香蕉果实XET cDNA的克隆及其在成熟软化的果实果皮和果肉中的表达分析

木葡聚糖内糖基转移酶(Xyloglucan endotransglycosylase,XET)通过分解细胞壁半纤维素多糖的主要成分--木葡聚糖而参与果实软化.为了阐明香蕉(Musa acuminata.Colla cv.GrandNain)果实成熟过程中的软化与细胞壁代谢酶XET基因表达模式的关系,采用RT-PCR和RACE-PCR方法,首次从成熟香蕉果实果肉中分离了编码XT基因的全长cDNA(MA-XET1,全长1 095 bp).序列分析表明,MA-XET1的5'端和3'端的非翻译区分别为66 bp和1 89bp,该片段含有一个完整的开放读码框,编码280个氨基酸,推导的MA-XET1蛋白质中存在XET蛋白的催化活性部位DEIDFEFL.Southern杂交表明,MA-XET1在香蕉基因组中由多拷贝基因编码.Northern分析显示,跃变前期的果肉中,不能检测MA-XET1基因的表达,跃变期的果实果肉中MA-XET1表达增加,跃变后期该基因表达略有减弱;在跃变前期的果实果皮中,MA-XET1的积累较低,跃变期的果实果皮中积累大幅增加,而后迅速下降.Propylene(丙烯,乙烯的类似物)处理降低香蕉果实果皮和果肉的硬度,而且propylene促进MA-XET1在果皮和果肉中的积累.这些结果表明,MA-XET1参与香蕉果实成熟过程中的果皮和果肉软化,并且,MA-XET1的表达在转录水平上受乙烯调控.     

香蕉果胶裂解酶基因的克隆

根据已经报告的香蕉果胶裂解酶基因序列,设计了特异引物,通过RT-PCR获得果胶裂解酶的cDNA,并克隆测序,与已报告的序列进行了比较,二者核苷酸序列的同源性达99.24%;推测的氨基酸序列也具有很高的同源性,达97.7%.通过RT-PCR的方法对香蕉不同组织和不同成熟度果实的果胶裂解酶基因的表达进行了研究.结果表明该基因只在果实中表达,具有组织特异性,而且只在果实的特定发育阶段表达.     

The effect of ethylene biosynthesis regulators on metabolic processes in the banana fruits in various physiological states

The effects of ethylene-evolving preparations—2-chloroethylphosphonic acid (2-CEPA), the new generation binary preparation ethacide, and the specific inhibitor of ethylene biosynthesis aminooxyacetic acid (AOA)—on the ethylene evolution by banana (Musa sp.) fruits at various ripening stages and the content of protein inhibitor of polygalacturonase (PIPG), associated with prevention of fruit tissue softening, were studied. It was demonstrated that the ripening stage was of significant importance for the results of treatment with the mentioned preparations. Their effects were most pronounced in the fruits of medium ripeness. 2-CEPA and ethacide increased the ethylene evolution in banana fruits on the average by 25–30%. AOA treatment decreased the ethylene evolution in these fruits by 30%. The PIPG content in fruit pulp was insignificant; 2-CEPA almost did not change its content in banana skin, while ethacide and AOA somewhat decreased it. Consequently, the regulators of ethylene biosynthesis have a potential for optimizing the state of banana fruits during storage and sale.     

Responses of banana fruit to treatment with 1-methylcyclopropene

Experiments were conducted to determine levels of 1-methylcyclopropene (1-MCP) exposure needed to prevent ethylene-stimulated banana fruit ripening, characterise responses of ethylene-treated fruit to subsequent treatment with 1-MCP, and to test effects of subsequent ethylene treatment on 1-MCP-treated fruit softening. Fruit softening was measured at 20°C and 90% relative humidity. One hour exposure at 20°C to 1000 nl 1-MCP/l essentially eliminated ethylene-stimulated ripening effects. Exposure for 12 h at 20°C to just 50 nl 1-MCP/l was similarly effective. Fruit ripening initiated by ethylene treatment could also be delayed with subsequent 1-MCP treatment. However, 1-MCP treatment only slowed down ripening of ethylene-treated fruit when applied at 1 day after ethylene and was ineffective when applied 3 or 5 days after ethylene treatment. The ripening response of fruit treated with 1-MCP and subsequently treated with ethylene varied with interval time between 1-MCP and ethylene treatments. As time increased, the response of 1-MCP-treated fruit to ethylene was enhanced. Responses to 0.1, 1, 10 or 100 µl ethylene/l concentrations were similar. Enzyme kinetic analysis applied to 1-MCP effects on ethylene-induced softening of banana fruit suggested that 1-MCP inhibition is by noncompetitive antagonism of ethylene binding.     

香蕉果实软化相关β-半乳糖苷酶基因的克隆及其表达分析

β-半乳糖苷酶（β-galactosidase）通过分解细胞壁半纤维素切除半乳糖键而参与果实软化。为了阐明香蕉（Musasp．）果实成熟过程中的软化与细胞壁代谢酶β-半乳糖苷酶基因表达之间的关系,采用RT-PCR方法,从成熟香蕉果实果肉中分离了编码β-半乳糖苷酶基因的部分cDNA（MA-Gal）,序列分析表明,MA-Gal包含927bp,编码309个氨基酸,包含5个β-半乳糖苷酶结构域（典型真核生物中β-半乳糖苷酶包含7个结构域）,推导的MA-Gal蛋白质中有β-半乳糖苷酶蛋白的催化活性部位GGPIILSQIENEY（F）;系统进化树分析结果表明MA-Gal属于第一类β-半乳糖苷酶基因（该类主要在果实中表达）;β-半乳糖苷酶活性和硬度的变化表明其与香蕉果实硬度变化密切相关;Northern分析显示,跃变前期的果肉中,MA-Gal基因的表达量很低,后随着果实的软化表达量不断增加,并在呼吸跃变后达到最高。所有结果表明,MA-Gal参与香蕉果实成熟过程中的软化。     

