乙烯分解纳米光催化反应器关键性能参数研究

果品与蔬菜在采后贮藏过程中所产生和释放的乙烯是加速成熟、衰老和腐烂的重要环境因子。该研究采用纳米光催化技术开发设计了一种可以去除气调库中乙烯的玻璃管光催化反应器,并对其主要性能参数进行了模拟测试与分析。结果表明：气体流量、玻璃管直径与长度以及光源种类均是影响光催化反应器乙烯分解性能的主要因素。在该试验条件下,气体流量在40～80 L/h的范围内较佳;玻璃管的适宜内径为50 mm;在相同功率条件下黑光灯的光催化效果优于紫光灯。光催化反应器可以多级串联使用,以便提高系统的乙烯分解能力。这些研究结果为气调库用光催化乙烯分解装置设计提供了基础设计参数和指标。     

CoCl2对Na2CO3胁迫下苜蓿幼苗叶片细胞膜的保护作用

本研究报道了CoCl2对Na2CO3胁迫下苜蓿幼苗叶片细胞膜的保护作用及机制,研究结果表明,在120mmol/L Na2CO3胁迫的前期,苜蓿幼苗叶片多胺含量及抗氧化酶活性显著升高,过氧化物酶除外,而活性氧水平、脂质过氧化程度和细胞膜相对透性无显著变化;当120 mmol/L Na2CO3胁迫延长至24~28 d时,乙烯产生速率大幅度上升,多胺氧化酶及二胺氧化酶活性显著升高,精胺、亚精胺和腐胺含量显著下降;抗氧化酶活性显著下降,活性氧水平与脂质过氧化程度显著提高,细胞膜稳定指数大幅度下降。在120 mmol/L Na2CO3溶液中加入CoCl2至50μmol/L,在胁迫的整个过程中乙烯产生被显著抑制,同时相对提高了抗氧化酶的活性,并在胁迫后期显著减轻了多胺氧化酶活性升高、多胺含量下降及脂质过氧化程度的增加,减缓了细胞膜稳定指数的下降,从而对Na2CO3胁迫下苜蓿幼苗叶片细胞膜表现出一定的保护作用。     

包装顶空气氛和相对湿度对葡萄常温货架期和品质的影响

为分析气调透湿袋和多效抗菌纸对葡萄在常温下的保鲜效果,在室温条件(26℃和相对湿度(RH)70%)下使用PE保鲜袋(PE袋)、自制的透湿性薄膜袋(A袋)以及A袋内加入自制的乙烯吸附复合抗菌纸(A-P)3种被动气调(MA)保鲜方案,并研究包装顶空气氛、顶空相对湿度以及乙烯吸附纸对‘巨峰’葡萄采后贮藏品质的影响。结果表明：A-P组建立的气调气氛(11.5%CO₂、14.5%O₂和RH78%)下‘巨峰’葡萄的果梗褐变率、落粒率和霉变率均最低,可滴定酸含量和可溶性固形物含量水平较高;A袋的顶空气氛(9.17%O₂、25.4%CO₂)抑制葡萄的褐变及霉变较为理想,但是由于相对湿度较高导致落粒;PE袋中较高O₂(18.5%)和较低CO₂(2.2%),特别是高湿度(RH 99%)环境导致葡萄大量霉变与褐变,货架期仅3 d,裸放的CK组3 d时产生大量褐变,失去商业价值。综上,自制抗菌纸与透湿性薄膜的组合有利于葡萄的常温贮藏,延长货架期。A-P包装为葡萄的常温保鲜提供了新...     

HXKs基因在香蕉果实后熟过程中功能初探

香蕉是世界主要水果之一,对乙烯非常敏感,属于呼吸跃变型果实。目前,香蕉果实后熟机理还未完全探明,后熟过程中己糖激酶(HXK)与乙烯的关系还不清楚。通过BLAST比对从香蕉基因组数据库中发现HXK基因家族的11个成员,经克隆获得这些基因的序列,并研究HXKs基因在香蕉果实自然后熟过程中的转录表达谱,重点研究乙烯利、甘露糖、NAG和1-MCP对HXKs基因表达、HXK酶活和内源乙烯生物合成的影响。结果表明:在香蕉果实后熟过程中HXKs基因呈现差异性表达,乙烯利上调大多数HXKs基因的表达和HXK酶活,1-MCP的作用正好相反,这表明外源乙烯正作用于HXK。另一方面,甘露糖加快内源乙烯生物合成,NAG却推迟内源乙烯生物合成,这说明HXK正作用于内源乙烯生物合成。所以,在香蕉果实后熟过程中乙烯和HXK之间存在相互促进的关系。这将为进一步阐明香蕉果实后熟机制提供理论依据,也将为香蕉果实保鲜新技术的挖掘提供新思路。     

