2023年中国植物科学重要研究进展
收稿日期: 2024-04-19
网络出版日期: 2024-04-19
Achievements and Advances of Plant Sciences Research in China in 2023
Received date: 2024-04-19
Online published: 2024-04-19
2023年中国科学家在植物科学主流期刊发表的论文数量相比2022年大幅提高, 在柱头受体调控十字花科种内和种间生殖隔离, 叶绿体TOC-TIC超级复合物结构, 作物高产、耐逆及抗病机制, 葡萄和柑橘属植物的起源和传播, 现代玉米、谷子和马铃薯种质资源演化等方面取得了重要研究进展。其中, “农作物耐盐碱机制解析及应用”和“新方法实现单碱基到超大片段DNA精准操纵”入选2023年度中国科学十大进展, “植物远缘杂交过程中‘花粉蒙导效应’的分子机制”入选2023年度中国生命科学十大进展。该文总结了2023年度我国植物科学研究取得的成果, 并简要介绍了30项有代表性的重要进展, 梳理了植物科学研究中所使用的实验材料, 以帮助读者了解我国植物科学的发展态势, 进而思考如何更好地开展下阶段研究和服务国家重大战略需求。
陈凡 , 顾红雅 , 漆小泉 , 林荣呈 , 钱前 , 萧浪涛 , 杨淑华 , 左建儒 , 白永飞 , 陈之端 , 丁兆军 , 王小菁 , 姜里文 , 种康 , 王雷 . 2023年中国植物科学重要研究进展[J]. 植物学报, 2024 , 59(2) : 171 -187 . DOI: 10.11983/CBB24059
In 2023, the numbers of original research articles published by Chinese plant scientists in mainstream plant science journals increased significantly improved compared with that in 2022, and important advances have been made in the fields of regulation of intraspecific and interspecific reproductive isolation in Brassicaceae by stigma receptors, supercomplex structure of chloroplast TOC-TIC, mechanisms of crop yield, disease resistance, stress tolerance, the origin and spread of grapes and citrus plants, and the evolution of modern maize, millet and potato germplasm resources. Among them, “Crop Salt and Alkali Tolerance Mechanisms and Applications”, and “A New Method for Precise Manipulation of Single Base to Large Fragment DNA” in 2023 were selected as two of the “Top Ten Advances in Plant Sciences in China”; “The Molecular Mechanism of Mentor Pollen Effect in Plant Distant Hybridization” was selected as one of the “Top Ten Advances in Life Sciences in China” in 2023. Here we summarize the achievements of plant science research in China in 2023, by briefly introducing 30 representative important research advances and sorting out the experimental materials used in plant science research, so as to help readers understand the trend of plant science development in China, and evaluate future research direction to meet major national strategic needs.
Key words: China; plant sciences; research advance; 2023
[1] | Baack E, Melo MC, Rieseberg LH, Ortiz-Barrientos D (2015). The origins of reproductive isolation in plants. New Phytol 207, 968-984. |
[2] | Bai MY, Peng JR, Fu XD (2023). Coordinated regulation of gibberellin and brassinosteroid signalings drives toward a sustainable “green revolution” by breeding the new generation of high-yield wheat. Chin Bull Bot 58, 194-198. (in Chinese) |
白明义, 彭金荣, 傅向东 (2023). 赤霉素和油菜素内酯信号通路双重调控助力小麦新一轮“绿色革命”. 植物学报 58, 194-198. | |
[3] | Bennetzen JL, Schmutz J, Wang H, Percifield R, Hawkins J, Pontaroli AC, Estep M, Feng L, Vaughn JN, Grimwood J, Jenkins J, Barry K, Lindquist E, Hellsten U, Deshpande S, Wang XW, Wu XM, Mitros T, Triplett J, Yang XH, Ye CY, Mauro-Herrera M, Wang L, Li PH, Sharma M, Sharma R, Ronald PC, Panaud O, Kellogg EA, Brutnell TP, Doust AN, Tuskan GA, Rokhsar D, Devos KM (2012). Reference genome sequence of the model plant setaria. Nat Biotechnol 30, 555-561. |
