| [1] | ABEL S, TICCONI C A, DELATORRE C A. Phosphate sensing in higher plants [J].Physiol Plant, 2002,115(1): 1 − 8. |
| [2] | VANCE C P, UHDE-STONE C, ALLAN D L. Phosphorus acquisition and use: critical adaptations by plants for securing a nonrenewable resource [J].New Phytol, 2003,157(3): 423 − 447. |
| [3] | SCHACHTMAN D P, REID R J, AYLING S M. Phosphorus uptake by plants: from soil to cell [J].Plant Physiol, 1998,116(2): 447 − 453. |
| [4] | POIRIER Y, BUCHER M. Phosphate transport and homeostasis inArabidopsis[J/OL].Am Soc Plant Biol, 2002: e0024 [2021-06-05]. doi:10.1199/tab.0024. |
| [5] | LÓPEZ-ARREDONDO D L, LEYVA-GONZÁLEZ M A, GONZÁLEZ-MORALES S I,et al. Phosphate nutrition: improving low-phosphate tolerance in crops [J].Annu Rev Plant Biol, 2014,65: 95 − 123. |
| [6] | PASZKOWSKI U, KROKEN S, ROUX C,et al. Rice phosphate transporters include an evolutionarily divergent gene specifically activated in arbuscular mycorrhizal symbiosis [J].Proc Nat Acad Sci, 2002,99(20): 13324 − 13329. |
| [7] | NAGY R, VASCONCELOS M J V, ZHAO S,et al. Differential regulation of fivePht1 phosphate transporters from maize (Zea maysL. ) [J].Plant Biol, 2006,8(2): 186 − 197. |
| [8] | RAE A L, CYBINSKI D H, JARMEY J M,et al. Characterization of two phosphate transporters from barley; evidence for diverse function and kinetic properties among members of thePht1 family [J].Plant Mol Biol, 2003,53(1/2): 27 − 36. |
| [9] | NAGY R, KARANDASHOV V, CHAGUE V,et al. The characterization of novel mycorrhiza-specific phosphate transporters fromLycopersicon esculentumandSolanum tuberosumuncovers functional redundancy in symbiotic phosphate transport in solanaceous species [J].Plant J, 2005,42(2): 236 − 250. |
| [10] | PAO S S, PAULSEN I T, SAIER M H. Major facilitator superfamily [J].Microbiol Mol Biol Rev, 1998,62(1): 1 − 34. |
| [11] | WANG Duoli, LÜ Sulian, JIANG Ping,et al. Roles, regulation, and agricultural application of plant phosphate transporters [J/OL].Front Plant Sci, 2017,8: 817[2021-06-05]. doi:10.3389/fpls.201700817. |
| [12] | AYADI A, DAVID P, ARRIGHI J F,et al. Reducing the genetic redundancy ofArabidopsisPHOSPHATE TRANSPORTER1 transporters to study phosphate uptake and signaling [J].Plant Physiol, 2015,167(4): 1511 − 1526. |
| [13] | SUN Shubin, GU Mian, CAO Yue,et al. A constitutive expressed phosphate transporter,OsPht1;1, modulates phosphate uptake and translocation in phosphate-replete rice [J].Plant Physiol, 2012,159(4): 1571 − 1581. |
| [14] | LI Yiting, ZHANG Jun, ZHANG Xiao,et al. Phosphate transporterOsPht1;8 in rice plays an important role in phosphorus redistribution from source to sink organs and allocation between embryo and endosperm of seeds [J].Plant Sci, 2015,230: 23 − 32. |
| [15] | INOUE Y, KOBAE Y, OMOTO E,et al. The soybean mycorrhiza-inducible phosphate transporter gene,GmPT7, also shows localized expression at the tips of vein endings of senescent leaves [J].Plant Cell Physiol, 2014,55(12): 2102 − 2111. |
| [16] | GORDON-WEEKS R, TONG Yiping, DAVIES T G E,et al. Restricted spatial expression of a high-affinity phosphate transporter in potato roots [J].J Cell Sci, 2003,116(15): 3135 − 3144. |
