植物学报 ›› 2015, Vol. 50 ›› Issue (6): 790-801.DOI: 10.11983/CBB14176
收稿日期:
2014-09-25
接受日期:
2014-11-16
出版日期:
2015-11-01
发布日期:
2015-09-06
通讯作者:
韩榕
作者简介:
? 共同第一作者
基金资助:
Huize Chen, Rong Han*
Received:
2014-09-25
Accepted:
2014-11-16
Online:
2015-11-01
Published:
2015-09-06
Contact:
Han Rong
About author:
? These authors contributed equally to this paper
摘要: 地表UV-B辐射的增强对植物的生长生理产生了多方面影响。随着研究的不断深入, 人们认识到UV-B辐射不仅是一种胁迫因子, 而且是一个重要的信号调节分子。该文论述了近年来植物响应UV-B辐射研究的一系列成果, 包括UV-B辐射对植物形态建成、生理代谢、UV-B光受体UVR8蛋白、细胞程序性死亡、细胞骨架和细胞周期的影响, 及其它因素与UV-B复合处理对植物的作用; 并对植物响应UV-B辐射研究进行了望。
陈慧泽, 韩榕. 植物响应UV-B辐射的研究进展. 植物学报, 2015, 50(6): 790-801.
Huize Chen, Rong Han. Plants Respond to UV-B Radiation: a Review. Chinese Bulletin of Botany, 2015, 50(6): 790-801.
[1] | 韩榕, 王勋陵, 岳明, 齐智 (2002). 增强UV-B辐射对小麦体细胞分裂的影响. 遗传学报 29, 537-541. |
[2] | 李东波, 王晓敏, 张东凯, 毕玉蓉 (2008). UV-B胁迫下NaHSO3对红芸豆叶片的保护作用. 植物学通报 25, 543-551. |
[3] | 李晓阳, 陈慧泽, 韩榕 (2013). UV-B辐射对拟南芥种子萌发和幼苗生长的影响. 植物学报 48, 52-58. |
[4] | 孙谷畴, 赵平, 曾小平, 彭少麟 (2000). 补增UV-B辐射对香蕉叶片光合作用和叶氮在光合碳循环组分中分配的影响. 植物学通报 17, 450-456. |
[5] | 王静, 蒋磊, 王艳, 李韶山 (2007). 紫外辐射诱导植物叶片DNA损伤敏感性差异. 植物学通报 24, 189-193. |
[6] | 王静, 蒋磊, 王艳, 李韶山 (2009). UV-B辐射对拟南芥细胞周期G1/S期转变的影响. 植物学报 44, 426-433. |
[7] | 杨晖, 安黎哲, 王治业, 周剑平, 王勋陵 (2007). UV-B辐射对番茄花粉生活力的影响与内源激素和多胺的关系. 植物学通报 24, 161-167. |
[8] | Agati G, Azzarello E, Pollastri S, Tattini M (2012). Flavonoids as antioxidants in plants: location and functional significance.Plant Sci 196, 67-76. |
[9] | Agati G, Tattini M (2010). Multiple functional roles of flavonoids in photoprotection.New Phytol 186, 786-793. |
[10] | Aiamla-Or S, Shigyo M, Ito S, Yamauchi N (2014). Involvement of chloroplast peroxidase on chlorophyll degradation in postharvest broccoli florets and its control by UV-B treatment.Food Chem 165, 224-231. |
[11] | Allen D, McKee I, Farage P, Baker N (1997). Analysis of limitations to CO2 assimilation on exposure of leaves of two Brassica napus cultivars to UV-B.Plant Cell Environ 20, 633-640. |
[12] | Barnes PW, Flint SD, Slusser JR, Gao W, Ryel RJ (2008). Diurnal changes in epidermal UV transmittance of plants in naturally high UV environments.Physiol Plant 133, 363-372. |
[13] | Barnes PW, Kersting AR, Flint SD, Beyschlag W, Ryel RJ (2013). Adjustments in epidermal UV-transmittance of leaves in sun-shade transitions.Physiol Plant 149, 200-213. |
[14] | Beckmann M, Hock M, Bruelheide H, Erfmeier A (2012). The role of UV-B radiation in the invasion of Hieracium pilosella—a comparison of German and New Zealand plants.Environ Exp Bot 75, 173-180. |
[15] | Brown BA, Cloix C, Jiang GH, Kaiserli E, Herzyk P, Kliebenstein DJ, Jenkins GI (2005). A UV-B-specific signaling component orchestrates plant UV protection.Proc Natl Acad Sci USA 102, 18225-18230. |
[16] | Casadevall R, Rodriguez RE, Debernardi JM, Palatnik JF, Casati P (2013). Repression of growth regulating factors by the microRNA396 inhibits cell proliferation by UV-B radiation in Arabidopsis leaves.Plant Cell 25, 3570-3583. |
[17] | Cechin I, Fumis TDF, Dokkedal AL (2007). Growth and physiological responses of sunflower plants exposed to ultraviolet-B radiation.Ciência Rural 37, 85-90. |
[18] | Chen HZ, Gong Y, Han R (2014). Cadmium telluride quantum dots (CdTe-QDs) and enhanced ultraviolet-B (UV-B) radiation trigger antioxidant enzyme metabolism and programmed cell death in wheat seedlings.PLoS One 9, e110400. |