[4] | Bernier F, Berna A (2001). Germins and germin-like proteins: plant do-all proteins. But what do they do exactly? Plant Physiol Biochem 39, 545-554. |
[5] | Black JC, Van Rechem C, Whetstine JR (2012). Histone lysine methylation dynamics: establishment, regulation, and biological impact. Mol Cell 48, 491-507. |
[6] | Chen JY, Yu RB, Li N, Deng ZG, Zhang XX, Zhao YR, Qu CF, Yuan YF, Pan ZX, Zhou YY, Li KL, Wang JJ, Chen ZR, Wang XY, Wang XL, He SN, Dong J, Deng XW, Chen HD (2023). Amyloplast sedimentation re-polarizes LAZYs to achieve gravity sensing in plants. Cell 186, 4788-4802. |
[7] | Cui HT, Tsuda K, Parker JE (2015). Effector-triggered immunity: from pathogen perception to robust defense. Annu Rev Plant Biol 66, 487-511. |
[8] | Darwin F (1903). The statolith theory of geotropism. Nature 67, 571-572. |
[9] | Dong Y, Duan SC, Xia QJ, Liang ZC, Dong X, Mar-garyan K, Musayev M, Goryslavets S, Zduni? G, Bert PF, Lacombe T, Maul E, Nick P, Bitskinashvili K, Bisztray GD, Drori E, De Lorenzis G, Cunha J, Popescu CF, Arroyo-Garcia R, Arnold C, Ergül A, Zhu YF, Ma C, Wang SF, Liu SQ, Tang L, Wang CP, Li DW, Pan YB, Li JX, Yang L, Li XZ, Xiang GS, Yang ZJ, Chen BZ, Dai ZW, Wang Y, Arakelyan A, Kuliyev V, Spotar G, Girollet N, Delrot S, Ollat N, This P, Marchal C, Sarah G, Laucou V, Bacilieri R, R?ckel F, Guan PY, Jung A, Riemann M, Ujmaju-ridze L, Zakalashvili T, Maghradze D, H?hn M, Jahnke G, Kiss E, Deák T, Rahimi O, Hübner S, Grassi F, Mercati F, Sunseri F, Eiras-Dias J, Dumitru AM, Carrasco D, Rodriguez-Izquierdo A, Mu?oz G, Uysal T, ?zer C, Kazan K, Xu ML, Wang YY, Zhu SS, Lu J, Zhao MX, Wang L, Jiu ST, Zhang Y, Sun L, Yang HM, Weiss E, Wang SP, Zhu YY, Li SH, Sheng J, Chen W (2023). Dual domestications and origin of traits in grapevine evolution. Science 379, 892-901. |
[10] | Fishman L, Sweigart AL (2018). When two rights make a wrong: the evolutionary genetics of plant hybrid incompatibilities. Annu Rev Plant Biol 69, 707-731. |
[11] | Gong Q, Wang YJ, He LF, Huang F, Zhang DF, Wang Y, Wei X, Han M, Deng HT, Luo L, Cui F, Hong YG, Liu YC (2023). Molecular basis of methyl-salicylate-mediated plant airborne defence. Nature 622, 139-148. |
[12] | Guerrieri R, Belmecheri S, Ollinger SV, Asbjornsen H, Jennings K, Xiao JF, Stocker BD, Martin M, Hollinger DY, Bracho-Garrillo R, Clark K, Dore S, Kolb T, Munger JW, Novick K, Richardson AD (2019). Disentangling the role of photosynthesis and stomatal conductance on rising forest water-use efficiency. Proc Natl Acad Sci USA 116, 16909-16914. |
[13] | Guo JP, Wang HY, Guan W, Guo Q, Wang J, Yang J, Peng YX, Shan JH, Gao MY, Shi SJ, Shangguan XX, Liu BF, Jing SL, Zhang J, Xu CX, Huang J, Rao WW, Zheng XH, Wu D, Zhou C, Du B, Chen RZ, Zhu LL, Zhu YX, Walling LL, Zhang QF, He GC (2023). A tripartite rheostat controls self-regulated host plant re-sistance to insects. Nature 618, 799-807. |
[14] | Haberlandt G (1900). Ueber die perception des geotropischen reizes. Ber Deut Bot Ges 18, 261-272. |
