ABSTRACT
Grape and cherry mini tomatoes have been conquering Brazilian consumers due to their sweet taste, practicality of consumption, and versatility in culinary use. Therefore, the present work aimed to characterize ten grape tomato hybrids based on genetic diversity and physical and biochemical traits to provide information for the development of new genotypes focused on the appearance and enrichment of nutritional factors. The evaluated hybrids were Aiko, BRSIG, BRS Zamir, Carolina, Dolcetto, Dulce, Guaraci, Santa West, SCI-023 and Sweet Heaven. The experiment was conducted in 2019 in a greenhouse at the State University of Londrina, using a completely randomized design with four replications and six plants in each replication. The plants were grown following the practices recommended for cultivating tomatoes. The physical and biochemical characterization data were subjected to analysis of variance by the F test (p<0.05) and Scott & Knott means cluster test (p<0.05), and the molecular characterization data were subjected to analysis of principal coordinates (PCoA) and Bayesian clustering. Aiko presented the highest fruit mass and size as opposed to that observed on SCI-023, while BRSIG was the firmest fruit with the largest pericarp thickness. SCI-023, Dolcetto, and Sweet Heaven had higher sugar content. The soluble solids content ranged from 6.04 to 9.66 °Brix among the genotypes. Hybrids SCI-023, BRSIG, Sweet Heaven, BRS Zamir, and Dulce had the highest antioxidant activity levels. In the phenotypic characterization two groups were formed. The genotypic characterization showed seven groups in which high genetic similarity was verified among BRS Zamir, SCI-023, and Guaraci, as well as between Carolina and Dulce. The greatest dissimilarity was observed between Sweet Heaven and BRSIG. Both characterizations were useful to evaluate the aptitude of these genotypes as outstanding genitors for breeding programs for the Brazilian market.
Keywords:
Solanum lycopersicum; horticulture; post-harvest; genetic diversity; functional food; mini vegetable
RESUMO
Os minitomates tipo grape e cereja vêm conquistando o consumidor brasileiro pelo sabor adocicado, praticidade de consumo e versatilidade no uso culinário. Nesse contexto, o presente trabalho teve como objetivo caracterizar dez híbridos de tomate grape com base na diversidade genética e em descritores físicos e bioquímicos, afim de fornecer subsídios para o desenvolvimento de novas cultivares com foco no surgimento e enriquecimento de fatores nutricionais. Os híbridos avaliados foram Aiko, BRSIG, BRS Zamir, Carolina, Dolcetto, Dulce, Guaraci, Santa West, SCI-023 e Sweet Heaven. O experimento foi conduzido em 2019 na área experimental da Universidade Estadual de Londrina, utilizando o delineamento experimental em blocos completos ao acaso, com quatro repetições e seis plantas por repetição. As plantas foram cultivadas seguindo as práticas recomendadas para o cultivo do tomate. Os dados da caracterização física e bioquímica foram submetidos à análise de variância pelo teste F (p<0,05) e teste de agrupamento de médias de Scott & Knott (p<0,05); os dados da caracterização molecular foram submetidos à análise de coordenadas principais (PCoA) e agrupamento Bayesiano. O genótipo Aiko apresentou a maior massa e tamanho de fruto em relação ao observado para SCI-023, enquanto BRSIG apresentou o fruto mais firme e a maior espessura de pericarpo. SCI-023, Dolcetto e Sweet Heaven apresentaram maiores teores de açúcares totais. O teor de sólidos solúveis totais variou de 6,04 a 9,66 °Brix entre os genótipos. Os híbridos SCI-023, BRSIG, Sweet Heaven, BRS Zamir e Dulce apresentaram os maiores níveis de atividade antioxidante. Foram formados dois grupos na caracterização fenotípica. A caracterização genotípica mostrou sete grupos nos quais foi verificada alta similaridade genética entre BRS Zamir, SCI-023 e Guaraci, assim como Carolina e Dulce, enquanto a maior dissimilaridade foi observada entre Sweet Heaven e BRSIG. Ambas as caracterizações foram úteis para avaliar a aptidão desses genótipos como notáveis genitores para programas de melhoramento visando o desenvolvimento de novas cultivares para o mercado brasileiro.
Palavras-chave:
Solanum lycopersicum; horticultura; pós-colheita; diversidade genética; alimento funcional; mini hortaliça
Tomato (Solanum lycopersicum) is one of the world’s most consumed vegetables, producing more than 180 million tons in 2018 (FAO, 2020FAOSTAT. 2020. Available at:Available at:http://www.fao.org/faostat/en/?#data/QC . AccessedOctober 25, 2020.
http://www.fao.org/faostat/en/?#data/QC...
