BIBLIOGRAPHY BACDANGAN, DEXTER B. MARCH...

BIBLIOGRAPHY
BACDANGAN, DEXTER B. MARCH 2006. The Angular Spot of Golden Bush
(Duranta repens L.): A Bacterial Disease. Benguet State University, La Trinidad,
Benguet.
Adviser: Lily Ann D. Lando, PhD
ABSTRACT
Infected golden bush have water soaked to brown angular lesions which are often
necrotic. This is often observed in young infected leaves. When severe, the lesions
eventually drop off leaving a shot-hole appearance.
There were two isolated bacteria: one with yellow colonies and another with
white colonies. The isolates were both Gram-negative rods and were motile but varied
culturally and physiologically. The yellow bacterium exhibited characters typical of a
Xanthomonas campestris pathovar while the white bacterium resembled Pseudomonas.
Inoculation of either bacterium did not result in symptoms even using various
means of inoculation; rubbing of leaves, injection on stem and leaves and dipping of
roots. However, dipping of leaves in a combined suspension of the two isolates resulted
in an angular spot symptoms after 48 hours of incubation.

TABLE OF CONTENTS

Page
Bibliography . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
i
Abstract . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
i
Table of Contents. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ii
INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1
REVIEW OF LITERATURE
Host . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2
Diseases Caused by Bacteria . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3
MATERIALS AND METHODS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4
RESULTS AND DISCUSSION
Disease Symptoms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8
Cultural Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
8
Gram Stain Reaction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
12
KOH Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
12
Motility Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
13
Physiological Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
14
Anaerobic Growth Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
15
Pathogenicity Test Result . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
16
SUMMARY, CONCLUSION
AND RECOMMENDATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
17

LITERATURE CITED . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
18
APPENDICES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
20

ii

INTRODUCTION

Duranta repens L. (locally called golden bush) is one of the genus of about 30
species of evergreen trees and shrubs. Although tropical America is the home of the
golden bush (also known as pigeon berry, sky flower and golden dewdrop) (Brigham,
2001), it has been in the Philippines since 1880 (Steiner, 1986). It produces its starry
blossoms throughout the year and its yellow-speckled to golden yellow leaves have made
it quite popular as a hedge. The ease with which it is cultivated adds to its popularity and
it is seen growing in most towns and cities in the Philippines.

The plant is attacked by a leaf spot characterized by angular lesions which are
often necrotic and which eventually drop off leaving a shot-hole appearance in severe
cases. This disease can be observed on most golden bush plantings. Initial microscopic
observation of lesions points to a bacterial origin. Tangonan (1999) does not have any
record of Duranta or its diseases in the Philippines.
It is therefore important to verify the etiology of this leaf spot and identify its
causal bacterium. Knowledge of this causal bacterium will determine whether it poses a
threat to other ornamentals and important crops here in Benguet.
The study was conducted to describe the symptoms of the angular leaf spot of
golden bush, isolate and characterize the bacterium associated with the symptoms and
verify the pathogenicity of isolates on golden bush.

The study was conducted from August 2005 to January 2006 at the Plant
Pathology Department service laboratory, College of Agriculture, Benguet State
University, La Trinidad, Benguet.

The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
/ Dexter B. Bacdangan. 2006

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REVIEW OF LITERATURE

Host

Duranta repens L. locally known as golden bush belongs to family Verbenacea
(Christman, S., 2003). The genus is named after Castor Durantes, an Italian botanist and
doctor. Puneet (2004) posted the following blog regarding the taxonomy of Duranta.
Kingdom--------------------->Plantae – Plants
Subkingdom-------------->Tracheobionta – Vascular plants
Superdivision----------->Spermatophyta – Seed plants
Division---------------->Magnoliophyta – Flowering plants
Class----------------->Magnoliopsida – Dicotyledons
Subclass---------->Asteridae
Order----------->Lamiales
Family------->Verbenaceae – Verbena family
Genus------>Duranta L.
It is a shrub to a small tree, with slender erect or drooping, branches four to five
meters tall. The whorled or opposite leaves are smallish, often toothed; and the 5 –
petalled flowers, narrowing to a short tube, appears in delicate sprays from the upper leaf
axils (Anonymous, 2001). The white to blue flowers are produced in clusters. Its corolla
is formed into a tube and spreading into five limbs. Fruits are rounded yellow or orange
and 1.5 cm across. The firm fleshy, orange or yellow berries are allegedly poisonous.

