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Huwei Sun

Researcher at Henan Agricultural University

Publications -  24
Citations -  842

Huwei Sun is an academic researcher from Henan Agricultural University. The author has contributed to research in topics: Auxin & Strigolactone. The author has an hindex of 11, co-authored 15 publications receiving 537 citations. Previous affiliations of Huwei Sun include Nanjing Agricultural University.

Papers
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Journal ArticleDOI

Strigolactones are involved in phosphate- and nitrate-deficiency-induced root development and auxin transport in rice

Huwei Sun, +8 more
- 01 Dec 2014 - 
TL;DR: The role of SLs in regulating rice root development under phosphate and nitrate limitation is highlighted and the mechanisms underlying this regulatory role involve D3 and modulation of auxin transport from shoots to roots.
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Nitric oxide generated by nitrate reductase increases nitrogen uptake capacity by inducing lateral root formation and inorganic nitrogen uptake under partial nitrate nutrition in rice

Huwei Sun, +8 more
- 01 May 2015 - 
TL;DR: NO generated by nitrate reductase plays a pivotal role in improving N-use efficiency by increasing lateral root initiation and inorganic N uptake, representing a strategy for rice to adapt to fluctuating nitrate supply.
Journal ArticleDOI

Strigolactones are required for nitric oxide to induce root elongation in response to nitrogen and phosphate deficiencies in rice

Huwei Sun, +13 more
- 01 Jul 2016 - 
TL;DR: No responses of root elongation were observed in SL d mutants compared with wild-type plants, although similar NO accumulation was induced by sodium nitroprusside (SNP) application and Western blot analysis revealed that NO, similar to SL, triggered proteasome-mediated degradation of D53 protein levels.
Journal ArticleDOI

A strigolactone signal is required for adventitious root formation in rice.

Huwei Sun, +11 more
- 01 Jun 2015 - 
TL;DR: The results indicate that rice AR production is positively regulated by SLs via the D3 response pathway, and suggests the importance of auxin for AR formation, but the interaction between auxin and SLs is complex.
Journal ArticleDOI

A Transcription Factor, OsMADS57, Regulates Long-Distance Nitrate Transport and Root Elongation.

Shuangjie Huang, +7 more
- 01 Jun 2019 - 
TL;DR: OsMADS57 has a role in regulating nitrate translocation from root to shoot via OsNRT2.3a, and seminal root elongation was inhibited in osmads57 mutants, which may be associated with higher auxin levels in and auxin polar transport to root tips of mutant plants.