Effect of simultaneous down-regulation of pectate lyase and endo-β-1,4-glucanase genes on strawberry fruit softening

Strawberry is a soft fruit with a short postharvest shelf-life. The loss of fruit firmness during ripening is mainly due to the disassembly of parenchyma cell walls mediated by the expression of genes encoding enzymes acting on pectins, such as pectate lyase, or hemicellulose, e.g. endo-β-1,4-glucanase. To determine if the simultaneous down-regulation of FaplC and FaEG3 genes, encoding a pectate lyase and a endo-β-1,4-glucanase, respectively, exerted an additive effect on strawberry softening, transgenic plants expressing tandem antisense sequences of both genes under the control of the constitutive promoter CaMV35S were generated. Fifteen independent transgenic lines were obtained and fruit yields and several quality parameters of transgenic ripe fruit were recorded during two consecutive years. Fruit yield was reduced in most of the lines, especially in the first evaluation period, and five out of 15 lines (33 %) did not set fruit. The expression of FaplC and FaEG3 genes was measured in ripe fruits from six selected lines showing the highest fruit yields. All selected lines showed a high level of FaplC gene silencing, ranging from 97 to 71 %; however, FaEG3 gene expression was only significantly down-regulated in two lines. Fruit colour and soluble solids contents were similar in control and transgenic ripe fruits, while fruit weight was slightly lower than control in some of the lines. In all lines, transgenic fruits were significantly firmer than control, with an increase in firmness ranging from 19 to 32 %. The reduction of fruit softening in transgenic fruits was not correlated with the suppression of FaEG3 gene expression, and lines with the highest simultaneous down-regulation of FaplC and FaEG3 showed similar fruit firmness to lines where only FaplC was suppressed. These results indicate that pectate lyase and endo-β-1,4-glucanase do not act in an additive or synergistic way during strawberry softening, and question the role of glucanases in this process.     

beta-xylosidase activity and expression of a beta-xylosidase gene during strawberry fruit ripening.

Strawberry fruit shows a marked softening during ripening and the process is associated with an increment of pectin solubility and a reduction of the molecular mass of hemicelluloses. In this work, we report the activity of beta-xylosidase and the expression of a beta-xylosidase gene in strawberry fruit. We have cloned a cDNA fragment encoding a putative beta-xylosidase (FaXyl1) from a cDNA library obtained from ripe strawberry fruit. The analysis of the deduced amino acid sequence revealed that FaXyl1 is closely related to other beta-xylosidases from higher plants. The expression of FaXyl1 was strongly associated to the receptacle tissue although a low expression level was detected in achenes and ovaries. The accumulation of FaXyl1 mRNA is ripening-related, starting in white fruit, reaching the maximum at 25-50% red fruit and decreasing thereafter. The total beta-xylosidase enzyme activity was detected in all ripening stages with the maximum in 25-50% red fruit. The low activity level detected in immature stages, where no expression of FaXyl1 was found, suggests the presence of other beta-xylosidases-like genes. Both the expression of FcaXyl1 and the total beta-xylosidase activity were down regulated by auxins, as occurs for most of the ripening-related processes in strawberry fruit. A putative role of FaXyl1 and beta-xylosidase is discussed.     

Manipulation of strawberry fruit softening by antisense expression of a pectate lyase gene

Strawberry (Fragaria x ananassa, Duch., cv Chandler) is a soft fruit with a short postharvest life, mainly due to a rapid lost of firm texture. To control the strawberry fruit softening, we obtained transgenic plants that incorporate an antisense sequence of a strawberry pectate lyase gene under the control of the 35S promoter. Forty-one independent transgenic lines (Apel lines) were obtained, propagated in the greenhouse for agronomical analysis, and compared with control plants, non-transformed plants, and transgenic lines transformed with the pGUSINT plasmid. Total yield was significantly reduced in 33 of the 41 Apel lines. At the stage of full ripen, no differences in color, size, shape, and weight were observed between Apel and control fruit. However, in most of the Apel lines, ripened fruits were significantly firmer than controls. Six Apel lines were selected for further analysis. In all these lines, the pectate lyase gene expression in ripened fruit was 30% lower than in control, being totally suppressed in three of them. Cell wall material isolated from ripened Apel fruit showed a lower degree of in vitro swelling and a lower amount of ionically bound pectins than control fruit. An analysis of firmness at three different stages of fruit development (green, white, and red) showed that the highest reduction of softening in Apel fruit occurred during the transition from the white to the red stage. The postharvest softening of Apel fruit was also diminished. Our results indicate that pectate lyase gene is an excellent candidate for biotechnological improvement of fruit softening in strawberry.     

