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    Function Study of Peptide Coding Gene MhCLE8 in Regulating Anthocyanin Accumulation in Apple(Malus × domestica
    SHI Yan, ZHANG Tian'en, ZHU Baihui, LI Tong, LI Xiuming, YOU Chunxiang
    Acta Horticulturae Sinica    2023, 50 (12): 2541-2550.   DOI: 10.16420/j.issn.0513-353x.2021-0717
    Abstract641)   HTML74)    PDF (2746KB)(303)      

    In this study,the role of MhCLE8(CLAVATA3/EMBRYO SURRSURROUNDING REGION 8)peptide hormone gene in regulating anthocyanin accumulation was investigated using the meterials Arabidopsis and apple calli. The results showed that the accumulation of anthocyanin in Arabidopsis seedlings and apple calli was significantly inhibited when treated with MhCLE8 peptide (referred to as MhCLE8p)which was synthesised in vitro. Phylogenetic analysis and multiple protein sequences alignment showed that MhCLE8 and its homologues in other plant species contain a highly conserved CLE-motif,and MhCLE8 showed high homology with Prunus armeniaca(CAB4276204.1)and Malus baccata(TQE01035.1). The MhCLE8 gene was cloned to binary vector pRI,and transferred to Arabidopsis and apple calli to obtain the stable overexpression materials by Agrobacterium-mediated transgenic technology. The transgenic Arabidopsis seedlings and apple calli showed decresed accumulation of anthocyanin. The qRT-PCR analysis showed that the expression of anthocyanin biosynthesis structural genes in MhCLE8 overexpressed plant materials was inhibited to varying degrees. In summary,all the results suggested that the peptide encoding gene MhCLE8 was a negative regulator of anthocyanin accumulation.

    Preliminary Study on the Mechanism of Flower Organ Development and Sex Formation in Different Grapes
    HAN Kai, LUO Yaoxing, JIAO Xiaobo, YAN Zhao, NAOMI Abe-Kanoh, MA Xiaohe, JI Wei
    Acta Horticulturae Sinica    2023, 50 (12): 2551-2567.   DOI: 10.16420/j.issn.0513-353x.2023-0010
    Abstract509)   HTML21)    PDF (5538KB)(159)      

    In the current study,the flowers of three grape varieties‘Beichun'(hermaphrodite),‘1613C'(male) and‘520A'(female)were chosen. Hormone determination and transcriptome sequencing were performed at the early bud stage,large bud stage and blooming stage. The accumulation of various plant hormones in flowers of different genders was different,and so was that in flowers of the same gender at different developmental stages. The contents of IAA,ABA and MeJA were the highest in the large bud stage of female flowers. A total of 31 965 expressed genes were obtained,and 1 535 genes were directly related to flower development and were mainly involved in phenylpropane synthesis and plant hormone signal transduction pathways. Some genes are continuously up-regulated or down-regulated at different developmental stages. The genes that are continuously up-regulated are mainly involved in Phenylpropane synthesis,plant hormone signal transduction and other pathways. The genes that are continuously down-regulated are mainly involved in starch and sugar metabolism,and amino acid synthesis. MADS-box genes,such as AP1SEP1AG2 and SOC1 were significantly differently expressed in different floral organs at developmental stages. During flower sex differentiation,the differential expression of the MADS-box gene,the flower-induced integron gene,and the detoxification and stress-related genes play important roles.

    Comprehensive Evaluation of Fruit Spots in 296 Pear Germplasm Resources
    DUAN Ruiwei, ZHANG Xiangzhan, LI Bo, WANG Mengru, XIE Yarong, LI Pei, WANG Lei, YANG Jian, XUE Huabai
    Acta Horticulturae Sinica    2023, 50 (11): 2305-2322.   DOI: 10.16420/j.issn.0513-353x.2022-0492
    Abstract478)   HTML59)    PDF (4571KB)(438)      

