exploration of rhizobacteria-mediated growth promotion to
TRANSCRIPT
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EXPLORATION OFRHIZOBACTERIA-MEDIATED GROWTH
PROMOTION TO PROTECT PEPPER AGAINSTTOBACCO MOSAIC TOBAMOVIRUS
TRI ASMIRA DAMAYANTINISA RACHMANIA MUBARIK
BOGOR AGRICULTURAL UNIVERSITY
TMV-TM999 TMV-Laris
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Background
1. Pepper is one of the most important horticulture crop 2. Virus diseases: Cucumber Mosaic Virus (CMV), Chilli
Veinal Mottle Virus (ChiVMV), Tobacco Mosaic Virus (TMV), Tomato Mosaic Virus (ToMV), Geminivirus, etc
TMV (Tobamovirus, (+) strand RNA
Host : Solanaceae, Scrophulariaceae, Labiatae, Leguminosae, Chenopodiaceae, Alliaceae,and Cucurbitaceae
TMV cause severe damage to pepper in almost all plantingareas. Yield loses up to 100%.
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Healthy ChiVMV Mix CMV TMV
Phenotype Symptom
TMV-TM999
TMV-Laris
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3. Management of virus diseases:- Resistant varieties - Cultural practices - Eradication of vectors- Genetically engineered crops - Cross protection
Alternative disease control (Biocontrol) ?
Rhizobacteria?
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Rhizobacteria
Abundantly present in rhizosphereLive from plant root secretionStimulate plant growth,
referred as :
Plant-Growth Promoting Rhizobacteria (PGPR)
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The roles of PGPR
Nitrogen fixationPromoting plant growthProtecting plants from infection by plant pathogenic organisms
Large-scale application of PGPR reduce the use of chemicalfertilizer and pesticides and increase crop yield
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Induced Systemic resistance (ISR)
ISR defined as an increased resistance to disease that develops systemically throughout plants after appropriate stimulation (Hammerschmidt and Kuc, 1995)
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Objectives
1. To explore rhizobacteria which promote plant growth2. To evaluate their capacity as Plant Growth Promoting
Rhizobacteria(PGPR)-Elicited Induced Systemic Resistance (ISR) to protect pepper against Tobacco Mosaic Tobamovirus
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Laboratory works:Lab. Virology, Department of Plant Protection, IPBLab. Microbiology, Department of Biology, IPB
Green house experiments:Green house of the Dept. of Plant Protection, IPB(at Cikabayan, Darmaga)
Research Location
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Methods: Preparation of Rhizobacteria
1. Isolation of rhizobacteria from pepper rhizosphere(soil, rhizosphere, rhizoplane, root tissue)
Dilution platedon TSA medium
Single colony isolation&cryopreservedin 50% glycerol
2. Identification of rhizobacteria(the presence of oxidase, gelatinase, nitrate reduction; othertest using Microbact Kit)
3. Culturing and multiplication of rhizobacteria for seed treatment
Samples in0.1 M MgSO4.7H2O
Vigorous shaking
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Methods: Treatments on Pepper Var. TM 999
Seed treatment(soaked in rhizobacteria 109 CFU/ml for 2 hours)
Seed sowing on sterile growth media(Soil : cow dung manure = 2 : 1)
Transplanting 2 week-old seedling(into polybag containing sterile growth media)
Plant inoculation with sap containing TMV by mechanically inoculation (2 weeks post-transplanting)
Evaluation
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Methods: Evaluation of plant growth characteristics
• Rate of germination at 8, 11 and 14 days after seedling• Plant height at 1 day prior- and at 2, and 4 weeks post-
virus inoculation (wpi)• Plant fresh weight • Number of flowers and fruits
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I = ΣnN
X 100%
I = disease incidence (%)n = number of infected plantsN = total number of inoculated plants
1. Disease incidence (%)
Methods: Disease assessment
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2. Specific disease severity rating made at 2 wpi and 4 wpi.It is performed with mock inoculated plants as standard.
