Mathias Brault
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Explore the profile of Mathias Brault including associated specialties, affiliations and a list of published articles.
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Articles
20
Citations
508
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Recent Articles
1.
Laffont C, Ivanovici A, Gautrat P, Brault M, Djordjevic M, Frugier F
Nat Commun
. 2025 Feb;
16(1):1290.
PMID: 39900596
No abstract available.
2.
Zhu F, Deng J, Chen H, Liu P, Zheng L, Ye Q, et al.
Plant Cell
. 2020 Sep;
32(9):2855-2877.
PMID: 32887805
Because of the large amount of energy consumed during symbiotic nitrogen fixation, legumes must balance growth and symbiotic nodulation. Both lateral roots and nodules form on the root system, and...
3.
Zhu F, Deng J, Chen H, Liu P, Zheng L, Ye Q, et al.
Plant Cell
. 2020 Jun;
PMID: 32586912
Because of the high energy consumed during symbiotic nitrogen fixation, legumes must balance growth and symbiotic nodulation. Both lateral roots and nodules form on the root system and the developmental...
4.
Laffont C, Ivanovici A, Gautrat P, Brault M, Djordjevic M, Frugier F
Nat Commun
. 2020 Jun;
11(1):3167.
PMID: 32576831
Legumes tightly regulate nodule number to balance the cost of supporting symbiotic rhizobia with the benefits of nitrogen fixation. C-terminally Encoded Peptides (CEPs) and CLAVATA3-like (CLE) peptides positively and negatively...
5.
Tan S, Sanchez M, Laffont C, Boivin S, Le Signor C, Thompson R, et al.
Plant Physiol
. 2020 May;
183(3):1319-1330.
PMID: 32376762
Nitrogen-fixing root nodulation in legumes challenged with nitrogen-limiting conditions requires infection of the root hairs by soil symbiotic bacteria, collectively referred to as rhizobia, and the initiation of cell divisions...
6.
Tan S, Debelle F, Gamas P, Frugier F, Brault M
BMC Genomics
. 2019 May;
20(1):373.
PMID: 31088345
Background: Legumes can establish on nitrogen-deprived soils a symbiotic interaction with Rhizobia bacteria, leading to the formation of nitrogen-fixing root nodules. Cytokinin phytohormones are critical for triggering root cortical cell...
7.
Fonouni-Farde C, Kisiala A, Brault M, Emery R, Diet A, Frugier F
Plant Physiol
. 2017 Oct;
175(4):1795-1806.
PMID: 29046420
In legume plants, low-nitrogen soils promote symbiotic interactions with rhizobial bacteria, leading to the formation of nitrogen-fixing root nodules. Among critical signals regulating this developmental process are bacterial Nod Factors...
8.
Gamas P, Brault M, Jardinaud M, Frugier F
Trends Plant Sci
. 2017 Jul;
22(9):792-802.
PMID: 28739135
Substantial progress has been made in the understanding of early stages of the symbiotic interaction between legume plants and rhizobium bacteria. Those include the specific recognition of symbiotic partners, the...
9.
Fonouni-Farde C, Tan S, Baudin M, Brault M, Wen J, Mysore K, et al.
Nat Commun
. 2016 Sep;
7:12636.
PMID: 27586842
Legumes develop symbiotic interactions with rhizobial bacteria to form nitrogen-fixing nodules. Bacterial Nod factors (NFs) and plant regulatory pathways modulating NF signalling control rhizobial infections and nodulation efficiency. Here we...
10.
Boivin S, Kazmierczak T, Brault M, Wen J, Gamas P, Mysore K, et al.
Plant Cell Environ
. 2016 Jun;
39(10):2198-209.
PMID: 27341695
Legume plants adapt to low nitrogen by developing an endosymbiosis with nitrogen-fixing soil bacteria to form a new specific organ: the nitrogen-fixing nodule. In the Medicago truncatula model legume, the...