Duranta species are vigorous. They thrive in almost any kind of soil, in full sun.
They can be trained to become small trees or kept cut back as shrubs; they make useful
The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
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hedges. Propagation is by cuttings although they are sometimes difficult to root, but the
plant can be propagated from seed or by layering and marcoting at the beginning of the
rainy season.

Diseases Caused by Bacteria

According to Agrios (1997), the most common types of bacterial diseases of
plants are those that appear as spots of various sizes on leaves, stem, blossoms, and fruits.
In some bacterial diseases, the spots continue to advance rapidly to produce blights in
two ways. In severe infections, the spots may be numerous that destroy most of the plant
surface and the plant appears blighted or the spots may be enlarged and coalesce, thus
producing larges areas of dead plant tissue and blighted plants.
The spots are necrotic or roughly circular and in some cases surrounded by a
yellowish halo. In dicotyledonous plants, large veins restrict the bacterial spots on some
hosts and the spots appear angular. Agrios (1997) further cites that the bacteria enter the
leaf through stomata, hydathodes and wounds. Certain insect such as beetles, aphids and
white flies also act as vectors of the pathogen.

The International Society of Plant Protection (2001) records the presence of a
pathovar of Xanthomonas campestris that is named durantae. From this name, it can be
assumed that it was probably isolated from a Duranta species. The National Collection of
Plant Pathogenic Bacteria (2005) confirms this information. The full record of the epithet
is given by both references as Xanthomonas campestris pv. durantae (Srinivasan and
Patel, 1957) Dye, 1978.

The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
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MATERIALS AND METHODS

A. Collection of Diseased Plants

Samples of infected golden bush was collected around La Trinidad and placed in
transparent plastic bags and brought for diagnosis to the laboratory.
B. Description of Symptoms
Symptoms of the plants were described then sections from the infected tissue
were studied under the microscope. All observations were recorded.
C. Identification of Isolated Bacteria
Isolation of associated bacteria. Isolation and culture of associated bacteria was
done first on Potato Dextrose Peptone Agar (PDPA). The media was prepared following
the standard procedure. The collected disease plant was washed in tap water to free them
from dirt then leaf samples were washed in 1% sodium hypochlorite and three change of
sterile distilled water then blotted on sterile tissue paper. Leaf samples were placed in 10
ml of sterile water and macerated with a flamed glass rod. A loopful of the suspension
was streaked onto previously prepared PDPA plates and incubated at 27-30oc for two
days. At least three well-separated, isolate single colonies were transferred into PDPA
slants. Stocks cultures will be at 5 C.
Identification of isolated bacteria. The following tests were performed to determine
the genera of the isolated bacteria.
1. Growth on various media [Appendix 1]
a. Yeast Extract Dextrose CACO3 Agar (YDCA)
b. King’s Medium B Agar (KMBA)
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c. Nutrient Glucose Agar (NGA)
d. Sucrose Peptone Agar (SPA)
e. Xanthomonas Isolation Medium (XIM)
2. Gram stain and KOH test
3. Other tests. The procedures for the following tests are as outlined by Schaad
(1998).
a.
Growth and O/F metabolism. Basal medium (10 ml) was poured in
10 test tubes having a diameter of 13 cm. Two drops of bromthymol blue solution
was dropped in each test tube and shaken to mix the suspension. Water agar
prepared in a separate flask was used to cover the basal medium in the test tube.
For each replication, the bacterial isolate was stabbed in 2 test tubes of basal
medium after which one test tube was covered and the other uncovered. The set-
up was incubated at 24 to 48 hours and change in color was observed and
documented.
b.
Gelatin Liquefaction test. Commercial gelatin (5g) was added in 1
liter distilled water and dissolved by steam heating. Ten ml was dispensed in 15
test tubes having a diameter of 13 cm. Sterilization was done for 12-15 minutes at
121oC and cooled immediately without slating. Each bacterial isolate grown 24
hours were stabbed into the medium. Incubated at 20 to 270C for 21 days. After
3,7,14 and 21 days, the test tubes was refrigerated for 30 minutes. If the medium
flows readily as tube is gently tipped, the gelatin has been hydrolyzed and denotes
a positive reaction from the test. The test is considered doubtful, if the medium
moves a very slowly result as compared with non-inoculated medium.
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c.
Motility test. Sterile water (0.5-1.0 ml) was added to actively
growing bacteria on nutrient agar slants. The slants were incubated overnight. A
loopful of the bacterial suspension was taken from the bottom of the slant and
placed on the underside of a cover slip. A depression slide was inverted over the
drop of suspension on the slip. The slide and cover slip was turned over and the
drop viewed under the microscope.
d.
Starch hydrolysis test. The bacterium was streaked onto starch agar
and the plates were then incubated for 2-7 days. The plates then were flooded
with an iodine solution and any zones of clearing were recorded.
e.
Other biochemical test as needed