[19] | Chen HZ, Han R (2014). He-Ne laser treatment improves the photosynthetic efficiency of wheat exposed to enhan- ced UV-B radiation.Laser Phys 24, 1-7. |
[20] | Christie JM, Arvai AS, Baxter KJ, Heilmann M, Pratt AJ, O'Hara A, Kelly SM, Hothorn M, Smith BO, Hitomi K, Jenkins GI, Getzoff ED (2012). Plant UVR8 photo- receptor senses UV-B by tryptophan-mediated disruption of cross-dimer salt bridges.Science 335, 1492-1496. |
[21] | Cloix C, Jenkins GI (2008). Interaction of the Arabidopsis UV-B-specific signaling component UVR8 with chromatin.Mol Plant 1, 118-128. |
[22] | Cloix C, Kaiserli E, Heilmann M, Baxter KJ, Brown BA, O’Hara A, Smith BO, Christie JM, Jenkins GI (2012). C-terminal region of the UV-B photoreceptor UVR8 ini- tiates signaling through interaction with the COP1 protein.Proc Natl Acad Sci USA 109, 16366-16370. |
[23] | Comont D, Winters A, Gomez LD, McQueen-Mason SJ, Gwynn-Jones D (2013). Latitudinal variation in ambient UV-B radiation is an important determinant of Lolium perenne forage production, quality, and digestibility.J Exp Bot 64, 2193-2204. |
[24] | Costa D, Galvão AM, Di Paolo RE, Freitas AA, Lima JC, Quina FH, Maçanita AL (2015). Photochemistry of the hemiketal form of anthocyanins and its potential role in plant protection from UV-B radiation.Tetrahedron 71, 3157-3162. |
[25] | Dai Q, Peng S, Chavez A, Vergara B, Peng S, Ingram K, Neue H, Ziska L (1995). Effect of enhanced ultraviolet-B radiation on growth and production of rice under greenhouse and field conditions. In: Peng SB, Ingram KT, Neue HU, Ziska LH, eds. Climate Change and Rice. Berlin: Springer-Verlag. pp. 189-198. |
[26] | Day T, Martin G, Vogelmann T (1993). Penetration of UV-B radiation in foliage: evidence that the epidermis behaves as a non-uniform filter.Plant Cell Environ 16, 735-741. |
[27] | De Veylder L, Larkin JC, Schnittger A (2011). Molecular control and function of endoreplication in development and physiology.Trends Plant Sci 16, 624-634. |
[28] | Debeaujon I, Peeters AJ, Léon-Kloosterziel KM, Koornneef M (2001). The TRANSPARENT TESTA12 gene of Arabidopsis encodes a multidrug secondary transpor- ter-like protein required for flavonoid sequestration in vac- uoles of the seed coat endothelium.Plant Cell 13, 853-871. |
[29] | El Morchid EM, Torres Londoño P, Papagiannopoulos M, Gobbo-Neto L, Müller C (2014). Variation in flavonoid pattern in leaves and flowers of Primula veris of different origin and impact of UV-B.Biochem Syst Ecol 53, 81-88. |
[30] | Emiliani J, Grotewold E, Ferreyra MLF, Casati P (2013). Flavonols protect Arabidopsis plants against UV-B deleterious effects.Mol Plant 6, 1376-1379. |
[31] | Farquhar GD, Sharkey TD (1982). Stomatal conductance and photosynthesis.Annu Rev Plant Physiol 33, 317-345. |
[32] | Favory JJ, Stec A, Gruber H, Rizzini L, Oravecz A, Funk M, Albert A, Cloix C, Jenkins GI, Oakeley EJ, Seidlitz HK, Nagy F, Ulm R (2009). Interaction of COP1 and UVR8 regulates UV-B-induced photomorphogenesis and stress acclimation in Arabidopsis.EMBO J 28, 591-601. |
[33] | Feng H, An L, Chen T, Qiang W, Xu S, Zhang M, Wang X, Cheng G (2003). The effect of enhanced ultraviolet-B radiation on growth, photosynthesis and stable carbon isotope composition of two soybean cultivars under field con- ditions.Environ Exp Bot 49, 1-8. |
