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     

A fruit-specific and developmentally regulated endopolygalacturonase gene from strawberry (Fragaria x ananassa cv. Chandler)

A fruit-specific and developmentally regulated polygalacturonase gene (spG gene) from strawberry (Fragaria x ananassa cv. Chandler) has been cloned and characterized at a molecular and physiological level. Comparison analysis of the corresponding deduced sPG protein have shown that this strawberry gene is similar to Clade A endopolygalacturonase genes. Moreover, the spatio-temporal and hormonal gene expression pattern suggests a close relationship between the expression of this gene and the onset of the strawberry fruit ripening process and agrees with that of the production of oligosaccharins which have already been described as active molecules involved in fruit ripening. The results are discussed in terms of a putative role of this enzyme in the release of oligosaccharins from the strawberry fruit cell wall.     

Cloning of FaPAL6 gene from strawberry fruit and characterization of its expression and enzymatic activity in two cultivars with different anthocyanin accumulation

The accumulation of anthocyanin pigments is one of the most important traits that turn strawberry fruit attractive to consumers. During ripening, strawberry fruit color development is associated to anthocyanin synthesis through the phenylpropanoid pathway. Phenylalanine ammonia-lyase (PAL) is a key enzyme in this pathway, having a determining role in strawberry fruit quality. In this work, we studied the level of anthocyanins during fruit ripening of two cultivars that differ in color development (Camarosa and Toyonoka). Toyonoka showed a lower anthocyanin accumulation that was limited to external fruit tissue, while Camarosa accumulated higher amount of anthocyanins in both internal and external sections. In addition, we cloned a full-length gene (FaPAL6) and analyzed its expression in different strawberry plant tissues. The expression of this gene is fruit specific, and increases during fruit ripening in both cultivars along with anthocyanin accumulation. The mRNA level of FaPAL6 was higher in Camarosa. PAL enzyme activity increased at similar rates in both cultivars at early ripening stages, but at the end of ripening PAL activity diminished in Toyonoka while it rose markedly in Camarosa. PAL activity was higher in internal fruit tissue, showing no correlation with anthocyanin level of the same section in both cultivars. The higher FaPAL6 expression and activity detected in Camarosa could be associated to the enhanced anthocyanin accumulation found in this cultivar.     

Fermentation and malate metabolism in response to elevated CO2 concentrations in two strawberry cultivars

Concentrations of acetaldehyde, ethanol, ethyl acetate (EA), organic acids and activities and gene expression of alcohol dehydrogenase (ADH; EC 1.1.1.1), pyruvate decarboxylase (PDC; EC 4.1.1.1), alcohol acyltransferase (AAT; EC 1.4.1.14), malate dehydrogenase (MDH; EC 1.1.1.37), malic enzyme (ME; EC 1.1.1.40) and glutamate dehydrogenase (EC 1.4.1.14) were investigated in two strawberry ( Fragaria × ananassa Duch) cultivars with different responses to CO₂ during storage. 'Jewel' fruit treated with CO₂ accumulated acetaldehyde and ethanol but little EA, while 'Cavendish' accumulated little acetaldehyde or ethanol but accumulated EA. In CO₂-treated fruit, PDC activity was positively correlated with EA accumulation in 'Jewel' but not in 'Cavendish', while no differential effect of atmosphere was observed on its gene expression. ADH activity and gene expression show a correlation with ethanol accumulation in 'Cavendish'. In 'Jewel', there was a positive correlation between ADH gene expression and enzyme activity; however, this correlation does not explain ethanol accumulation in this cultivar. EA accumulation did not show any correlation with AAT activity and gene expression in any of the cultivars. Succinate concentrations were highest and those of malate lowest in CO₂-treated fruit of both cultivars, but MDH and ME activities were not affected by CO₂. Gene expression of MDH and ME were not affected by atmosphere in 'Cavendish', although in 'Jewel' the MDH expression was slightly lower in CO₂- than air-treated fruit. The results of this study show that differences in fermentation products and malate accumulation in CO₂-treated strawberry fruit are not consistently correlated with enzyme activities and gene expression.     

Up-regulation of two cDNA clones encoding metallothionein-like proteins in apple fruit during cool storage

We are investigating the molecular basis of low temperature responses in apples, by identifying and characterising fruit genes which show altered expression in response to cool-storage, Two independent cold-regulated clones (pAMTI and pAMT2) were isolated from a cDNA library derived from cool-stored apple ( Malus domestics Borkh. cv. Granny Smith) fruit. These clones share only 27% amino acid identity with each other, but both show high similarity to plant metallothionein (MT)-like proteins. The polypeptide encoded by pAMTI shares similarity with type 2 MT-like sequences, while that encoded by pAMT2 is similar to others which share a different distribution of cysteine residues. We suggest, these form a 'type 3' group of MT-like clones. Genomic Southern analysis confirmed that there is a family of MT-like genes in apple. There are differing patterns of pAMTI and pAMT2 expression during apple fruit development, amt 1 RNA was abundant in flowers and during the early stages of development, and decreased as the fruit approached maturity, while amt 2 RNA was barely detectable in flowers and young fruit and accumulated with fruit development. In ripe fruit. amt 1. expression was up-regulated, while amt 2 expression was down-regulated. In leaves, both genes showed increased expression with leaf age. In Granny Smith, Cox's Orange Pippin and Braeburn apple cultivars. both genes were up-regulated in cool-stored fruit. In Granny Smith contical tissue, amt RNA levels were elevated within the first 45 min at both 0.5°C and 4°C, but not at 12.5°C. The different patterns of amt 1 and amt 2 expression during fruit development and in different tissues suggest that the respective genes have distinct controlling elements and may be functionally different. The in vivo roles of the encoded polypeptides, particularly in relation to chilling tolerance or acclimation, are as yet unknown.     