). The fruit is an important functional food due to its high nutritional value and source of fibers, sugars, vitamin C and E (Choi et al., 2014CHOI, SH; KIM, DS; KOZUKUE, N; KIM, HJ; NISHITANI, Y; MIZUNO, M; LEVIN, CE; FRIEDMAN, M. 2014. Protein, free amino acid, phenolic, β-carotene, and lycopene content, and antioxidative and cancer cell inhibitory effects of 12 greenhouse-grown commercial cherry tomato varieties. Journal of Food Composition and Analysis34: 115-127.). Furthermore, it is rich in bioactive compounds such as phenolic compounds and lycopene. These substances help to promote health by antioxidant capability due to free radical scavenging, preventing cellular oxidative processes (Salehi et al., 2019SALEHI, B; RAD, RS; SHAROPOV, F; NAMIESNIK, J; ROOINTAN, A; KAMLE, M; KUMAR, P; MARTINS, N; RAD, JS. 2019. Beneficial effects and potential risks of tomato consumption for human health: An overview. Nutrition62: 201-208.).
According to FAO (2020FAOSTAT. 2020. Available at:Available at:http://www.fao.org/faostat/en/?#data/QC . AccessedOctober 25, 2020.
http://www.fao.org/faostat/en/?#data/QC...
), the daily consumption of vegetables in Brazil is 141 g/person, very low when compared to the value recommended by the WHO (World Health Organization), of 400 g/person/day, and lower than the consumption of some poorer countries in Asia and Latin America. Thus, the need to increase the consumption of vegetables such as tomatoes is clear, contributing to improving quality of Brazilians’ live.
Miniature vegetables like mini tomatoes, have been attracting the attention of Brazilian consumers due to a sweet flavor, great practicality of consumption, and versatility in culinary use, given the diversity in color and format (Rocha, 2013ROCHA, MC; DELIZA, R; CORRÊA, FM; CARMO, MGF; ABBOUD, ACS. 2013. A study to guide breeding of new cultivars of organic cherry tomato following a consumer-driven approach. Food Research International 51: 265-273.). In the United States, a survey conducted among consumers by The Packer magazine (2020THE PACKER. 2020. Fresh Trends. Available at: Available at: http://digitaledition.qwinc.com/publication/?m=40749&i=655554&p=80 . AccessedOctober 25, 2020.
http://digitaledition.qwinc.com/publicat...
), indicated that grape tomatoes represent 7% of the consumer’s preference and the most frequent forms of consumption are as salad, ingredients in recipes, and as accompaniments.
In addition, this segment has increased profitability for the grower due to the high yield of the crop, coupled to excellent security of marketing because it meets a specific market niche that pays for the added value that can be seven times higher than the value of traditional standard tomato size (Negrisoli et al., 2015NEGRISOLI, RM; CECHINATTO, FH; BISSOLI, MJ; ROSESTOLATO, LLR; SABBAG, OJ. 2015. Viabilidade econômica no cultivo de minitomate. Enciclopédia Biosfera 11: 1932-1942.).
Despite the growing demand for mini grape tomatoes in Brazil and worldwide, and to supply the segment’s expansion, it is essential to expand the options of cultivars that meet the interests of producers and consumers. Thus, genotype characterization is fundamental for identifying genes of interest in breeding programs (Preczenhak et al., 2014PRECZENHAK, AP; RESENDE, JTV; CHAGAS, RR; SILVA, PR; SCHWARZ, K; MORALES, RGF. 2014. Caracterização agronômica de genótipos de minitomate. Horticultura Brasileira32: 348-356.). Therefore, this study aimed to characterize grape tomato hybrids based on physical, biochemical, and molecular descriptors to provide information to develop new cultivars focused on appearance and nutritional factors for the Brazilian market.
MATERIAL AND METHODS
Plant material
Ten grape tomato hybrids were evaluated in this study, acquired from the companies Feltrin (cv. Carolina), Agrocinco (cv. Dulce and BRS Zamir), Blue seeds (cv. Guaraci and BRSIG), Sakata (cv. Sweet Heaven, Aiko, and SCI-023), Seminis (cv. Santa West) and Isla (cv. Dolcetto). The experiment was conducted from April to September 2019 in a greenhouse at the Universidade Estadual de Londrina (UEL), Londrina, Paraná, Brazil (23°17’34”S; 51°10’24”W; 550 m altitude). The completely randomized design was used, evaluating 10 tomato hybrids, in four replications with six plants each. The plants were conducted with one haulm.
The plants were grown following the practices recommended for tomato cultivation, with weekly pruning. Water supply and fertigation with nutrient solution, proposed by Hoagland & Arnon (1950HOAGLAND, D; ARNON, D. 1950. The water culture method for growing plants without soil. Berkeley: California Agriculture Experiment Station.), were made according to the needs at each development stage. The fruits were randomly harvested in the commercial maturity stage from the bunches in the middle third of plants to obtain a representative size.