Disease severity rating scales0 = no symptom2 = leaves with mild mosaic symptom4 = leaves with severe mosaic symptoms6 = leaves with mosaic and deformation8 = leaves with severe mosaic, deformation and yellowing along
veins10 = leaves with severe mosaic, deformation, yellowing along veins
and abrupt growth reduction
Methods: Disease assessment
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Experiments are arranged in randomized complete design with 4 treatments, and 6 replications. Data analysis (mean of height, fresh weight, flowers and severity) was conducted using ANOVA (SAS 6.12) and then compared by Duncan’s Multiple Range (DMRT)
The treatment;1. Without rhizobacteria inoculated with TMV2. With rhizobacteria inoculated with TMV3. With rhizobacteria without TMV inoculation4. Control (without rhizobacteria and TMV inoculation)
Research Design
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3. Detection of viral protein accumulation by DAS ELISA -
Y Y
Y Y
Y Y
E E
Coating 1st AB
Washing 4-8 times
Antigen bound to the1st AB
Washing 4-8 times
2nd AB conjugatedwith enzyme
Washing 4-8 times
Substrates addition(yellow)
Three non-inoculated leafletsare grinded with PBST buffer (1 : 10 = W : V)
Coating Microtiter plates withTMV antibody (AB) in Carbonate buffer
ELISA Reader at OD 405 nm
Addition of 2nd AB conjugated with Enzyme
Substrates addition (PNP) in Alkaline phosphatasebuffer
Positive result if Accumulation of protein isAt least 2 times of negative control
Y Y
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4. Extraction and quantification of Peroxidase enzyme activity after challenge inoculation
It conducted at a week after virus inoculation
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Expected Research Outcomes
Obtain potential PGPR-elicited ISR isolates which can be utilized to protect hot pepper against virus (TMV). It is offer an attractive in providing a natural, safe, effective, persistent and durable type of protection
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RESULTS AND DISCUSSIONS
RHIZOBACTERIA ISOLATES
55 isolates obtained; 17 are gram positive and 38 are gram negative(14 isolates are pathogenic, 5 isolates were unable to recultured)
36 isolates were tested for inducing seed germination
Bacterized-seeds showed comparable germination rate, but better seedling vigor and fitness than untreated control
9 isolates were evaluated their ability to protect pepper against TMV
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a
-
K(+) I-1 I-6 I-8 I-16 I-25 I-30 I-35 II-5 II-10
0.0
10.0
20.0
30.0
40.0
50.0
60.0
70.0
80.0
90.0
100.0
Plan
t Hei
ght (
Cm
)
Bacterial isolates
Plant Height of Bacterized-plants + TMV at 2 wpi, 4 wpi and 10 wpi
a a a aab
e de
deab
be
abababc
bccdbc bc
a
dabc
ab
de
a abc
cdecde
abbc bcd
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Number of Flowers
0
50
100
150
200
250
300
350
C+ I-1 I-6 I-8 I-16 I-25 I-35 II-5 II-10
Bacteria Isolates and Control
Flow
ers N
umbe
ra
b
ccbc
bcbc
cc
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Fresh Weight
0.0
20.0
40.0
60.0
80.0
100.0
120.0
140.0
160.0
C+ I-1 I-6 I-8 I-16 I-25 I-35 II-5 II-10
Bacteria Isolates and Control
Fres
h we
ight
(gr)
c
b b b b b
a a a
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Protein Accumulation, Disease Incidence and Severity
Wpi= weeks after viral inoculation; NAE= absorbance value of ELISADI= disease incidence; DS= disease severity
NAEIsolates 2 wpi 4 wpi DI (%) DS
Control (-) 0.309 0.337 0.0 0.0 Control (+) 2.283 1.527 100.0 8.0a
I-1 2.133 2.230 100.0 6.0abI-6 0.608 1.901 66.7 2.7bI-8 2.202 1.546 100.0 4.7ab
I-16 2.005 1.774 66.7 3.3bI-25 2.106 1.323 100.0 4.7abI-30 2.323 1.639 100.0 4.0abI-35 2.116 1.667 66.7 2.7bII-5 2.282 2.029 100.0 5.3ab
