Crops ›› 2023, Vol. 39 ›› Issue (3): 195-199.doi: 10.16035/j.issn.1001-7283.2023.03.027

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Analysis on the Relationship between Contents of Free Amino Acids and the Quality of Flue-Cured Tobacco in Eight Flavor Ecological Regions of China

Jia Guotao1(), Wang Xiaoyu2, Sun Yiming1, Nie Cong2, He Jingyu1, Feng Yingjie1, Ma Shengtao1, Cui Ting1, Cheng Dongxu1, Yao Qian1, Li Yue1, Zhang Ziying1, Wang Baolin1(), Liu Huimin2()   

  1. 1China Tobacco Henan Industry Co., Ltd., Zhengzhou 450000, Henan, China
    2Zhengzhou Tobacco Research of CNTC, Zhengzhou 450001, Henan, China
  • Received:2022-10-08 Revised:2022-03-28 Online:2023-06-15 Published:2023-06-16

Abstract:

In order to analyze the content difference and correlation of free amino acids in flue-cured tobacco in different ecological regions, as well as the relationship with chemical quality indicators, 249 tobacco leaf samples from eight different flavor style flue-cured tobacco ecological regions were taken as the research objects. The results showed the total amount of free amino acids in flue-cured tobacco was upper leaves>middle leaves> lower leaves, with the highest content of Pro, followed by Asn, and the content of Met was the lowest. The contents of Asn, Glu, Gln, Gly, Ala, Lys, His and Trp in flue-cured tobacco were upper leaves>lower leaves> middle leaves. The free amino acids in flue-cured tobacco were mainly positively correlated. Based on the heat map analysis, the total amount of free amino acids in flue-cured tobacco in different ecological regions was IV> VII>I>II>III>VIII>V>VI. The Ser contents in the national high-quality tobacco production areas I, II and III were high, and the total amount of amino acids were at a medium level. The total sugar, reducing sugar, potassium and sugar base ratio in different ecological regions were negatively correlated with most free amino acids.

Key words: Flue-cured tobacco, Free amino acids, Ecological region, Quality, Correlation

Table 1

Information of tobacco sample"

编号
Number
生态区域
Ecological region
香型
Fragrance
样品数量
Number of samples
西南高原 清甜香型 42
黔桂山地 蜜甜香型 24
武陵秦巴 醇甜香型 41
黄淮平原 焦甜焦香型 43
南岭丘陵 焦甜醇甜香型 39
武夷丘陵 清甜蜜甜香型 33
沂蒙丘陵 蜜甜焦香型 12
东北平原 木香蜜甜香型 15

Table 2

Comparison of free amino acid contents in different parts of flue-cured tobacco μg/g"

指标
Index
烟叶等级Tobacco grade
B2F C3F X2F
天冬氨酸Asp 224.04±9.40b 206.68±9.92b 253.27±11.89a
苏氨酸Thr 66.70±3.19a 47.57±1.92b 60.19±2.44a
丝氨酸Ser 299.48±7.54a 292.64±6.58a 308.61±6.89a
天冬酰胺Asn 1383.41±97.21a 748.34±62.73b 905.67±80.81b
谷氨酸Glu 255.75±13.64a 184.26±10.24b 255.75±13.64b
谷氨酰胺Gln 890.51±60.91a 511.14±36.84b 624.81±46.89b
甘氨酸Gly 34.91±1.12a 23.64±0.67b 25.66±0.76b
丙氨酸Ala 595.13±13.23a 495.64±9.78b 518.88±11.08b
缬氨酸Val 412.00±7.03b 421.11±6.95b 459.47±7.95a
胱氨酸Cys 74.42±2.66a 63.33±2.27b 56.94±1.26c
蛋氨酸Met 4.38±0.18a 4.69±0.23a 4.29±0.21a
异亮氨酸Ile 7.79±0.26a 6.68±0.22b 7.99±0.29a
亮氨酸Leu 18.42±0.75a 13.44±0.56c 16.47±0.65b
酪氨酸Tyr 56.60±2.15a 49.52±1.86b 54.56±2.12ab
苯丙氨酸Phe 178.55±11.55a 135.92±9.42b 176.54±12.22a
氨基丁酸
4-Gaba
210.92±9.76a 150.48±6.22c 184.17±7.45b
赖氨酸Lys 39.85±2.60a 23.35±1.56b 24.29±1.38b
组氨酸His 158.05±9.39a 96.41±5.83b 109.34±6.83b
色氨酸Trp 184.03±10.68a 136.05±7.85b 157.50±9.77b
精氨酸Arg 41.19±2.16a 27.95±1.32b 25.63±1.15b
脯氨酸Pro 10 421.86±326.93a 8011.98±221.12b 7050.80±199.89c
总量Total 15 555.79±514.76a 11 650.82±334.43b 11 280.83±347.99b

