Page 22 - 《广西植物》2025年第7期
P. 22

1 2 1 4                                广  西  植  物                                         45 卷
                                                                 Merr.] [J]. Field Crops Researchꎬ 196: 261-267.
            参考文献:                                              LIVAK KJꎬ SCHMITTGEN TDꎬ 2001. Analysis of relative gene
                                                                 expression data using real ̄time quantitative PCR and the
                                                                  -ΔΔCt
            CAO Xꎬ YANG HLꎬ SHANG CQꎬ et al.ꎬ 2019. The roles of  2  method [J]. Methodsꎬ 25(4): 402-408.
               auxin biosynthesis YUCCA gene family in plants [ J ].  MASHIGUCHI Kꎬ TANAKA Kꎬ SAKAI Tꎬ et al.ꎬ 2011. The
               International Journal of Molecular Sciencesꎬ 20(24): 6343.  main auxin biosynthesis pathway in Arabidopsis [ J ].
            CHENG YFꎬ DAI XHꎬ ZHAO YDꎬ 2007. Auxin synthesized by  Proceedings of the National Academy of Sciences of the
               the  YUCCA  flavin  monooxygenases  is  essential  for  United States of Americaꎬ 108(45): 18512-18517.
               embryogenesis and leaf formation in Arabidopsis [J]. Plant  MORGAN JTꎬ FINK GRꎬ BARTEL DPꎬ 2019. Excised linear
               Cellꎬ 19(8): 2430-2439.                           introns regulate growth in yeast [ J ]. Natureꎬ 565:
            FAN SHꎬ CHANG YLꎬ LIU GYꎬ et al.ꎬ 2020. Molecular    606-611.
               functional analysis of auxin/ indole ̄3 ̄acetic acid proteins  MÜLLER ̄MOULÉ Pꎬ NOZUE Kꎬ PYTLAK MLꎬ et al.ꎬ
               (Aux/ IAAs) in plant disease resistance in cassava [ J].  2016. YUCCA auxin biosynthetic genes are required for
               Physiologia Plantarumꎬ 168: 88-97.                arabidopsis shade avoidance [J]. PeerJꎬ 4: e2574.
            HIRAIDE Tꎬ NAKASHIMA Mꎬ IKEDA Tꎬ et al.ꎬ 2020.     MUÑOZ ̄ESPINOZA Cꎬ MENESEN Mꎬ HINRICHSEN Pꎬ
               Identification of a deep intronic POLR3A variant causing  2023. Plant genotyping: Methods and protocols [M]. New
                                                                 York: Humana: 147-164.
               inclusion of a pseudoexon derived from an Alu element in Pol
               Ⅲ ̄related leukodystrophy [J]. Journal of Human Geneticsꎬ  NITO Kꎬ KAJIYAMA Tꎬ UNTEN ̄KOBAYASHI Jꎬ et al.ꎬ
               65(10): 921-925.                                  2015. Spatial regulation of the gene expression response to
            IGLESIAS MJꎬ SELLARO Rꎬ ZURBRIGGEN MDꎬ et al.ꎬ       shade in Arabidopsis seedlings [ J ]. Plant and Cell
                                                                 Physiologyꎬ 56(7): 1306-1319.
               2018. Multiple links between shade avoidance and auxin
               networks [ J]. Journal of Experimental Botanyꎬ 69(2):  NOZUE Kꎬ TAT AVꎬ KUMAR DUꎬ et al.ꎬ 2015. Shade
               213-228.                                          avoidance components and pathways in adult plants revealed
                                                                 by  phenotypic  profiling  [ J ].  PLoS  Geneticsꎬ
            INCE YCꎬ KRAHMER Jꎬ FIORUCI ASꎬ et al.ꎬ 2022. A
                                                                 11(4): e1004953.
               combination of plasma membrane sterol biosynthesis and
               autophagy is required for shade ̄induced hypocotyl elongation  PARENTEAU Jꎬ MAIGNON Lꎬ BERTHOUMIEUX Mꎬ et al.ꎬ
                                                                 2019. Introns are mediators of cell response to starvation
               [J]. Nature Communicationsꎬ 13: 5659.
                                                                 [J]. Natureꎬ 565: 612-617.
            JIANG HKꎬ SHUI ZWꎬ XU Lꎬ et al.ꎬ 2020. Gibberellins
                                                                     '
               modulate  shade ̄induced  soybean  hypocotyl  elongation  PAULIŠIC Sꎬ QIN WTꎬ ARORA VERASZTÓ Hꎬ et al.ꎬ
               downstream of  the  mutual  promotion  of  auxin  and  2021. Adjustment of the PIF7 ̄HFR1 transcriptional module
               brassinosteroids [ J]. Plant Physiology and Biochemistryꎬ  activity controls plant shade adaptation [J]. EMBO Journalꎬ
               150: 209-221.                                     40: e104273.
            LI ZAꎬ LI Yꎬ LIU Dꎬ et al.ꎬ 2023. YUCCA2 ( YUC2) ̄  QIN Cꎬ LI YHꎬ LI DLꎬ et al.ꎬ 2023. PH13 improves soybean
               mediated 3 ̄indoleacetic acid ( IAA) biosynthesis regulates  shade traits and enhances yield for high ̄density planting at
               chloroplast RNA editing by relieving the auxin response  high latitudes [J]. Nature Communicationsꎬ 14: 6813.
               factor 1 (ARF1) ̄dependent inhibition of editing factors in  REN MLꎬ LIU WGꎬ LIU XMꎬ et al.ꎬ 2016. Effect of shading
               Arabidopsis thaliana [J]. International Journal of Molecular  signal on growth and photosynthetic characteristics of soybean
               Sciencesꎬ 24: 16988.                              seedlings [J]. Chinese Journal of Eco ̄Agricultureꎬ 24(4):
            LIU Tꎬ LIU WGꎬ REN MLꎬ et al.ꎬ 2016. Effects of shade  499-505. [任梦露ꎬ 刘卫国ꎬ 刘小明ꎬ 等ꎬ 2016. 荫蔽信号
               degrees on photosynthesis and lodging resistance degree of  对大豆幼苗生长和光合特性的影响 [J]. 中国生态农业
               different shade tolerance soybean [J]. Scientia Agricultura  学报ꎬ 24(4): 499-505.]
               Sinicaꎬ 49(8): 1466-1475. [刘婷ꎬ 刘卫国ꎬ 任梦露ꎬ 等ꎬ     SHUAI HWꎬ MENG YJꎬ CHEN Fꎬ et al.ꎬ 2018. Phytohormone ̄
               2016. 遮荫程度对不同耐荫性大豆品种光合及抗倒程度                       mediated plant shade responses [ J]. Chinese Bulletin of
               的影响 [J]. 中国农业科学ꎬ 49(8): 1466-1475.]               Botanyꎬ 53(1): 139-148. [帅海威ꎬ 孟永杰ꎬ 陈峰ꎬ 等ꎬ
            LIU Wꎬ DENG Yꎬ HUSSAIN Sꎬ et al.ꎬ 2016. Relationship  2018. 植物荫蔽胁迫的激素信号响应 [J]. 植物学报ꎬ
               between cellulose accumulation and lodging resistance in the  53(1): 139-148.]
               stem of relay intercropped soybean [ Glycine max ( L.)  SONG LJꎬ NIE XYꎬ HE LLꎬ et al.ꎬ 2021. Screening and
   17   18   19   20   21   22   23   24   25   26   27