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2.
Ying Yong Sheng Tai Xue Bao ; 25(3): 903-10, 2014 Mar.
Article in Chinese | MEDLINE | ID: mdl-24984513

ABSTRACT

The arbuscular mycorrhiza (AM) is the symbiont formed by the host plant and the arbuscular mycorrhizal fungi (AMF). The transfer and metabolism of C and N in the symbiosis plays an important role in keeping nutrient balance and resource reallocation between the host plant and the fungi. The carbohydrates produced by plant photosynthesis are transferred to the fungi, where they are metabolized as materials and energy used for fungal spore germination, mycelium growth and uptake of nitrogen and other nutrients. At the same time, N is transferred and reallocated from the fungi to the host plant, where the final released ammonium is used for plant growth. Accordingly, we reviewed the current progress in C and N transfer and metabolism in the AM symbiosis, and the crosstalk between them as well as some key issues to elucidate the mechanism of the interaction between C and N transport in the symbiosis, so as to provide the theory foundation for the application of AM in sustainable agriculture and ecosystem.


Subject(s)
Carbon/metabolism , Mycorrhizae/metabolism , Nitrogen/metabolism , Plants/microbiology , Symbiosis , Biological Transport , Photosynthesis , Plant Development , Spores, Fungal
3.
Plant Physiol Biochem ; 71: 87-95, 2013 Oct.
Article in English | MEDLINE | ID: mdl-23896605

ABSTRACT

We performed an experiment to determine how N and C metabolism is involved in the low-temperature tolerance of mycorrhizal rice (Oryza sativa) at different N levels and examined the possible signaling molecules involved in the stress response of mycorrhizal rice. Pot cultures were performed, and mycorrhizal rice growth was evaluated based on treatments at two temperatures (15 °C and 25 °C) and two N levels (20 mg pot(-1) and 50 mg pot(-1)). The arbuscular mycorrhizal fungi (AMF) colonization of rice resulted in different responses of the plants to low and high N levels. The mycorrhizal rice with the low N supplementation had more positive feedback from the symbiotic AMF, as indicated by accelerated N and C metabolism of rice possibly involving jasmonic acid (JA) and the up-regulation of enzyme activities for N and C metabolism. Furthermore, the response of the mycorrhizal rice plants to low temperature was associated with P uptake and nitric oxide (NO).


Subject(s)
Carbon/metabolism , Mycorrhizae/metabolism , Mycorrhizae/physiology , Nitrogen/metabolism , Oryza/microbiology , Oryza/physiology , Temperature , Oryza/metabolism
4.
Ying Yong Sheng Tai Xue Bao ; 24(3): 861-8, 2013 Mar.
Article in Chinese | MEDLINE | ID: mdl-23755506

ABSTRACT

Arbuscular mycorrhizal fungi (AMF) can form mutually beneficial relations with more than 80% of vascular plants, and the existence of the symbiote is of significance in promoting the growth and stress tolerance of host plants. AMF can obtain the photosynthate carbohydrates from host plants, and in the meantime, effectively promote the nitrogen (N) uptake by host plants via the absorption of various N sources by mycorrhiza mycelia, resulting in the N exchange at population or community level, the improvement of host plants nutrition and metabolism, and the strengthening of the stress tolerance of host plants. However, there are still in debates in which ways the symbiote absorbs and transfers N and what the mechanisms the N metabolism and translocation from AMF to host plants. This paper reviewed the mechanisms of N metabolism and translocation in the symbiote and the effects of carbon and phosphorous on the N metabolism and translocation. The roles of AMF in the N allocation in host plants and the related ecological significance at community and ecosystem levels were briefly elucidated, and some issues to be further studied on the N metabolism in the symbiote were addressed.


Subject(s)
Ecosystem , Mycorrhizae/metabolism , Nitrogen/metabolism , Plants/metabolism , Root Nodules, Plant/metabolism , Plant Physiological Phenomena , Symbiosis
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