Effects of 1-Methylcyclopropene on NO Content,NOS Activity,and H_2O_2 Content in Postharvest Suli Pears

Studies were conducted over the effects of 1-methylcycolpropene （1-MCP） treatment on postharvest life of Suli pears （Pyrus bretschneideri Rehd.） stored at room and cold temperatures on nitric oxide （NO）,nitric oxide synthase （NOS） activity,and hydrogen dioxide （H2O2）.Results showed that the 1-MCP treatment had little effect on total soluble solids （TSS） at both room and cold temperatures.1-MCP delayed softening of Suli pear fruits,decreased respiratory rate and H2O2 accumulation,and increased NO and NOS activity at room temperature storage,while the effect of cold temperature storage was relatively inferior.There was a significant positive correlation between NOS activity and NO content.It is concluded that 1-MCP had effects on endogenous NO content and accumulation of H2O2.Similarly,H2O2 acting as a signaling molecule via regulating NO level affects the ripening and senescence of Suli pears.

PbGIF1 promoting cell-proliferation in pear fruit is transcriptionally activated by Pb RR1

As a cell proliferation regulator involved in wide biological processes in plants,GRF-INTERACTING FACTOR(GIF)controls different tissues development.However,whether GIF participates in fruit development remains unclear.According to transcriptome data,we identified PbGIF1was highly expressed during fruit development in cytokinins induced parthenocarpy pear.In the present study,the biofunction of PbGIF1 was initially verified.Overexpression of PbGIF1 promoted fruit size of transgenic tomato.The size of flesh fruit was not affected by cell expansion but the cell proliferation was promoted by overexpressing Pb GIF1.The accelerated cell proliferation process was also observed in PbGIF1-overexpressed transgenic pear fruit calli.The transcriptional regulation of cytokinins on PbGIF1 was further confirmed by exogenous CPPU treatments in pear fruitlets.To investigate the underlying mechanism,the cytokinins-responded factor,PbRR1,was further focused on.The results of Yeast-one-hybrid assay suggested that PbRR1 can bind to the promoter sequence of PbGIF1.The transcriptional activation of PbRR1 on PbGIF1 was also confirmed by Dual-Luciferase assays.Taken together,the results showed that cytokinins control pear fruit development via the transcriptional activation of PbGIF1 by PbRR1.

Genome-wide identification and characterization of the PbrATG family in Pyrus bretschneideri and functional analysis of PbrATG1a in response to Botryosphaeria dothidea

The pear is an economic fruit that is widely planted around the world and is loved by people for its rich nutritional value. Autophagy is a self-protection mechanism in eukaryotes, and its occurrence often accompanied by the degradation of damaged substances in cells and the recycling of nutrients. Autophagy is one of the mechanisms through which plants respond to environmental stress and plays an important role in plant development and stress resistance. Functional studies of autophagy-related genes (ATGs) have been performed on a variety of plant species, but little information is available on the ATG family in pear (Pyrus bretschneideri Rehd). Therefore, we analyzed the evolutionary dynamics and performed a genome-wide characterization of the PbrATG gene family. A total of 28 PbrATG members were identified.Phylogenetic analysis showed that PbrATGs were more closely related to ATGs of European pear and apple. Evolutionary analysis revealed that whole-genome duplication (WGD) and dispersed duplication events were the main driving forces of PbrATG family expansion.Expression analysis of different pear tissues showed that all the genes were expressed in different pear tissues, and different PbrATGs are expressed at different times and in different locations. Moreover, all PbrATGs also responded to different abiotic stresses, especially salt and drought stress, which elicited the highest expression levels. Pear seedlings were subsequently infected with Botryosphaeria dothidea (B.dothidea). The results showed that different PbrATGs had different expression patterns at different infection stages. According to the gene expression data, PbrATG1a was selected as a key autophagy gene for further analysis. Silencing of PbrATG1a reduced the resistance of pear to B. dothidea, which resulted in increased lesions, reactive oxygen species (ROS) contents, antioxidant enzyme activity, and gene expression levels in the silenced pear seedlings after B. dothidea inoculation. In this study, a comprehensive bioinformatic analysis of ATGs was conducted, and the functions of PbrATGs in pear development and in response to stress were elucidated, which laid a foundation for further study of the molecular mechanism of autophagy and a new strategy for pear resistance breeding.