Isolation of a set of ripening-related genes from strawberry: their identification and possible relationship to fruit quality traits

The ripening of strawberry (Fragaria ananassa Duch.), a non-climacteric fruit, is a complex developmental process that involves many changes in gene expression. To understand how these changes relate to the biochemistry and composition of the fruit the specific genes involved have been examined. A high-quality cDNA library prepared from ripe strawberry fruit was differentially screened for ripening-related clones using cDNA from ripe and white fruits. From 112 up-regulated clones obtained in the primary screen, 66 differentially expressed clones were isolated from the secondary screen. The partial sequences of these cDNAs were compared with database sequences and 26 families of non-redundant clones were identified. Northern analysis confirmed that all of these cDNAs were ripening-enhanced. The expression of many of their corresponding genes was negatively regulated in auxin-treated fruit. These sequences, several of which are novel to fruits, encode proteins involved in key metabolic events including anthocyanin biosynthesis, cell wall degradation, sucrose and lipid metabolism, protein synthesis and degradation, and respiration. These findings are discussed in relation to the role of these genes in determining fruit quality characteristics. Received: 19 January 1998 / Accepted: 5 February 1998     

P119驱动amiRNA介导的PL基因沉默对草莓果实硬度的影响

果胶裂解酶基因(Pectate lyase,PL)是调控果实软化的重要靶点。本研究测定了红颜草莓果实在发育过程中果胶裂解酶活性变化和硬度变化规律,并通过人工小干扰RNA(artificial micro-interfering RNA interference,amiRNA)技术,以拟南芥miR390a前体序列作为沉默PL基因的骨架,在番茄果实特异性启动子P119的驱动下,通过农杆菌介导转入草莓果实中瞬时表达,通过RT-PCR分析草莓瞬时转染后PL基因的表达量,并检测了PL沉默对果实硬度的影响。结果表明,随着草莓果实发育的推进,果胶裂解酶活性呈逐渐上升趋势,与果实硬度呈负相关;构建了基于拟南芥miR390a为骨架的amiRNA靶向栽培草莓中的PL基因;在番茄果实特异性启动子P119驱动下,miRNA前体可以在草莓果实中瞬时表达;草莓果实中总PL基因表达量下降达34. 5%;基因沉默组果实硬度比对照组更高,且沉默对果实颜色发育进程无明显影响。该结果表明:果胶裂解酶主要在果实发育后期调节细胞壁的解离,采用amiRNA沉默PL基因可以延缓草莓果实软化进程。     

Engineering increased vitamin C levels in plants by overexpression of a D-galacturonic acid reductase

L-Ascorbic acid (vitamin C) in fruits and vegetables is an essential component of human nutrition. Surprisingly, only limited information is available about the pathway(s) leading to its biosynthesis in plants. Here, we report the isolation and characterization of GalUR, a gene from strawberry that encodes an NADPH-dependent D-galacturonate reductase. We provide evidence that the biosynthesis of L-ascorbic acid in strawberry fruit occurs through D-galacturonic acid, a principal component of cell wall pectins. Expression of GalUR correlated with changing ascorbic acid content in strawberry fruit during ripening and with variations in ascorbic acid content in fruit of different species of the genus Fragaria. Reduced pectin solubilization in cell walls of transgenic strawberry fruit with decreased expression of an endogenous pectate lyase gene resulted in lower ascorbic acid content. Overexpression of GalUR in Arabidopsis thaliana enhanced vitamin C content two- to threefold, demonstrating the feasibility of engineering increased vitamin C levels in plants using this gene.     