[34] | Fujimori N, Suzuki N, Nakajima Y, Suzuki S (2014). Plant DNA-damage repair/toleration 100 protein repairs UV-B- induced DNA damage.DNA Repair 21, 171-176. |
[35] | Ghosh D, Xu J (2014). Abiotic stress responses in plant roots: a proteomics perspective.Front Plant Sci 5, 6. |
[36] | Gwynn Jones D, Johanson U (1996). Growth and pigment production in two subarctic grass species under four different UV-B irradiation levels.Physiol Plant 97, 701-707. |
[37] | Han R, Wang XL, Yue M (2002). Influence of He-Ne laser irradiation on the excision repair of cyclobutyl pyrimidine dimers in the wheat DNA.Chin Sci Bull 47, 818-821. |
[38] | He R, Drury GE, Rotari VI, Gordon A, Willer M, Farzaneh T, Woltering EJ, Gallois P (2008). Metacaspase-8 modulates programmed cell death induced by ultraviolet light and H2O2 in Arabidopsis.J Biol Chem 283, 774-783. |
[39] | Heilmann M, Jenkins GI (2013). Rapid reversion from monomer to dimer regenerates the ultraviolet-B photo- receptor UV RESISTANCE LOCUS8 in intact Arabidopsis plants.Plant Physiol 161, 547-555. |
[40] | Hideg E, Jansen MA, Strid A (2013). UV-B exposure, ROS, and stress: inseparable companions or loosely linked as- sociates?Trends Plant Sci 18, 107-115. |
[41] | Hu ZQ, Zhao HY, Thieme T (2013). Probing behaviors of Sitobion avenae (Hemiptera: Aphididae) on enhanced UV-B irradiated plants.Arch Biol Sci 65, 247-254. |
[42] | Jansen MAK, Bornman JF (2012). UV-B radiation: from generic stressor to specific regulator.Physiol Plant 145, 501-504. |
[43] | Jansen MAK, Noort REvd (2000). Ultraviolet-B radiation induces complex alterations in stomatal behaviour.Phy- siol Plant 110, 189-194. |
[44] | Jiang L, Wang Y, Björn LO, Li SS (2011). UV-B-induced DNA damage mediates expression changes of cell cycle regulatory genes in Arabidopsis root tips.Planta 233, 831-841. |
[45] | Kakani VG, Reddy KR, Zhao D, Sailaja K (2003). Field crop responses to ultraviolet-B radiation: a review.Agric For Meteorol 120, 191-218. |
[46] | Kataria S, Guruprasad KN, Ahuja S, Singh B (2013). Enhancement of growth, photosynthetic performance and yield by exclusion of ambient UV components in C3 and C4 plants.J Photochem Photobiol B 127, 140-152. |
[47] | Kataria S, Jajoo A, Guruprasad KN (2014). Impact of increasing ultraviolet-B (UV-B) radiation on photosynthetic processes.J Photochem Photobiol B 137, 55-66. |
[48] | Khoroshilova EV, Repeyev YA, Nikogosyan DN (1990). UV protolysis of aromatic amino acids and related dipeptides and tripeptides.J Photochem Photobiol B 7, 159-172. |
[49] | Klem K, Ač A, Holub P, Kováč D, Špunda V, Robson TM, Urban O (2012). Interactive effects of PAR and UV radiation on the physiology, morphology and leaf optical properties of two barley varieties.Environ Exp Bot 75, 52-64. |
[50] | Kliebenstein DJ, Lim JE, Landry LG, Last RL (2002). Arabidopsis UVR8 regulates ultraviolet-B signal trans- duction and tolerance and contains sequence similarity to human Regulator of Chromatin Condensation 1.Plant Phy- siol 130, 234-243. |
[51] | Koyama K, Ikeda H, Poudel PR, Goto-Yamamoto N (2012). Light quality affects flavonoid biosynthesis in young berries of Cabernet Sauvignon grape.Phytoche- mistry 78, 54-64. |
