Research Team
Bioresources research instituteBioresources research institute
Fujian Academy of Agricultural SciencesFujian Academy of Agricultural Sciences
[email protected]@163.com
25-06-201125-06-2011 FJATFJAT
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Agricultural microbiology research team
ContentsContents
Bacterial wilt disease and its pathogen forms Bacterial wilt disease and its pathogen forms 11
Polymorphism of Polymorphism of Ralstonia solanacearum Ralstonia solanacearum (RS) (RS) 22
Characteristics of avirent RS Characteristics of avirent RS 33
Construction and mechanism of avrient RSConstruction and mechanism of avrient RS44
New idea of plant vaccin development New idea of plant vaccin development 55
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11 、、 Bacterial wilt disease and its pathogen formsBacterial wilt disease and its pathogen forms
Many researches has been made in the Many researches has been made in the population dynamic, subspecies variation, population dynamic, subspecies variation, molecular biology, gene regulation, etc.molecular biology, gene regulation, etc. 。 。
Ralstonia solanacearumRalstonia solanacearum was found in 1864 was found in 1864 ,,it could infected many plants with about 44 it could infected many plants with about 44 familyfamily ,, more than 300 speciesmore than 300 species ,, so so called called ““plant cancer”.plant cancer”.
But the disease control would remain But the disease control would remain difficulties . The new idea was put difficulties . The new idea was put forward to develop plant vaccin.forward to develop plant vaccin.
(1) (1) AAbout bacterial wilt disease bout bacterial wilt disease
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11 、、 Bacterial wilt disease and its pathogen formsBacterial wilt disease and its pathogen forms
RSRSDifferentiation toDifferentiation to
(2) RS existed the virulent and avirulent strains, identified by (2) RS existed the virulent and avirulent strains, identified by TTC culture medium and plant infection.TTC culture medium and plant infection.
Virulent St. Virulent St.
Avirulent St. Avirulent St.
Infection and dead Infection and dead Infection and aliveInfection and alive
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11 、、 Bacterial wilt disease and its pathogen Bacterial wilt disease and its pathogen formsforms
(3) Pathogenicity index [PI] of virulent and avirulent RS (3) Pathogenicity index [PI] of virulent and avirulent RS in TTC medium in TTC medium
0102030405060708090
100
0 0. 25 0. 5 0. 75 1
弱化指数
%发病
率()
Pathogenicity index was made up Pathogenicity index was made up by red diameter / whole colony by red diameter / whole colony diameterdiameter
RS strains were collected from RS strains were collected from fields with the relationship fields with the relationship between pathogenicity index and between pathogenicity index and mortality. mortality.
virulent interim avirulentvirulent interim avirulent
Pathogenicity index Pathogenicity index
Mor
talit
y (%
) M
orta
lity
(%)
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11 、、 Bacterial wilt disease and its pathogen formsBacterial wilt disease and its pathogen forms(4) Pathogenicity divergency of RS populations infected in (4) Pathogenicity divergency of RS populations infected in
tissu culture plantlet of tomatotissu culture plantlet of tomato
G1: High infected G1: High infected mortaliy, short mortaliy, short latent period, small latent period, small PI <0.41 PI <0.41
G2: Middle to high G2: Middle to high infected mortaliy, infected mortaliy, long latent period,long latent period,middle PI=0.52-middle PI=0.52-0.68 0.68
G3: No infected G3: No infected mortaliy, long mortaliy, long latent period, latent period, large PI>0.80 large PI>0.80
。。 。。 。。 。。 。 。 。 。。 。 。 。 。 。 。 。。 。 。 。
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22 、、 Polymorphism of Polymorphism of Ralstonia solanacearum Ralstonia solanacearum (RS)(RS)
(1) RAMS primers polymorphism analysis of (1) RAMS primers polymorphism analysis of Ralstonia solanacearumRalstonia solanacearum
RAMS primers polymorphism
Pu tian place
Ning De place
tomatotomato
egg plantegg plant
pepperpepper
Cluster analysis based on Cluster analysis based on the RAMS bands showed the RAMS bands showed that 22 isolates could be that 22 isolates could be divided divided into 3 into 3 group withgroup with characters ofcharacters of host crop host crop and climate zones. and climate zones.
