TY - JOUR
T1 - Ethylene is not essential for r-gene mediated resistance but negatively regulates moderate resistance to some aphids in medicago truncatula
AU - Zhang, Lijun
AU - Kamphuis, Lars G.
AU - Guo, Yanqiong
AU - Jacques, Silke
AU - Singh, Karam B.
AU - Gao, Ling Ling
PY - 2020/7/1
Y1 - 2020/7/1
N2 - Ethylene is important for plant responses to environmental factors. However, little is known about its role in aphid resistance. Several types of genetic resistance against multiple aphid species, including both moderate and strong resistance mediated by R genes, have been identified in Medicago truncatula. To investigate the potential role of ethylene, a M. truncatula ethylene-insensitive mutant, sickle, was analysed. The sickle mutant occurs in the accession A17 that has moderate resistance to Acyrthosiphon kondoi, A. pisum and Therioaphis trifolii. The sickle mutant resulted in increased antibiosis-mediated resistance against A. kondoi and T. trifolii but had no effect on A. pisum. When sickle was introduced into a genetic background carrying resistance genes, AKR (A. kondoi resistance), APR (A. pisum resistance) and TTR (T. trifolii resistance), it had no effect on the strong aphid resistance mediated by these genes, suggesting that ethylene signaling is not essential for their function. Interestingly, for the moderate aphid resistant accession, the sickle mutant delayed leaf senescence following aphid infestation and reduced the plant biomass losses caused by both A. kondoi and T. trifolii. These results suggest manipulation of the ethylene signaling pathway could provide aphid resistance and enhance plant tolerance against aphid feeding.
AB - Ethylene is important for plant responses to environmental factors. However, little is known about its role in aphid resistance. Several types of genetic resistance against multiple aphid species, including both moderate and strong resistance mediated by R genes, have been identified in Medicago truncatula. To investigate the potential role of ethylene, a M. truncatula ethylene-insensitive mutant, sickle, was analysed. The sickle mutant occurs in the accession A17 that has moderate resistance to Acyrthosiphon kondoi, A. pisum and Therioaphis trifolii. The sickle mutant resulted in increased antibiosis-mediated resistance against A. kondoi and T. trifolii but had no effect on A. pisum. When sickle was introduced into a genetic background carrying resistance genes, AKR (A. kondoi resistance), APR (A. pisum resistance) and TTR (T. trifolii resistance), it had no effect on the strong aphid resistance mediated by these genes, suggesting that ethylene signaling is not essential for their function. Interestingly, for the moderate aphid resistant accession, the sickle mutant delayed leaf senescence following aphid infestation and reduced the plant biomass losses caused by both A. kondoi and T. trifolii. These results suggest manipulation of the ethylene signaling pathway could provide aphid resistance and enhance plant tolerance against aphid feeding.
KW - Disease resistance
KW - Herbivore
KW - Medicago truncatula
KW - Phytohormone
KW - Plant biotic stress
KW - Plant defense
KW - Plant signalling
UR - http://www.scopus.com/inward/record.url?scp=85087410672&partnerID=8YFLogxK
U2 - 10.3390/ijms21134657
DO - 10.3390/ijms21134657
M3 - Article
C2 - 32629952
AN - SCOPUS:85087410672
SN - 1661-6596
VL - 21
SP - 1
EP - 15
JO - International Journal of Molecular Sciences
JF - International Journal of Molecular Sciences
IS - 13
M1 - 4657
ER -