    In this study,a total of 296 pear germplasms from National Horticulture Germplasm Resources Center Pear Branch Center(Zhengzhou)were collected for fruit spots observation,data collection and photography. During fruit harvesting period,the indicated pear germplasms were sampled and different fruit spot traits,including fruit spots size,fruit spots density,fruit spots height,and the fruit spots area in unit area were comprehensively analyzed. Additionally,sensory evaluation of fruit appearance quality associated with fruit spots in different pear germplasms was performed,and the apperance quality of different pear germplasms was evaluated by grey relation analysis(GRA)and cluster analysis(CA)to establish a comprehensive evaluation model for pear fruit spot traits. The results showed that the relative correlation degree of fruit spots of 296 pear resources ranged from 0.3158 to 0.6526,and the 296 resources were classified into five grades:excellent,good,medium,poor,and extremely poor. Pear varieties including‘Autumn Red’‘Silk Red’‘Red Sensatian’‘Zhongli Meicui’‘Barlett’and‘Dabali’were screened out with excellent fruit spot traits,which have good appearance quality and were consistent with the actual production fruit exterior. On the contrary,pear varieties including‘Puguali’‘Xihuamake’‘Chili’and‘Enli’were screened out with extremely poor fruit spot traits,which have poor appearance quality. Furthermore,the fruit spot traits of 296 pear germplasm resources were divided into five grades by cluster analysis,including excellent,good,medium,poor and extremely poor,which accounted for 7.8%,8.8%,37.1%,34.1% and 12.1% of the tested materials,respectively. Above all,the germplasm resources with excellent fruit spot traits will lay the foundation for the improvement of pear appearance quality,and the germplasm resources with poor fruit traits will be helpful for the investigation of the formation and regulation mechanism underlying pear fruit spots.

    Cloning and Function Analysis of Ubiquitin-conjugating Enzyme Gene CrUBC2 in Citrus reticulata‘Wuzi Shatangju’
    WU Xiulan, LI Guihua, TANG Wenwu
    Acta Horticulturae Sinica    2023, 50 (10): 2069-2078.   DOI: 10.16420/j.issn.0513-353x.2022-1185
    Abstract416)   HTML44)    PDF (2052KB)(256)      

    Ubiquitin-conjugating enzyme E2 is a key enzyme for substrate ubiquitination reaction,which plays an important role in the mechanism of self-incompatible by S-RNase degradation via ubiquitin-proteasome system. An E2 gene was cloned based on EST sequence(EY715921)of Citrus sinensis using the flower buds from‘Wuzi Shatangju’and‘Shatangju’,named as CrUBC2. The full-length cDNA sequence of the CrUBC2 was 965 bp,encoding 152 amino acids. There was one base difference (C/T)in the coding sequence of CrUBC2 between‘Wuzi Shatangju’and‘Shatangju’,which resulted in the conversion of threonine to isoleucine. Multiple sequence alignment showed that only one amino acid difference(Thr/Ile)was found between CrUBC2 and orthologs. Therefore,CrUBC2 protein was highly conservative during the evolution process. qRT-PCR showed that the highest expression level of the CrUBC2 was detected in anthers,and the expression level of the CrUBC2 after cross-pollination was 2.22-5.36 fold higher than that of self-pollination,indicating obvious expression specificity in different pollination. Pollen germination experiment in vitro showed that CrUBC2 protein of‘Wuzi Shatangju’inhibited significantly the growth of pollen tubes of self-pollination,but it had no effect on the growth of cross-pollination pollen tubes,which may be related to its involvement in S-RNase ubiquitination and resulting in cross-compatibility.

    Research Advances in ABA-mediated Fruit Ripening
    ZHANG Yin, HU Luyan, WANG Shuming, JING Danlong, GUO Qigao, LIANG Guolu
    Acta Horticulturae Sinica    2023, 50 (9): 1889-1898.   DOI: 10.16420/j.issn.0513-353x.2023-0288
    Abstract395)   HTML25)    PDF (1565KB)(315)      

    Fruit ripening has always been the focus of horticultural plant research. Plant hormone abscisic acid(ABA)plays an irreplaceable role in fruit ripening. This review summarizes the recent advances in the regulation of ABA on fruit ripening,providing reference for further improvement of the regulation network of fruit ripening.