D. Pathogenicity Test
Test
plants. Clean (apparently disease-free) and young golden bush plants was
obtained and kept in the greenhouse for pathogenicity test.
Inoculum preparation and inoculation. Suspension of isolated bacteria was
prepared and standardized at 1 x 106 cfu/ml. Suspension was sprayed onto healthy plant
leaves. The inoculated plant was covered with a plastic bag and incubated overnight in
the laboratory. After overnight incubation, the plastic bag was removed and the
inoculated plants were then brought to the greenhouse. Leaves were observed for
symptom development. Symptoms observed were compared to the initial observations.
Re-isolation of causal organism. The causal organism from the inoculated test
plants was re-isolated onto nutrient agar. Isolates thus obtained were compared to the
original isolates.

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Data Gathered

The following data were gathered:

1. Symptoms of the diseased plant caused by bacterial pathogen. The symptoms
of the plant were observed and described.
2. Cultural, morphological and physiological characteristics of the isolates. The
cultural, morphological, and physiological characteristics on the various media were
observed. Specifically, the following colony characters were noted: size, shape, color,
elevation, margins, and production of pigment on the media.
3. Pathogenicity test results. The symptoms produced by the inoculated
bacterium was noted and then compared to the original symptoms observed.
4. Photodocumentation. All set-ups were photographed.
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RESULTS AND DISCUSSION

Disease Symptoms

Infected golden bush has water-soaked to brown angular lesions which are often
necrotic, this is often observed in young infected leaves. When symptoms are severe, the
lesions eventually drop off leaving a shot-hole appearance (Plate 1).

Bacteria in the genera of Pseudomonas and Xanthomonas cause most bacterial
spots and blights. These bacterial diseases appear as spots of various sizes on leaves,
stems, blossoms and fruits. Sometimes, the spots continue to advance rapidly, eventually
resulting in blights (Agrios, 1992).

Plate 1. Infected leaves of Duranta repens

Cultural Characteristics

A loopful of bacterial suspension was streaked on Nutrient Agar (NA) and
incubated for 24 hours (Plate 2). Yellow and white colonies were observed on the plate.
Isolated single colonies were transferred onto NA slant and served as stock culture.
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Both bacteria were streaked on SPA, NGA, KMBA, YDCA and XIM. The
yellow bacterium grew after 24 hours and produced yellow pigmentation on NGA and
SPA (Plate 3). On YDCA and KMBA, the bacterium was observed after 48 hours and
produced light yellow and dark yellow colonies, respectively. On the Xanthomonas
Identification Medium, yellow colonies were observed only after 4 days of incubation.