Effects of 1-methylcyclopropene on skin greasiness and quality of'Yuluxiang'pear during storage at 20℃

During storage at 20℃,specific pear cultivars may exhibit a greasy texture and decline in quality due to fruit senescence.Among these varieties,‘Yuluxiang’is particularly susceptible to peel greasiness,resulting in significant economic losses.Therefore,there is an urgent need for a preservative that can effectively inhibit the development of greasiness.Previous studies have demonstrated the efficacy of 1-methylcyclopropene(1-MCP)in extending the storage period of fruits.We hypothesize that it may also influence the occurrence of postharvest peel greasiness in the‘Yuluxiang’pears.In this study,we treated‘Yuluxiang’pears with 1-MCP.We stored them at 20℃while analyzing the composition and morphology of the surface waxes,recording enzyme activities related to wax synthesis,and measuring indicators associated with fruit storage quality and physiological characteristics.The results demonstrate that prolonged storage at 20℃leads to a rapid increase in skin greasiness,consistent with the observed elevations in L^(*),greasiness score,and the content of total wax and greasy wax components.Moreover,there were indications that cuticular waxes underwent melting,resulting in the formation of an amorphous structure.In comparison to controls,the application of 1-MCP significantly inhibited increments in L^(*) values as well as grease scores while also reducing accumulation rates for oily waxes throughout most stages over its shelf period,additionally delaying transitions from flaky-wax structures towards their amorphous counterparts.During the initial 7 d of storage,several enzymes involved in the biosynthesis and metabolism of greasy wax components,including lipoxygenase(LOX),phospholipase D(PLD),andβ-ketoacyl-CoA synthase(KCS),exhibited an increase followed by a subsequent decline.The activity of LOX during early shelf life(0–7 d)and the KCS activity during middle to late shelf life(14–21 d)were significantly suppressed by 1-MCP.Additionally,1-MCP effectively maintained firmness,total soluble solid(TSS)and titratable acid(TA)contents,peroxidase(POD),and phenylalanine ammonia-lyase(PAL)activities while inhibiting vitamin C degradation and weight loss.Furthermore,it restrained polyphenol oxidase(PPO)activity,ethylene production,and respiration rate increase.These findings demonstrate that 1-MCP not only delays the onset of peel greasiness but also preserves the overall storage quality of‘Yuluxiang’pear at a temperature of 20℃.This study presents a novel approach for developing new preservatives to inhibit pear fruit peel greasiness and provides a theoretical foundation for further research on pear fruit preservation.

Overexpression of PbrGA2ox1 enhances pear drought tolerance through the regulation of GA_(3)-inhibited reactive oxygen species detoxification and abscisic acid signaling

Drought stress is a devastating natural disaster driven by the continuing intensification of global warming,which seriously threatens the productivity and quality of several horticultural crops,including pear.Gibberellins(GAs)play crucial roles in plant growth,development,and responses to drought stress.Previous studies have shown significant reductions of GA levels in plants under drought stress;however,our understanding of the intrinsic regulation mechanisms of GA-mediated drought stress in pear remains very limited.Here,we show that drought stress can impair the accumulation of bioactive GAs(BGAs),and subsequently identified PbrGA2ox1 as a chloroplast-localized GA deactivation gene.This gene was significantly induced by drought stress and abscisic acid(ABA)treatment,but was suppressed by GA_(3)treatment.PbrGA2ox1-overexpressing transgenic tobacco plants(Nicotiana benthamiana)exhibited enhanced tolerance to dehydration and drought stresses,whereas knock-down of PbrGA2ox1 in pear(Pyrus betulaefolia)by virus-induced gene silencing led to elevated drought sensitivity.Transgenic plants were hypersensitive to ABA,and had a lower BGAs content,enhanced reactive oxygen species(ROS)scavenging ability,and augmented ABA accumulation and signaling under drought stress compared to wild-type plants.However,the opposite effects were observed with PbrGA2ox1 silencing in pear.Moreover,exogenous GA_(3)treatment aggravated the ROS toxic effect and restrained ABA synthesis and signaling,resulting in the compromised drought tolerance of pear.In summary,our results shed light on the mechanism by which BGAs are eliminated in pear leaves under drought stress,providing further insights into the mechanism regulating the effects of GA on the drought tolerance of plants.

