Balancing nitrate acquisition strategies in symbiotic legumes

Rahmat, Zainab; Sohail, Muhammad Nouman; Perrine‐Walker, Francine; Kaiser, Brent N.

doi:10.1007/s00425-023-04175-3

Cited by 2 publications

(1 citation statement)

References 180 publications

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“…The Pi concentration in leaves under low-Pi conditions were significantly lower than that under control and low nitrate conditions ( Figure 3 a). MtNRT2.1, a major high-affinity nitrate transporter, is the major contributor to nitrate uptake in the roots under nitrogen-limited conditions [ 40 ]. The transcript levels of MtNRT2;1 were increased under low-nitrate treatments ( Figure 3 b).…”

Section: Resultsmentioning

confidence: 99%

Differential Responses of Medicago truncatula NLA Homologs to Nutrient Deficiency and Arbuscular Mycorrhizal Symbiosis

Lin,

Yang,

Hsieh

et al. 2023

Plants

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NITROGEN LIMITATION ADAPTATION (NLA), a plasma-membrane-associated ubiquitin E3 ligase, plays a negative role in the control of the phosphate transporter family 1 (PHT1) members in Arabidopsis and rice. There are three NLA homologs in the Medicago truncatula genome, but it has been unclear whether the function of these homologs is conserved in legumes. Here we investigated the subcellular localization and the responses of MtNLAs to external phosphate and nitrate status. Similar to AtNLA1, MtNLA1/MtNLA2 was localized in the plasma membrane and nucleus. MtNLA3 has three alternative splicing variants, and intriguingly, MtNLA3.1, the dominant variant, was not able to target the plasma membrane, whereas MtNLA3.2 and MtNLA3.3 were capable of associating with the plasma membrane. In contrast with AtNLA1, we found that MtNLAs were not affected or even upregulated by low-phosphate treatment. We also found that MtNLA3 was upregulated by arbuscular mycorrhizal (AM) symbiosis, and overexpressing MtNLA3.1 in Medicago roots resulted in a decrease in the transcription levels of STR, an essential gene for arbuscule development. Taken together, our results highlight the difference between MtNLA homologs and AtNLA1. Further characterization will be required to reveal the regulation of these genes and their roles in the responses to external nutrient status and AM symbiosis.

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Section: Resultsmentioning

confidence: 99%

Differential Responses of Medicago truncatula NLA Homologs to Nutrient Deficiency and Arbuscular Mycorrhizal Symbiosis

Lin,

Yang,

Hsieh

et al. 2023

Plants

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Root colonization by beneficial rhizobacteria

Liu,

Xu,

Chen

et al. 2023

FEMS Microbiology Reviews

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Rhizosphere microbes play critical roles for plant's growth and health. Among them, the beneficial rhizobacteria have the potential to be developed as the biofertilizer or bioinoculants for sustaining the agricultural development. The efficient rhizosphere colonization of these rhizobacteria is a prerequisite for exerting their plant beneficial functions, but the colonizing process and underlying mechanisms have not been thoroughly reviewed, especially for the non-symbiotic beneficial rhizobacteria. This review systematically analyzed the root colonizing process of the non-symbiotic rhizobacteria and compared it with that of the symbiotic and pathogenic bacteria. This review also highlighted the approaches to improve the root colonization efficiency and proposed to study the rhizobacterial colonization from a holistic perspective of the rhizosphere microbiome under more natural conditions.

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Balancing nitrate acquisition strategies in symbiotic legumes

Cited by 2 publications

References 180 publications

Differential Responses of Medicago truncatula NLA Homologs to Nutrient Deficiency and Arbuscular Mycorrhizal Symbiosis

Differential Responses of Medicago truncatula NLA Homologs to Nutrient Deficiency and Arbuscular Mycorrhizal Symbiosis

Root colonization by beneficial rhizobacteria

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