    A New Dendrobium Cultivar‘Zixia'
    CHEN Heming, LÜ Fubing, LI Zuo, XIAO Wenfang
    Acta Horticulturae Sinica    2023, 50 (12): 2771-2772.   DOI: 10.16420/j.issn.0513-353x.2020-0529
    Abstract385)   HTML9)    PDF (1148KB)(364)      

    The new cultivar‘Zixia'is derived from the cross Dendrobium Ekapol‘Big Panda'and Dendrobium‘Yuki'. The flower color is purple and bright and the average single branch has 5.3 flowers with flower diameter of 6.8 cm and the branch length is 35.0 cm. The beginning flower of this cultivar is in October and full bloom is November and December when cultured in greenhouse of guangzhou,and can be widely planted in South China.

    Comparative Analysis of Genetic Background of‘Dongshi Zaoyou’,‘Shatianyou’and‘Shuijingyou’Pummelos
    LIU Chenglang, FENG Di, CAO Zonghong, YAN Suyun, ZHANG Yongqing, XU Xiangzeng, GAO Shide, YE Junli, CHAI Lijun, XIE Zongzhou, DENG Xiuxin
    Acta Horticulturae Sinica    2023, 50 (11): 2337-2349.   DOI: 10.16420/j.issn.0513-353x.2022-0981
    Abstract355)   HTML23)    PDF (4165KB)(183)      

    ‘Dongshi Zaoyou’,a new pummelo cultivar selected from pummelo seedlings,is mainly cultivated in the tropical areas of Yunnan Province. It has good characteristics such as early-maturing,high-yielding,seedless and etc. However,the genetic origin of‘Dongshi Zaoyou’pummelo has not yet been clarified,which was unfavorable to its protection and utilization. In this study,the cross-compatibility test and molecular markers including self-incompatibility S-genotype,SNP and InDels were used to explore the genetic background differences between‘Dongshi Zaoyou’pummelo and its two similar cultivars ‘Shatianyou’,‘Shuijingyou’. The pollination experiments revealed the cross-incompatibility between‘Dongshi Zaoyou’pummelo and‘Shuijingyou’pummelo while the cross-compatibility between‘Dongshi Zaoyou’pummelo and‘Shatianyou’pummelo. Accordingly,S-genotype of‘Dongshi Zaoyou’pummelo was judged to be S5S6,the same as that of‘Shuijingyou’pummelo(S5S6),while different from that of ‘Shatianyou’pummelo(S1S2). Based on the genome resequencing data,the genome-wide SNP density distribution of three pummelo cultivars were then plotted and compared. The results showed that‘Dongshi Zaoyou’pummelo and‘Shuijingyou’pummelo had highly similar SNP density and clustered into a group,but they both were significantly different from‘Shatianyou’pummelo. In addition,two InDel polymorphic markers could clearly distinguish‘Dongshi Zaoyou’pummelo from‘Shatianyou’pummelo. Collectively,it could be concluded that‘Dongshi Zaoyou’pummelo showed a closer relationship to‘Shuijingyou’pummelo than‘Shatianyou’pummelo.

    Study on the Quality Characteristics of Fresh and Immature Pepper
    FU Wen, ZHU Chenghong, LAN Jiayi, LI Shi, ZHANG Zheng, LIU Feng, and DAI Xiongze,
    Acta Horticulturae Sinica    2024, 51 (3): 616-630.   DOI: 10.16420/j.issn.0513-353x.2023-0837
    Abstract348)      PDF (3280KB)(192)      
    Using‘Zhangshugang’pepper suitable for fresh and immature fruits as experimental material the changes of shape,firmness,tissue structure,main nutrients,cell wall substances,capsaicinoids and volatile components of fruit during fruit development were investigated,and the correlation analysis and principal component analysis of quality characteristics was carried out to clarify the key factors affecting the quality. The results showed that the longitudinal diameter,transverse diameter,single fruit weight,flesh thickness,fruit firmness and cuticle thickness of fruit increased gradually from the development of pepper fruits to the colour change stage. The number of pericarp cell layers did not change,and the volume of parenchyma cells increased resulting in the thickening of flesh. The contents of soluble protein showed a‘U-shaped’change with fruit development;soluble sugar and vitamin C showed an overall increasing trend;the total pectin content increased first and then decreased. The content of cellulose and hemicellulose showed a decreasing-rising-decreasing-rising trend,and the content of cellulose and hemicellulose was the lowest at 15 days after flowering. Capsaicinoids content increased rapidly in the early stage of development. A total of 158 volatile constituents were detected during pepper fruit development,dominated by terpenes,esters,heterocyclic compounds,hydrocarbons,ketones,alcohols,and aldehydes,with an increase in terpenes,esters,hydrocarbons,ketones,and aldehydes, from 10 to 25 d after flowering. Therefore,low fruit firmness,thin cuticle,moderate spiciness,low content of cellulose and total pectin content,and relatively high volatile componentsmay be the main reasons for the excellent taste of fresh and immature pepper. In addition,the results of principal component analysis showed that soluble protein content was also one of the important factors affecting the quality of ‘Zhangshugang’ pepper.
    Pollen-pistil Interaction in Sexual Reproduction in Higher Plants
    ZHANG Saihang, WEI Zhanlin, MA Ling
    Acta Horticulturae Sinica    2023, 50 (9): 1813-1829.   DOI: 10.16420/j.issn.0513-353x.2022-0960
    Abstract347)   HTML57)    PDF (1606KB)(275)      