Physical characterization
Ten fruits per replication from each genotype were measured in mass, length, diameter pericarp thickness, and fruit volume by water displacement after immersion in a graduated cylinder. From the longitudinal section of the fruit, the locular tissue (gel) was removed, and the volume was measured in a graduated cylinder. The color was characterized by luminosity (L*), chroma (C*), and hue angle (h*) using a colorimeter (Minolta Co. Japan, model CR-13) with illuminant standard D65.
Fruit size classification was based on the mass and diameter according to Fernandes et al. (2007FERNANDES, C; CORÁ, JE; BRAZ, LT. 2007. Classificação de tomate-cereja em função do tamanho e peso dos frutos. Horticultura Brasileira 25: 275-278.), such as giant (diameters 35-40 mm and mass >20 g), large (diameter 30-35 mm and mass 15-20 g), medium (diameter 25-30 mm and mass 10-15 g) and small (diameter <25 mm and mass 5-10 g).
The firmness of the fruit was expressed in Newtons (N) by applying the assays of resistance to puncture and resistance to compression using a texturometer (Model TA.XT Plus, Stable Micro System, United Kingdom). For the puncture test, a needle (P/2N) was inserted in the equatorial region of the fruit without removing the exocarp, piercing up to 5 mm. For the compression test, a flat aluminum probe with 35 mm diameter (P/35) was applied in the equatorial region of the fruit until it deformed 5 mm of the surface (Arazuri et al., 2007ARAZURI, S; JARÉN, C; ARANA, JI; CIRIZA, JJP. 2007. Influence of mechanical harvest on the physical properties of processing tomato (Lycopersicon esculentum Mill.). Journal of Food Engineering 80: 190-198.). In both tests, the conditions were: pre-test speed 5 mm/sec, speed test 0.5 mm/sec, post-test 10 mm/sec, distance 5 mm, and trigger force 0.5 N.
Biochemical characterization
Extraction of total phenolic content, total flavonoid content, and antioxidant activity was performed according to Vázquez et al. (2008VÁZQUEZ, G; FONTENLA, E; SANTOS, J; FREIRE, MS; ÁLVAREZ, JG; ANTORRENA, G. 2008. Antioxidant activity and phenolic content of chestnut (Castanea sativa) shell and eucalyptus (Eucalyptus globulus) bark extracts. Industrial Crops and Products 28: 279-285.). The quantification of total phenolic content was based on Swain & Hillis (1959SWAIN, T; HILLIS, WE. 1959. The phenolic constituents of Prunus domestica. I. The quantitative analysis of phenolic constituents. Journal of the Science of Food and Agriculture 10: 63-68.), where gallic acid was used as an analytical standard ranging from 10 to 100 mg/L (r= 0,9960) and expressed as mg gallic acid equivalents (GAE) per 100 g. The quantification of total flavonoid was based on Gurnani et al. (2016GURNANI, N; GUPTA, M; MEHTA, D; MEHTA, BK. 2016. Chemical composition, total phenolic and flavonoid contents, and in vitro antimicrobial and antioxidant activities of crude extracts from red chilli seeds (Capsicum frutescens L.). Journal of Taibah University for Science10: 462-470.) where Quercetin was used as an analytical standard ranging from 50 to 500 mg/L (r= 0,9942) and reported as mg Quercetin equivalents (QE) per 100 g.
The antioxidant activity by scavenging the 2,2-diphenyl-1-picryl-hydroxyl (DPPH·) radical was performed according to Williams et al. (1995WILLIAMS, WB; CUVELIER, ME; BERSET, C. 1995. Use of a free radical method to evaluate antioxidant activity. LWT - Food Science and Technology 28: 25-30.). Trolox (6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid) was used as standard ranging from 0.20 to 1.00 mmol/L (r= 0,9992) and the result was expressed as % free radical scavenging.
The soluble solids content (SS) of fruits was measured by a portable digital refractometer (Atago®, with a corrected value for 25°C), expressed as ˚Brix. Titratable acidity (TA) was quantified by titration with 0.01 N sodium hydroxide (NaOH), according to the AOAC method 942.15 (2000AOAC. 2000. Official methods of the Association of the Agricultural Chemists. Washington, DC., USA .), expressed as % citric acid. Vitamin C was quantified according to the standard AOAC method (AOAC, 1984AOAC. 1984. Official methods of analysis of Association of Official Analytical Chemists. Washington, DC., USA.) modified by Benassi & Antunes (1988BENASSI, MDT; ANTUNES, AJ. 1988. A comparison of metaphosphoric and oxalic acids as extractants solutions for the determination of determining vitamin C in selected vegetables. Arquivos de Biologia e Tecnologia 31: 507-513.) and expressed as mg ascorbic acid/100 g. The extraction and quantification of lycopene were adapted from Adalid et al. (2010ADALID, AM; ROSELLÓ, S; NUEZ, F. 2010. Evaluation and selection of tomato accessions (Solanum section Lycopersicon) for lycopene, β-carotene, and ascorbic acid content. Journal of Food Composition and Analysis23: 613-618.). The extracts were read in the spectrophotometer at 470 nm, and the results were expressed as mg/kg.