[15] | He Q, Tang S, Zhi H, Chen J, Zhang J, Liang H, Alam O, Li H, Zhang H, Xing L, Li X, Zhang W, Wang H, Shi J, Du H, Wu H, Wang L, Yang P, Xing L, Yan H, Song Z, Liu J, Wang H, Tian X, Qiao Z, Feng G, Guo R, Zhu W, Ren Y, Hao H, Li M, Zhang A, Guo E, Yan F, Li Q, Liu Y, Tian B, Zhao X, Jia R, Feng B, Zhang J, Wei J, Lai J, Jia G, Purugganan M, Diao XM (2023). A graph-based genome and pan-genome variation of the model plant setaria. Nat Genet 55, 1232-1242. |
[16] | Hu RY, Li XD, Hu Y, Zhang RJ, Lv Q, Zhang M, Sheng XY, Zhao F, Chen ZJ, Ding YH, Yuan H, Wu XF, Xing S, Yan XY, Bao F, Wan P, Xiao LH, Wang XQ, Xiao W, Decker EL, van Gessel N, Renault H, Wiedemann G, Horst NA, Haas FB, Wilhelmsson PKI, Ullrich KK, Neumann E, Lv B, Liang CZ, Du HL, Lu HW, Gao Q, Cheng ZK, You HL, Xin PY, Chu JF, Huang CH, Liu Y, Dong SS, Zhang LS, Chen F, Deng L, Duan FZ, Zhao WJ, Li K, Li ZF, Li XR, Cui HJ, Zhang YE, Ma C, Zhu RL, Jia Y, Wang MZ, Hasebe M, Fu JZ, Goffinet B, Ma H, Rensing SA, Reski R, He YK (2023). Adaptive evolution of the enigmatic Takakia now facing climate change in Tibet. Cell 186, 3558-3576. |
[17] | Huang F, Luo X, Ou Y, Gao ZX, Tang QM, Chu ZZ, Zhu XG, He YH (2023a). Control of histone demethylation by nuclear-localized α-ketoglutarate dehydrogenase. Science 381, eadf8822. |
[18] | Huang JB, Yang L, Yang L, Wu XY, Cui XS, Zhang LL, Hui JY, Zhao YM, Yang HM, Liu SJ, Xu QL, Pang MX, Guo XP, Cao YY, Chen Y, Ren XR, Lv JZ, Yu JQ, Ding JY, Xu G, Wang N, Wei XC, Lin QH, Yuan YX, Zhang XW, Ma CZ, Dai C, Wang PW, Wang YC, Cheng F, Zeng WQ, Palanivelu R, Wu HM, Zhang XS, Cheung AY, Duan QH (2023b). Stigma receptors control intraspecies and interspecies barriers in Bras-sicaceae. Nature 614, 303-308. |
[19] | Huang JY, Lin QP, Fei HY, He ZX, Xu H, Li YJ, Qu KL, Han P, Gao Q, Li BS, Liu GW, Zhang LX, Hu JC, Zhang R, Zuo EW, Luo YL, Ran YD, Qiu JL, Zhao KT, Gao CX (2023c). Discovery of deaminase func-tions by structure-based protein clustering. Cell 186, 3182-3195. |
[20] | Huang Y, He JX, Xu YT, Zheng WK, Wang SH, Chen P, Zeng B, Yang SZ, Jiang XL, Liu ZS, Wang L, Wang X, Liu SJ, Lu ZH, Liu ZA, Yu HW, Yue JQ, Gao JY, Zhou XY, Long CR, Zeng XL, Guo YJ, Zhang WF, Xie ZZ, Li CL, Ma ZC, Jiao WB, Zhang F, Larkin RM, Krueger RR, Smith MW, Ming R, Deng XX, Xu Q (2023d). Pangenome analysis provides insight into the evolution of the orange subfamily and a key gene for citric acid accumulation in citrus fruits. Nat Genet 55, 1964-1975. |
[21] | Hufford MB, Lubinksy P, Pyh?j?rvi T, Devengenzo MT, Ellstrand NC, Ross-Ibarra J (2013). The genomic signature of crop-wild introgression in maize. PLoS Genet 9, e1003477. |
[22] | Huq E, Al-Sady B, Quail PH (2003). Nuclear transloca-tion of the photoreceptor phytochrome B is necessary for its biological function in seedling photomorphogenesis. Plant J 35, 660-664. |