Effect of Inter Stock ‘Zhong ai 1hao'on the Structure of Spindle-shaped 'Huangguan' Pear Trees

In order to investigate the effect of dwarfing inter stock on the structure of pear trees,investigations were made to the tree and group structure of the 4-year-old spindle-shaped‘Huangguan'pear grafted with vigorous stock( Pyrus betulaefolia stock) and that grafted with the dwarfing inter stock‘Zhong ai 1 hao'( P. betulaefolia rootstock). The results showed that the 4-year-old‘Huangguan'pear trees grafted with the dwarfing inter stock‘ Zhong ai 1 hao'were 2. 87 m high on average,with 70. 70% of short braches,converted into 21 016. 0 branches per 667 m^2,840. 64 m^2 of leaf area per 667 m^2 with the leaf area coefficient of 1. 75.On the other hand,for the‘Huangguan'trees grafted with vigorous stocks,the average tree height was 3. 17 m,and the short branch proportion was 63. 20%,converted into 15 806. 4 branches per 667 m^2,719. 28 m^2 of leaf area per 667 m^2 with the leaf area coefficient of 1. 55. Therefore,the use of dwarfing inter stock‘Zhong ai 1 hao'had significant dwarfing effect on‘Huangguan'pear trees,which also showed significant yield increasing effect.

GPⅢа PLA2、PEAR1、PTGS1基因多态性与阿司匹林临床抗血栓疗效关联性研究

目的:探讨GPⅢаPLA2、PEAR1、PTGS1基因多态性与阿司匹林临床抗血栓疗效的相关性。方法:回顾性筛选我院2015年1月–2016年5月诊断为缺血性疾病并行阿司匹林相关基因检测及血小板聚集率实验室检测的患者信息,共计138例,以花生四烯酸诱导的血小板聚集率数值判断患者服用阿司匹林的疗效,分析影响阿司匹林疗效相关基因多态性。结果:GPⅢаPLA2及PTGS1突变频率较低,PEAR1基因突变频率较高,等位基因频率为63.8%,且突变杂合型频率高于突变纯合型。PEAR1突变纯合型的血小板聚集率显著高于野生型(P=0.007),而突变杂合型与野生型相比未表现出显著性差异(P=0.135)。PEAR1基因突变型(AG和AA)的血小板聚集率显著高于野生型GG(P=0.040),从总体来看,突变位点数目越多,对应的血小板聚集率就越高。结论:PEAR1基因多态性与阿司匹林抗血栓疗效存在相关性,并随着PEAR1的突变基因位点数量增加血小板聚集率也逐渐增加。

脑梗死患者PEAR1、PTGS1基因交互作用与阿司匹林抵抗的相关性分析

目的探讨脑梗死患者血小板内皮聚集受体-1(PEAR1)和前列腺素内过氧化物合酶-1(PTGS1)基因交互作用与阿司匹林抵抗的相关性,为脑梗死患者抗血小板个体化治疗提供参考.方法选取经头部核磁共振(MRI)平扫或计算机断层扫描(CT)平扫证实为脑梗死的患者100例为研究对象,入院后记录患者一般资料和既往病史,所有患者均满足阿司匹林100 mg/d单抗治疗.应用荧光染色原位杂交法检测基因分型,酶联免疫吸附(ELISA)法测定尿液中11-脱氢-血栓烷B2(11-DH-TXB2)含量.依据11-DH-TXB2含量将患者分为阿司匹林抵抗组(Aspirin resistance,AR)和阿司匹林敏感组(Aspirin sensitivity,AS).结果一般资料中性别、体质量指数(BMI)和高血压、糖尿病、吸烟、饮酒史、PEAR1基因多态性在两组间差异均无统计学意义(P>0.05).PTGS1基因型、GG基因型比例阿司匹林抵抗组高于敏感组,差异具有统计学意义(P<0.001).多因素分析结果显示:PTGS1基因多态性是阿司匹林抵抗的影响因素,GG基因型发生阿司匹林抵抗的概率是A G/AA基因型的24.489倍(95%CI 4.910~122.150).PEAR1与PTGS1两基因型交互作用分析显示:PTGS1基因型为GG且PEAR1基因型为AG/AA时,OR值增加,两基因对阿司匹林抵抗的发生存在交互作用(API=17.628%).结论PEAR1基因多态性与阿司匹林抵抗无明显相关性;PTGS1基因GG型是阿司匹林抵抗的独立危险因素;PTGS1基因型为GG且PEAR1基因型为AG/AA时存在交互作用,可增加患者阿司匹林抵抗风险.