Plate 2. The bacterium on nutrient agar (24 HAI)

These characteristics coincide with the description of the genus Xanthomonas.
Schaad and Stall (1998) described Xanthomonas to have the following characteristics:
colonies are mucoid, convex and shiny on NGA and YDC agar and produce unique
yellow membrane bound pigments that are non-H2O soluble. They also added that
bacteria obtained from dried material may take up to a week to form single colonies.
Dianese and Schaad (1982) had mentioned that most Xanthomonas strains form yellow
water soluble pigments (xanthomodins) when cultivated on the common growth media
such as GYCA, LPGA and NA.
The white isolate produced light yellow colonies on NGA and SPA after 24 hours
of incubation (Plate 3). The bacterium also produces light yellow colonies on KMBA
The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
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and white colonies on YDCA after 48 hours of incubation. It took 5 days for the
bacterium to become evident on XIM. Cultural characteristics of both isolated bacteria
are shown in Table 1.

YDCA

KMBA

SPA

Yellow
NGA
White
Plate 3. Cultural characteristics of the bacteria isolated from Duranta repens
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Table 1. The cultural characteristics on various media of the bacterium isolated from Duranta repens

MEDIA
BASES YDCA
SPA
NGA
KMBA
XIM NA
Yellow
White
Yellow
White
Yellow
White Yellow White Yellow
White

Amount of
Abundant Abundant Abundant Scantly Moderate Moderate Abundant Abundant Scantly Scantly Abundant
growth
Form
Circular Circular Irregular Circular
Circular Circular Circular Smooth Circular
Circular Circular
Elevation Raised
Raised
Convex
Convex
Convex
Convex Convex Raised Raised Raised Flat
Surface
Smooth Smooth Smooth Smooth
Smooth Smooth Smooth Smooth Smooth
Smooth
Smooth
Margin
Smooth Smooth Raised Entire Smooth Smooth Smooth Entire Entire Entire Smooth
Color Light
White Cram Cream
Yellow
Yellow
Dark Yellow Light White Yellow/
yellow
yellow
cream
whitish
Colony
-no-*
-no-
72 30
34 44 67 24 22
20
25
diameter (mm)
*no = not observed

12
Gram Stain Reaction

Both bacteria were Gram negative short rods with rounded ends. According to
Agrios (1992) bacterium that cause leaf spots or blight were often Gram negative and
may belong to either Pseudomonas or Xanthomonas.

Gram stain is one of the most important staining techniques in microbiology
(Pelczar et al., 1983). It is a useful staining procedure in bacteriology and very essential
for initial identification of the unknown bacteria (Raymond et al., 1991). Furthermore,
Gram reaction of a bacterium is a good indicator of whether the bacteria can be destroyed
using a given antibiotic.
The Gram negative cell wall has a more complicated structure than that of the
Gram positive cell wall. It is composed of peptidoglycan, cytoplasmic membrane,
periplasmic space and the outer membrane. Such structural component has a significant
role in the pathogenicity, survival and antibiotic resistance of the Gram negative
bacterium. Generally, many antibiotics will kill Gram positive bacteria, but Gram
negative bacteria were often tougher to kill, resisting common antibiotics .

KOH Test
The preliminary classification of a bacterium as Gram-positive or Gram-negative
is an essential step in both diagnostic microbiology and clinical medicine. The Gram stain
is generally the first procedure performed in the identification of a bacterium and the
results of this differential stain often determined the subsequent identification procedures.
Often Gram stain yields equivocal results particularly with Gram-positive anaerobic
bacteria and anaerobic Gram-negative bacteria. The major pitfall in the Gram stain is the
tendency of some Gram-positive bacteria to decolorize more readily and be perceived
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incorrectly as Gram negative. Some factors, e.g. composition of the growth medium and
age of the culture (Conn et al., 1957) can influence the tendency of Gram-positive
bacteria to decolorize.
Another rapid method for the preliminary classification of bacteria is the use of a
3 % solution of potassium hydroxide (KOH) (Gregerson, 1978). Like the Gram stain
reaction, the KOH test is based on the differences in the chemistry of the bacterial cell
wall. The cell wall of Gram-negative bacteria were easily disrupted when exposed to
dilute alkali solutions resulting in the release of viscous “stringy” DNA.
Results of the KOH test show that walls of the yellow isolate were disrupted by
the KOH, thus validating the Gram stain results. The white isolate was negative.