| [17] | SONG Xinzhang, PENG Changhui, CIAIS P,et al. Nitrogen addition increased CO2uptake more than non-CO2greenhouse gases emissions in a Moso bamboo forest [J/OL].Sci Adv, 2020,6(12): eaaw5790[2021-06-20]. doi:10.1126/sciadv.aaw5790. |
| [18] | 郑德华. 不同土壤类型对毛竹林生长的影响研究[J]. 世界竹藤通讯, 2014,12(5): 32 − 34.ZHENG Dehua. Influence of soil type on the growth ofPhyllostachys heterocyclacv.pubescensforest [J].World Bamboo Rattan, 2014,12(5): 32 − 34. |
| [19] | 严圣钦. 低产毛竹林的成因和改造技术[J]. 世界竹藤通讯, 2009,7(3): 34 − 36.YAN Shengqin. Causes for low-yield moso forest and the improvement technology [J].World Bamboo Rattan, 2009,7(3): 34 − 36. |
| [20] | DU Enzai, TERRER C, PELLEGRINI A F A,et al. Global patterns of terrestrial nitrogen and phosphorus limitation [J].Nat Geosci, 2020,13(3): 221 − 226. |
| [21] | 赵光强, 付循成, 曹慧. 高等植物的磷营养研究[J]. 安徽农业科学, 2007,35(31): 9851 − 9854.ZHAO Guangqiang, FU Xuncheng, CAO Hui. Research on the phosphorus nutrition in higher plant [J].J Anhui Agric Sci, 2007,35(31): 9851 − 9854. |
| [22] | CHEN Chengjie, CHEN Hao, ZHANG Yi,et al. TBtools: an integrative toolkit developed for interactive analyses of big biological data [J].Mol Plant, 2020,13(8): 1194 − 1202. |
| [23] | KUMAR S, STECHER G, TAMURA K. MEGA7: molecular evolutionary genetics analysis version 7.0 for bigger datasets [J].Mol Biol Evol, 2016,33(7): 1870 − 1874. |
| [24] | HE Zilong, ZHANG Huangkai, GAO Shenghan,et al. Evolview V2: an online visualization and management tool for customized and annotated phylogenetic trees [J].Nucleic Acids Res, 2016,44(W1): W236 − W241. |
| [25] | IVANOVA Z, SABLOK G, DASKALOVA E,et al. Chloroplast genome analysis of resurrection tertiary relict haberlea rhodopensis highlights genes important for desiccation stress response [J/OL].Front Plant Sci, 2017,8: 204[2021-06-21]. doi:10.3389/fpls.2017.00204. |
| [26] | ZHAO Hansheng, GAO Zimin, WANG Le,et al. Chromosome-level reference genome and alternative splicing atlas of Moso bamboo (Phyllostachys edulis) [J/OL].GigaScience, 2018,7(10): giy115[2021-06-23]. doi:10.1093/gigascience/giy115. |
| [27] | BUN-YA M, NISHIMURA M, HARASHIMA S,et al. ThePHO84 gene of saccharomyces cerevisiae encodes an inorganic phosphate transporter [J].Mol Cell Biol, 1991,11(6): 3229 − 3238. |
| [28] | AZIZ T, FINNEGAN P M, LAMBERS H,et al. Organ-specific phosphorus-allocation patterns and transcript profiles linked to phosphorus efficiency in two contrasting wheat genotypes [J].Plant Cell Environ, 2014,37(4): 943 − 960. |
| [29] | 林翩翩, 白有煌, 周明兵. 毛竹细胞色素P450的基因组学分析[J]. 植物生理学报, 2014,50(9): 1387 − 1400.LIN Pianpian, BAI Youhuang, ZHOU Mingbing. Genomics analysis of cytochrome P450 monooxygenase genes inPhyllostachys heterocycla[J].Plant Physiol J, 2014,50(9): 1387 − 1400. |
| [30] | 王捷, 魏爱丽, 石瑛, 等. 念珠藻属植物hetR基因的适应性进化分析[J]. 植物科学学报, 2020,38(1): 23 − 31.WANG Jie, WEI Aili, SHI Ying,et al. Adaptive evolutionary analysis ofhetRgene inNostoc[J].Plant Sci J, 2020,38(1): 23 − 31. |
| [31] | YE Ying, YUAN Jing, CHANG Xiaojian,et al. The phosphate transporter geneOsPht1;4 is involved in phosphate homeostasis in rice [J/OL].PLoS One, 2015,10(5): e0126186[2021-06-23]. doi:10.1371/journal.pone.0126186. |
