Agriculture Reference
In-Depth Information
References
Achuo EA, Prinsen E, Hofte M. Influence of drought, salt stress and abscisic acid on the
resistance of tomato to
Botrytis cinerea
and
Oidium neolycopersici
. Plant Pathol.
2006;55:178-86.
Adie BA, P←rez-P←rez J, P←rez-P←rez MM, Godoy M, Sánchez-Serrano JJ, Schmelz EA, Solano
R. ABA is an essential signal for plant resistance to pathogens affecting JA biosynthesis and
the activation of defenses in
Arabidopsis
. Plant Cell. 2007;19:1665-81.
Alazem M, Lin KY, Lin NS. The abscisic acid pathway has multifaceted effects on the accumula-
tion of Bamboo mosaic virus. Mol Plant Microbe Interact. 2014;27:177-89.
Anderson JP, Badruzsaufari E, Schenk PM, Manners JM, Desmond OJ, Ehlert C, Maclean
DJ, Ebert PR, Kazan K. Antagonistic interaction between abscisic acid and jasmonate-
ethylene signaling pathways modulates defense gene expression and disease resistance in
Arabidopsis
. Plant Cell. 2004;16:3460-79.
Asselbergh B, Curvers K, Franca SC, Audenaert K, Vuylsteke M, Van Breusegem F, Hfte M.
Resistance to Botrytis cinerea in sitiens, an abscisic acid-deficient tomato mutant, involves
timely production of hydrogen peroxide and cell wall modifications in the epidermis. Plant
Physiol. 2007;144:1863-77.
Asselbergh B, Achuo EA, Hfte M, Van Gijsegem F. Abscisic acid-deiciency leads to rapid acti-
vation of tomato defense responses upon infection with
Erwinia chrysanthemi
. Mol Plant
Pathol. 2008;9:11-24.
Audenaert K, De Meyer GB, Hofte MM. Abscisic acid determines basal susceptibility of tomato
to
Botrytis cinerea
and suppresses salicylic acid-dependent signaling mechanisms. Plant
Physiol. 2002;128:491-501.
Ballar← CL. Jasmonate-induced defenses: a tale of intelligence, collaborators and rascals. Trends
Plant Sci. 2011;16:249-57.
Blanco-Ulate B, Vincenti E, Powell AL, Cantu D. Tomato transcriptome and mutant analyses
suggest a role for plant stress hormones in the interaction between fruit and
Botrytis cinerea
.
Front Plant Sci. 2013;4:142.
Bodenhausen N, Reymond P. Signaling pathways controlling induced resistance to insect herbi-
vores in
Arabidopsis
. Mol Plant-Microbe Interact. 2007;20:1406-20.
Burgyán J, Havelda Z. Viral suppressors of RNA silencing. Trends Plant Sci. 2011;16:265-72.
Cao FY, Yoshioka K, Desveaux D. The roles of ABA in plant-pathogen interactions. J Plant Res.
2011;124:489-99.
Chan Z. Expression profiling of ABA pathway transcripts indicates crosstalk between abiotic and
biotic stress responses in
Arabidopsis
. Genomics. 2012;100:110-5.
Chen WJ, Zhu T. Networks of transcription factors with roles in environmental stress response.
Trends Plant Sci. 2004;9:591-6.
Chen LT, Wu K. Role of histone deacetylases HDA6 and HDA19 in ABA and abiotic stress
response. Plant Signal Behav. 2010;5:1318-20.
Chen H, Zhang Z, Teng K, Lai J, Zhang Y, Huang Y, Li Y, Liang L, Wang Y, Chu C, Guo H, Xie
Q. Up-regulation of LSB1/GDU3 impacts geminivirus infection by activating the salicylic
acid pathway. Plant J. 2010;62:12-23.
Chen L, Song Y, Li S, Zhang L, Zou C, Yu D. The role of WRKY transcription factors in plant
abiotic stresses. Biochim Biophys Acta. 2012;1819:120-8.
Chen L, Zhang L, Li D, Wang F, Yu D. WRKY8 transcription factor functions in the TMV-cg
defense response by mediating both abscisic acid and ethylene signaling in
Arabidopsis
.
Proc Natl Acad Sci USA. 2013;110:E1963-71.
Chisholm ST, Coaker G, Day B, Staskawicz BJ. Host-microbe interactions: shaping the evolution
of the plant immune response. Cell. 2006;124:803-14.
Cui X, Fan B, Scholz J, Chen Z. Roles of
Arabidopsis
cyclin-dependent kinase C com-
plexes in cauliflower mosaic virus infection, plant growth, and development. Plant Cell.
2007;19:1388-402.
Search WWH ::
Custom Search