Characterization of fruit specific cDNAs from tomato

Summary Differential hybridization was used to screen a cDNA library made from ripe tomato fruit poly(A⁺)RNA. Clones were identified representing genes expressed predominantly at the unripe and/or ripe stage of the fruit development. Northern analysis was used for further characterization of the clones and in this report we describe four cDNA clones expressed at varying stages of fruit development. Three of these cDNAs were found to represent low-copy number genes and one was found to represent a gene family. Dot blot analysis revealed that the expression of these four genes was reduced between 2-fold and 100-fold in three ripening mutants of tomato.     

Expression of expansin genes in strawberry varieties with contrasting fruit firmness.

Fruit softening is associated with cell wall disassembly mediated by the action of a complex set of enzymes and proteins. Expansins, a group of proteins with unknown enzymatic activity, are proposed to be involved in this process. In order to study the involvement of expansins in strawberry fruit softening we have analyzed the expression level of five expansin mRNAs (FaEXP1, FaEXP2, FaEXP4, FaEXP5 and FaEXP6) in the cultivars "Selva", "Camarosa" and "Toyonaka", which differ in fruit firmness during ripening. We have found a correlation between mRNA expression levels and fruit firmness for FaEXP1, FaEXP2 and FaEXP5. For these three mRNAs we have observed higher expression levels in the softest cultivar (Toyonaka) than in the other two firmer cultivars (Selva and Camarosa) at the beginning of ripening. This correlation was not found in the case of FaEXP4 and FaEXP6, although both genes displayed a different expression pattern in the three cultivars analyzed. Western-blot analysis revealed that the accumulation of expansin proteins begins earlier in the softest cultivar during ripening.     

Variation in its C-terminal amino acids determines whether endo-beta-mannanase is active or inactive in ripening tomato fruits of different cultivars

Endo-beta-mannanase cDNAs were cloned and characterized from ripening tomato (Lycopersicon esculentum Mill. cv Trust) fruit, which produces an active enzyme, and from the tomato cv Walter, which produces an inactive enzyme. There is a two-nucleotide deletion in the gene from tomato cv Walter, which results in a frame shift and the deletion of four amino acids at the C terminus of the full-length protein. Other cultivars that produce either active or inactive enzyme show the same absence or presence of the two-nucleotide deletion. The endo-beta-mannanase enzyme protein was purified and characterized from ripe fruit to ensure that cDNA codes for the enzyme from fruit. Immunoblot analysis demonstrated that non-ripening mutants, which also fail to exhibit endo-beta-mannanase activity, do so because they fail to express the protein. In a two-way genetic cross between tomato cvs Walter and Trust, all F(1) progeny from both crosses produced fruit with active enzyme, suggesting that this form is dominant and homozygous in tomato cv Trust. Self-pollination of a plant from the heterozygous F(1) generation yielded F(2) plants that bear fruit with and without active enzyme at a ratio appropriate to Mendelian genetic segregation of alleles. Heterologous expression of the two endo-beta-mannanase genes in Escherichia coli resulted in active enzyme being produced from cultures containing the tomato cv Trust gene and inactive enzyme being produced from those containing the tomato cv Walter gene. Site-directed mutagenesis was used to establish key elements in the C terminus of the endo-beta-mannanase protein that are essential for full enzyme activity.     

Identification of a strawberry gene encoding a non-specific lipid transfer protein that responds to ABA,wounding and cold stress

cDNA and genomic clones encoding a strawberry (Fragariaxananassa cv. Chandler) non-specific lipid transfer protein (Fxaltp gene) were isolated and characterized. The spatio-temporal expression pattern and structural features of this gene were studied for the first time in strawberry, a non-climacteric fruit of agricultural importance. The architecture and the encoded amino acid sequence of this non-climacteric fruit ltp gene were similar to those of other plant LTPs previously reported, and presents the eight cysteine residues and other features characteristic of plant LTPs. In addition, the deduced protein posseses an N-terminal signal peptide and lacks the K/HDEL retention signal, indicating that the strawberry LTP protein would enter the secretory pathway. In situ studies have shown that the Fxaltp gene is expressed in the epidermal cell layer of the strawberry fruit receptacle and achenes, flowers, and within the cell layer surrounding the endosperm. These results suggest that this Fxaltp gene promoter could be used as an endogenous promoter for biotechnological purposes in strawberry. Computer analysis using the PLACE database predicted the presence of several putative cis-regulatory sequences in response to abscisic acid and cold or wounding stresses within the Fxaltp 5'-flanking region. Accordingly, the strawberry gene responds to ABA and SA, but not to salt and heat stresses. It is also reported that ltp gene expression in strawberry is stimulated by wounding and repressed by cold stresses.