| [32] | MUDGE S R, RAE A L, DIATLOFF E,et al. Expression analysis suggests novel roles for members of the Pht1 family of phosphate transporters inArabidopsis[J].Plant J, 2002,31(3): 341 − 353. |
| [33] | VERSAW W K, HARRISON M J. A chloroplast phosphate transporter,PHT2;1, influences allocation of phosphate within the plant and phosphate-starvation responses [J].Plant Cell, 2002,14(8): 1751 − 1766. |
| [34] | KARTHIKEYAN A S, VARADARAJAN D K, JAIN A,et al. Phosphate starvation responses are mediated by sugar signaling inArabidopsis[J].Planta, 2007,225(4): 907 − 918. |
| [35] | GOFF S A, RICKE D, LAN T H,et al. A draft sequence of the rice genome (Oryza sativaL. ssp.japonica) [J].Science, 2002,296(5565): 92 − 100. |
| [36] | CHEN Aiqun, HU Jiang, SUN Shubin,et al. Conservation and divergence of both phosphate- and mycorrhiza-regulated physiological responses and expression patterns of phosphate transporters in solanaceous species [J].New Phytol, 2007,173(4): 817 − 831. |
| [37] | FERRO M, SALVI D, RIVIÈRE-ROLLAND H,et al. Integral membrane proteins of the chloroplast envelope: identification and subcellular localization of new transporters [J].Proc Natl Acad Sci, 2002,99(17): 11487 − 11492. |
| [38] | GUO Chengjin, ZHAO Xiaolei, LIU Xiaoman,et al. Function of wheat phosphate transporter geneTaPHT2;1 in Pi translocation and plant growth regulation under replete and limited Pi supply conditions [J].Planta, 2013,237(4): 1163 − 1178. |
| [39] | RAUSCH C, BUCHER M. Molecular mechanisms of phosphate transport in plants [J].Planta, 2002,216(1): 23 − 37. |
| [40] | SAIA S, RAPPA V, RUISI P,et al. Soil inoculation with symbiotic microorganisms promotes plant growth and nutrient transporter genes expression in durum wheat [J/OL].Front Plant Sci, 2015,6: 815[2021-04-15]. doi:10.3389/fpls.2015.00815. |
| [41] | WOHLRAB H. Identification of the N-ethylmaleimide reactive protein of the mitochondrial phosphate transporter [J].Biochemistry, 1979,18(10): 2098 − 2102. |
| [42] | GUO Biwei, IRIGOYEN S, FOWLER T B,et al. Differential expression and phylogenetic analysis suggest specialization of plastid-localized members of the PHT4 phosphate transporter family for photosynthetic and heterotrophic tissues [J].Plant Signaling Behav, 2008,3(10): 784 − 790. |
| [43] | WOHLRAB H, BRIGGS C. Yeast mitochondrial phosphate transport protein expressed inEscherichia coli. Site-directed mutations atthreonine-43 and at a similar location in the second tandem repeat (isoleucine-141) [J].Biochemistry, 1994,33(32): 9371 − 9375. |
| [44] | MISSON J, RAGHOTHAMA K G, JAIN A,et al. A genome-wide transcriptional analysis usingArabidopsis thalianaAffymetrix gene chips determined plant responses to phosphate deprivation [J].Proc Natl Acad Sci, 2005,102(33): 11934 − 11939. |
| [45] | AI Penghui, SUN Suibin, ZHAO Jianning,et al. Two rice phosphate transporters,OsPht1;2 andOsPht1;6, have different functions and kinetic properties in uptake and translocation [J].Plant J, 2009,57(5): 789 − 809. |