Leaf physiological indicator changes in the transformation of leaves color of Eucommia ulmoides ‘Hongye’

doi:10.12302/j.issn.1000-2006.202002034

JOURNAL OF NANJING FORESTRY UNIVERSITY ›› 2021, Vol. 45 ›› Issue (1): 86-92.doi: 10.12302/j.issn.1000-2006.202002034

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Leaf physiological indicator changes in the transformation of leaves color of Eucommia ulmoides ‘Hongye’

LU Mailin¹^,²(), CHEN Mengjiao¹^,³, ZHANG Jiajia¹^,⁵, ZHAO Jianxia⁴, ZHU Jingle¹, DU Hongyan¹^,^*()

1. Paulownia R&D Center of National Forestry and Grassland Administration, Zhengzhou 450003, China
2. Henan Forestry Vocational College, Luoyang 471002, China
3. College of Forestry, Henan Agriculture University, Zhengzhou 450002, China
4. Zhengzhou Botanical Garden, Zhengzhou 450042, China
5. Key Laboratory of Non-timber Forest Germplasm Enhancement & Utilization of National Forestry and Grassland Administration,Zhengzhou 450003,China

Received:2020-02-23 Accepted:2020-07-23 Online:2021-01-30 Published:2021-02-01
Contact: DU Hongyan E-mail:lumailin@163.com;dhy515@126.com

Abstract

Abstract:

【Objective】 In order to provide a theoretical basis for revealing the mechanism of leaf color formation, the consistency of leaf physiological indicators of Eucommia ulmoides ‘Hongye’ at different periods of time was studied. 【Method】 Chlorophyll a, chlorophyll b, total chlorophyll, carotenoids, flavonoids and anthocyanin in five periods were tested and compared between E. ulmoides ‘Hongye’ and E. ulmoides ‘Xiaoye’. A CR2500 color difference meter (Konica Minolta, Japan) was used to measure brightness (L), redness (a^*) and yellowness (b^*) values. Color saturation (Chroma, C^*) and hue angle (h) were calculated using the a^* and b^* values, where C^*=(a^*2+b^*2)/2, h=arctan (b^*/a^*). The leaf color index (color index) was calculated as follows: color index=(180 - h)/(L+C^*). The key enzymes in the leaf color transition process and the anthocyanin synthesis and metabolism pathway, phenylalanine lyase (PAL) and chalcone isomerase (CHI) were extracted, and the enzyme activity was determined. The data were analyzed using SPSS 16.0. The analysis of variance was carried out to test the significance of differences within each period, and correlations among indicators were analyzed. 【Result】 ① Although the variation law of E. ulmoides ‘Xiaoye’ was similar to E. ulmoides ‘Hongye’, the initial value and variation range of each index of the two varieties were significantly different. The color index of E. ulmoides ‘Xiaoye’ was always in the yellow-green grade, while it was in the yellow-green grade only in the first and second stages for E. ulmoides ‘Hongye’. After that, the color was in the pink grade in the third and fourth stages, and the deep red grade in the fifth stage. ② The content of various pigments in the two varieties increased gradually. Among all the indicators, i.e. C_a (chlorophyll a content), C_b (chlorophyll b content), C_T (total chlorophyll content), C_Car (carotenoid content), C_f (flavonoid content) and C_A (anthocyanin content), the anthocyanin content played the key role in the process of reddening. The comparison of the content of each pigment in the fifth period (38 d) to the first period (6 d) indicated that the C_A in E. ulmoides‘Hongye’increased by 553.96% compared to that of E. ulmoides ‘Xiaoye’. ③ There was no significant difference in PAL enzyme activity in different time periods between the two varieties. The enzyme activity values of the two varieties in each period were similar. The CHI enzyme activity of E. ulmoides ‘Hongye’ increased linearly with the change in leaf color by 306.14% in the fifth period (38 d) compared to the first period (6d) and differed significantly among different stages. The CHI enzyme activity of E. ulmoides ‘Xiaoye’ increased gradually with leaf color change, although there was no significant difference in enzyme activity among different periods. ④ The L, a^* and b^* values were significantly correlated with C_Car, C_A and C_f, while it was not significantly correlated with C_a, C_b, C_T and C_a/C_b. CHI enzyme activity was correlated or significantly correlated with the L, a^* and b^* values, with C_Car, C_A and C_f of Eucommia leaves, while no significant correlation was found between the PAL and leaf color difference. 【Conclusion】 In the process of color changes in E. ulmoides ‘Hongye’ leaves, the change of C_A was much greater than that of chlorophyll content, and this was the direct cause of their color appearance. The high activity of the CHI enzyme in E. ulmoides ‘Hongye’ leaves played a key role in the process of typical leaf color transformation.