[23] | Jaillon O, Aury JM, Noel B, Policriti A, Clepet C, Casagrande A, Choisne N, Aubourg S, Vitulo N, Jubin C, Vezzi A, Legeai F, Hugueney P, Dasilva C, Horner D, Mica E, Jublot D, Poulain J, Bruyère C, Billault A, Segurens B, Gouyvenoux M, Ugarte E, Cattonaro F, Anthouard V, Vico V, Del Fabbro C, Alaux M, Di Gaspero G, Dumas V, Felice N, Paillard S, Juman I, Moroldo M, Scalabrin S, Canaguier A, Le Clainche I, Malacrida G, Durand E, Pesole G, Laucou V, Chatelet P, Merdinoglu D, Delledonne M, Pezzotti M, Lecharny A, Scarpelli C, Artiguenave F, Pè ME, Valle G, Morgante M, Caboche M, Adam- Blondon AF, Weissenbach J, Quétier F, Wincker P, Public FI (2007). The grapevine genome sequence suggests ancestral hexaploidization in major angiosperm phyla. Nature 449, 463-467. |
[24] | Janzen GM, Wang L, Hufford MB (2019). The extent of adaptive wild introgression in crops. New Phytol 221, 1279-1288. |
[25] | Jiang YY, Cao TJ, Yang YQ, Zhang H, Zhang JY, Li XB (2023). A chlorophyll synthase widely co-opted by phytoplankton. Science 382, 92-98. |
[26] | Jin ZY, Wan L, Zhang YQ, Li XC, Cao Y, Liu HB, Fan SY, Cao D, Wang ZM, Li XB, Pan JM, Dong MQ, Wu JP, Yan Z (2022). Structure of a TOC-TIC supercomplex spanning two chloroplast envelope membranes. Cell 185, 4788-4800. |
[27] | Kaloshian I, Walling LL (2016). Hemipteran and dipte-ran pests: effectors and plant host immune regulators. J Integr Plant Biol 58, 350-361. |
[28] | Karban R (2021). Plant communication. Annu Rev Ecol Evol Syst 52, 1-24. |
[29] | Keenan TF, Hollinger DY, Bohrer G, Dragoni D, Munger JW, Schmid HP, Richardson AD (2013). Increase in forest water-use efficiency as atmospheric carbon dioxide concentrations rise. Nature 499, 324-327. |
[30] | Kong XP, Zhang MY, Ding ZJ (2023). There is a way out-new breakthroughs in extracellular auxin sensing. Chin Bull Bot 58, 861-865. (in Chinese) |
孔祥培, 张蒙悦, 丁兆军 (2023). 柳暗花明: 胞外生长素信号感受的新突破. 植物学报 58, 861-865. | |
[31] | Kooistra SM, Helin K (2012). Molecular mechanisms and potential functions of histone demethylases. Nat Rev Mol Cell Biol 13, 297-311. |
[32] | Kopczewski T, Ku?niak E (2013). Redox signals as a language of interorganellar communication in plant cells. Open Life Sci 8, 1153-1163. |
[33] | Kuroha T, Tokunaga H, Kojima M, Ueda N, Ishida T, Nagawa S, Fukuda H, Sugimoto K, Sakakibara H (2009). Functional analyses of LONELY GUY cytokinin- activating enzymes reveal the importance of the direct activation pathway in Arabidopsis. Plant Cell 21, 3152-3169. |
[34] | Kusaba S, Fukumoto M, Honda C, Yamaguchi I, Sakamoto T, Kano-Murakami Y (1998). Decreased GA1 content caused by the overexpression of OSH1 is accompanied by suppression of GA 20-oxidase gene expression. Plant Physiol 117, 1179-1184. |
[35] | Lan ZJ, Song ZH, Wang ZJ, Li L, Liu YQ, Zhi SH, Wang RH, Wang JZ, Li QY, Bleckmann A, Zhang L, Dresselhaus T, Dong J, Gu HY, Zhong S, Qu LJ (2023). Antagonistic RALF peptides control an inter-generic hybridization barrier on Brassicaceae stigmas. Cell 186, 4773-4787. |
[36] | Levy JM, Yeh WH, Pendse N, Davis JR, Hennessey E, Butcher R, Koblan LW, Comander J, Liu Q, Liu DR (2020). Cytosine and adenine base editing of the brain, liver, retina, heart and skeletal muscle of mice via adeno-associated viruses. Nat Biomed Eng 4, 97-110. |