Plate 4. The positive KOH test on the yellow isolate
Motility Test

Both isolated bacteria were motile. The bacterium has a single polar flagellum.
This is a diagnostic trait of Xanthomonas (Holt, et.al., 1994). The flagellated bacteria can
move from one site to another on thin water films on plant or soil surfaces. Some bacteria
can move through liquid media by means of flagella, whereas other have no flagella and
cannot move themselves (Agrios, 1998).
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Physiological Characteristics

The isolated bacteria were grown on various standard medium to determine its
physiological characteristics. Since enzymes produce all physiological (biochemical)
reactions in organisms and since individual genes produce each enzyme, we are
essentially formulating a genetic profile of an organism (Benson, 1998), as we discover
what enzymes are produced. Most results were determined by color changes effected by
growth of the bacterium in various media (Table 1).
Gelatin Liquefaction Test. The organisms were not able to liquefy the gelatin
even after 21 days of incubation. Therefore, the enzyme gelatinase was not produced
(Plate 5).

Plate 5. Inoculated gelatin tubers (3-7, 14-21 days of incubation)

Starch Hydrolysis. The bacteria were streaked on starch agar. After 72 hours of
incubation. Gram’s iodine was poured over the growth on the medium. The presence of
zones of clearing was observed around the bacterial growth (Plate 7).

Iodine solution (Gram’s) is an indicator of starch. When iodine comes in contact
with a medium containing starch, it turns blue. Starch is hydrolyzed and is no longer
The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
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present however, if the medium will have a clear zone next to the growth. Bacteria that
hydrolyze starch produce amylases that yields maltose, glucose and dextrins (Benson,
1995).

The ability to produced amylase is not uniformly present in all species of the
genus Xanthomonas, but it is present in at least 75% of the strains from X. campestris
complex (Swings, et.al., 1993).

Plate 6. Growth of the isolates on starch agar (72 HAI). The yellow isolate is on the left
[positive] while the white isolate is on the right [negative]

Anaerobic Growth Test

Hugh and Leifson proposed this medium (Merck, 2003) for detecting oxidative
and fermentative carbohydrate degradation. It is used primarily for the differentiation
and classification of Gram-negative bacteria. A yellow coloration in both, the open and
paraffin-sealed tubes, signifies fermentative degradation whereas yellow coloration of the
open tubes alone indicates that the carbohydrate in question was broken down by
oxidation. Oxidative breakdown took place at or close to the surface of the medium,
whilst fermentative breakdown occurs both at the surface and throughout the butt.

Yellow isolate changes in color for both covered and unsealed, while the white
isolate remains blue (Plate 7). These results were not conclusive and therefore, should be
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repeated in future studies. The variable results may be attributed to error in the set-up
and preparation of the test.

Plate 7. The comparison between yellow isolate (positive) and white isolate (negative)

Pathogenicity Test Result

Inoculation of either bacterium did not result in symptoms even using various
means of inoculation, however, dipping of leaves in a combined bacterial suspension of
the two isolates resulted in symptoms after 48 hours of incubation.
Table 2. Results of the various inoculation method
Inoculation
Methods of Inoculation
Inoculum
Occurrence of
Trials
Symptoms
1
Rubbing on leaves
Yellow
-
White
-
2
Injecting on stem and
Yellow
-
leaves
White
-
3
Dipping of roots
Yellow
-
White
-
4
Dipping of leaves
Both white and
+
yellow isolates
-
no symptoms
+ symptoms
shown

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SUMMARY, CONCLUSION AND RECOMMENDATIONS

Summary

One yellow isolate and one white isolate were obtained from symptomatic
Duranta repens and grown on various media. The bacteria differed in cultural and
physiological characteristics.