    Pollen-pistil interaction plays an important role in evolutionary process of species by influencing pollen affinity and serving as reproductive barriers,which determines the reproductive mode of higher plants. Therefore,on the one hand,cloning of male or female recognition factors is the basis of in-depth understanding of plant reproduction mode,which is of great significance for the analysis of the evolutionary mechanism of species. On the other hand,for crop breeding practices that rely extensively on selfing or hybridization,in-depth analysis of the function and mechanism of male or female recognition factors is also of great breeding value. In this review,the current research progress of pollen-pistil interaction factors were summarized systematically,especially in Arabidopsis thaliana,tomato,torenia and other model crops for pollen-pistil recognition research. The structure of pollen and pollen tube,and the S-locus,which determines self-incompatibility,are firstly introduced. Then,according to the sequence of pollen tube extension on female organs,stigma,style and ovule were introduced,and the correlation and uncorrelation between self-incompatibility and cross-incompatibility were introduced in detail. Finally,the research focus of pollen-pistil interaction was prospected.

    Analysis of Genetic Diversity of Wild Jujube Germplasm Resources Based on Quantitative Characters
    DUAN Kaihang, WANG Xiaoling, MAO Yongmin, WANG Yao, REN Yongxiang, REN Liuliu, SHEN Lianying
    Acta Horticulturae Sinica    2023, 50 (12): 2568-2576.   DOI: 10.16420/j.issn.0513-353x.2022-0931
    Abstract346)   HTML25)    PDF (678KB)(223)      

    Twenty-one quantitative characters(weight of single fruit,stone weight,a thouthand kernel weight,total sugar content,titratable acid content,etc.)of Ziziphus jujuba Mill. var. spinosa(Bunge)Hu ex H. F. Chow fruits'genetic variation rule and genetic diversity were studied in 393 wild jujube germplasm from follow provinces of Hebei,Liaoning,Shandong,Shaanxi.The results showed that the wild jujube germplasm was rich in genetic diversity. The obvious variety was observed with18 quantitative characters. The Shannon's index of the 18 quantitative characters exceeded 1.0. The degree of genetic diversity between various regions was distinctly different,and the upper-to-lower order of the various regions based on Shannon's index was Xingtai(H' = 1.198),Handan(H' = 1.147),Chaoyang(H' = 1.120),Baoding(H' = 1.069),Yulin(H' = 0.953),and Tai'an(H' = 0.733). Cluster analysis divided the wild jujube germplasm into three groups,North China,Shaanxi,Liaoning. The wild jujube germplasm in North China(mainly represented by Xingtai)was the richest in quantitative diversity,which provides a wealth of material to choose for the breeding. The principal component analysis on quantitative characters result showed that the accumulative contribution rate of the first four principal components accounted for 71.85% in the total variation accounted,and the first principal component mainly reflected the fruit mass and a thouthand kernel weight,while the second principal component reflected the titratable acid content. The third and fourth principal component reflected stone vertical diameter and vitamin C content,respectively.

