参考文献/References:
[1] Boller T, Felix G. A renaissance of elicitors: Perception of
Microbe- Associated molecular patterns and danger signals by
Pattern- Recognition receptors [J]. Annual Review of Plant
Biology, 2009, 60(6): 379-406.
[2] Robatzek S, Chinchilla D, Boller T. Ligand-induced endocytosis
of the pattern recognition receptor FLS2 in Arabidopsis [J].
Genes & Development, 2006, 20(5):537-542.
[3] Xu N, Luo X M, Wu W, et al. A plant lectin receptor-like kinase
phosphorylates the bacterial effector AvrPtoB to dampen its
virulence in Arabidopsis [J]. Molecular Plant, 2020, 13:1499-
1512.
[4] Liu B, Li J F, Ao Y, et al. Lysin motif-containing proteins LYP4
and LYP6 play dual roles in peptidoglycan and chitin perception
in rice innate immunity [J]. The Plant Cell, 2012, 24(8): 3406-
3419.
[5] Shimizu T, Nakano T, Takamizawa D, et al. Two LysM receptor
molecules, CEBiP and OsCERK1, cooperatively regulate chitin
elicitor signaling in rice [J]. Plant Journal, 2010, 64(2): 204-
214.
[6] Schulze B, Mentzel T, Jehle A K, et al. Rapid heteromerization
and phosphorylation of ligand- activated plant transmembrane
receptors and their associated kinase BAK1 [J]. Journal of
Biological Chemistry, 2010, 285(13): 9444-9451.
[7] Pruitt R N, Locci F, Wanke F, et al. The EDS1- PAD4- ADR1
node mediates Arabidopsis pattern- triggered immunity[J].
Nature, 2021,598:495-499.
[8] Wang J C, Liu X, Zhang A, et al. A cyclic nucleotide- gated
channel mediates cytoplasmic calcium elevation and disease
resistance in rice[J]. Cell Research, 2019, 29(10): 820-831.
[9] Bi G Z, Zhou Z Y, Wang W B, et al. Receptor-like cytoplasmic
kinases directly link diverse pattern recognition receptors to the
activation of mitogen- activated protein kinase cascades in
Arabidopsis[J]. The Plant Cell, 2018, 30(7): 1543-1561.
[10] Wang L J, Guo D Z, Zhao G D, et al. Group Ⅱ c WRKY
transcription factors regulate cotton resistance to Fusarium
oxysporum by promoting GhMKK2- mediated flavonoid
biosynthesis[J]. New Phytologist, 2022.
[12] Kimura S, Hunter K, Vaahtera L, et al. CRK2 and C- terminal
Phosphorylation of NADPH Oxidase RBOHD Regulate
Reactive Oxygen Species Production in Arabidopsis[J]. The
Plant Cell, 2020, 32(4): 1063-1080.
[13] Yoshida K, Saitoh H, Fujisawa S, et al. Association Genetics
Reveals Three Novel Avirulence Genes from the Rice Blast
Fungal Pathogen Magnaporthe oryzae [J]. The Plant Cell, 2009,
21(5): 1573-1591.
[14] Nomura K, Mecey C, Lee Y N, et al. Effector- triggered
immunity blocks pathogen degradation of an immunityassociated
vesicle traffic regulator in Arabidopsis [J].
Proceedings of the National Academy of Sciences, 2011, 108
(26): 10774-10779.
[15] Yang Q J, Guo J H, Zeng H R, et al. The receptor- like
cytoplasmic kinase CDG1 negatively regulates Arabidopsis
pattern- triggered immunity and is involved in AvrRpm1-
induced RIN4 phosphorylationJ]. The Plant Cell, 2021, 33(4):
1341-1360.
[16] Wang N, Tang C L, Fan X, et al. Inactivation of a Wheat Protein
Kinase Gene Confers Broad-Spectrum Resistance to Rust Fungi
[J]. Cell, 2022, 185(16): 2961-2974.e19. .
[17] Eitas T K, Dangl J L. NB- LRR proteins: pairs, pieces,
perception, partners, and pathways [J]. Current Opinion in Plant Biology, 2010, 13(4): 472-477.
[18] Steinbrenner A D, Goritschnig S, Staskawicz B J. Recognition
and activation domains contribute to allele- specific responses
of an Arabidopsis NLR receptor to an oomycete effector protein
[J]. PLoS Pathogens, 2015, 11(2): 1-19.
[19] Jones J D G, Dangl J L. Plant pathogens and integrated defence
responses to infection [J]. Nature, 2001, 411(6839): 826-833.
[20] Cesari S, Bernoux M, Moncuquet P, et al. A novel conserved
mechanism for plant NLR protein pairs: the“integrated decoy”
hypothesis [J]. Frontiers in Plant Science, 2014, 5(11): 1-10.
[21] Eichmann R, Sch?fer P. The endoplasmic reticulum in plant
immunity and cell death [J]. Frontiers in Plant Science, 2012, 3
(8):1-6.