[1]钱蕾,秦毅,张佳,等.滞育时间对豆天蛾幼虫营养成分及代谢酶活性的影响[J].江苏农业学报,2024,(01):149-155.[doi:doi:10.3969/j.issn.1000-4440.2024.01.016]
 QIAN Lei,QIN Yi,ZHANG Jia,et al.Effects of diapause time on nutritional components and metabolic enzymes activities in Clanis bilineata tsingtauica larvae[J].,2024,(01):149-155.[doi:doi:10.3969/j.issn.1000-4440.2024.01.016]
点击复制

滞育时间对豆天蛾幼虫营养成分及代谢酶活性的影响()
分享到:

江苏农业学报[ISSN:1006-6977/CN:61-1281/TN]

卷:
期数:
2024年01期
页码:
149-155
栏目:
畜牧兽医·水产养殖·益虫饲养
出版日期:
2024-01-30

文章信息/Info

Title:
Effects of diapause time on nutritional components and metabolic enzymes activities in Clanis bilineata tsingtauica larvae
作者:
钱蕾1秦毅1张佳2李宗男1邓盼1周刚3李情怡4廖怀建14
(1.江苏省农业科学院休闲农业研究所,江苏南京210014;2.扬州大学植物保护学院,江苏扬州225009;3.淮安市农业科学院,徐淮地区淮阴农业科学研究所,江苏淮安223001;4.江苏科技大学生物技术学院,江苏镇江212100)
Author(s):
QIAN Lei1QIN Yi1ZHANG Jia2LI Zong-nan1DENG Pan1ZHOU Gang3LI Qing-yi4LIAO Huai-jian14
(1.Institute of Leisure Agriculture, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China;2.College of Plant Protection, Yangzhou University, Yangzhou 225009, China;3.Huaian Academy of Agricultural Sciences, Huaiyin Institute of Agricultural Sciences of the Xuhuai District of Jiangsu Province, Huaian 223001, China;4.College of Biotechnology, Jiangsu University of Science and Technology, Zhenjiang 212100, China)
关键词:
豆天蛾滞育代谢酶蛋白质氨基酸脂肪酸
Keywords:
Clanis bilineata tsingtauicadiapausemetabolic enzymesproteinamino acidsfatty acids
分类号:
S899.9
DOI:
doi:10.3969/j.issn.1000-4440.2024.01.016
文献标志码:
A
摘要:
为了明确不同滞育时间对豆天蛾幼虫的影响,本研究测定了豆天蛾幼虫体内营养物质(包括蛋白质、氨基酸和脂肪酸)含量及肠道代谢酶活性的变化。结果表明,不同滞育时间的豆天蛾幼虫体内蛋白质含量均显著高于对照,且在滞育后期(150 d)达到最高值。滞育150 d的豆天蛾幼虫体内18种氨基酸含量均显著高于对照。与对照相比,滞育60 d豆天蛾幼虫体内亚油酸含量降低0.030个百分点(P<0.05),滞育30 d、90 d、120 d、150 d豆天蛾幼虫体内亚麻酸含量分别高于对照0.140个百分点、0.060个百分点、0.060个百分点、0.080个百分点(P<0.05)。滞育30 d豆天蛾幼虫肠道碱性磷酸酶、己糖激酶活性显著低于对照(P<0.05),滞育120 d时达到最高值;海藻糖酶、丙酮酸激酶活性在滞育90 d达到最高值;滞育120 d山梨醇脱氢酶活性最高,比对照高18.37%(P<0.05)。综上所述,滞育期的豆天蛾幼虫营养价值提高,代谢酶活性波动明显。
Abstract:
To clarify the effects of diapause time on Clanis bilineata tsingtauica larvae, the contents of nutrients (including protein, amino acids, and fatty acids) and the activities of intestinal metabolic enzymes in the larvae were measured. The results showed that the protein content in diapause larvae was significantly higher than that in control, and reached the highest value in the late diapause period (150 d). The contents of 18 amino acids at 150 days of diapause were significantly higher than those of the control. Compared with the control, the content of linoleic acid in the larvae of Clanis bilineata tsingtauica decreased by 0.030 percentage points (P<0.05) on the 60th day of diapause. At 30 d, 90 d, 120 d and 150 d of diapause, the content of linolenic acid in the larvae was 0.140 percentage points, 0.060 percentage points, 0.060 percentage points and 0.080 percentage points higher than that of the control (P<0.05). The activities of alkaline phosphatase and hexokinase in the intestine of the larvae at 30 days of diapause were significantly lower than those of the control, and reached the highest value at 120 days of diapause. The activities of trehalase and pyruvate kinase reached the highest value at 90 days of diapause. The activity of sorbitol dehydrogenase was the highest at 120 days of diapause, which was 18.37% higher than that of the control(P<0.05). In summary, the nutritional value of the diapause larvae was improved, and the activity of metabolic enzymes fluctuated significantly.