[52] | Krasylenko YA, Yemets AI, Blume YB (2013). Plant microtubules reorganization under the indirect UV-B exposure and during UV-B-induced programmed cell death.Plant Signal Behav 8, e24031. |
[53] | Krasylenko YA, Yemets AI, Sheremet YA, Blume YB (2012). Nitric oxide as a critical factor for perception of UV-B irradiation by microtubules in Arabidopsis.Physiol Plant 145, 505-515. |
[54] | Kumari R, Singh S, Agrawal S (2009). Effects of supplemental ultraviolet-B radiation on growth and physiology of Acorus calamus L. (sweet flag).Acta Biol Crac Ser Bot 51, 19-27. |
[55] | Lario LD, Ramirez-Parra E, Gutierrez C, Spampinato CP, Casati P (2013). ANTI-SILENCING FUNCTION1 proteins are involved in ultraviolet-induced DNA damage repair and are cell cycle regulated by E2F transcription factors in Arabidopsis.Plant Physiol 162, 1164-1177. |
[56] | Li JG, Yang L, Jin D, Nezames CD, Terzaghi W, Deng XW (2013). UV-B-induced photomorphogenesis in Arabidop- sis.Protein Cell 4, 485-492. |
[57] | Li XM, Ma LJ, Bu N, Li YY, Zhang LH (2013). Effects of salicylic acid pre-treatment on cadmium and/or UV-B stress in soybean seedlings.Biologia Plantarum 58, 195-199. |
[58] | Lv Z, Zhang X, Liu L, Guo Y, Fan Y, Yang X, Li Y, Zhang W (2013). Comparing intraspecific responses of 12 winter wheat cultivars to different doses of ultraviolet-B radiation. J Photochem Photobiol B 119, 1-8. |
[59] | Nawkar GM, Maibam P, Park JH, Sahi VP, Lee SY, Kang CH (2013). UV-induced cell death in plants.Int J Mol Sci 14, 1608-1628. |
[60] | Neugart S, Zietz M, Schreiner M, Rohn S, Kroh LW, Krumbein A (2012). Structurally different flavonol glycosides and hydroxycinnamic acid derivatives respond differently to moderate UV-B radiation exposure.Physiol Plant 145, 582-593. |
[61] | Nybakken L, Hörkkä R, Julkunen-Tiitto R (2012). Com- bined enhancements of temperature and UV-B influence growth and phenolics in clones of the sexually dimorphic Salix myrsinifolia.Physiol Plant 145, 551-564. |
[62] | Paul ND, Moore JP, McPherson M, Lambourne C, Croft P, Heaton JC, Wargent JJ (2012). Ecological responses to UV radiation: interactions between the biological effects of UV on plants and on associated organisms.Physiol Plant 145, 565-581. |
[63] | Peer WA, Murphy AS (2007). Flavonoids and auxin transport: modulators or regulators?Trends Plant Sci 12, 556-563. |
[64] | Petrussa E, Braidot E, Zancani M, Peresson C, Bertolini A, Patui S, Vianello A (2013). Plant flavonoids-bio- synthesis, transport and involvement in stress responses.Int J Mol Sci 14, 14950-14973. |
[65] | Peykarestan B, Seify M, Fadaei MS, Hatim M (2012). UV irradiation effects on seed germination and growth, protein content, peroxidase and protease activity in Portulaca grandiflora and Portulaca oleracea.World Applied Sciences Journal 17, 802-808. |
[66] | Rizzini L, Favory JJ, Cloix C, Faggionato D, O’Hara A, Kaiserli E, Baumeister R, Schäfer E, Nagy F, Jenkins GI, Uim R (2011). Perception of UV-B by the Arabidopsis UVR8 protein.Science 332, 103-106. |
[67] | Ruan J, Li M, Jin H, Sun L, Zhu Y, Xu M, Dong J (2015). UV-B irradiation alleviates the deterioration of cold-stored mangoes by enhancing endogenous nitric oxide levels.Food Chem 169, 417-423. |
[68] | Rybarczyk-Plonska A, Hansen MK, Wold AB, Hagen SF, Borge GIA, Bengtsson GB (2014). Vitamin C in broccoli (Brassica oleracea L. var. italica) flower buds as affected by postharvest light, UV-B irradiation and temperature.Postharvest Biol Technol 98, 82-89. |