乙烯吸收剂延长香蕉贮运寿命的研究与应用

香蕉、大蕉和粉蕉经防腐剂处理后用聚乙烯薄膜袋包装并加入乙烯吸收剂,在常温下可延长其贮藏寿命20～40天。每公斤蕉用1克、2克或5克乙烯吸收剂活化铝,对其贮藏寿命没有明显的影响。用活化铝颗粒、沸石颗粒、蛭石和珍珠岩等不同材料作高锰酸钾载体制成的乙烯吸收剂延长果实贮藏寿命的效果不同。以活化铝颗粒或珍珠岩作载体效果较好。将乙烯吸收剂应用于商业性香蕉运输保鲜,使好果率从62.5％提高至95.7％,取得显著的经济效益。     

Effect of Environmental Stress and Ethylene on the Expression of LeACO1 Gene

The specific ACC oxidase 1 gene fragment of tomato was cloned and prepared for a probe which was used to hybridize with total RNAs that were extracted from the materials treated with ethylene and different environmental stresses, such as drought, water recovery, flood, wound and temperature, respectively. Northern blot analysis indicated that the expression of LeACO1 was restrained by drought, while strongly induced by water recovery and exogenous ethylene. After treated by flood stress, the expression level of I_eACO1 in leaves had no distinctively changes, while its expression level in stems was rapidly increased. Moreover, the expression of LeACO1 in tomato stems could be induced at the temperature of 37 degree. In addition, wounding had no influence on the expression of LeACO1.     

高等植物ACC合成酶基因的克隆及其表达调控的研究进展

主要对高等植物ACC合成酶基因的克隆、结构及其表达调控等方面研究进展进行综述,旨在揭示ACC合成酶基因的分子特征,为运用基因工程技术探索控制果实成熟、软化和衰老的关键ACC合成酶基因,更进一步地通过转基因技术调控果实内乙烯的含量从而延长水果货架期提供思路。     

芍药采后贮藏生理研究

该文对芍药两个耐贮藏性不同的品种，在低温干燥贮藏过程中水分、乙烯、呼吸速率及呼吸途径等生理变化进行测定．结果表明，贮藏过程中花枝水分状况与切花寿命相关，没有发现呼吸、乙烯与切花寿命关联，呼吸途径变化与水分变化有一定联系     

湖北光敏感核不育水稻育性转换机理初探

用乙烯生物合成抑制剂CoCl_2处理湖北光敏感核不育水稻(HPGMR),可在长日照不育条件下出现可育现象,而在育性转换临界光长下显著促进可育性表达。HPGMR幼穗中乙烯释放量,在长日照下所形成的幼穗比普通农垦58品种高2.5-5倍,而在育性转换临界光长下所形成的幼穗则降低至接近普通农垦58的低水平。表明HPGMR中可能存在受光周期调节的乙烯代谢系统,其育性转换受乙烯代谢水平的调控。     

The role of ethylene in abscission of sweet orange promoted by exogenous application of the abscission agent 5-chloro-3-methyl-4-nitro-1H-pyrazole (CMNP)

Mature ‘Valencia’ fruit were treated with 5-chloro-3-methyl-4-nitro-1H-pyrazole (CMNP), and the ethylene inhibitors aminoethoxy vinyl glycine (AVG) and silver thiosulfate (STS), to assess involvement of ethylene in abscission via CMNP. Fruit detachment force (FDF) and ethylene evolution were measured over time. Accumulation of the ethylene precursor 1-aminocyclopropane-1-carboxylate (ACC) in peel upon CMNP application was assessed and impact of application of ACC on FDF was estimated when applied 1 cm away from the abscission zone (AZ), to determine its potential as a signaling molecule in promoting fruit loosening. CMNP when applied alone reduced FDF by 50%. AVG and STS inhibited fruit loosening considerably at 500 µM and 10 mM, respectively, when applied with 2 mM CMNP. ACC accumulation in peel was highest 2 days after CMNP application, which preceded the maximum decline in FDF which occurred a day later, indicating that ACC serves as a potential signaling molecule that triggers abscission in the AZ. The results of the study support the hypothesis that abscission via CMNP application is at least partly ethylene dependent. However, the decline in FDF by ACC was less than 50% of control which suggested involvement of another pathway in abscission via CMNP in sweet orange.