参考文献/References:

[1]朱弘复,王林瑶. 中国动物志·昆虫纲第十一卷·鳞翅目天蛾科[M]. 北京:科学出版社,1997:234.
[2]RUMPOLD B A,SCHLUTER O K. Nutritional composition and safety aspects of edible insects[J]. Molecular Nutrition and Food Research,2013,57(5):802-823.
[3]田华,张义明. 豆天蛾主要营养成分分析及营养评价[J]. 营养学报,2012,34(3):289-291.
[4]赵国秀,杨鑫茹,孙广仁,等. 豆天蛾蛹蛋白水解液饮料的研制[J]. 食品研究与开发,2020,41(20):162-168.
[5]QIAN L, DENG P, CHEN F J, et al. The exploration and utilization of functional substances in edible insects: a review[J]. Food Production,Processing and Nutrition,2022,4:11.
[6]YAN Y, ZHANG L, WANG Y, et al. Clanis bilineata larvae skin-derived biochars for immobilization of lead: sorption isotherm and molecular mechanism[J]. Science of the Total Environment,2020,704:135251.
[7]李晓峰,陈凤,邓盼,等. 豆天蛾不同地理种群若干生物学特征的比较[J]. 应用昆虫学报,2022,59(6):1428-1435.
[8]郭明明,李晓峰,邓盼,等. 豆天蛾越冬幼虫滞育解除后生物学特性的研究[J]. 应用昆虫学报,2021,58(4):966-972.
[9]朱晨旭,陆明星,杜予洲. 豆天蛾不同虫态的鉴别特征研究[J]. 扬州大学学报(农业与生命科学版),2022,43(4):137-142.
[10]任小云,齐晓阳,安涛,等. 滞育昆虫营养物质的积累、转化与调控[J]. 应用昆虫学报,2016,53(4):685-695.
[11]KOSTAL V, STETINA T, POUPARDIN R, et al. Conceptual framework of the eco-physiological phases of insect diapause development justified by transcriptomic profiling[J]. Proceedings of the National Academy of Sciences of the United States of America,2017,114(32):8532-8537.
[12]李玉艳. 烟蚜茧蜂滞育诱导的温光周期反应及滞育生理研究[D]. 北京:中国农业科学院,2011.
[13]BEMANI M, IZADI H, MAHDIAN K, et al. Study on the physiology of diapause,cold hardiness and supercooling point of overwintering pupae of the pistachio fruit hull borer,Arimania comaroffi[J]. Journal of Insect Physiology,2012,58(7):897-902.
[14]ERIKSSON M, JANZ N, NYLIN S, et al. Structural plasticity of olfactory neuropils in relation to insect diapause[J]. Ecology and Evolution,2020,10(24):14423-14434.
[15]何超,孟泉科,花蕾. 梨小食心虫滞育过程中几种代谢酶活力的相关变化[J]. 植物保护学报,2012,39(5):401-405.
[16]李文香,郭会婧,郭江,等. 中红侧沟茧蜂滞育生理生化指标变化规律研究[J]. 河北北方学院学报(自然科学版),2010,26(2):51-54.
[17]RAGLAND G J, FULLER J, FEDER J L, et al. Biphasic metabolic rate trajectory of pupal diapause termination and post-diapause development in a tephritid fly[J]. Journal of Insect Physiology,2009,55(4):344-350.
[18]HAHN D A, DENLINGER D L. Energetics of insect diapause[J]. Annual Reveiw of Entomology,2011,56:103-121.
[19]CHEN J, CUI D, ULLAH H, et al. Serpin7 controls egg diapause of migratory locust (Locusta migratoria) by regulating polyphenol oxidase[J]. FEBS Open Bio,2020,10(5):707-717.
[20]KAMEI Y, HASEGAWA Y, NIIMI T, et al. Trehalase-2 protein contributes to trehalase activity enhanced by diapause hormone in developing ovaries of the silkworm, Bombyx mori[J]. Journal of Insect Physiology,2011,57(5):608-613.