Effect of Abscisic Acid on Banana Fruit Ripening in Relation to the Role of Ethylene

Abstract The role of abscisic acid (ABA) in banana fruit ripening was examined with the ethylene binding inhibitor, 1-methylcyclopropene (1-MCP). ABA (0, 10⁻⁵, 10⁻⁴, or 10⁻³ mol/L) was applied by vacuum infiltration into fruit. 1-MCP (1 μL/L) was applied by injecting a measured volume of stock gas into sealed glass jars containing fruit. Fruit ripening, as judged by ethylene evolution and respiration associated with color change and softening, was accelerated by 10⁻⁴ or 10⁻³ mol/L ABA. ABA at 10⁻⁵ mol/L had no effect. The acceleration of ripening by ABA was greater at 10⁻³ mol/L than at 10⁻⁴ mol/L. ABA-induced acceleration of banana fruit ripening was not observed in 1-MCP treated fruit, especially when ABA was applied after exposure to 1-MCP. Thus, ABA's promotion of ripening in intact banana fruit is at least partially mediated by ethylene. Exposure of ABA-treated fruit to 0.1 μL/L ethylene for 24 h resulted in increased ethylene production and respiration, and associated skin color change and fruit softening. Control fruit (no ABA) was unresponsive to similar ethylene treatments. The data suggest that ABA facilitates initiation and progress in the sequence of ethylene-mediated ripening events, possibly by enhancing the sensitivity to ethylene. Received 29 January 1999; accepted 16 January 2000     

Effect of hydroxyl radical on the scission of cellular wall polysaccharides in vitro of banana fruit at various ripening stages

Fruit ripening is generally attributed to disassembly of cellular wall, particularly due to solubilisation and depolymerisation of pectin and hemicellulose. Experiments were conducted to test effects of hydroxyl radicals (·OH) on the scission of cellular wall polysaccharides from pulp tissues of banana fruit at different ripening stage. Cellular wall materials were isolated from pulp tissues of banana fruit at different ripening stages. Two pectic fractions, water soluble pectin (WSP) and acid soluble pectin (ASP), and two hemicellulosic fractions, 1 M KOH soluble hemicellulose (HC1) and 4 M KOH soluble hemicellulos (HC2), were obtained from the cellular wall materials from pulp tissues, respectively. Effects of ·OH induced by the Fenton reaction on the scission of pectin and hemicellulose in vitro were investigated. As fruit ripening progressed, the sugar components of the WSP, HC1 and HC2 attacked by ·OH showed obvious molecular-mass downshifts. Thus, ·OH caused the disassembly of polysaccharides (WSP, ASP, HC1 and HC2) from cellular walls of pulp tissues of banana fruit, demonstrated by the reduced molecular mass distribution. Moreover, ·OH production in pulp tissues increased significantly as banana fruit ripened, which further help account for the role of ·OH in accelerated fruit ripening.     

PRO－LONG涂膜处理对后熟香蕉果实乙烯形成以及其它有关生理变化的影响

香蕉（ＭｕｓａａｃｕｍｉｎａｔａＣｏｌｌａｃｖ．ＤｗａｒｆＣａｖｅｎｄｉｓｈ）果实采后以商业上推荐使用的１．５％Ｐｒｏ－ｌｏｎｇ溶液处理,贮藏于２０℃和７５％相对湿度下,分别测定果实的ＡＣＣ含量、ＭＡＣＣ含量、ＥＦＥ酶活性、乙烯释放、叶绿素含量的变化和果实的硬度变化．结果表明,ＰＲＯ－ＬＯＮＧ处理延缓了香蕉果实果皮的叶绿素降解、硬度的下降以及乙烯释放的增加．在后熟过程中,处理果实的ＡＣＣ含量发生积累．ＡＣＣ含量的高峰在乙烯释放高峰和ＥＦＥ酶活性高峰之前出现．与对照比较,处理果实的ＡＣＣ含量和ＥＦＥ酶活性的高峰延迟了５ｄ出现．在后熟过程中,以Ｐｒｏ－ｌｏｎｇ处理果肉四片,其ＥＦＥ酶活性受部分抑制（抑制率为１９．４５％至４０．５１％）．果实ＭＡＣＣ含量在贮藏起初处于一个较显著水平,随着后熟的发展而逐步增加,但与ＡＣＣ含量的明显增加相比变化是微小的．我们的研究进一步阐明了ＰＲＯ－ＬＯＮＧ涂膜对香蕉果实后熟的影响主要是通过减少氧的供给,部分地抑制了ＥＦＥ酶活性,延缓了乙烯的形成和释放,从而延长了后熟过程．     

香蕉MuMADS1基因表达产物的亚细胞定位

MuMADS1是从香蕉果实cDNA文库中筛选分离到的一个MADS—box基因．通过生物信息学分析表明,该基因编码的蛋白可能作为转录因子定位于细胞核中,而且芯片分析表明：该基因在果实成熟早期表达上调．是乙烯的上游调控因子,可能与花的发育、果实发育及成熟相关．为进一步深入研究该基因功能。构建了以绿色荧光蛋白（Green fluorescent protein．GFP）为报告基因的融合植物表达载体pCAMBIA1304 MuMADS1．利用基因枪转化法将重组载体转入洋葱表皮细胞瞬时表达．荧光显微镜检测结果表明。该基因表达产物定位于细胞核中．符合转录因子特性．