PEAR1基因多态性对冠心病患者预后的影响

目的分析血小板内皮聚集受体-1(PEAR1)基因多态性对冠心病患者临床预后的影响。方法连续纳入2016年12月至2018年12月于北京大学人民医院心血管内科行冠状动脉介入诊疗并接受阿司匹林和氯吡格雷双联抗血小板治疗的冠心病患者。检测患者PEAR1基因(rs822441、rs12041331)以及CYP2C19基因(rs4986893、rs4244285)单核苷酸多态性(SNP)。临床随访2年,主要终点是全因死亡、非致死性心肌梗死、缺血性卒中和不稳定型心绞痛(UA)导致再次住院的复合事件。在校正CYP2C19功能缺失型(LOF)等位基因及其他混杂因素后,利用Cox回归分析研究PEAR1基因多态性对冠心病患者临床预后的影响。结果共纳入411例冠心病患者,平均随访时间(737.7±0.7)d,共有22例发生主要终点事件。将年龄、总胆固醇、肌酐、左主干病变、CYP2C19 LOF等位基因携带状态作为协变量纳入多因素Cox回归分析中,结果显示PEAR1基因SNP rs822441、rs12041331与主要终点事件风险无相关性,但rs822441突变型等位基因携带者发生UA导致再次住院事件风险升高(校正HR 5.084,95%CI 1.071~24.131,P=0.041)。结论PEAR1基因SNP rs822441与冠心病患者临床预后具有相关性。

PEAR1、GSTP1基因型与脑梗死预后的相关性分析

目的 探讨PEAR1、GSTP1基因型与脑梗死预后的相关性,为脑梗死个体化精准治疗及二级预防提供理论参考.方法 选取首发症状型脑梗死患者,入院后遵循抑制血小板聚集、营养神经、改善循环及对症治疗原则,患者24 h内口服阿司匹林100 mg, 1次/d,并长期维持治疗.收集患者的一般资料、既往史、血小板相关指标、PEAR1及GSTP1基因型、相关待测量表评分及脑梗死复发周期,出院随访13个月.根据脑梗死复发及复发周期进行分组,比较PEAR1、GSTP1基因多态性及其他临床资料与脑梗死预后是否具有关联.结果 入组患者PEAR1基因突变型(AA+AG)占60.1%,未突变型(GG)占39.9%;GSTP1基因突变型(AG+GG)占31.8%,未突变型(AA)占68.2%.对比分析两组患者冠心病病史、出院时NIHSS评分、血小板计数及GSTP1基因型与脑梗死复发有关联.多因素Logistic回归分析显示冠心病病史、出院时低NIHSS评分、低血小板计数及GSTP1基因突变型(AG+GG)为脑梗死复发的独立危险因素(P<0.05).结论 首发症状型脑梗死患者年龄越大、出院时低NIHSS评分、低血小板计数或GSTP1为基因突变型(AG+GG)脑梗死预后较差.

Effects of 1-methylcyclopropene and modified atmosphere packaging on fruit quality and superficial scald in Yali pears during storage

The Yali pear（Pyrus bretschneideri Rehd.） is susceptible to superficial scald during prolonged cold storage and at shelf life. This study investigated the effects of 1-methylcyclopropene（1-MCP） and modified atmosphere packaging（MAP） on changes of fruit quality and superficial scald during cold storage and at shelf life in Yali pear. Compared with MAP, the combination of MAP and 1-MCP（MAP＋1-MCP） treatment reduced the carbon dioxide and ethylene content inside the packaging bag. The 1-MCP, MAP, and MAP＋1-MCP treatments reduced the superficial scald index, malondialdehyde content, O2^-· production rate and relative conductivity and inhibited the accumulation of α-farnesene and conjugated trienes in the peel. 1-MCP and MAP＋1-MCP treatments maintained a higher phenolic content and enhanced the catalase and superoxide dismutase activities in the fruit, while reduced activities of lipoxygenase and polyphenol oxidase in the peel preceding the onset of superficial scald. Comprehensive analysis indicated that the MAP＋1-MCP treatment is the most effective method tested for improving the quality of Yali pears during cold storage and at shelf life.

