Abstract
In this paper, a new method for the rapid, economical and convenient detection of cyclic adenosine monophosphate (cAMP) in jujube is proposed and verified. Based on near-infrared (NIR) fiber spectroscopy combined with stoichiometric analysis, the cAMP content in red jujube can be quickly detected. 68 red jujube samples were used for the NIR spectroscopy data acquisition and the corresponding chemical values were determined. The sample set was adjusted based on the joint XY distance (SPXY) to select the correction sample set. After different preprocessing on the spectra, the partial least squares (PLS) method was used to establish the model, and the smoothed and normalized PLS model result was obtained better. The model’s correction correlation coefficient (Rc), correction set mean square error (RMSEC), prediction correlation coefficient (Rp), and prediction and mean square error (RMSEP) are 0.951 5, 25.793 7, 0.910 8 and 28.228 0, respectively. The results show that NIR combined with specific chemometric methods can achieve rapid detection of cAMP in red jujube.
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Cai Alonso, Osyckasalut C. E., Castellano L, Cesari A, Di Siervi N, Mutto A, Johannisson A, Morrell J. M., Davio C and Perezmartinez S, Molecular Human Reproduction 23, 521 (2017).
Yamada Takaaki, Ueda Mitsuyo, Egashira Nobuaki, Zukeyama Nina, Kuwahara Jun and Masuda Satohiro, Journal of Pharmacological Sciences 130, 33 (2016).
Carvalho Diego Soares, Almeida Alexandre Aparecido De, Borges Aurélio Ferreira and Campos Diego Vannucci, European Journal of Pharmacology 830, 9 (2018).
Ahn Myung Suk, Jie Eun Yee, Song Seung Yeob, Kim Hong Sig, Kim In-Jung and Kim Suk Weon, Plant Biotechnology Reports 10, 403 (2016).
Zhang Lu-jun, Zhang Hui-ting, Wang Jin-fang and Pan Can-ping, International Journal of Molecular Sciences 7, 266 (2006).
Park Se Won, Webster Cynthia R. L. and Anwer Mohammed S., Physiological Reports 5, 13529 (2017).
Mohammadi-Moghaddam Toktam, Razavi Seyed M. A., Sazgarnia Ameneh and Taghizadeh Masoud, Journal of Food Measurement and Characterization 12, 346 (2017).
Cheng Jin-ying, Xu Liang, Lv Guo-dong, Tang Jun, Mo Jia-qing, Lv Xiao-yi and Gao Zhi-xian, Optoelectronics Letters 13, 77 (2017).
Rombaut R, Camp J. V. and Dewettinck K, Journal of Dairy Science 88, 482 (2005).
Mao Xiao-dong, Sun Lai-jun, Hao Gang, Xu Lu-lu and Hui Guang-yan, Advanced Materials Research 803, 122 (2013).
Galvão R. K., Araujo M. C., José G. E., Pontes M. J., Silva E. C. and Saldanha T. C., Talanta 67, 736 (2005).
Gerretzen J, Szymańska E, Jansen J. J., Bart J, van Manen H. J., Er Van Den Heuvel and Buydens L. M., Analytical Chemistry 87, 12096 (2015).
Li Yuan-peng, Li Fu-cui, Yang Xin-hao, Guo Liu, Huang Fu-rong, Chen Zhen-qiang, Chen Xing-dan and Zheng Shi-fu, Spectrochimica Acta Part A Molecular & Biomolecular Spectroscopy 201, 249 (2018).
Guo Zhong-hua, Wang Lei, Jin Ling and Zheng Cai-ying, Photoelectron Laser 2013, 1163 (2013). (in Chinese)
Zhang Zhi-yong, Li Gang, Liu Hai-xue, Lin Lin, Zhang Bao-ju and Wu Xiao-rong, Spectroscopy and Spectral Analysis 31, 3260 (2011). (in Chinese)
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This work has been supported by the Science and Technology Project on aid to Xinjiang Uygur Autonomous Region (No.2018E02058).
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Yan, WL., Ren, SY., Yue, XX. et al. Rapid detection of cAMP content in red jujube using near-infrared spectroscopy. Optoelectron. Lett. 14, 380–383 (2018). https://doi.org/10.1007/s11801-018-8120-z
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DOI: https://doi.org/10.1007/s11801-018-8120-z