摘要
有机酸是果实风味品质的重要组成部分,对保鲜和抗病性也具有重要作用。有机酸还能促进人体消化、调节代谢和提高抗氧化能力。本文对主要园艺植物果实中有机酸的类型和含量、有机酸合成和降解及有机酸转运等进行了综述。总结出目前多数水果中的有机酸以苹果酸和柠檬酸为主。有机酸积累关键基因的挖掘以合成和降解途径为主,利用正向遗传学挖掘有机酸积累主效功能结构基因及调控基因报道较少,有机酸积累的机制尚有待深入解析。展望未来,基础研究方面应重点明确环境信号对有机酸影响的规律,揭示物种驯化过程中有机酸物质的代谢规律,挖掘主效结构基因,解析关键转录因子的调控机制;应用研究方面应关注现有高酸特异种质及调控甜酸品质的栽培措施的开发和利用。
China has a wide variety of fruits,primarily consumed fresh,where fruit quality plays a cru-cial role in attracting consumers.Fruit quality encompasses both external appearance and internal traits,with the latter primarily consisting of organic acids,soluble sugars,aroma compounds,carotenoids,fla-vonoids,amino acids,and other metabolites.These diverse metabolic substances collectively influence the flavor quality of fruits.Among these,organic acids directly determine the sourness of the fruits.In recent years,although fruit production has increased,the quality of flavor has shown a noticeable de-cline,which hinders the steady development of the fruit industry.Consequently,improving the flavor quality of fruit and enhancing production efficiency have become imperative.Organic acids not only are essential primary metabolites in fruits,with their content and types directly influencing sourness,but also serve important physiological functions,such as promoting digestion,boosting immunity,pro-viding antioxidant effects,and inhibiting bacterial growth.Therefore,research on organic acid accumu-lation in fruits is of great significance for improving fruit quality.The study of the characteristics of organic acids mainly focuses on the types,content,biosynthesis,transport,and molecular regulatory mechanisms.Malic acid and citric acid are the predominant organic acids in most fruits,while tartaric acid is the major organic acid in certain fruits.The content of different organic acids varies significantly during the growth and development of fruit.Most organic acids gradually increase in concentration with the fruit development,peaking just before maturity,after which their levels decline.The accumulation of organic acids is closely linked to their synthesis,degradation,and transport.Citrate is primarily syn-thesized in the mitochondria,with key enzymes such as citrate synthase(CS),aconitase(ACO),isoci-trate dehydrogenase(IDH),phosphoenolpyruvate carboxylase(PEPC),NAD-malate dehydrogenase(NAD-MDH),and NADP-malic enzyme(NADP-ME)playing crucial roles in the synthesis of citrate and malate in fruits.Theγ-aminobutyric acid(GABA)shunt pathway significantly contributes to the degradation of organic acids,with ACO and ATP-citrate lyase(ACL)being particularly important in ci-trate degradation.Organic acid transport is primarily facilitated by tonoplast dicarboxylate transporters(tDT/TDT),aluminum-activated malate transporters(ALMT),vacuolar citrate transporters(Cit1),and tonoplast sugar transporters(TST).Among these,tDT proteins have been identified as playing a signifi-cant role in malate transport in tomato,grape,and plum fruits.ALMT primarily transports malate an-ions into the vacuole,while the citrate transporter gene CsCit1 encodes a novel vacuolar citrate symport-er that maintains vacuolar citrate homeostasis.The tonoplast sugar transporter TST mediates the trans-membrane transport of cytoplasmic glucose into the vacuole and also negatively regulates organic acid accumulation.Additionally,proton pumps,including V-type(VHA and VHP)and P-type(PHA)proton pumps,are crucial for organic acid accumulation.Multi-omics analyses have been successfully applied to study the regulation of flavor compound accumulation in fruits.Quantitative trait loci(QTLs)associ-ated with organic acid accumulation have been identified in apple,grape,peach,and jujube,along with several candidate genes,laying a solid foundation for research on organic acid regulation.Through multi-omics analyses and molecular biology techniques,transcription factors such as members of the MYB,bHLH,and WRKY families have been found to be closely associated with organic acid accumu-lation in apple,pear,strawberry,kiwifruit,and citrus fruits.These transcription factors primarily influ-ence organic acid levels by regulating the expression of genes involved in organic acid synthesis and transport.Moreover,environmental factors also exert significant influences on organic acid accumula-tion.For instance,salicylic acid(SA)promotes organic acid accumulation,while drought,waterlog-ging,auxin,abscisic acid(ABA),and ethylene also modulate organic acid levels.However,the molecu-lar mechanisms underlying these effects require further investigation.In summary,fruit acidity is a cru-cial trait that significantly impacts fruit quality and nutritional value.Therefore,a comprehensive under-standing of its genetic regulation and molecular basis is essential.Research on organic acid accumula-tion and its regulation holds great significance for improving fruit quality.Although recent studies have yielded substantial findings,most research on organic acid regulation has focused on apples.The key genes and regulatory networks governing organic acid accumulation in many other fruits remain to be elucidated.By integrating multi-omics technologies and breeding strategies,effective approaches can be developed for the targeted improvement and breeding of fruit acidity traits.
作者
冯贝贝
刘勤棋
丁业军
刘可欣
郑先波
曹珂
连晓东
王小贝
侯楠
王磊
李继东
叶霞
张海朋
冯建灿
谭彬
FENG Beibei;LIU Qinqi;DING Yejun;LIU Kexin;ZHENG Xianbo;CAO Ke;LIAN Xiao dong;WANG Xiaobei;HOU Nan;WANG Lei;LI Jidong;YE Xia;ZHANG Haipeng;FENG Jiancan;TAN Bin(College of Horticulture of Henan Agricultural University,Zhengzhou 450046,Henan,China;Zhengzhou Fruit Research Institute,Chi-nese Academy of Agricultural Sciences,Zhengzhou 450009,Henan,China;Henan Provincial Key Laboratory of Fruit and Cucurbit Bi-ology,Zhengzhou,450046,Henan,China;Henan Engineering and Technology Center for Peach Germplasm Innovation and Utilization,Zhengzhou,450046,Henan,China;College of Forestry of Henan Agricultural University,Zhengzhou,450046,Henan,China)
出处
《果树学报》
北大核心
2025年第12期2994-3007,共14页
Journal of Fruit Science
基金
河南省现代农业产业技术体系建设专项(HARS-22-09-G1)
河南省重点研发与推广专项(科技攻关)(242102110317)
国家自然科学基金项目(32102329)
河南省科协人才托举工程(2024HYTP039)。
关键词
果实
有机酸
合成
转运
转录调控
Fruit
Organic acid
Synthesis
Transport
Regulation
