1 | 张志翔.树木学:北方本[M].2版.北京:中国林业出版社,2008:550. |
1 | ZHANG Z X.Dendrology:North edition[M].2nd ed.Beijing:China Forestry Publishing House,2008:550. |
2 | 胡萌晓,翟悦,杨淞淇,等.‘鲁赫’刺蔷薇籽成分分析及抗氧化、抗炎活性研究[J].中国林副特产,2022(1):1-4,14. |
2 | HU M X, ZHAI Y, YANG S Q,et al.Analysis of composition,anti-oxidation and anti-inflammatory activities of Rosa acicularis ‘Luhe’ seed[J].Forest by-Product and Speciality in China,2022(1):1-4,14. |
3 | 冯亚磊,何培,王生贺,等.低温逆境下“鲁赫”刺蔷薇抗性分析[J].齐齐哈尔大学学报(自然科学版),2017,33(5):56-63. |
3 | FENG Y L, HE P, WANG S H,et al.The resistance ability of Rosa acicularis ‘Luhe’ under chilling stress[J].Journal of Qiqihar University(Natural Science Edition),2017,33(5):56-63. |
4 | 徐宁伟,李津,郭振清,等.白花刺蔷薇种子和果实的形态与组分[J].河北科技师范学院学报,2011,25(3):39-43. |
4 | XU N W, LI J, GUO Z Q,et al.The study on the morphological characters and the component analysis of seeds and fruit of Rosa acicularis [J].Journal of Hebei Normal University of Science & Technology,2011,25(3):39-43. |
5 | 韩竞,金哲雄.刺玫果的药理作用及临床应用概况[J].黑龙江医药,2014,27(1):106-108. |
5 | HAN J, JIN Z X. Rosa acicularis pharmacological functions and clinical applications[J].Heilongjiang Medicine Journal,2014,27(1):106-108. |
6 | 赵梦雅,赵玉红.‘鲁赫’与野生刺蔷薇花精油成分比较[J].现代食品科技,2019,35(3):241-248,14. |
6 | ZHAO M Y, ZHAO Y H.Analysis and comparison of essential oil composition between Rosa acicularis ‘Luhe’ and lindl[J].Modern Food Science and Technology,2019,35(3):241-248,14. |
7 | 赵玉红,师帅帅,张立钢.‘鲁赫’刺蔷薇叶不同溶剂提取物的活性成分及抗氧化性比较[J].现代食品科技,2019,35(5):159-166. |
7 | ZHAO Y H, SHI S S, ZHANG L G.Bioactive compounds extracted by different solvents from Rosa acicularis ‘Luhe’ leaves and their antioxidant activity[J].Modern Food Science and Technology,2019,35(5):159-166. |
8 | WANG Y X, GUO X, ZHANG L G,et al.Effects of deproteinization on rheological properties of polysaccharides from Rosa acicularis ‘Luhe’ and Rosa acicularis Lindl fruits[J].Journal of Food Measurement and Characterization,2021,15(3):2500-2515. |
9 | 毕诗畦,穆立蔷.‘鲁赫’刺蔷薇对铅、镉及其混合胁迫的生理响应[J].西北林学院学报,2018,33(6):47-55. |
9 | BI S Q, MU L Q.Physiological response of Rosa acicularis ‘Luhe’ to lead,cadmium and mixed stresses[J].Journal of Northwest Forestry University,2018,33(6):47-55. |
10 | 易照勤,初振欢,王昊天,等.‘鲁赫’刺蔷薇播种繁殖技术研究[J].高师理科学刊,2017,37(4):47-51. |
10 | YI Z Q, CHU Z H, WANG H T,et al.Study on seed propagation technique of Rosa acicularis ‘Luhe’[J].Journal of Science of Teachers’ College and University,2017,37(4):47-51. |
11 | FIEHN O, KOPKA J, D?RMANN P,et al.Metabolite profiling for plant functional genomics[J].Nature Biotechnology,2000,18(11):1157-1161. |
12 | NICHOLSON J K, LINDON J C, HOLMES E.'Metabonomics':understanding the metabolic responses of living systems to pathophysiological stimuli via multivariate statistical analysis of biological NMR spectroscopic data[J].Xenobiotica,1999,29(11):1181-1189. |
13 | DIXON R A, STRACK D.Phytochemistry meets genome analysis,and beyond[J].Phytochemistry,2003,62(6):815-816. |
14 | 漆小泉,王玉兰,陈晓亚.植物代谢组学:方法与应用[M].北京:化学工业出版社,2011:304. |
14 | QI X Q, WANG Y L, CHEN X Y.Plant metabolomics:methods and applications[M].Beijing:Chemical Industry Press,2011:304. |
15 | 卫晶晶.金叶弯刺蔷薇叶片形态、叶绿素生物合成及光合作用特性的研究[D].北京:中国农业科学院,2013. |
15 | WEI J J.Leaf morphological ultrastructure,chlorophyll biosynthesis and photosynthesis of the yellow-leaf mutant of Rosa beggeriana [D].Beijing:Chinese Academy of Agricultural Sciences,2013. |
16 | 刘龙桀,吴可心,刁云飞,等.基于GC-MS分析东北红豆杉野生种与栽培种的代谢差异[J].植物研究,2021,41(5):798-806. |
16 | LIU L J, WU K X, DIAO Y F,et al.Metabolic differences between wild and cultivated species of Taxus cuspidata based on GC-MS[J].Bulletin of Botanical Research,2021,41(5):798-806. |
17 | LIU Y, LIU J, WU K X,et al.A rapid method for sensitive profiling of bioactive triterpene and flavonoid from Astragalus mongholicus and Astragalus membranaceus by ultra-pressure liquid chromatography with tandem mass spectrometry[J].Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences,2018,1085:110-118. |
