Page 210 - 《广西植物》2023年第2期
P. 210
4 0 4 广 西 植 物 43 卷
CIPK11 ̄dependent phosphorylation modulates FIT activity to CoA 6′ ̄hydroxylase1 ̄dependent coumarins mediate iron
promote Arabidopsis iron acquisition in response to calcium acquisition from alkaline substrates in Arabidopsis [J]. Plant
signaling [J]. Dev Cellꎬ 48(5): 726-740. Physiolꎬ 164(1): 160-172.
GRATZ Rꎬ BRUMBAROVA Tꎬ IVANOV Rꎬ et al.ꎬ 2020. SCHWARZ Bꎬ BAUER Pꎬ 2020. FITꎬ a regulatory hub for iron
Phospho ̄mutant activity assays provide evidence for deficiency and stress signaling in rootsꎬ and FIT ̄dependent
alternative phospho ̄regulation pathways of the transcription and ̄independent gene signatures [J]. J Exp Botꎬ 71(5):
factor FER ̄LIKE IRON DEFICIENCY ̄INDUCED 1694-1705.
TRANSCRIPTION FACTOR [ J]. New Phytolꎬ 225 ( 1): SIVITZ Aꎬ GRINVALDS Cꎬ BARBERON Mꎬ et al.ꎬ 2011.
250-267. Proteasome ̄mediated turnover of the transcriptional activator
GRILLET Lꎬ SCHMIDT Wꎬ 2019. Iron acquisition strategies in FIT is required for plant iron ̄deficiency responses [J]. Plant
land plants: not so different after all [ J]. New Phytolꎬ Jꎬ 66(6): 1044-1052.
224(1): 11-18. SIVITZ ABꎬ HERMAND Vꎬ CURIE Cꎬ et al.ꎬ 2012.
GUERINOT MLꎬ YI Yꎬ 1994. Iron: Nutritiousꎬ noxiousꎬ and Arabidopsis bHLH100 and bHLH101 control iron homeostasis
not readily available [ J ]. Plant Physiolꎬ 104 ( 3 ): via a FIT ̄independent pathway [ J ]. PLoS ONEꎬ
815-820. 7(9): e44843.
JAKOBY Mꎬ WANG HYꎬ REIDT Wꎬ et al.ꎬ 2004. FRU SIWINSKA Jꎬ SIATKOWSKA Kꎬ OIRY Aꎬ et al.ꎬ 2018.
(BHLH029) is required for induction of iron mobilization Scopoletin 8 ̄hydroxylase: a novel enzyme involved in
genes in Arabidopsis thaliana [ J]. FEBS Lettꎬ 577 (3): coumarin biosynthesis and iron ̄deficiency responses in
528-534. Arabidopsis [J]. J Exp Botꎬ 69(7): 1735-1748.
LINGAM Sꎬ MOHRBACHER Jꎬ BRUMBAROVA Tꎬ et al.ꎬ TSAI HHꎬ RODRÍGUEZ ̄CELMA Jꎬ LAN Pꎬ et al.ꎬ 2018.
2011. Interaction between the bHLH transcription factor FIT Scopoletin 8 ̄hydroxylase ̄mediated fraxetin production is
and ETHYLENE INSENSITIVE3/ ETHYLENE INSENSITIVE3 ̄ crucial for iron mobilization [J]. Plant Physiolꎬ 177(1):
LIKE1 reveals molecular linkage between the regulation of iron 194-207.
acquisition and ethylene signaling in Arabidopsis [J]. Plant VAROTTO Cꎬ MAIWALD Dꎬ PESARESI Pꎬ et al.ꎬ 2002. The
Cellꎬ 23(5): 1815-1829. metal ion transporter IRT1 is necessary for iron homeostasis
LEI RHꎬ LI Yꎬ CAI YRꎬ et al.ꎬ 2020. bHLH121 functions as a and efficient photosynthesis in Arabidopsis thaliana [ J].
direct link that facilitates the activation of FIT by bHLH IVc Plant Jꎬ 31(5): 589-599.
transcription factors for maintaining Fe homeostasis in VERT Gꎬ GROTZ Nꎬ DEALDECHAMP Fꎬ et al.ꎬ 2002. IRT1ꎬ
Arabidopsis [J]. Mol Plantꎬ 13(4): 634-649. an Arabidopsis transporter essential for iron uptake from the
MATSUOKA Kꎬ FURUKAWA Jꎬ BIDADDI Hꎬ et al.ꎬ 2014. soil and for plant growth [ J ]. Plant Cellꎬ 14 ( 6 ):
Gibberellin ̄induced expression of Fe uptake ̄related genes in 1223-1233.