Optimal storage temperature and 1-MCP treatment combinations for different marketing times of Korla Xiang pears

Maintenance of green color is the primary indicator of quality in the market evaluation of Korla Xiang pears at present and can generally be achieved through early harvesting and decreasing the storage temperature, but the fruit quality was reduced by early harvesting, and the decreasing storage temperature increased the risk of chilling injury. The objectives of this study were to determine the optimal storage parameters for different storage times and to find ways to preserve the green skin color of pears. Specifically, we analyzed the effects of the ethylene inhibitor, 1-methylcyclopropene （1-MCP）, combined with low temperature on quality and maintenance of the green color of Korla Xiang pears during storage. We found that 1-MCP and/or low temperature reduced the loss of green color at 20℃ after being removed from cold storage. In addition, 1-MCP significantly inhibited the decline of titratable acid and ascorbic acid but had no significant effect on fruit firmness and total soluble solids. Low temperature with or without 1-MCP inhibited the release of ethylene, inhibited the decline in the stalk preservation index, inhibited the increase in decay rate and weight loss rate during storage, and inhibited the increase in the core browning index after 225 days of storage. Different storage temperatures had different effects on the quality of Korla Xiang pears. Despite inhibiting ethylene release, a storage temperature of-1.5℃ increased the respiration rate. Storage at -1.5℃ caused core browning eady during storage due to chilling injury, whereas at 2℃ core browning occurred late during storage due to senescence. In late storage, 1-MCP had no significant effect on the maintenance of Korla Xiang pear quality at 2℃. Based on these results, we determined the optimal combinations of low temperature and 1-MCP treatment to maintain pear quality while avoiding chilling injury. For different marketing times, the optimal conditions for storage until New Year＇s Day （a storage duration of 90 days） are 2℃ or 1-MCP combined with 2℃. For storage until the Spring Festival （a storage duration of 150 days）, the optimal conditions are 0℃ or 1-MCP combined with 0℃, and for storage until May （a storage duration of 225 days）, the best conditions are 1-MCP combined with -1.5℃.

Inhibitory Effects of 1-MCP and DPA on Superficial Scald of Dangshansuli Pear

Dangshansuli pear is one of crisp pears and has a non-climacteric respiratory pattern. Dangshansuli pear fruits were treated with 1 000 or 2 000 μL L-1 diphenylamine （DPA） for 1 min, or with 0.5 μL L-1 1-methylcyclopropene （l-MCP） for 12 h before cold storage at （2±0.5）℃ for up to 210 d. Incidences of superficial scald and related physiological indexes were investigated during storage. The results showed that superficial scald occurred in control fruit with a rate of over 90% after 210 d at cold storage plus 10 d at room temperature. Treatments with 1 000 and 2 000 μL L-1 DPA and 0.5 μL L-1 l-MCP inhibited the accumulation of a-farnesene, conjugated trienes, total phenolic contents, and malondialdehyde （MDA） during storage. The treatments also decreased leakage of cell membrane and the activity of polyphenol oxidase （PPO） in the peel. These results indicate that 1-MCP and DPA treatments inhibit and postpone the occurrence of superficial scald of Dangshansuli pears remarkably in cold storage and post-storage shelf life, respectively, while the mechanisms were different. The results above may provide a theoretical evidence for the agriculture production.