Conclusion

Based on the different tests done, the yellow isolate has characters typical of a
Xanthomonas campestris pathovar while the white isolate most closely resembles
Pseudomonas sp.

Since both bacteria did not produce the typical symptoms when inoculated
separately and both were isolated at the same time from the symptomatic Duranta, it can
be assumed that we may be dealing with a complex.

Recommendations

We have gained better perspective of the bacteria associated with bacterial
angular spot or blight. Limitations of the study requires further study on the following:
1. Use of the combined inoculum from both bacteria and verification of the methods
of inoculation.
2. Use of DNA sequence identification for specific taxonomic purposes.
3. The use of computerized identification (Duncan & Torrance, 1992) is suggested.
Some strains of pathogen have variable reaction with almost all substrate so the
use of dichotomous keys based on negative or positive results for individual test
often leads to false identification.
The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
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LITERATURE CITED

AGRIOS, G. N. 1997, Plant Pathology. 4th edition, San Diego, USA: APS Press. Pp 407-
456

ANONYMOUS. 2001. Datura. Posted at http://www.greenbeam.com/features/ plant
102802.stm

BA-A, C. D. 2001. Survey and identification of fungal and bacterial disease of water
cress (Nasturium officinale). BS Thesis Benguet State University, La Trinidad,
Benguet. Pp 6-10

BENSON, H.J. 1998. Microbiological Applications: Laboratory Manual in General
Microbiology. 7th ed. Boston Massachussetes: WCB McGraw Hill. Pp 50-71,
146-178.

BRIGHAM, S. 2001. Durable, Dependable: Durantas! Posted at the web site of the San
Diego Horticultural Society, http://www.sdhortsoc.org/duranta.htm.

CHRISTMAN, S. 2003. Duranta erecta. Posted at http://www.floridata.com/ ref/d/ dura_
ere.cfm.

CONN, H.J., JW, BARTHOLOMEW, and MW JENNISON. 1957. staining Methods.
In: HJ Conn and MW Jennison. Manual of Microbiological Methods. McGraw-
Hill Book Co., New York. Pp 10-18.

DIANESE, J.C. and N.W. SCHAAD. 1982. Isolation and characterization of inner and
outer membranes of Xanthomonas campestris pv.campestris. Phytopathology
72:1284-1289.

DUNCAN, J.M. and L. TORRANCE. 1992. Techniques for the Rapid Detection of Plant
Pathogens. Blackwell Scientific Publication, USA.

GREGERSON T., Rapid Method for distinction of gram negative from positive bacteria.
Eurj Appl Microbial Biotechnology. Pp 123-127.

HOLT, J.G., P.H.A. SNEATH, J.J. STALEY and S.T. WILLIAMS. 1994 Bergey’s
Manual of Determinative Bacteriology. Baltimore, Maryland: Williams and
Wilkins. Pp. 100, 173.

INTERNATIONAL SOCIETY OF PLANT PROTECTION. 2001. Bacterial Names.
Posted at http://www.isppweb.org/names_bacterial_xant.asp.

MERCK. 2003. In Vitro Diagnosticum. Version 2003-0-21. Darmstadt, Germany: Merck
Kgaa, 64271. Posted at www.merck.de.
The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
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NATIONAL COLLECTION OF PLANT PATHOGENIC BACTERIA. 2005.
Xanthomonas campestris pv.
durantae. Posted at
http://www.ncppb.com/ncppbresult.cfm.

