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Liu X, Bai X, Wang X, Chu C (2007) OsWRKY71, a rice
transcription factor, is involved in rice defense response.
J Plant Physiol
164(8):969-979.
Luo L, Mei H, Zhao X, Zhong D, Wang Y, Yu X, Ying
C, Li ZK, Paterson AH, Wang DL, Tabien RE, Zhu L,
Stansel JW (1998) RFLP mapping and race specificity
of bacterial blight resistance genes (QTLs) in rice.
Sci
China C Life Sci
41(5):542-547.
Martin GB, Bogdanove AJ, Sessa G (2003) Understanding
the functions of plant disease resistance proteins.
Ann
Rev Plant Biol
54:23-61.
Miao LL, Wang CL, Zheng CK, Che JY, Gao Y, Wen YC, Li
GQ, Zhao KJ (2010) Molecular mapping of a new gene
for resistance to rice bacterial blight.
Scientia Agricultura
Sinica
43(15):3051-3058.
Mizukami T (1961) Studies on the ecological properties of
Xanthomonas oryzae
(Uyeda et Ishiyama) Dowson, the
causal organism of bacterial leaf blight of rice plant (in
Japanese with English summary).
Science Bulletin of the
Faculty of Agriculture Saga University
13:1-85.
Nayak D, Bose LK, Singh UD, Singh S, Nayak P (2008)
Measurement of genetic diversity of virulence in pop-
ulations of
Xanthomonas oryzae
pv.
oryzae
in India.
Communications in Biometry and Crop Science
3(1):
16-28.
Ni no-Liu DO, Ronald PC, Bogdanove AJ (2006)
Xan-
thomonas oryzae
pathovars: model pathogens of a model
crop.
Mol Plant Pathol
7(5):303-324.
Noda O (1989) A new pathogenic race of
Xanthomonas
campestris
pv.
oryzae
and its inheritance of differential
rice variety Tetep to it.
Annals of the Phytopathological
Society of Japan
55:201-207.
Noda T, Saito Z, Iwasaki S, Ohuchi A (1989) Isolation
and structural elucidation of phytotoxic substances pro-
duced by
Xanthomonas campestris
pv.
oryzae
.
Bulletin
of the Hokuriku National Agriculture Experiment Station
30:105-129.
Ochiai H, Inoue Y, Takeya M, Sasaki A, Kaku H (2005)
Genome sequence of
Xanthomonas oryzae
pv.
oryzae
suggests contribution of large numbers of effector genes
and insertion sequences to its race diversity.
Japan Agric
Res Q
39(4):275-287.
Ogawa T, Kaku H, Yamamoto T (1989) A resistance gene of
rice cultivar Asaminori to bacterial blight of rice.
Jpn J
Breed
39(suppl. 1):196-197.
Ogawa T, Lin L, Tabien RE, Khush GS (1987) A new reces-
sive gene for bacterial blight resistance in rice.
Rice Genet
Newsl
4:98-100.
Ogawa T, Morinaka T, Fujii K, Kimura T (1978) Inheritance
of resistance to rice varieties Kogyoku and Java 14.
Annu
Phytopathol Soc Jpn
49:69-72.
Ogawa T, Yamamoto T (1986) Inheritance of resistance of
bacterial blight in rice. In: Rice genetics. IRRI, Manila.
Ono E, Wong HL, Kawasaki T, Hasegawa M, Kodama O,
Shimamoto K (2001) Essential role of the small GTPase
Rac in disease resistance of rice.
Proc Natl Acad Sci USA
98(2):759-764.
Ou SH (1985) Rice diseases. 2nd ed. Commonwealth Myco-
logical Institute, Kew, Surrey, England.
Park CJ, Bart R, Chern M, Canlas PE, Bai W, Ronald PC
(2010a) Overexpression of the endoplasmic reticulum
chaperone
BiP3
regulates XA21-mediated innate immu-
nity in rice.
PLoS One
5(2):e9262.
Park CJ, Lee SW, Chern M, Sharma R, Canlas PE, Song MY,
Jeon JS, Ronald PC (2010b) Ectopic expression of rice
Xa21
overcomes developmentally controlled resistance
to
Xanthomonas oryzae
pv.
oryzae
.
Plant Sci
179(5):466-
471.
Park CJ, Peng Y, Chen X, Dardick C, Ruan D, Bart R, Canlas
PE, Ronald PC (2008) Rice XB15, a protein phosphatase
2C, negatively regulates cell death and XA21-mediated
innate immunity.
PLoS Biol
6(9):e231.
Peng Y, Bartley LE, Chen X, Dardick C, Chern M, Ruan
R, Canlas PE, Ronald PC (2008) OsWRKY62 is a
negative regulator of basal and Xa21-mediated defense
against
Xanthomonas oryzae
pv.
oryzae
in rice.
Mol Plant
1(3):446-458.
Premalatha DA, Devadath S (1983) Role of inoculum in
irrigation water and soil in the incidence of bacterial
blight of rice.
Indian Phytopathol
36(1):142-144.
Qiu D, Xiao J, Ding X, Xiong M, Cai M, Cao Y, Li X, Xu C,
Wang S (2007) OsWRKY13 mediates rice disease resis-
tance by regulating defense-related genes in salicylate-
and jasmonate-dependent signaling.
Mol Plant Microbe
Interact
20(5):492-499.
Reddy MTS, Reddy APK (1990) Variability in
Xanthomonas
campestris
pv.
oryzae
and their relationship to physiolog-
ical characters.
Indian J Mycol Plant Pathol
20(3):265-
267.
R omer P, Recht S, Strauss T, Elsaesser J, Schornack S, Boch
J, Wang S, Lahaye T (2010) Promoter elements of rice
susceptibility genes are bound and activated by specific
TAL effectors from the bacterial blight pathogen,
Xan-
thomonas oryzae
pv.
oryzae
.
New Phytol
87(4):1048-
1057.
Salzberg SL, Sommer DD, Schatz MC, Phillippy AM, Rabi-
nowicz PD, Tsuge S, Furutani A, Ochiai H, Delcher AL,
Kelley D, Madupu R, Puiu D, Radune D, Shumway M,
Trapnell C, Aparna G, Jha G, Pandey A, Patil PB, Ishi-
hara H, Meyer DF, Szurek B, Verdier V, Koebnik R,
Dow JM, Ryan RP, Hirata H, Tsuyumu S, Won Lee S,
Seo YS, Sriariyanum M, Ronald PC, Sonti RV, Van Sluys
MA, Leach JE, White FF, Bogdanove AJ (2008) Genome
sequence and rapid evolution of the rice pathogen
Xan-
thomonas oryzae
pv.
oryzae
PXO99A.
BMC Genomics
9(1):204.
Satchell KF (2011) Structure and function of MARTX tox-
ins and other large repetitive RTX proteins.
Annu Rev
Microbiol
65:71-90.
Seo YS, Chern M, Bartley LE, Han M, Jung KH, Lee I, Walia
H, Richter T, Xu X, Cao P, Bai W, Ramanan R, Park CJ,
Chen X, Hwang S, Jeon JS, Ronald PC (2011) Towards
establishment of a rice stress response interactome.
PLoS
Genet
7(4):e1002020.
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