[69] | Salama HM, Al Watban AA, Al-Fughom AT (2011). Effect of ultraviolet radiation on chlorophyll, carotenoid, protein and proline contents of some annual desert plants.Saudi J Biol Sci 18, 79-86. |
[70] | Shine M, Guruprasad K (2012). Oxyradicals and PSII activity in maize leaves in the absence of UV components of solar spectrum.J Biosci 37, 703-712. |
[71] | Singh S, Agrawal SB, Agrawal M (2014). UVR8 mediated plant protective responses under low UV-B radiation leading to photosynthetic acclimation.J Photochem Pho- tobiol B 137, 67-76. |
[72] | Surplus S, Jordan B, Murphy A, Carr J, Thomas B, Mackerness SH (1998). Ultraviolet-B-induced responses in Arabidopsis thaliana: role of salicylic acid and reactive oxygen species in the regulation of transcripts encoding photosynthetic and acidic pathogenesis-related proteins.Plant Cell Environ 21, 685-694. |
[73] | Swarna K, Bhanumathi G, Murthy S (2012). Studies on the UV-B radiation induced oxidative damage in thylakoid photofunctions and analysis of the role of antioxidant enzymes in maize primary leaves.Bioscan 7, 609-610. |
[74] | Tossi V, Cassia R, Bruzzone S, Zocchi E, Lamattina L (2012). ABA says NO to UV-B: a universal response?Trends Plant Sci 17, 510-517. |
[75] | Tossi V, Lamattina L, Jenkins GI, Cassia RO (2014). Ultraviolet-B-induced stomatal closure in Arabidopsis is regulated by the UV RESISTANCE LOCUS8 photoreceptor in a nitric oxide-dependent mechanism.Plant Physiol 164, 2220-2230. |
[76] | Tossi V, Lombardo C, Cassia R, Lamattina L (2012). Nitric oxide and ?avonoids are systemically induced by UV-B in maize leaves. Plant Sci 193-194, 103-109. |
[77] | Wang G, Deng S, Li C, Liu Y, Chen L, Hu C (2012). Damage to DNA caused by UV-B radiation in the desert cyanobacterium Scytonema javanicum and the effects of exogenous chemicals on the process.Chemosphere 88, 413-417. |
[78] | Wargent JJ, Gegas VC, Jenkins GI, Doonan JH, Paul ND (2009). UVR8 in Arabidopsis thaliana regulates multiple aspects of cellular differentiation during leaf development in response to ultraviolet B radiation.New Phytol 183, 315-326. |
[79] | Wargent JJ, Nelson BC, McGhie TK, Barnes PW (2015). Acclimation to UV-B radiation and visible light in Lactuca sativa involves up-regulation of photosynthetic performance and orchestration of metabolome-wide responses. Plant Cell Environ 38, 929-940. |
[80] | Wu D, Hu Q, Yan Z, Chen W, Yan CY, Huang X, Zhang J, Yang PY, Deng HT, Wang JW, Deng XW, Shi YG (2012). Structural basis of ultraviolet-B perception by UVR8.Nature 484, 214-219. |
[81] | Yin L, Zhang M, Li Z, Duan L, Wang S (2012). Enhanced UV-B radiation increases glyphosate resistance in vel- vetleaf (Abutilon theophrasti).Photochem Photobiol 88, 1428-1432. |
[82] | Zhao D, Reddy KR, Kakani VG, Mohammed AR, Read JJ, Gao W (2004). Leaf and canopy Photosynthetic characteristics of cotton under elevated CO2 concentration and UV-B radiation.J Plant Physiol 161, 581-590. |
[83] | Zhu Y, Ge XM, Wu MM, Li X, He JM (2014). The role and interactions of cytosolic alkalization and hydrogen peroxide in ultraviolet B-induced stomatal closure in Arabidopsis. Plant Sci 215-216(3), 84-90. |
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