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22 、、 Polymorphism of Polymorphism of Ralstonia solanacearum Ralstonia solanacearum (RS)(RS)
(2) BOX-PCR geographic polymorphism analysis of (2) BOX-PCR geographic polymorphism analysis of R. solanacearumR. solanacearum
λ=20
The cluster analysis The cluster analysis showed that the showed that the BOX-BOX-PCR PCR genetic diversity of genetic diversity of R. solanacearum R. solanacearum was was concerned concerned onon geogra- geogra- phic originphic originss with group with group 1 for Ningde district, 1 for Ningde district, group 2 for Nanping dis-group 2 for Nanping dis-trict, group 3 for Fuzhou trict, group 3 for Fuzhou district. district.
Ningde dist.Ningde dist.
Nanping dist.Nanping dist.
Fuzhou dist.Fuzhou dist.
Group 1Group 1
Group 2Group 2
Group 3Group 3
Tomato plants Tomato plants
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22 、、 Polymorphism of Polymorphism of Ralstonia solanacearum Ralstonia solanacearum (RS)(RS)
(3) REP-PCR host(3) REP-PCR host polymorphism analysis of polymorphism analysis of R. solanacearumR. solanacearum
λ=8
The cluster analysis showed The cluster analysis showed that the that the REP-PCR REP-PCR genetic genetic diversity of diversity of R. solanacearum R. solanacearum was concerned was concerned onon host with host with group 1 for group 1 for Egg plan+tomatoEgg plan+tomato, group 2 for , group 2 for PepperPepper, group 3 , group 3 for for Pepper+tomatoPepper+tomato. .
Egg plan+tomatoEgg plan+tomatoGroup 1Group 1
ChilliGroup 2Group 2
Chilli+tomato+tomatoGroup 3Group 3
Ningde districtNingde district
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22 、、 Polymorphism of Polymorphism of Ralstonia solanacearum Ralstonia solanacearum (RS)(RS)
(4) PLFAs(4) PLFAs polymorphism analysis of polymorphism analysis of R. solanacearumR. solanacearum
PLFAs of the virulent and avirulent RS PLFAs of the virulent and avirulent RS
AviruAvirulent lent
VirulVirulent ent
The PLFAs of A, The PLFAs of A,
B, C, D, E, F, bet-B, C, D, E, F, bet-
ween the aviru-ween the aviru-
lent and virulent lent and virulent
RS to show the RS to show the
avirulent with 0% avirulent with 0%
M., virulent with M., virulent with
30% M. and high 30% M. and high
toxicity with toxicity with
100% M. 100% M.
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22 、、 Polymorphism of Polymorphism of Ralstonia solanacearum Ralstonia solanacearum (RS)(RS)
group 1 - avirulent strains with group 1 - avirulent strains with PI>0.80PI>0.80 ,, reinfected mortality 0% in reinfected mortality 0% in the tomato tissue culture plantlets .the tomato tissue culture plantlets .
group 2 - interim strains with PI in the range of group 2 - interim strains with PI in the range of 0.60-0.80, 0.60-0.80, reinfected mortality reinfected mortality 6.7%~ 100%6.7%~ 100% in the tomato tissue in the tomato tissue culture plantletsculture plantlets 。 。
group 3 – virulent strains with PI<0.60, group 3 – virulent strains with PI<0.60, reinfected mortality reinfected mortality 10100% in the 0% in the tomato tissue culture plantlets.tomato tissue culture plantlets.