18 | 刘佳.运用代谢组和转录组解析人参皂苷组织和发育特异性的代谢差异[D].哈尔滨:东北林业大学,2017. |
18 | LIU J.The dissection of ginsenoside metabolic differences controlled by tissue,development and species through metabolomics and transcriptomic approaches[D].Harbin:Northeast Forestry University,2017. |
19 | 刘洋.应用代谢组学对比研究两种黄芪响应UV-B和干旱胁迫的代谢基础[D].哈尔滨:东北林业大学,2018. |
19 | LIU Y.Comparative metabolomics study on the metabolic basis of two varieties of Astragalus in response to UV-B and drought stress[D].Harbin:Northeast Forestry University,2018. |
20 | ALVAREZ S, NALDRETT M J.Mass spectrometry based untargeted metabolomics for plant systems biology[J].Emerging Topics in Life Sciences,2021,5(2):189-201. |
21 | YOUNG R F, COY D L, FEDORAK P M.Evaluating MTBSTFA derivatization reagents for measuring naphthenic acids by gas chromatography-mass spectrometry[J].Analytical Methods,2010,2(6):765. |
22 | BLAU K, HALKET J M.Handbook of derivatives for chromatography:2nd ed[M].Heyden,1993:369. |
23 | 姜海洋.马铃薯块茎形成期糖类物质代谢机制与产量形成的研究[D].大庆:黑龙江八一农垦大学,2017. |
23 | JIANG H Y.Studies on carbohydrate metabolism yield during the formation of potato tuber[D].Daqing:Heilongjiang Bayi Agricultural University,2017. |
24 | 赵艳玲,王梅.EuDQD/SDH6基因在巨尾桉莽草酸途径中的功能分析[J/OL].分子植物育种.[2022-06-12].. |
24 | ZHAO Y L, WANG M.The functional study of shikimate dehydrogenases genes EuDQD/SDH6 in Eucalyptus grandios×E.urophylla [J].Molecular Plant Breeding.[2022-06-12].. |
25 | FRAN?A S C, ROBERTO P G, MARINS M A,et al.Biosynthesis of secondary metabolites in sugarcane[J].Genetics and Molecular Biology,2001,24(1/2/3/4):243-250. |
26 | HO??áLEK Z.Regulation of gene expression in secondary biosynthesis[J].Regulation of Secondary Product and Plant Hormone Metabolism,1979:111-120. |
27 | 李玲,孙宇婷,任杏,等.不同生长期薰衣草枝叶功能性状及其与环境因子的相关性[J].东北林业大学学报,2021,49(12):21-28. |
27 | LI L, SUN Y T, REN X,et al.Functional traits of branches and leaves,and their correlation with environmental factors for Lavandula angustifolia Mill.in different growth stages[J].Journal of Northeast Forestry University,2021,49(12):21-28. |
28 | SATISH L, SHAMILI S, YOLCU S,et al.Biosynthesis of secondary metabolites in plants as influenced by different factors[M].Plant-derived Bioactives,2020:61-100. |
29 | 谢小东,程廷才,王根洪,等.植物ABC和MATE转运蛋白与次生代谢物跨膜转运[J].植物生理学报,2011,47(8):752-758. |
29 | XIE X D, CHENG T C, WANG G H,et al.ABC and MATE transporters of plant and their roles in membrane transport of secondary metabolites[J].Plant Physiology Journal,2011,47(8):752-758. |
30 | 何俊瑜,顾津羽,胡春梅,等.水杨酸与硝普钠对采后芒果果实炭疽病抗性和苯丙烷代谢的协同诱导效应[J].食品科学,2022,43(3):178-186. |
30 | HE J Y, GU J Y, HU C M,et al.Synergistic effect of combined salicylic acid and nitric oxide in anthracnose resistance and phenylpropanoid metabolism in mango fruit[J].Food Science,2022,43(3):178-186. |
31 | COLQUHOUN T A, KIM J Y, WEDDE A E,et al. PhMYB4 fine-tunes the floral volatile signature of Petunia×hybrida through PhC4H [J].Journal of Experimental Botany,2011,62(3):1133-1143. |
32 | 袁婷婷,董艳,赵骞.苯甲酸对蚕豆枯萎病菌致病力及根系组织结构抗性的影响[J].植物生理学报,2020,56(3):441-454. |
32 | YUAN T T, DONG Y, ZHAO Q.Effects of benzoic acid on pathogenicity of Fusarium oxysporum f.sp.fabae and tissue structure resistance of faba bean root[J].Plant Physiology Journal,2020,56(3):441-454. |
33 | HSUEH M T, FAN C, LO H F,et al.Effects of light and autotoxicity on the reproduction of Bidens pilosa L.:from laboratory to the field[J].Agriculture,2020,10(11):555. |
34 | 郭伟,薛盈文,于崧,等.邻苯二甲酸与对羟基苯甲酸对燕麦幼苗生长及抗氧化特性的影响[J].植物生理学报,2017,53(10):1885-1892. |
34 | GUO W, XUE Y W, YU S,et al.Effects of phthalic acid and p-hydroxybenzonic acid on seedling growth and antioxidant properties of oat(Avena nuda)[J].Plant Physiology Journal,2017,53(10):1885-1892. |
35 | LESS H, GALILI G.Principal transcriptional programs regulating plant amino acid metabolism in response to abiotic stresses[J].Plant Physiology,2008,147(1):316-330. |
36 | GHOSH S, CHISTI Y, BANERJEE U C.Production of shikimic acid[J].Biotechnology Advances,2012,30(6):1425-1431. |