[37] | Li F, Xiao JF, Chen JQ, Ballantyne A, Jin K, Li B, Abraha M, John R (2023). Global water use efficiency saturation due to increased vapor pressure deficit. Science 381, 672-677. |
[38] | Li SN, Lin DX, Zhang YW, Deng M, Chen YX, Lv B, Li BS, Lei Y, Wang YP, Zhao L, Liang YT, Liu JX, Chen KL, Liu ZY, Xiao J, Qiu JL, Gao CX (2022). Genome-edited powdery mildew resistance in wheat without growth penalties. Nature 602, 455-460. |
[39] | Liao XL, Su YJ, Klinten?s M, Li Y, Sane S, Wu ZH, Chen QH, Zhang B, Nilsson O, Ding JH (2023). Age-dependent seasonal growth cessation in Populus. Proc Natl Acad Sci USA 120, e2311226120. |
[40] | Lin WW, Zhou X, Tang WX, Takahashi K, Pan X, Dai JW, Ren H, Zhu XY, Pan SQ, Zheng HY, Gray WM, Xu TD, Kinoshita T, Yang ZB (2021). TMK-based cell-surface auxin signaling activates cell-wall acidifi-cation. Nature 599, 278-282. |
[41] | Liu H, Li AJ, Rochaix JD, Liu ZF (2023). Architecture of chloroplast TOC-TIC translocon supercomplex. Nature 615, 349-357. |
[42] | Liu YQ, Wan JM (2023). The host controls the protein level of insect effectors to balance immunity and growth. Chin Bull Bot 58, 353-355. (in Chinese) |
刘裕强, 万建民 (2023). 寄主监控昆虫唾液蛋白平衡植物抗性与生长发育. 植物学报 58, 353-355. | |
[43] | Lopez-Calcagno PE, Brown KL, Simkin AJ, Fisk SJ, Vialet-Chabrand S, Lawson T, Raines CA (2020). Stimulating photosynthetic processes increases pro-ductivity and water-use efficiency in the field. Nat Plants 6, 1054-1063. |
[44] | Loreto F, D’Auria S (2022). How do plants sense vola-tiles sent by other plants? Trends Plant Sci 27, 29-38. |
[45] | Luo DP, Xu H, Liu ZL, Guo JX, Li HY, Chen LT, Fang C, Zhang QY, Bai M, Yao N, Wu H, Wu H, Ji CH, Zheng HQ, Chen YL, Ye S, Li XY, Zhao XC, Li RQ, Liu YG (2013). A detrimental mitochondrial-nuclear interaction causes cytoplasmic male sterility in rice. Nat Genet 45, 573-577. |
[46] | Makarova KS, Wolf YI, Iranzo J, Shmakov SA, Alkhnbashi OS, Brouns SJJ, Charpentier E, Cheng D, Haft DH, Horvath P, Moineau S, Mojica FJM, Scott D, Shah SA, Siksnys V, Terns MP, Venclovas ?, White MF, Yakunin AF, Yan W, Zhang F, Garrett RA, Backofen R, van der Oost J, Barrangou R, Koonin EV (2020). Evolutionary classification of CRISPR-Cas systems: a burst of class 2 and derived variants. Nat Rev Microbiol 18, 67-83. |
[47] | Meng JG, Xu YJ, Wang WQ, Yang F, Chen SY, Jia PF, Yang WC, Li HJ (2023). Central-cell-produced attrac-tants control fertilization recovery. Cell 186, 3593-3605. |
[48] | Morita MT (2010). Directional gravity sensing in gravi-tropism. Annu Rev Plant Biol 61, 705-720. |
[49] | Neik TX, Barbetti MJ, Batley J (2017). Current status and challenges in identifying disease resistance genes in Brassica napus. Front Plant Sci 8, 1788. |
[50] | Nelson N, Yocum CF (2006). Structure and function of photosystems I and II. Annu Rev Plant Biol 57, 521-565. |
[51] | Nemec B (1900). Uber die Art der Wahrnehmung des Schwerkraftreizes bei den Pflanzen. Ber Deut Bot Ges 18, 241-245. |
[52] | Oerke EC (2006). Crop losses to pests. J Agric Sci 144, 31-43. |