Key words: Eucommia ulmoides‘Hongye’, chalcone isomerase enzyme (CHI), leaf chromatic aberration, anthocyanin, leaf color

CLC Number:

LU Mailin, CHEN Mengjiao, ZHANG Jiajia, ZHAO Jianxia, ZHU Jingle, DU Hongyan. Leaf physiological indicator changes in the transformation of leaves color of Eucommia ulmoides ‘Hongye’[J]. JOURNAL OF NANJING FORESTRY UNIVERSITY, 2021, 45(1): 86-92.

Figures/Tables 5

Table 1

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Table 2

References 21

[1]	王改萍, 张磊, 姚雪冰, 等. 金叶银杏叶色变化特性分析[J]. 南京林业大学学报(自然科学版), 2020,44(5):41-48.
	WANG G P, ZHANG L, YAO X B, et al. An analysis of color variation characteristics of golden leaf ginkgo[J]. J Nanjing For Univ(Nat Sci Ed), 2020,44(5):41-48. DOI : 10.3969/j.issn.1000-2006.202003045.
[2]	WINKEL-SHIRLEY B. Flavonoid biosynjournal.a colorful model for genetics,biochemistry,cell biology,and biotechnology[J]. Plant Physiol, 2001,126(2):485-493. DOI: 10.1104/pp.126.2.485. doi: 10.1104/pp.126.2.485 pmid: 11402179
[3]	TANAKA Y, SASAKI N, OHMIYA A. Biosynjournal of plant pigments:anthocyanins,betalains and carotenoids[J]. Plant J, 2008,54(4):733-749. DOI: 10.1111/j.1365-313x.2008.03447.x. doi: 10.1111/j.1365-313X.2008.03447.x pmid: 18476875
[4]	杜红岩, 胡文臻, 俞锐. 杜仲产业绿皮书:中国杜仲橡胶资源与产业发展报告(2014-2015)[M]. 北京: 社会科学文献出版社, 2015.
[5]	朱景乐, 苗作云, 张少伟, 等. 3个观赏型杜仲品种叶片生理特征的比较[J]. 东北林业大学学报, 2017,45(8):10-13.
	ZHU J L, MIAO Z Y, ZHANG S W, et al. Leaf physiological characteristics of three ornamental Eucommia ulmoides oliver varieties[J]. J Northeast For Univ, 2017,45(8):10-13.
[6]	朱景乐, 李芳东, 杜红岩, 等. 三个观赏型杜仲无性系叶片色素含量比较[J]. 林业科学研究, 2014,27(4):562-564.
	ZHU J L, LI F D, DU H Y, et al. Comparison of leaf pigment content among three ornamental Eucommia ulmoides varieties[J]. For Res, 2014,27(4):562-564.
[7]	FADEEL A A. Location and properties of chloroplasts and pigment determination in roots[J]. Physiol Plant, 1962,15(1):130-146. DOI: 10.1111/j.1399-3054.1962.tb07994.x. doi: 10.1111/ppl.1962.15.issue-1
[8]	聂庆娟, 史宝胜, 孟朝, 等. 不同叶色红栌叶片中色素含量、酶活性及内含物差异的研究[J]. 植物研究, 2008,28(5):599-602.
	NIE Q J, SHI B S, MENG Z, et al. The enzyme activities,pigment and inclusion contents in different leaves color of Cotinus coggygria ‘royal purple’ in autumn[J]. Bull Bot Res, 2008,28(5):599-602.
[9]	RABINO I, MANCINELLI A L. Light,temperature,and anthocyanin production[J]. Plant Physiology, 1986,81(3) : 922-924. doi: 10.1104/pp.81.3.922 pmid: 16664926
[10]	张敏, 黄利斌, 周鹏, 等. 榉树秋季转色期叶色变化的生理生化[J]. 林业科学, 2015,51(8):44-51. doi: 10.11707/j.1001-7488.20150806
	ZHANG M, HUANG L B, ZHOU P, et al. Physiological and biochemical changes in Zelkova serrata leaves during leaf color transformation in autumn[J]. Sci Silvae Sin, 2015,51(8):44-51. DOI: 10.11707/j.1001-7488.20150806.
[11]	苏东海, 吴穹, 何淑芳, 等. 柿叶中黄酮提取工艺的研究[J]. 食品科学, 2005,26(z1):39-42.