PEAR1基因多态性对冠心病患者阿司匹林抗血小板作用的影响与相关性分析

目的探讨PEAR1基因多态性对冠状动脉粥样硬化性心脏病(冠心病)患者使用阿司匹林抗血小板作用的影响及相关性。方法选取2016年4月至2018年4月于许昌市中心医院心内科确诊并收治的364例冠心病患者为研究对象,所有患者在确诊后给予阿司匹林持续治疗30 d,并分析患者的PEAR1基因型频率。根据患者PEAR1基因多态性检测结果,将患者分为野生型(GG组,n=118例)、突变杂合型(GA组,n=124例)和突变纯合型(AA组,n=122例)。检测三组患者治疗前后血小板聚集率、血小板抑制率、血清环氧化酶(COX)-1、COX-2、血栓素(TXA)-2和前列腺素(PGs)的水平。结果三组患者基本资料比较,差异均无统计学差异(P>0.05)。三组患者治疗前血小板聚集率、血小板抑制率、血清COX-1、COX-2、TXA-2和PGs水平比较,差异无统计学意义(P>0.05)。给予阿司匹林治疗后,三组患者血小板抑制率均显著高于治疗前(P<0.05);GG组与GA组的血小板聚集率、血清COX-1、COX-2、TXA-2和PGs水平均显著低于治疗前(P<0.05)。组间比较,治疗后GG组和GA组血小板聚集率、血清COX-1、COX-2、TXA-2和PGs水平均显著低于AA组(P<0.05);GG组和GA组血小板抑制率均显著高于AA组(P<0.05)。结论冠心病患者发生阿司匹林抵抗与PEAR1基因多态性密切相关,PEAR1基因GG型对阿司匹林的应答性最好,PEAR1基因AA型对阿司匹林存在严重抵抗。

PEAR1基因多态性与缺血性脑卒中患者阿司匹林反应相关性研究

目的探讨缺血性脑卒中患者阿司匹林反应与血小板内皮聚集受体1(platelet endothelial aggregation receptor1,PEAR1)基因多态性的相关性。方法对148例缺血性脑卒中患者给予阿司匹林100 mg/日,连续服用7 d后,进行血栓弹力图检测,根据结果分为对照组(即阿司匹林敏感患者,102例)和观察组(即阿司匹林抵抗患者,46例)。比较两组患者的一般临床资料,并采用荧光染色体原位杂交技术对PEAR1基因型进行检测。采用多因素回归分析单因素分析中存在统计学差异的影响因素与阿司匹林抵抗的关系。结果一般临床资料比较中,发现观察组的性别、饮酒、高密度脂蛋白胆固醇(HDL-C)与对照组的差异有统计学意义(P<0.05);观察组与照组PEAR1基因rs12041331位点基因型分布差异有统计学意义(P<0.05),rs2768759位点两组基因型分布差异无统计学意义(P>0.05);多因素回归分析发现,性别、HDL-C和PEAR1基因rs12041331位点(GA+AA)是阿司匹林抵抗独立危险因素(P<0.05)。结论PEAR1基因rs12041331位点A等位基因与缺血性脑卒中患者阿司匹林抵抗的发生有关。

广东地区汉族人群GPⅢa、PEAR1、PTGS1和GSTP1基因多态性分析及相关性研究

目的研究广东地区汉族人群血小板膜糖蛋白Ⅲa(GPⅢa)、血小板内皮聚集受体1(PEAR1)、前列腺素内过氧化物合酶1(PTGS1)、谷胱甘肽S转移酶P1(GSTP1)基因多态性分布情况并进行相关性分析。方法收集2019年1月至2022年4月于广州达安临床检验中心实验室检测的患者样本,共2985例。对患者的GPⅢa基因rs5918位点、PEAR1基因rs12041331位点、PTGS1基因rs10306114位点、GSTP1基因rs1695位点进行基因检测。应用统计学方法比较四个基因位点变异情况在广东汉族人群中的分布差异,分析其与性别、年龄的相关性。结果rs5918位点、rs12041331位点、rs10306114位点、rs1695位点在广东汉族人群中的人群频率分别为0.39%、42.55%、0.05%、17.52%。rs1695位点的基因型和等位基因频率在不同年龄组间的分布差异有统计学意义(P<0.05),其他三个基因位点在不同年龄组之间的分布差异无统计学意义(P>0.05)。广东地区汉族人群四个基因位点基因型和等位基因频率的分布与我国汉族人群差异无统计学意义(P>0.05),与南亚、非洲、欧洲、拉丁美洲人群差异有统计学意义(P<0.05)。结论广东地区汉族人群rs1695位点(GSTP1)年龄<60岁组携带G等位基因的比例增加,存在地区和年龄的差异性,可为指导广东地区汉族人群阿司匹林个性化用药提供依据。