    Advances in Quality and Maturity Breeding of Important Deciduous Fruit Trees in China
    CHEN Xuesen, WANG Nan, PENG Futian, MAO Zhiquan, YIN Chengmiao, JIANG Yuanmao, GE Shunfeng, HU Dagang, LI Yuanyuan, DU Yuanpeng, YAO Yuxin, ZHANG Zongying
    Acta Horticulturae Sinica    2024, 51 (1): 8-26.   DOI: 10.16420/j.issn.0513-353x.2023-0271
    Abstract342)   HTML31)    PDF (1551KB)(435)      

    In China,there are four kinds of important deciduous fruit trees with a cultivation area of over 666 700 hm2:apple,pear,peach and grape. According to the quality and maturity,several generations of domestic genetic breeders,after decades of collaborative innovation and joint research,created a high-quality and efficient breeding technology system on the basis of excellent germplasm evaluation and creation,and bred a series of high-quality new cultivars of apples and pears with high quality,storability,different maturity and diverse characteristics,and bred high-quality new cultivars of peaches and grapes in early,middle and late maturity. A high-quality and efficient supporting cultivation technology system for new cultivars has been developed,which has promoted the large-scale popularization and application of independent research and development of new cultivars and the high-quality and efficient development of the industry,and provided important support for ensuring the annual demand for high-quality fruits.

    Effects of Bacillus megaterium on Yield,Quality and Soil Microorganism of Apple
    PAN Jiyuan, DONG Qinglong, WEN Haibin, LIU Yanan, WANG Xiaojie, ZHANG Xuemei, LIU Wenju, LU Xiujun
    Acta Horticulturae Sinica    2023, 50 (11): 2453-2465.   DOI: 10.16420/j.issn.0513-353x.2022-0965
    Abstract330)   HTML8)    PDF (1419KB)(152)      

    In order to clarify the effects of Bacillus megaterium on the growth of apple(Malus × domestica)trees and the ecological effects of the soil,a field experiment was conducted to explore the effects of B. megaterium application on the growth of new branches,the yield and quality of apple fruits,and the characteristics of soil microbial community using 16 years-old‘Red Fuji’apple trees. The results showed that the growth rate of new branches in 2021 and 2022 were increased by 3.45% and 17.01% within compared with the control 30 d,respectively(P < 0.05),and by 2.58% and 6.71% within 60 d,respectively(P < 0.05),after application of B. megaterium inoculant to apple trees in spring. Moreover,the yield increased by 7.17% and 7.01% respectively(P < 0.05);the fruits number per plant were increased by 4.95% in 2021(P < 0.05),in the treatment group of 2021 and 2022,but application of B. megaterium inoculant had no significant effect on the fruit shape index,hardness of fruits,and the contents of soluble sugar,soluble solids,and vitamin C in apple fruits. In 2022,the fruit color related indexes of the treatment group,Red-Green Index a* is lower and Chroma angle h is higher than those of the control group,and there were no significant differences in 2021. Furthermore,the number of fungi in the soil layer of 0-20 cm and 20-40 cm decreased,while the number of bacteria showed the opposite trend. There was no significant difference in α-diversity of soil fungal and bacterial communities in the soil layer of 20-40 cm. For the soil fungal community at genus level,the relative abundances of TrichocladiumSolicocozymaNaganishia and Ilyoctria in the treatment 1.87,1.92,2.91 and 3.38 times higher than those in the control;The relative abundances of Tausonia and Cephalotrichum were 76.44% and 67.96% of that in the control,respectively(P < 0.05). For the soil bacterial community at genus level,the relative abundances of Streptomyces and Gemmatimonas in the treatment were 2.65- and 1.33-fold of that in the control,but the relative abundance of Chujaibacter was 48.88% lower than that of the control(P < 0.05). The number of bacteria and fungi OTU in the rhizosphere of the treatment changed significantly compared with the control;Additionally,the contents of soil available phosphorus and potassium in the rhizosphere of the treatment were 21.87% and 20.81%;5.14% and 5.31%,respectively(P < 0.05),which are higher than those in the control(P < 0.05). In summary,the application of B. megaterium inoculant to apple trees in spring can inhibit harmful soil fungi,improve the structure and quantity of soil microbial community,mobilize soil phosphorus and potassium,and promote the growth of apple tree and apple fruits yield.