	SU D H, WU Q, HE S F, et al. Study on extraction technology of flavones from Diospyros kakl leaves[J]. Food Sci, 2005,26(z1):39-42. DOI: 10.3321/j.issn:1002-6630.2005.z1.011.
[12]	FERNÁNDEZ-LÓPEZ J A, ALMELA L, MUÑOZ J A, et al. Dependence between colour and individual anthocyanin content in ripening grapes[J]. Food Res Int, 1998,31(9):667-672. DOI: 10.1016/S0963-9969(99)00043-5. doi: 10.1016/S0963-9969(99)00043-5
[13]	王惠聪, 黄旭明, 胡桂兵, 等. 荔枝果皮花青苷合成与相关酶的关系研究[J]. 中国农业科学, 2004,37(12):2028-2032.
	WANG H C, HUANG X M, HU G B, et al. Studies on the relationship between anthocyanin biosynjournal and related enzymes in Litchi pericarp[J]. Sci Agric Sin, 2004,37(12):2028-2032. DOI: 10.3321/j.issn:0578-1752.2004.12.043.
[14]	LISTER C E, LANCASTER J E, WALKER J R L. Developmental changes in enzymes of flavonoid biosynjournal in the skins of red and green apple cultivars[J]. J Sci Food Agric, 1996,71(3):313-320. DOI: 10.1002/(SICI)1097-0010(199607)71:3313::AID-JSFA586>3.0.CO;2-N. doi: 10.1002/(ISSN)1097-0010
[15]	姜卫兵, 庄猛, 韩浩章, 等. 彩叶植物呈色机理及光合特性研究进展[J]. 园艺学报, 2005,32(2):352-358.
	JIANG W B, ZHUANG M, HAN H Z, et al. Progress on color emerging mechanism and photosynthetic characteristics of colored-leaf plants[J]. Acta Hortic Sin, 2005,32(2):352-358. DOI: 10.3321/j.issn:0513-353X.2005.02.042.
[16]	彭少兵, 张春贺, 任利益, 等. 紫叶杜仲叶色变异研究[J]. 浙江林业科技, 2013,33(3):61-66.
	PENG S B, ZHANG C H, REN L Y, et al. Analysis on leaf color variation of Eucommia ulmoides[J]. J Zhejiang For Sci Technol, 2013,33(3):61-66. DOI: 10.3969/j.issn.1001-3776.2013.03.015.
[17]	吕运舟, 董筱昀, 杨小鑫, 等. 黄山栾树新品种‘金焰彩栾’叶片呈色的生理特性及影响因子分析[J]. 植物资源与环境学报, 2020,29(6):51-56.
	LYU Y Z, DONG X Y, YANG X X, et al. Analyses on physiological characteristics and influence factors of leaf color of new cultivar ‘Jinyan’ of Koelreuteria bipinnata[J]. J Plant Resour Environ, 2020,29(6):51-56. DOI: 10.3969/j.issn.1674-7895.2020.06.06.
[18]	张少露. 红叶石楠叶色变化过程中叶结构和生理特征研究[D]. 雅安:四川农业大学, 2017.
	ZHANG S L. Preliminary study on leaf structure and physiological and biochemical characteristics of Photinia fraseri during leaf color change[D]. Ya’an:Sichuan Agricultural University, 2017.
[19]	葛雨萱, 王亮生, 周肖红, 等. 香山黄栌叶色和色素组成的相互关系及时空变化[J]. 林业科学, 2011,47(4):38-42. doi: 10.11707/j.1001-7488.20110407
	GE Y X, WANG L S, ZHOU X H, et al. Correlation between the leaf color and pigments composition of Cotinus coggygria in fragrant hills park and their temporal and spatial variation[J]. Sci Silvae Sin, 2011,47(4):38-42.
[20]	李力. 北美红枫呈色生理机制及叶色调控[D]. 重庆:西南大学, 2016.
	LI L. Study on the formation and regulation of leaf color from Acer rubrum L[D]. Chongqing:Southwest University, 2016.
[21]	刘金, 魏景立, 刘美艳, 等. 早熟苹果花青苷积累与其相关酶活性及乙烯生成之间的关系[J]. 园艺学报, 2012,39(7):1235-1242.
	LIU J, WEI J L, LIU M Y, et al. The relationships between the enzyme activity of anthocyanin biosynjournal,ethylene release and anthocyanin accumulation in fruits of precocious apple cultivars[J]. Acta Hortic Sin, 2012,39(7):1235-1242.