Fig.1

Correlation analysis of free amino acid contents in flue-cured tobacco “*”,“**”and“***”indicate significant correlation at the levels of 0.05, 0.01 and 0.001, respectively"

Fig.2

Heatmap of free amino acid contents in flue-cured tobacco in different ecological regions"

Fig.3

Correlation analysis between free amino acid contents and conventional chemical quality indexes of flue-cured tobacco"

[1] 寇明钰, 汪长国, 戴亚, 等. 不同产地和等级的雪茄烟叶中游离氨基酸含量分析. 西南农业学报, 2013, 26(3):963-967.
[2] 董洪旭, 李小兰, 奚家勤, 等. 不同香型产区烤烟游离氨基酸含量及组成差异分析. 烟草科技, 2017, 50(3):15-22.
[3] 邓国宾, 曾晓鹰, 薛红芬, 等. 烤烟游离氨基酸与感官质量的相关性研究. 中国烟草科学, 2011, 32(5):14-19,23.
[4] 赵田. 不同栽培和调制措施对白肋烟和烤烟氨基酸含量的影响. 郑州:河南农业大学, 2012.
[5] Rannou C, Laroque D, Renault E, et al. Mitigation strategies of acrylamide, furans, heterocyclic amines and browning during the Maillard reaction in foods. Food Research International, 2016, 90:154-176.
doi: S0963-9969(16)30479-3 pmid: 29195868
[6] 程传玲, 杨艳勤, 刘仕民, 等. 美拉德反应产物在烟草工业中的应用. 郑州轻工业学院学报:自然科学版, 2014, 29(1):59-62.
[7] Lund M N, Ray C A. Control of Maillard reactions in foods: strategies and chemical mechanisms. Journal of Agricultural and Food Chemistry, 2017, 65(23):4537-4552.
doi: 10.1021/acs.jafc.7b00882 pmid: 28535048
[8] 程昌合, 解莹莹, 王雪丽, 等. 不同香型烤烟游离氨基酸组成和含量的差异分析. 江西农业学报, 2014, 26(5):84-86,90.
[9] 李永智, 寸锦芬, 李元贵, 等. 烤烟不同品种、地点游离氨基酸含量变化初探. 云南农业大学学报, 2004, 19(5):565-568.
[10] 王树声, 王宝华, 李雪震, 等. 烤烟烟叶中游离氨基酸与内在质量关系的研究. 中国烟草科学, 2002, 23(4):4-7.
[11] 罗登山, 王兵, 乔学义. 《全国烤烟烟叶香型风格区划》解析. 中国烟草学报, 2019, 25(4):1-9.
[12] 王新瑞. 烟草化学. 北京: 中国农业出版社, 2003.
[13] 赵方杰, 廉喜红, 胡小平, 等. 不同产地西洋参氨基酸种类及含量分析. 西北农业学报, 2020, 29(7):1051-1058.
[14] 陈文, 王存文, 王光辉, 等. 反相高效液相色谱法测定不同烟叶中的游离氨基酸. 化学分析计量, 2007(1):14-16.
[15] 白宝璋, 马秀杰, 孙晓秋, 等. 烟草叶片游离氨基酸含量的分析. 氨基酸杂志, 1994(3):45-46.
[16] 李好丽, 赵春霞, 张俊杰, 等. 柱前衍生-超高效液相色谱-单重四极杆质谱法分析不同产地烤烟的20种游离氨基酸. 色谱, 2013, 31(12):1182-1188.
doi: 10.3724/SP.J.1123.2013.08006
[17] 王彦亭, 谢剑平, 李志宏, 等. 中国烟草种植区划. 北京: 科学出版社, 2010.
[18] 杜文, 谭新良, 易建华, 等. 用烟叶化学成分进行烟叶质量评价. 中国烟草学报, 2007, 13(3):25-31.
[19] 李勇, 逄涛, 师君丽, 等. 国内外主产烟区烤烟化学成分分析. 中国烟草科学, 2013, 34(1):12-16.
[20] 杨德廉, 李更新, 王树声. 烟叶中游离氨基酸与化学成分派生值之间的关系. 中国烟草科学, 1999(2):36-41.
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