YY11=-16.3353 + 0.0012X=-16.3353 + 0.0012X1 1 + 0.0056X+ 0.0056X9 9 - -
0.0016X0.0016X1313
YY22= -3.4928 + 0.0002X= -3.4928 + 0.0002X1 1 + 0.0003X+ 0.0003X9 9 + +
0.0025X0.0025X1313
YY33= -9.1550 - 0.0003X= -9.1550 - 0.0003X1 1 + 0.0039X+ 0.0039X9 9 + +
0.0042X0.0042X1313
(5) Discrimination(5) Discrimination analysis of PLFAs to distinguish the pathogenicity RSanalysis of PLFAs to distinguish the pathogenicity RS
G1G1 ::avirulentavirulent
G2G2 ::interiminterim
G3G3 ::virulentvirulent
XX11=C1=C14:0, 4:0, XX99=C=C17:0, 17:0, XX1313==CC18:018:0
Cluster of the RS strains based on Cluster of the RS strains based on PLFAs PLFAs
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22 、、 Polymorphism of Polymorphism of Ralstonia solanacearum Ralstonia solanacearum (RS)(RS)
(6) Genome analysis of the virulent and avirulent RS strains(6) Genome analysis of the virulent and avirulent RS strains
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DiagramDiagram
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2001
2002
2003Company HistoryCompany History
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33 、、 Characteristics of avirent RSCharacteristics of avirent RS
0. 00
2. 00
4. 00
6. 00
8. 00
10. 00
0 12 24 36 48 60h)培养时间(
lgy)
孢子
浓度
(
强菌株弱菌株
(1) Some characteristics of virulent and avirulent RS (1) Some characteristics of virulent and avirulent RS
virulent avirulent
Cultural time Cultural time
Con
cent
ratio
n (C
FU/m
l)C
once
ntra
tion
(CFU
/ml)
Avirulent strain
Virulent strain
Control medium virulent avirulentControl medium virulent avirulent
EP
S
EP
S
ug
/ml
ug
/ml
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33 、、 Characteristics of avirent RSCharacteristics of avirent RS(2) Factors effecting on the change from virulent to avirulent RS (2) Factors effecting on the change from virulent to avirulent RS
CHEM: Antibiotic can’t CHEM: Antibiotic can’t change RS to avirulent change RS to avirulent
PHYS: Ultrasonic can’t change PHYS: Ultrasonic can’t change RS to avirulentRS to avirulent
CUL: Cultural time can’t change RS to avirulent CUL: Cultural time can’t change RS to avirulent SubcultureSubculture can’t change RS to avirulent can’t change RS to avirulent
BIO: Bacillus can change BIO: Bacillus can change RS to avirulent RS to avirulent
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33 、、 Characteristics of avirent RSCharacteristics of avirent RS(3) Inhibit machenism of (3) Inhibit machenism of Bacillus cereusBacillus cereus to v-RS and a-RS to v-RS and a-RS
Fermentation liquid (X4) of Fermentation liquid (X4) of Bacillus cereusBacillus cereus caused 99% mortality to virulent strain, 37% caused 99% mortality to virulent strain, 37% mortality to avirulent strain. It meant that the virulent strain was more susceptible to mortality to avirulent strain. It meant that the virulent strain was more susceptible to Bacillus cereusBacillus cereus than the avirulent did. than the avirulent did.
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33 、、 Characteristics of avirent RSCharacteristics of avirent RS(4) Simulation of inhibit effect of (4) Simulation of inhibit effect of Bacillus cereusBacillus cereus to v-RS and a-RS to v-RS and a-RS
Pure v-RS(1) and a-RS(2) mixed with B. cereus respectively resulted in (3) with two Pure v-RS(1) and a-RS(2) mixed with B. cereus respectively resulted in (3) with two strains growing together and in (4) with only a-RS gowing. It meant that B. cereus strains growing together and in (4) with only a-RS gowing. It meant that B. cereus could select the RS avirulent strain and suppress the RS virulent strain. could select the RS avirulent strain and suppress the RS virulent strain.
1
2
3 4
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44 、、 Construction and mechanism of avrient Construction and mechanism of avrient RSRS
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Text1
Text2Text3
Text4
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44 、、 Construction and mechanism of avrient Construction and mechanism of avrient RSRS
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44 、、 Construction and mechanism of avrient Construction and mechanism of avrient RSRS
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25-06-2011 Agricultural microbiology research team
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