[53] | Peng JR, Richards DE, Hartley NM, Murphy GP, De-vos KM, Flintham JE, Beales J, Fish LJ, Worland AJ, Pelica F, Sudhakar D, Christou P, Snape JW, Gale MD, Harberd NP (1999). ‘Green revolution’ genes encode mutant gibberellin response modula-tors. Nature 400, 256-261. |
[54] | Peng XB, Sun MX (2023). Out of the road: novel finding in regulatory mechanism of angiosperm fertilization. Chin Bull Bot 58, 515-518. (in Chinese) |
彭雄波, 孙蒙祥 (2023). 别开生面: 被子植物受精机制研究的新发现. 植物学报 58, 515-518. | |
[55] | Pickett JA, Khan ZR (2016). Plant volatile-mediated signaling and its application in agriculture: successes and chalenges. New Phytol 212, 856-870. |
[56] | Rochaix JD (2022). Chloroplast protein import machinery and quality control. FEBS J 289, 6908-6918. |
[57] | Sakulkoo W, Osés-Ruiz M, Garcia EO, Soanes DM, Littlejohn GR, Hacker C, Correia A, Valent B, Talbot NJ (2018). A single fungal MAP kinase controls plant cell-to-cell invasion by the rice blast fungus. Science 359, 1399-1403. |
[58] | Sasaki A, Ashikari M, Ueguchi-Tanaka M, Itoh H, Nishimura A, Swapan D, Ishiyama K, Saito T, Kobayashi M, Khush GS, Kitano H, Matsuoka M (2002). A mutant gibberellin-synthesis gene in rice. Nature 416, 701-702. |
[59] | Schuster RM (1997). On Takakia and the phylogenetic relationships of the Takakiales. Nova Hedwigia 64, 281-310. |
[60] | Sha G, Sun P, Kong XJ, Han XY, Sun QP, Fouillen L, Zhao J, Li Y, Yang L, Wang Y, Gong QW, Zhou YR, Zhou WQ, Jain R, Gao J, Huang RL, Chen XY, Zheng L, Zhang WY, Qin ZT, Zhou Q, Zeng QD, Xie KB, Xu JD, Chiu TY, Guo L, Mortimer JC, Boutté Y, Li Q, Kang ZS, Ronald PC, Li GT (2023). Genome editing of a rice CDP-DAG synthase confers multipat-hogen resistance. Nature 618, 1017-1023. |
[61] | Sharifi F, Ye YZ (2022). Identification and classification of reverse transcriptases in bacterial genomes and metagenomes. Nucleic Acids Res 50, e29. |
[62] | Song L, Liu J, Cao BL, Liu B, Zhang XP, Chen ZY, Dong CQ, Liu XQ, Zhang ZH, Wang WX, Chai LL, Liu J, Zhu J, Cui SB, He F, Peng HR, Hu ZR, Su ZQ, Guo WL, Xin MM, Yao YY, Yan Y, Song YM, Bai GH, Sun QX, Ni ZF (2023). Reducing brassinosteroid signaling enhances grain yield in semi-dwarf wheat. Nature 617, 118-124. |
[63] | Stokes II GG (1864). On the supposed identity of biliverdin with chlorophyll, with remarks on the constitution of chlorophyll. Proc R Soc 13, 144-145. |
[64] | Strehlow B, de Mol F, Struck C (2015). Risk potential of clubroot disease on winter oilseed rape. Plant Dis 99, 667-675. |
[65] | Sun XP, Xiang YL, Dou NN, Zhang H, Pei SR, Franco AV, Menon M, Monier B, Ferebee T, Liu T, Liu SY, Gao YC, Wang JB, Terzaghi W, Yan JB, Hearne S, Li L, Li F, Dai MQ (2023). The role of transposon in-verted repeats in balancing drought tolerance and yield-related traits in maize. Nat Biotechnol 41, 120-127. |
[66] | Tang D, Jia YX, Zhang JZ, Li HB, Cheng L, Wang P, Bao ZG, Liu ZH, Feng SS, Zhu XJ, Li DW, Zhu GT, Wang HR, Zhou Y, Zhou YF, Bryan GJ, Buell CR, Zhang CZ, Huang SW (2022). Genome evolution and diversity of wild and cultivated potatoes. Nature 606, 535-541. |