PELCZAR, M. J. JR., E.C.S. CHAN and N.R. KREIG. 1993. Microbiology: Concepts
and Application. New York, USA. Pp 76-80

RAYMUNDO, A.K., I.F. DALMACIO and A.F. ZAMORA. 1991. Manual of
Microbiological Techniques. Los Banos Laguna: UPLB and TLRC. Pp 87-89.

SCHAAD, N.W. and R.E. STALL. 1998. Xanthomonas.In: Laboratory Guide for
Identificaiton fo Plant Pathogenic Bacteria. End ed. N.W. Schaad (ed). St. Paul,
Minnesota: APS Press. Pp 81-94.

SCHAAD, N. W. 1998. Laboratory Guide for the Identification of Plant Pathogenic
Bacteria. 2nd ed. APS Press, St. Paul Minnesota.

STEINER, M. L 1986. Philippine Ornamental Plants. Atlag, Malolos, Bulacan Erian
Press. Pp 79-80

SUKHIRAM. Posted at sukhiram.blogdrive.com/archive/cm-7_cy-2004_m-3_d-1_y-
2004_o-0.html

SWINGS, J.G. and E.L. CIVEROLO (eds). 1993. Xanthomonas. London, UK: Chapman
and Hall. P. 410.

TANGONAN, N. G. 1999. Host Index of Plant Diseases in the Philippines. 3rd ed.
Philippine Rice Research Institute, Muñoz, Nueva Ecija.

The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
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APPENDICES

A. YEAST EXTRACT DEXTROSE CACO3 AGAR (YDCA)
Components
g/l
Peptone 2.0 g
Dextrose (glucose) 20.0 g
Calcium carbonate, USP light powder 20.0 g
Agar 15 g
Sterile distilled water 1000 ml- 500 ml

B. KING’S MEDUIM B AGAR (KMBA)

Components

g/l

Protease peptone 20.0 g
K2HPO4 1.5 G
MgSO47H2O 1.5 g
Agar 15.0 g

C. NUTRIENT GLUCOSE AGAR (NGA)

Components

g/l

Agar 20.0 g
Glucose 2.5 g

D. SUCROSE PEPTONE AGAR (SPA)

Components

g/l

Sucrose 20.0 g
Peptone 5 g
K2HPO4 0.5 g
MgSO47H2O 0.25 g
Agar 15 g

Adjust to pH 7.2

E. XANTHOMONAS ISOLATION MEDIUM (XIM)

Components

g/l

Cellobiose

10.0 g
NaH2PO4

0.5 g
The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
/ Dexter B. Bacdangan. 2006

21
MgSO47H2O

0.3
g
K2HPO4

3.0
g
NH4Cl

1.0
g
Agar 15.0 g

F. STARCH AGAR

Components

g/l

Soluble starch 10.0 g
NH4H2PO4 0.5 g
NaCl 5.0 g
Water 1 liter
Yeast Extract 5.0 g
MgSO4.7H20 0.2 g
Agar 15 g

pH to 6.8

G. HUGH AND LEIFSON AGAR (ANAEROBIC GROWTH)

Components

g/l

Peptone 2.0 g
NaCl 5.0 g
K2HPO4 0.3 g
Agar 3.0
Bromthymol blue (1% aqueous solution) 3 ml
pH
7.1

The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
/ Dexter B. Bacdangan. 2006

Document Outline

The Angular Spot of Golden Bush (Duranta repens L.): A Bacterial Disease
- BIBLIOGRAPHY
- ABSTRACT
- TABLE OF CONTENT
- INTRODUCTION
- REVIEW OF LITERATURE
  - Host
  - Diseases Caused by Bacteria
- MATERIALS AND METHODS
- RESULTS AND DISCUSSION
  - Disease Symptoms
  - Cultural Characteristics
  - Gram Stain Reaction
  - KOH Test
  - Motility Test
  - Physiological Characteristics
  - Anaerobic Growth Test
  - Pathogenicity Test Result
- SUMMARY, CONCLUSION AND RECOMMENDATIONS
- LITERATURE CITED
- APPENDICES