Cloning and expression of cDNA encoding translationally controlled tumor protein from strawberry fruits

A cDNA encoding a putative translationally controlled tumor protein (TCTP) was isolated from a cDNA library made with mRNA isolated from red ripe strawberry fruits. This protein is highly conserved in all species analyzed. Expression of strawberry TCTP increased along the ripening of strawberry fruits, and is constitutively expressed in vegetative tissues. The putative function of this protein remains still unknown     

Cloning and molecular characterization of a strawberry fruit ripening-related cDNA corresponding a mRNA for a low-molecular-weight heat-shock protein

We have isolated and characterized a cDNA from a strawberry fruit subtractive library that shows homology to class-I low-molecular-weight (LMW) heat-shock protein genes from other higher plants. The strawberry cDNA (clone njjs4) was a 779 bp full-length cDNA with a single open reading frame of 468 bp that is expected to encode a protein of ca. 17.4 kDa with a pI of 6.57. Southern analysis with genomic DNA showed several high-molecular-weight hybridization bands, indicating that the corresponding njjs4 gene is not present as a single copy in the genome. This strawberry gene was not expressed in roots, leaves, flowers and stolons but in fruits at specific stages of elongation and ripening. However, a differential pattern of mRNA expression was detected in the fruit tissues achenes and receptacle. The njjs4 gene expression increased in achenes accompanying the process of seed maturation whereas in the receptacle, a high mRNA expression was detected in the W2 stage, during which most of the metabolic changes leading to the fruit ripening are occurring. Our results clearly show a specific relationship of this njjs4 strawberry gene with the processes of seed maturation and fruit ripening, and strongly support that at least some of the class-I LMW heat-shock protein-like genes have a heat-stress-independent role in plant development, including fruit ripening.     

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.     

Silencing of SlPL,which encodes a pectate lyase in tomato,confers enhanced fruit firmness,prolonged shelf‐life and reduced susceptibility to grey mould

Pectate lyase genes have been documented as excellent candidates for improvement of fruit firmness. However, implementation of pectate lyase in regulating fruit postharvest deterioration has not been fully explored. In this report, 22 individual pectate lyase genes in tomato were identified, and one pectate lyase gene SlPL (Solyc03g111690) showed dominant expression during fruit maturation. RNA interference of SlPL resulted in enhanced fruit firmness and changes in pericarp cells. More importantly, the SlPL‐RNAi fruit demonstrated greater antirotting and pathogen‐resisting ability. Compared to wild‐type, SlPL‐RNAi fruit had higher levels of cellulose and hemicellulose, whereas the level of water‐soluble pectin was lower. Consistent with this, the activities of peroxidase, superoxide dismutase and catalase were higher in SlPL‐RNAi fruit, and the malondialdehyde concentration was lower. RNA‐Seq results showed large amounts of differentially expressed genes involved in hormone signalling, cell wall modification, oxidative stress and pathogen resistance. Collectively, these data demonstrate that pectate lyase plays an important role in both fruit softening and pathogen resistance. This may advance knowledge of postharvest fruit preservation in tomato and other fleshy fruit.     

Cloning,expression and immunolocalization pattern of a cinnamyl alcohol dehydrogenase gene from strawberry (Fragaria x ananassa cv. Chandler)

Cinnamyl alcohol dehydrogenase (CAD; EC 1.1.1.195) catalyses the conversion of p-hydroxy-cinnamaldehydes to the corresponding alcohols and is considered a key enzyme in lignin biosynthesis. By a differential screening of a strawberry (Fragariax ananassa cv. Chandler) fruit specific subtractive cDNA library, a full-length clone corresponding to a cad gene was isolated (Fxacad1). Northern blot and quantitative real time PCR studies indicated that the strawberry Fxacad1 gene is expressed in fruits, runners, leaves, and flowers but not in roots. In addition, the gene presented a differential expression in fruits along the ripening process. Moreover, by screening of a strawberry genomic library a cad gene was isolated (Fxacad2). Similar to that found in other cad genes from higher plants, this strawberry cad gene is structured in five exons and four introns. Southern blot analyses suggest that, probably, a small cad gene family exists in strawberry. RT-PCR studies indicated that only the Fxacad1 gene was expressed in all the fruit ripening stages and vegetative tissues analysed. The Fxacad1 cDNA was expressed in E. coli cells and the corresponding protein was used to raise antibodies against the strawberry CAD polypeptide. The antibodies obtained were used for immunolocalization studies. The results showed that the CAD polypeptide was localized in lignifying cells of all the tissues examined (achenes, fruit receptacles, runners, leaves, pedicels, and flowers). Additionally, the cDNA was also expressed in yeast (Pichia pastoris) as an extracellular protein. The recombinant protein showed activity with the characteristic substrates of CAD enzymes from angiosperms, indicating that the gene cloned corresponds to a CAD protein.