[67] | The Potato Genome Sequencing Consortium (2011). Genome sequence and analysis of the tuber crop po-tato. Nature 475, 189-195. |
[68] | Vandenbrink JP, Kiss JZ (2019). Plant responses to gravity. Semin Cell Dev Biol 92, 122-125. |
[69] | Wang CL, Wang J, Lu JY, Xiong YH, Zhao ZG, Yu XW, Zheng XM, Li J, Lin QB, Ren YL, Hu Y, He XD, Li C, Zeng YL, Miao R, Guo ML, Zhang BS, Zhu Y, Zhang YH, Tang WJ, Wang YL, Hao BY, Wang QM, Cheng SQ, He XJ, Yao BW, Gao JW, Zhu XF, Yu H, Wang Y, Sun Y, Zhou CL, Dong H, Ma XD, Guo XP, Liu X, Tian YL, Liu SJ, Wang CM, Cheng ZJ, Jiang L, Zhou JW, Guo HS, Jiang LW, Tao DY, Chai JJ, Zhang W, Wang HY, Wu CY, Wan JM (2023a). A natural gene drive system confers reproductive isola-tion in rice. Cell 186, 3577-3592. |
[70] | Wang G, Wang ET (2023). The broad-spectrum innate resistance against clubroot disease conferred by WeiTsing is mechanistically revealed. Chin Bull Bot 58, 356-358. (in Chinese) |
王钢, 王二涛 (2023). “卫青不败由天幸” ——WeiTsing的广谱抗根肿病机理被揭示. 植物学报 58, 356-358. | |
[71] | Wang JW, Park MY, Wang LJ, Koo Y, Chen XY, Weigel D, Poethig RS (2011). MiRNA control of vegetative phase change in trees. PLoS Genet 7, e1002012. |
[72] | Wang L, Chong K (2022). Choice of both ways: varia-tions of reverted repeats balance environmental adaptation and yield in maize. Chin Bull Bot 57, 555-558. (in Chinese) |
王雷, 种康 (2022). 鱼和熊掌的选择: 反向重复序列变异介导的玉米环境适应与产量平衡. 植物学报 57, 555-558. (in Chinese) | |
[73] | Wang L, He F, Huang Y, He JX, Yang SZ, Zeng JW, Deng CL, Jiang XL, Fang YW, Wen SH, Xu RW, Yu HW, Yang XM, Zhong GY, Chen CW, Yan X, Zhou CF, Zhang HY, Xie ZZ, Larkin RM, Deng XX, Xu Q (2018). Genome of wild mandarin and domestication history of mandarin. Mol Plant 11, 1024-1037. |
[74] | Wang W, Qin L, Zhang W, Tang L, Zhang C, Dong X, Miao P, Shen M, Du H, Cheng H, Wang K, Zhang X, Su M, Lu H, Li C, Gao Q, Zhang X, Huang Y, Liang C, Zhou JM, Chen YH (2023b). WeiTsing, a pericycle- expressed ion channel, safeguards the stele to confer clubroot resistance. Cell 186, 2656-2671. |
[75] | Wang WD, Yu LJ, Xu CZ, Tomizaki T, Zhao SH, Umena Y, Chen XB, Qin XC, Xin YY, Suga M, Han GY, Kuang TY, Shen JR (2019). Structural basis for blue-green light harvesting and energy dissipation in diatoms. Science 363, eaav0365. |
[76] | Wang WG, Wang YH (2023). Century-old hypothesis finally revealed: the shuttling LAZY proteins “awaken” gravity sensing in planta. Chin Bull Bot 58, 677-681. (in Chinese) |
王文广, 王永红 (2023). 百年假说终获解析: 穿梭的LAZY蛋白“唤醒”植物对重力的感应. 植物学报 58, 677-681. | |
[77] | Wu B, Meng JH, Liu HB, Mao DH, Yin HR, Zhang ZY, Zhou XC, Zhang B, Sherif A, Liu HY, Li XH, Xiao JH, Yan WH, Wang L, Li XW, Chen W, Xie WB, Yin P, Zhang QF, Xing YZ (2023a). Suppressing a phospho-hydrolase of cytokinin nucleotide enhances grain yield in rice. Nat Genet 55, 1381-1389. |
[78] | Wu GA, Terol J, Ibanez V, López-García A, Pérez-Román E, Borredá C, Domingo C, Tadeo FR, Carbonell- Caballero J, Alonso R, Curk F, Du DL, Ollitrault P, Roose ML, Dopazo J, Gmitter FG, Rokhsar DS, Talon M (2018). Genomics of the origin and evolution of Citrus. Nature 554, 311-316. |