    Identification and Expressional Analysis of MGT Gene Family in Prunus persica
    ZHOU Ping, YAN Shaobin, GUO Rui, and JIN Guang
    Acta Horticulturae Sinica    2024, 51 (3): 463-478.   DOI: 10.16420/j.issn.0513-353x.2023-0056
    Abstract328)      PDF (5378KB)(299)      
    To investigate the roles of magnesium transporters(MGTs)in magnesium transportation,the genome-wide identification of peach(Prunus persica)MGTs(PpMGTs)was performed and their effects in exogenous magnesium application on peach tree were studied. A total of eight PpMGTs,which were unevenly distributed in four chromosomes(Chr1,Chr3,Chr6 and Chr8),were identified based on protein homology searches and conserved domain analyses. System evolution analysis results suggested that plant MGTs could be grouped into five different clades which show quantitative differences in species-specific MGTs. PpMGTs had 4–13 exons,ten conserved motifs in protein sequence,and diverse cis-elements of stress response,transcriptional regulation,circadian rhythm,phytohormone response and developmental growth in their upstream promoters. All PpMGTs were transcribed in flowers,fruits,leaves and roots with their unique tissue specific expression pattern. The distinct transcriptional changes of PpMGTs could be observed after exogenous magnesium spraying. Differentially expressed genes found before and after exogenous magnesium application were discrepant in peach leaves and peels,but some of them were commonly involved in the photosynthesis pathway. The transcriptional profile and correlation analysis results suggested that expressional changes of light-harvesting chlorophyll a/b protein complex genes were positively corelated with transcriptional levels of PpMGT4,PpMGT6 and PpMGT8. Heterologous expression of PpMGT4,PpMGT6 and PpMGT8 were able to rescue growth defects of magnesium transport mutant MM281(Salmonella typhimurium mutant),suggesting these three proteins were serving important magnesium transport functions. Thus,the results from sequence characteristics,expressional profiles and exogenous magnesium application showed that PpMGTs had potential functional diversity and synergistic effects in magnesium transport and utilization. The expressional changes of PpMGT4,PpMGT6 and PpMGT8 may associate with exogenous magnesium intake and magnesium utilization.
    Effects of TDZ,CPPU and GA3 on Fruit Quality of‘Shine Muscat'Grape
    ZHANG Feixue, ZHANG Shuhong, MA Yandong, CHEN Feng, SONG Xianjie, LIU Ruijie
    Acta Horticulturae Sinica    2023, 50 (12): 2633-2640.   DOI: 10.16420/j.issn.0513-353x.2023-0083
    Abstract320)   HTML16)    PDF (713KB)(134)      

    The‘Shine Muscat'grapes were used as the experimental material. Combined treatments of gibberellic acid(GA3),forchlorfenuron(CPPU),tiabenon(TDZ)were used to study their effects on fruit quality under different application methods,treatment periods,concentrations and combinations. The results from this were then used to screen for the best combination of growth regulators,and provide scientific basis for its cultivation of denuclearization. Results showed that:dipping 2 mg · L-1 TDZ + 1 mg · L-1 CPPU + 15 mg · L-1 GA3 into flower spikes within 24 h of blooming,dipping 4 mg · L-1 TDZ + 25 mg · L-1 GA3 in the early stage of fruit expansion had the best effect. The cluster mass and single fruit weight were 779.24 g and 9.84 g,respectively,which were increased by 35.14% and 22.24% compared with the water control group. The longth of the fruit was 27.69 cm,the width of fruit grain was 24.75 cm,and the seedless rate was 96%,which increased by 8.97%、16.53% and 118.18% compared with the control. The total acid content was 3.98 g · kg-1,decreased by 7.44% compared with the control group,vitamin C content was 7.98 μg · g-1,increased by 48.60% compared with the control group,soluble sugar content was 16.28%,increased by 21.95% compared with the control group. This treatment had larger fruit size and better taste,and could significantly improve the fruit quality of‘Shine Muscat'. It is the most suitable combination of planting and conditioning for‘Shine Muscat'grape.