II-10 2.235 1.578 100.0 4.7ab
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0.01.02.03.04.05.06.07.08.09.0
C I-1 I-6 I-8 I-16 I-25 I-35 II-5 II-10
Bacteria Isolate
a
bb
b
ab
ab abab
ab
DISEASE SEVERITY
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0.00
0.10
0.20
0.30
0.40
0.50
0.60
30" 60" 90" 120" 150" 180"
Time Intervals
NO TMV
Peroxidase Enzyme Activity
0.00
0.05
0.10
0.15
0.20
0.25
0.30
0.35
0.40
0.45
0.50
30" 60" 90" 120" 150" 180"
Time interva
K (+)
I-1 (+)
I-6 (+)
I-8 (+)
I-16 (+)
I-25 (+)
I-30 (+)
I-35 (+)
II-5 (+)
II-10 (+)
TMV
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Peroxidase Enzyme Activity
Peroxidase activity Spec.Perox.ActivityTreatment (U/ml) (U/mg protein/min)
TMV (-) TMV (+) TMV (-) TMV (+)K 6.60 3.80 5.47 2.89
I-1 2.40 6.30 2.42 2.49I-6 3.70 2.20 3.01 1.62I-8 9.20 1.20 7.03 1.41
I-16 2.30 2.40 1.34 1.81I-25 1.30 1.80 0.87 0.65I-35 1.20 1.80 1.02 1.41II-5 1.00 1.30 1.05 1.06
II-10 2.00 1.70 1.04 0.87
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I-1 I-6 I-8
I-16 I-25 I-30
I-35
II-5 II-10
Plants at 1 week post-InoculationI-1 I-6 I-8
I-16 I-25 I-30
I-35 II-5 II-10
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Plant growth of Bacterized-plants + TMV vs Untreated Control
A B C
D E F
G H IA. I-1, B. I-6, C. I-8, D. I-16, E. I-25, F. I-30, G. I-35, H. II-5, I. II-10Pot position from leaf-right : Healthy, TMV infected, BacterizedHealthy and Bacterized + TMV
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I-2 II-7
On going Work
I-30
II-10
I-2 II-7
II-10I-25
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Identification of Potential Rhizobacteria Isolates
I-6 : Acinetobacter sp
I-35 : Bacillus circulans
I-16 : on progress
Using Microbact Kit and additional tests such catalase test,Growing on NaCl media etc.
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CONCLUSIONS
Isolates I-6, I-16, I-35 considerable as potential PGPR whichcapable to protect pepper against TMV. I-35 was consistentlyshowed best characters during the experiment.
Future Plans
1. Evaluation of potential isolates to protect pepper against multiple disease in individual and combination formulation
2. Efficacy of potential isolates in field experiment, appropriate doses and formulation
3. Studies on induction of defense-related protein in hot pepper (defense mechanism)
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ACKNOWLEDGEMENT
My deeply gratitude for DIPA 2005 -SEAMEO BIOTROP forgranting us fund for this research
Gratitude for my colleague Dr. Nisa Rachmania M and Mr. HendraPardede for their unvaluable support during the research.
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THANK YOU
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PGPR as stimulant
Seed treatment, Soil drenchFoliar spray, Combination
Challenge inoculation of pathogens(Fungi, bacteria, virus etc)
Elicits Plant’s defense response
Decrease disease incidence, severity, symptom expression
- Increased Salicylic Acid Pathogenesis related gene (PRs, chitinase etc)
- Antibiosis
- Increase Jasmonate Acid (MeJA) and ethylene, phytoalexins, enhance ability to lignify- Siderophores (pyoverdin, pyochelin, SA)- Competition for iron- Alters host physiology and metabolic responses, fortifies plant cell wall strength
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0.0
5.0
10.0
15.0
20.0
25.0
K(+) I-1 I-6 I-8 I-16 I-25 I-30 I-35 II-5 II-10
Isolates
Plant Height at 28 and 42 DAP
TMV
0.0
5.0
10.0
15.0
20.0
25.0
30.0
K(+) I-1 I-6 I-8 I-16 I-25 I-30 I-35 II-5 II-10
Isolate
No TMVB.
D.
0.0
5.0
10.0
15.0
20.0
25.0
K(-) I-1 I-6 I-8 I-16 I-25 I-30 I-35 II-5 II-10
Isolates
A.
0.0
5.0
10.0
15.0
20.0
25.0
30.0
35.0
40.0
K(-) I-1 I-6 I-8 I-16 I-25 I-30 I-35 II-5 II-10Isolates
C.