Arabidopsis [J]. Plant Cell Physiolꎬ 55(1): 87-98. WALKER ELꎬ CONNOLLY ELꎬ 2008. Time to pump iron:
MAURER Fꎬ NARANJO ARCOS MAꎬ BAUER Pꎬ 2014. iron ̄deficiency ̄signaling mechanisms of higher plants
Responses of a triple mutant defective in three iron [J]. Curr Opin Plant Biolꎬ 11(5): 530-535.
deficiency ̄induced BASIC HELIX ̄LOOP ̄HELIX genes of the WANG HY ꎬ KLATTE Mꎬ JAKOBY Mꎬ et al.ꎬ 2007. Iron
subgroup Ib ( 2 ) to iron deficiency and salicylic acid deficiency ̄mediated stress regulation of four subgroup Ib
[J]. PLoS ONEꎬ 9(6): e99234. BHLH genes in Arabidopsis thaliana [J]. Plantaꎬ 226(4):
MEISER Jꎬ LINGAM Sꎬ BAUER Pꎬ et al.ꎬ 2011. 897-908.
Posttranslational regulation of the iron deficiency basic helix ̄ WANG Nꎬ CUI Yꎬ LIU Yꎬ et al.ꎬ 2013. Requirement and
loop ̄helix transcription factor FIT is affected by iron and functional redundancy of Ib subgroup bHLH proteins for iron
nitric oxide [J]. Plant Physiolꎬ 157(4): 2154-2166. deficiency responses and uptake in Arabidopsis thaliana
MORRISSEY Jꎬ GUERINOT MLꎬ 2009. Iron uptake and [J]. Mol Plantꎬ 6(2): 503-513.
transport in plants: The goodꎬ the badꎬ and the ionome WILD Mꎬ DAVIERE JMꎬ REGNAULT Tꎬ et al.ꎬ 2016. Tissue ̄
[J]. Chem Revꎬ 109(10): 4553-4567. specific regulation of gibberellin signaling fine ̄tunes
NARANJO ̄ARCOS MAꎬ MAURER Fꎬ MEISER Jꎬ et al.ꎬ Arabidopsis iron ̄deficiency responses [J]. Dev Cellꎬ 37(2):
2017. Dissection of iron signaling and iron accumulation by 190-200.
overexpression of subgroup Ib bHLH039 protein [ J]. Sci YANG JLꎬ CHEN WWꎬ CHEN LQꎬ et al.ꎬ 2013. The 14-3-3
Repꎬ 7: 10911. protein GENERAL REGULATORY FACTOR11 ( GRF11)
ROBINSON NJꎬ PROCTER CMꎬ CONNOLLY ELꎬ et al.ꎬ acts downstream of nitric oxide to regulate iron acquisition in
1999. A ferric ̄chelate reductase for iron uptake from soils Arabidopsis thaliana [J]. New Phytolꎬ 197(3): 815-824.
[J]. Natureꎬ 397(6721): 694-697. YUAN YXꎬ WU HLꎬ WANG Nꎬ et al.ꎬ 2008. FIT interacts
RODRIGUEZ ̄CELMA Jꎬ SCHMIDT Wꎬ 2013. Reduction ̄based with AtbHLH38 and AtbHLH39 in regulating iron uptake
iron uptake revisited: on the role of secreted iron ̄binding gene expression for iron homeostasis in Arabidopsis [J]. Cell
compounds [J]. Plant Signal Behavꎬ 8(11): e26116. Resꎬ 18(3): 385-397.
ROMHELD Vꎬ MARSCHNER Hꎬ 1986. Evidence for a specific YUAN YXꎬ ZHANG Jꎬ WANG DWꎬ et al.ꎬ 2005. AtbHLH29 of
uptake system for iron phytosiderophores in roots of grasses Arabidopsis thaliana is a functional ortholog of tomato FER
[J]. Plant Physiolꎬ 80(1): 175-180. involved in controlling iron acquisition in strategy I plants
SANTI Sꎬ SCHMIDT Wꎬ 2009. Dissecting iron deficiency ̄ [J]. Cell Resꎬ 15(8): 613-621.
induced proton extrusion in Arabidopsis roots [ J]. New
Phytolꎬ 183(4): 1072-1084. (责任编辑 蒋巧媛 邓斯丽)
SCHMID NBꎬ GIEHL RFHꎬ DOLL Sꎬ et al.ꎬ 2014. Feruloyl ̄