    Advances in the Regulation of Anthocyanin Biosynthesis by Hormone Signaling in Fruit Trees
    ZHENG Tianyi, HU Yujie, ZHANG Xuehao, LI Wanping, FANG Yulin, ZHANG Kekun, CHEN Keqin
    Acta Horticulturae Sinica    2023, 50 (11): 2516-2536.   DOI: 10.16420/j.issn.0513-353x.2022-1038
    Abstract316)   HTML22)    PDF (1536KB)(259)      

    This review summarizes the molecular mechanisms underlying the roles of abscisic acid,jasmonic acid,ethylene,auxin,cytokinin,brassinolide,gibberellin and strigolactone in regulating the anthocyanin accumulation in the fruit trees based on gene expression regulation of the anthocyanin biosynthesis pathway. The review will provide a theoretic basis for enriching the fundamental researches of anthocyanin regulation and biosynthesis in fruit trees,understanding the critical signal transduction pathways of plant hormones,and rationally applying plant hormones to regulate fruits development. The information provides references for the further study of the nthocyanin metabolic pathways in different types of fruit trees.

    ABA and Ethylene Enhance the Expression VlMybA1 and VlMybA2 and Promote Pigmentation in the Berry Skin via Their Interaction
    SUN Yushuai, WANG Fei, GUAN Xueqiang, CHI Huiru, YAO Yuxin
    Acta Horticulturae Sinica    2023, 50 (11): 2323-2336.   DOI: 10.16420/j.issn.0513-353x.2022-0919
    Abstract314)   HTML49)    PDF (2320KB)(271)      

    The patterns of anthocyanin and ABA accumulation and ethylene production as well as the changes in expression of the key genes associated with their synthesis or regulation during berry development were studied using Kyoho grapes(Vitis vinifera × V. labrusca‘Kyoho’). Analysis of gene expression,promoter response and relative mRNA abundance showed that exogenous ABA treatment upregulated the expression level of VlMybA1 and VlMybA2,in which VlMybA1 was significantly expressed and promoted berry skin pigmentation;In contrast,exogenous ACC treatment increased the VlMybA2 expression and anthocyanin accumulation. The interaction between ABA and ethylene was found,100 μmol · L-1 ABA largely induced the production of endogenous ethylene,and 500 μmol · L-1 ACC significantly increased ABA content. Additionally,exogenous ABA treatment increased the relative mRNA abundance of VlMybA2 via ethylene. Collectively,ABA promoted berry skin pigmentation by upregulating the VlMybA1 expression directly and the VlMybA2 expression indirectly via ethylene.

    A Review of Inflorescence Development and Formation Mechanism of Loquat
    ZHANG Yue, ZHANG Yunchun, DANG Jiangbo, LIN Shoukai, WU Di, JING Danlong, GUO Qigao, LIANG Guolu, XIANG Suqiong
    Acta Horticulturae Sinica    2023, 50 (9): 1929-1943.   DOI: 10.16420/j.issn.0513-353x.2022-0972
    Abstract313)   HTML16)    PDF (852KB)(139)      

    The production of flowery panicles of loquat requires a lot of artificial flower and fruit thinning and sacking,which greatly increases the production cost. Therefore,the study of loquat inflorescence characteristics and the exploration of structure of inflorescence which is convenient for production are the important basis for high yield,high quality and low consumption of loquat industry. This paper reviewed the development and evolution of loquat inflorescence,the regulation of genes related to flowering and inflorescence formation,and the effects of the internal and external factors on loquat inflorescence formation. And further put forward the existing problems and research prospects,in order to provide a reference for the subsequent research on the formation mechanism of loquat inflorescence and lay a foundation for the study of good loquat inflorescence cultivars.