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取样时间/d sampling time	‘小叶’杜仲 E. ulmoides‘Xiaoye’				‘红叶’杜仲 E. ulmoides‘Hongye’
取样时间/d sampling time	L	a^*	b^*	颜色指数 color index	L	a^*	b^*	颜色指数 color index
6	37.16±0.31 a	-12.75±0.22 c	18.61±0.39 a	0.62±0.02 b	32.89±0.60 b	-8.70±1.23 c	13.35±1.91 a	1.16±0.24 c
14	36.62±1.23 a	-11.60±0.75 c	17.23±1.54 a	0.72±0.10 b	37.19±1.91 a	-5.90±1.27 b	17.01±3.47 a	0.96±0.32 c
22	34.12±0.58 b	-9.08±0.87 b	13.09±1.26 b	1.14±0.17 ab	30.86±1.49 bc	0.76±0.27 a	7.39±1.74 b	3.12±0.80 b
30	33.24±0.60 b	-8.5±0.96 ab	12.33±1.41 b	1.27±0.22 ab	30.21±1.51 c	0.72±0.16 a	6.08±1.93 bc	3.73±0.92 b
38	33.44±0.85 b	-7.52±0.5 a	11.08±0.89 b	1.48±0.17 a	28.44±0.18 c	1.03±0.03 a	2.51±0.19 c	5.57±0.12 a
F	16.802	28.786	23.206	17.129	19.831	96.487	22.687	33.054
P	<0.001	<0.001	<0.001	<0.001	<0.001	<0.001	<0.001	<0.001

指标 index	PAL酶活性 PAL enzymatic activity	L	a^*	b^*	C_a	C_b	C_T	C_Car	C_A	C_f
CHI酶活性 CHI enzymatic activity	0.384 0.273	-0.775^** (0.008)	0.894^** (<0.001)	-0.851^** (0.002)	0.125 (0.731)	0.098 (0.788)	0.116 (0.749)	0.757^* (0.011)	0.929^** (<0.001)	0.951^** (<0.001)
PAL酶活性PAL enzymatic activity	—	-0.480 (0.160)	0.503 (0.138)	-0.513 (0.130)	0.002 (0.995)	-0.146 (0.688)	-0.048 (0.895)	0.188 (0.602)	0.433 (0.211)	0.402 (0.249)
L	—	—	-0.836^** (0.003)	0.980^** (<0.001)	-0.226 (0.529)	-0.196 (0.587)	-0.218 (0.546)	-0.867^** (0.001)	-0.791^** (0.006)	-0.868^** (0.001)
a^*	—	—	—	-0.891^** (0.001)	-0.090 (0.804)	-0.079 (0.828)	-0.088 (0.810)	0.705^* (0.023)	0.932^** (<0.001)	0.953^** (<0.001)
b^*	—	—	—	—	-0.271 (0.449)	-0.241 (0.502)	-0.263 (0.463)	-0.862^** (0.001)	-0.887^** (0.001)	-0.913^** (<0.001)
C_a	—	—	—	—	—	0.964^** (<0.001)	0.996^** (<0.001)	0.356 (0.313)	0.201 (0.577)	0.021 (0.953)
C_b	—	—	—	—	—	—	0.984^** (<0.001)	0.364 (0.302)	0.214 (0.553)	0.008 (0.983)
C_T	—	—	—	—	—	—	—	0.361 (0.306)	0.207 (0.566)	0.016 (0.964)
C_Car	—	—	—	—	—	—	—	—	0.693^* (0.026)	0.803^** (0.005)
C_A	—	—	—	—	—	—	—	—	—	0.913^** (<0.001)

Leaf physiological indicator changes in the transformation of leaves color of Eucommia ulmoides ‘Hongye’

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