The type III effector NopL interacts with GmREM1a and GmNFR5 to promote symbiosis in soybean
C Ma, J Wang, Y Gao, X Dong, H Feng, M Yang… - Nature …, 2024 - nature.com
The establishment of symbiotic interactions between leguminous plants and rhizobia
requires complex cellular programming activated by Rhizobium Nod factors (NFs) as well as …
requires complex cellular programming activated by Rhizobium Nod factors (NFs) as well as …
A comprehensive review of soybean RNL and TIR domain proteins
J Chakraborty - Plant Molecular Biology, 2024 - Springer
Both prokaryotic and eukaryotic organisms use the nucleotide-binding domain/leucine-rich
repeat (NBD/LRR)-triggered immunity (NLR-triggered immunity) signaling pathway to …
repeat (NBD/LRR)-triggered immunity (NLR-triggered immunity) signaling pathway to …
Genetic and transcriptomic analysis of the Bradyrhizobium T3SS‐triggered nodulation in the legume Aeschynomene evenia
A Camuel, D Gully, M Pervent, A Teulet… - New …, 2024 - Wiley Online Library
Some Bradyrhizobium strains nodulate certain Aeschynomene species independently of
Nod factors, but thanks to their type III secretion system (T3SS). While different T3 effectors …
Nod factors, but thanks to their type III secretion system (T3SS). While different T3 effectors …
[HTML][HTML] TtsI: Beyond Type III Secretion System Activation in Rhizobia
The expression of the rhizobial symbiotic genes is controlled by various transcriptional
regulators. After induction with appropriate plant flavonoids, NodD is responsible for the …
regulators. After induction with appropriate plant flavonoids, NodD is responsible for the …
A new type III effector from Bradyrhizobium sp. DOA9 encoding a putative SUMO-protease blocks nodulation in Arachis hypogaea L.
B Aphaiso, P Piromyou, P Boonchuen… - Scientific Reports, 2024 - nature.com
Effector proteins secreted via the type III secretion system (T3SS) of nitrogen-fixing rhizobia
are key determinants of symbiotic compatibility in legumes. Previous report revealed that the …
are key determinants of symbiotic compatibility in legumes. Previous report revealed that the …
Nodulating Aeschynomene indica without Nod Factor Synthesis Genes: In Silico Analysis of Evolutionary Relationship
M Zhao, J Dong, Z Zhang, E Wang, D Wang, H **e… - Agronomy, 2024 - mdpi.com
Aeschynomene indica rhizobia (AIRs) are special classes of bacteria capable of nodulating
without nodulation factors and have photosynthetic capacity. With an aim to characterize the …
without nodulation factors and have photosynthetic capacity. With an aim to characterize the …
Bradyrhizobium ontarionense sp. nov., a novel bacterial symbiont isolated from Aeschynomene indica (Indian jointvetch), harbours photosynthesis, nitrogen fixation and nitrous …
A novel bacterial symbiont, strain A19T, was previously isolated from a root-nodule of
Aeschynomene indica and assigned to a new lineage in the photosynthetic clade of the …
Aeschynomene indica and assigned to a new lineage in the photosynthetic clade of the …
Enacting partner specificity in legume–rhizobia symbioses
X Yu, H Zhu - aBIOTECH, 2024 - Springer
Legumes, such as peas, beans, and alfalfa, have evolved a remarkable ability to establish
root nodule symbioses with nitrogen-fixing soil bacteria to fulfill their nitrogen needs. This …
root nodule symbioses with nitrogen-fixing soil bacteria to fulfill their nitrogen needs. This …
ダイズ Rj 遺伝型と根粒共生
福永省吾, 岡崎伸 - 土と微生物, 2024 - jstage.jst.go.jp
大豆 (ダイズ) は食用, 搾油用, 飼料用として世界で最も重要な作物の一つである.
マメ科植物であるダイズ (Glyine max (L.) Merr.) は, 根粒菌と共生関係を結ぶことで根に根粒と …
マメ科植物であるダイズ (Glyine max (L.) Merr.) は, 根粒菌と共生関係を結ぶことで根に根粒と …
Correlating phylogenetic and functional diversity of the nod-free but nodulating Bradyrhizobium phylogroup
Bradyrhizobium is a main rhizobial lineage of which most members nodulate legume plants
using Nod factors (NFs) synthetized by the nod genes. However, members of the …
using Nod factors (NFs) synthetized by the nod genes. However, members of the …