[21]李丹,龙治任,王越,等. 麦红吸浆虫滞育发生和解除过程中总脂和甘油三酯含量变化[J]. 昆虫学报,2014,57(5):509-514.
[22]WULLSCHLEGER S, LOEWITH R, HALL M N. TOR signaling in growth and metabolism[J]. Cell,2006,124:471-484.
[23]李文香,郭会婧,郭江,等. 中红侧沟茧蜂滞育生理生化指标变化规律研究[J]. 河北北方学院学报(自然科学版),2010,26(2):51-54.
[24]QIAN L, CHEN B J, DENG P, et al. TM7 (Saccharibacteria) regulates the synthesis of linolelaidic acid and tricosanoic acid, and alters the key metabolites in diapause Clanis bilineata tsingtauica[J]. Frontiers in Physiology,2023,14:1093713.
[25]ARRESE E L, SOULAGES J L. Insect fat body: energy, metabolism,and regulation[J]. Annual Review of Entomology,2010,55:207-225.
[26]MICHAUD M R, DENLINGER D L. Oleic acid is elevated in cell membranes during rapid cold-hardening and pupal diapause in the flesh fly,Sarcophaga crassipalpis[J]. Journal of Insect Physiology,2006,52(10):1073-1082.
[27]任小云,张礼生,齐晓阳,等. 滞育七星瓢虫的代谢适应与抗寒性评价[J]. 环境昆虫学报,2015,37(6):1195-1202.
[28]VUKASINOVIC E L, POND D W, WORLAND M R, et al. Diapause induces remodeling of the fatty acid composition of membrane and storage lipids in overwintering larvae of Ostrinia nubilalis,Hubn.(Lepidoptera: Crambidae)[J]. Comparative Biochemistry and Physiology Part B:Biochemistry and Molecular Biology,2015,184:36-43.
[29]郭明明,陆明星,赵雪君,等. 豆天蛾江苏种群滞育期间营养物质及激素变化规律[J]. 西南农业学报,2023,36(1):211-216.
[30]SANTANA C C, BARBOSA L A, JUNIOR I D B, et al. Lipase activity in the larval midgut of Rhynchophorus palmarum: biochemical characterization and the effects of reducing agents[J]. Insects,2017,8(3):100.
[31]YANG M M, ZHAO L N, SHEN Q D, et al. Knockdown of two trehalose-6-phosphate synthases severely affects chitinmetabolism gene expression in the brown planthopper Nilaparvata lugens[J]. Pest Management Science,2017,73(1):206-216.
[32]FRAUNE S, BOSCH T C. Why bacteria matter in animal development and evolution[J]. Bioessays,2010,32(7):571-580.
[33]张顺益,秦华伟,任凤山,等. 桃小食心虫滞育过程中5种代谢酶活力变化[J]. 山东农业科学,2015,47(6):97-100.
[34]王鹏,凌飞,于毅,等. 桃小食心虫越冬幼虫过冷却能力及体内生化物质动态[J]. 生态学报,2011,31(3):638-645.
[35]DOLEZAL T, KREJCOVA G, BAJGAR A, et al. Molecular regulations of metabolism during immune response in insects[J]. Insect Biochemistry and Molecular Biology,2019,109:31-42.
[36]LIANG X, FU Y, LIU H. Isolation and characterization of enzyme-producing bacteria of the silkworm larval gut in bioregenerative life support system[J]. Acta Astronautica,2015,116:247-253.

备注/Memo

备注/Memo:
收稿日期:2023-07-05基金项目:国家自然科学基金项目(32100398);江苏省自然科学基金项目(BK20231393);淮安市科技项目(HAN202206)作者简介:钱蕾(1992-),女,江苏沭阳人,博士,助理研究员,主要从事资源昆虫功能物质开发与利用研究。(E-mail)qianlei14930@sina.cn通讯作者:廖怀建,(E-mail)lhj@jaas.ac.cn
更新日期/Last Update: 2024-03-17