[79] | Wu Y, Li D, Hu Y, Li H, Ramstein GP, Zhou S, Zhang X, Bao Z, Zhang Y, Song B, Zhou Y, Zhou Y, Gagnon E, S?rkinen T, Knapp S, Zhang C, St?dler T, Buckler ES, Huang SW (2023b). Phylogenomic discovery of deleterious mutations facilitates hybrid potato breeding. Cell 186, 2313-2328. |
[80] | Yan PS, Du QG, Chen H, Guo ZF, Wang ZH, Tang JH, Li WX (2023). Biofortification of iron content by regula-ting a NAC transcription factor in maize. Science 382, 1159-1165. |
[81] | Yang N, Wang YB, Liu XG, Jin ML, Vallebueno-estrada M, Calfee E, Chen L, Dilkes BP, Gui ST, Fan XM, Harper TK, Kennett DJ, Li WQ, Lu YL, Ding JQ, Chen ZQ, Luo JY, Mambakkam S, Menon M, Snodgrass S, Veller C, Wu SS, Wu SY, Zhuo L, Xiao YJ, Yang XH, Stitzer MC, Runcie D, Yan JB, Rossi- barra J(2023). Two teosintes made modern maize. Science 382, eadg8940. |
[82] | You X, Zhang X, Cheng J, Xiao YN, Ma JF, Sun S, Zhang XZ, Wang HW, Sui SF (2023). In situ structure of the red algal phycobilisome-PSII-PSI-LHC megacomplex. Nature 616, 199-206. |
[83] | Yu XT, Huang XH (2023). New insights into the origin of modern maize-hybridization of two teosintes. Chin Bull Bot 58, 857-860. (in Chinese) |
于熙婷, 黄学辉 (2023). 现代玉米起源新见解——两类大刍草的混血. 植物学报 58, 857-860. | |
[84] | Yu YQ, Tang WX, Lin WW, Li W, Zhou X, Li Y, Chen R, Zheng R, Qin GC, Cao WH, Pérez-Henríquez P, Huang RF, Ma J, Qiu QQ, Xu ZW, Zou AL, Lin JC, Jiang LW, Xu TD, Yang ZB (2023). ABLs and TMKs are co-receptors for extracellular auxin. Cell 186, 5457-5471. |
[85] | Yuan MH, Xin XF (2023). Study uncovers a new signaling circuit mediating airborne defense of plants against aphids and viruses. Chin Bull Bot 58, 682-686. (in Chinese) |
袁民航, 辛秀芳 (2023). 烽火狼烟: 水杨酸甲酯介导的植物间通讯和气传性免疫的机制解析. 植物学报 58, 682-686. | |
[86] | Zhang G, Liu X, Quan Z, Cheng S, Xu X, Pan S, Xie M, Zeng P, Yue Z, Wang W, Tao Y, Bian C, Han C, Xia Q, Peng X, Cao R, Yang X, Zhan D, Hu J, Zhang Y, Li H, Li H, Li N, Wang J, Wang C, Wang R, Guo T, Cai Y, Liu C, Xiang H, Shi Q, Huang P, Chen Q, Li Y, Wang J, Zhao Z, Wang J (2012). Genome sequence of foxtail millet (Setaria italica) provides insights into grass evolution and biofuel potential. Nat Biotechnol 30, 549-554. |
[87] | Zhang HL, Yu FF, Xie P, Sun SY, Qiao XH, Tang SY, Chen CX, Yang S, Mei C, Yang DK, Wu YR, Xia R, Li X, Lu J, Liu YX, Xie XW, Ma DM, Xu X, Liang ZW, Feng ZH, Huang XH, Yu H, Liu GF, Wang YC, Li JY, Zhang QF, Chen C, Ouyang YD, Xie Q (2023). A Gγ protein regulates alkaline sensitivity in crops. Science 379, eade8416. |
[88] | Zhao Y, Shi H, Pan Y, Lyu MH, Yang ZX, Kou XX, Deng XW, Zhong SW (2023a). Sensory circuitry controls cytosolic calcium-mediated phytochrome B phototransduction. Cell 186, 1230-1243. |
[89] | Zhao YP, Zhao BB, Xie YR, Jia H, Li YX, Xu MY, Wu GX, Ma XJ, Li QQ, Hou M, Li CY, Xia ZC, He G, Xu H, Bai ZJ, Kong DX, Zheng ZG, Liu Q, Liu YT, Zhong JS, Tian F, Wang BB, Wang HY (2023b). The evening complex promotes maize flowering and adaptation to temperate regions. Plant Cell 35, 369-389. |
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