进展性缺血性脑卒中与阿司匹林抵抗及PEAR 1基因型的相关性研究

目的探讨进展性缺血性脑卒中与阿司匹林抵抗(aspirin resistance,AR)及血小板内皮聚集受体(platelet endothelial aggregation receptor,PEAR)1基因型的相关性。方法选择急性脑梗死患者236例,根据病情进展情况分为2组,其中进展组54例,非进展组182例,检测2组血小板聚集率和PEAR 1基因类型,比较2组阿司匹林敏感性和基因型分布以及AR和阿司匹林敏感(aspirin sensitivity,AS)2组的基因型分布。结果 AR患者88例(37.3%),AS患者148例(62.7%)。进展组AR发生率为61.1%,AS发生率为38.9%,非进展组AR及AS发生率为30.2%及69.8%。2组构成比差异有统计学意义(χ~2=16.994,P<0.01)。AR与卒中进展呈正相关(OR=4.248,P<0.01)。PEAR 1的基因型分布进展组与非进展组相比较(χ~2=0.095,P>0.05),AR与AS患者相比较,均无明显差异。结论 AR可能是进展性缺血性脑卒中神经功能恶化的影响因素之一,PEAR 1基因型与卒中进展及AR无明确相关性。

1-MCP处理对库尔勒香梨酚类及抗氧化活性的影响

以新疆库尔勒香梨为试材,采用1-甲基环丙烯(1-MCP)处理结合低温贮藏的方法,研究了1-MCP处理对香梨贮藏过程中常规指标和多酚及抗氧化活性的影响,以期为库尔勒香梨保鲜提供参考依据。结果表明:库尔勒香梨在4℃和相对湿度90%~95%的条件下,采用1-MCP处理显著抑制了果实硬度、总酸、葡萄糖、蔗糖和山梨醇的下降,延缓了果实的可溶性固形物峰值到达时间,保持总酚、熊果苷、儿茶素、绿原酸和芦丁含量,抑制果实抗氧化能力的下降。综上可知,采用1-MCP处理能够有效保持香梨贮藏品质,延缓香梨酚类化合物含量和抗氧化活性的下降。

不同1-MCP处理方式对南红梨采后质地与风味品质的影响

目的探究不同1-甲基环丙烯(1-methylcyclopropene,1-MCP)处理方式对南红梨保鲜效果的差异。方法以南红梨为试材,分别进行1-MCP雾化处理和1-MCP便携式小药包熏蒸处理,以不施加1-MCP为CK,处理后用微孔膜包装后快递至目的地,于室温(23℃)条件下进行贮藏,并对货架35 d内的感官指标、生理指标、硬度与软化酶活性进行测定,利用气相色谱-离子迁移谱联用技术(Gas Chromatography-Ion Mobility Spectroscopy,GC-IMS)分析不同处理南红梨挥发性成分的差异。结果CK、1-MCP雾化、1-MCP熏蒸3组分别在14、21、28 d时出现明显后熟特征,挥发性成分浓度剧烈增加,酯类为最多。1-MCP无法改变南红梨挥发性成分,仅能推延成分出现的时间。在不同1-MCP处理组中,熏蒸组能够对果皮转色、呼吸作用、乙烯合成、果实软化、挥发性成分生成起到更好的抑制作用,以延长果实保鲜时间。结论1-MCP对南红梨保鲜具有积极作用,1-MCP雾化组与熏蒸组分别延长采后南红梨的货架期14 d和21 d。本文可为南红梨采后贮运提供新的思路及方法。

The HY5 transcription factor negatively regulates ethylene production by inhibiting ACS1 expression under blue light conditions in pear

Ethylene is the main factor controlling fruit ripening of pear(Pyrus ussuriensis).Ethylene production rate is negatively correlated with fruit shelf life;therefore,it is important to decrease the ethylene levels for optimal fruit storage.Here,we observed that blue light treatment could inhibit ethylene production and promote the expression of ELONGATED HYPOCOTYL 5(PuHY5),a basic leucine zipper domain(bZIP)transcription factor.The following studies showed that PuHY5 could bind to the promoter of ACC synthase 1(PuACS1),a rate-limiting enzyme in ethylene biosynthesis,and inhibit its expression.For pears in which Pu HY5 was silenced,the ethylene production and PuACS1 expression were much higher than those in the control fruit.These results demonstrated that blue light inhibited ethylene production through the induction of Pu HY5 in pear.Our finding provides a new method for prolonging fruit shelf life.