    Advances in Aroma Compounds Biosynthesis of Strawberry Fruit
    LIU Jinying, KONG Lingxi, WANG Weihao, QIN Guozheng, WANG Yuying
    Acta Horticulturae Sinica    2023, 50 (9): 1959-1970.   DOI: 10.16420/j.issn.0513-353x.2022-0697
    Abstract310)   HTML21)    PDF (758KB)(203)      

    Strawberry aroma is one of the important factors contributing to their quality. Strawberry aroma is composed of complex combinations of volatile,such as esters,aldehydes,ketones,alcohols,terpenoids,furanone and sulfur-containing compounds. Among them,furanone,methyl butyrate,ethyl caproate,γ-decalactone,and linalool and nerolidol represent the most important aroma compounds of strawberry. This review aims to describe the recent advances in understanding aroma biosynthesis in strawberry fruit,including the aroma composition,biosynthetic pathways,key regulatory genes,as well as the major factors affecting the aroma quality. Finally,an outlook on the future research trends of strawberry aroma is provided.

    Sensory Fuzzy Modeling and Sugar and Acid Analysis Based Evaluation of Fruit Quality Difference in Different‘Ehime Kashi 28’Samples
    CHEN Jiajing, LIU Yuan, WU Yanuo, XU Juan, ZHANG Hongyan
    Acta Horticulturae Sinica    2023, 50 (11): 2466-2476.   DOI: 10.16420/j.issn.0513-353x.2022-0978
    Abstract305)   HTML16)    PDF (4625KB)(237)      

    To scientifically evaluate the fruit quality of citrus,this study tested the conventional quality,soluble sugar and organic acid content of nine‘Ehime Kashi 28’(‘Beni Madonna’)samples. In addition,panelists were organized to evaluate the favor ability of each sensory attribute and the weight level of each attribute in different samples. Correlation analysis between comprehensive sensory evaluation in six sensory attributes and flavor substances was hence performed. The results showed that the main soluble sugars in the juice sacs of‘Ehime Kashi 28’were fructose,glucose and sucrose,with higher content in sample 3 and 8,and lower content in sample 1 and 9. The main organic acids in the juice sacs of‘Ehime Kashi 28’were citric acid and low level of malic acid,the total acid content in sample 5,3 and 1 were higher,and the content in sample 9 was the lowest. The panelists paid attention to each quality attribute of‘Ehime Kashi 28’as follows:pulp sweetness > pulp acidity > pulp mastication > fruit aroma > fruit color = fruit shape,and the highest sensory comprehensive evaluation scores were in sample 9,3 and 2. In addition,the sensory comprehensive score was significantly correlated with pulp sweetness,pulp mastication and fruit aroma. The sensory evaluation of sugar content was significantly positively correlated with fructose,glucose,total sugar and TSS,and significantly negatively correlated with malic acid.

    QTL Mapping and Candidate Gene Identification Related to Ascorbic Acid Content in Tomato
    LIU Genzhong, LI Fangman, GE Pingfei, TAO Jinbao, ZHANG Xingyu, YE Zhibiao, and ZHANG Yuyang,
    Acta Horticulturae Sinica    2024, 51 (2): 219-228.   DOI: 10.16420/j.issn.0513-353x.2023-0659
    Abstract295)      PDF (1630KB)(325)      
    The F2 genetic segregating population was constructed via using high ascorbic acid(AsA)tomato accession TS-226 and low ascorbic acid tomato accession TS-228 as parents. The high-ascorbic acid and low-ascorbic acid pools were constructed respectively. Through bulked segregant analysis sequencing analysis(BSA-seq),the main QTL related to ascorbic acid was found,and the candidate gene related to ascorbic acid was located in the 58.00–60.15 Mb region of tomato chromosome 8. Furthermore,the ∆SNP-index data were analyzed to determine the main candidate gene SlPPO(Polyphenol oxidase)that controls the ascorbic acid content of tomato fruit. Using TS-228 as the background plant,transgenic lines with SlPPO overexpression and silencing were obtained by Agrobacterium-mediated transformation. Compared with the wild type,the total ascorbic acid content in the red ripe fruits of the overexpression lines OE-3 and OE-18 decreased by 18.89% and 26.56%,respectively. The total ascorbic acid content in the red ripe fruits of the silenced lines Ri-9 and Ri-16 increased by 37.53% and 63.93% relative to wild type,respectively. Taken together,SlPPO is the key gene to control the ascorbic acid content of tomato red ripe fruit,and plays a negative role in regulating fruit ascorbic acid content.