The sugar was quantified using the methodology adapted from Constantino et al. (2020CONSTANTINO, LV; FUKUJI, AYS; ZEFFA, DM; BABA, VY; CORTE, LE; GIACOMIN, RM; RESENDE, JTV; GONÇALVES, LSA. 2020. Genetic variability in peppers accessions based on morphological, biochemical and molecular traits. Bragantia79: 443-446.). Sugars were separated in a DIONEX AS-AP (Thermo Scientific) chromatography system using a DIONEX CaboPac PA10 4?250 mm column and an ICS-5000 electrochemical detector, the results being expressed in g/100 g. The ratio was calculated by total sugar content / titratable acidity.
Molecular characterization
Genomic DNA was isolated from young leaves of five plants per genotype using an automatic DNA extractor (RetchMM400), following the protocol of Doyle & Doyle (1987DOYLE, JJ; DOYLE, JL. 1987. Method of isolation of plant DNA from fresh tissue. Phytochemical Bulletin 19: 11-15.) with the replacement of cetyltrimethylammonium bromide (CTAB, Sigma-Aldrich, Missouri-USA) by alkyl trimethylammonium bromide (MATAB, Sigma-Aldrich, Missouri-USA) in the extraction buffer. The quality and integrity of the DNA were verified by electrophoresis, and the samples were quantified by spectrophotometer using Nanodrop 2000 / 2000c (Thermo Fisher Scientific, Waltham, MA, USA).
The AFLP (Amplified Fragment Length Polymorphism) technique was performed as described by Vos et al. (1995VOS, P; HOGERS, R; BLEEKER, M; REIJANS, M; LEE, T; HORNES, M; FRIJTERS, A; POT, J; PELEMAN, J; KUIPER, M. 1995. AFLP: A new technique for DNA fingerprinting. Nucleic Acids Research23: 4407-4414.) with modifications. The digestion-binding pattern was visualized on a 1% agarose gel. Once the digestion was confirmed, the amplified product was diluted with ultrapure water four times (v/v). Pre-selective amplification was performed using 3.5 µL of Gotaq® Green Master Mix (Promega, Winchester-USA), 0.58 µL EcoRI + A and MseI + C (4.75 µM) pre-selective primers, 3.0 μL digestion-binding product and 2.92 μL ultrapure water. The result was confirmed on a 1% agarose gel, and the amplified product was diluted eight times (v/v) in ultra-pure water. For the selective amplification, four combinations of primers were chosen to develop a fluorescent multiplex assay, namely: i) EcoRI (FAM) / - ATC / MseI-CTCG, ii) EcoRI (NED) - AGC / MseI-CAA, iii) EcoRI (VIC) - ACT / MseI-GAG, and iv) EcoRI (PET) - AGC / MseI-CAC.
Selective amplification was performed in 10 μL reaction containing: 3.5 μL PCR Master Mix (Gotaq Green Master Mix, Promega, Winchester-USA); 0.54 μL of each MseI (5 μm) and EcoRI (1 μm) primer; 2.5 μL diluted pre-amplification reaction mixture and 2.92 μL ultra-pure water. The fragments were visualized by capillary electrophoresis using the automated genetic analyzer 3500XL (Applied Biosystems, California-USA). Only fragments with a fluorescence intensity >100 RFU (Relative Fluorescence Unit) were analyzed. The results were combined in a binary matrix with the GeneMapper® v software. 4.1 (Applied Biosystems).
Data analysis
The phenotypic characterization data (physical and biochemical) were subjected to analysis of variance by the F test (p<0.05) and Scott & Knott (1974SCOTT, AJ; KNOTT, M. 1974. A cluster analysis method for grouping means in the analysis of variance. Biometrics30: 507-512.) means cluster test (p<0.05). In addition to hierarchical clustering using the Euclidean distance and UPGMA (Unweighted Pair Group Method with Arithmetic Mean) method, with visualization of normalized means on the heatmap.
The data of the genotypic (molecular) characterization were submitted to analysis of principal coordinates (PCoA), hierarchical clustering UPGMA using the Jaccard distance, and Bayesian clustering using the Structure software version 2.3.4 with 100,000 MCMC interactions (Markov Chain Monte Carlo) with 10,000 interactions burn-in, admixture model and correlated allele frequencies. The subgroup values (∆K) were tested, varying between one and ten, with ten independent interactions for each K value. The ideal K number was determined using the Structure Harvester software version 0.6.92. The other analyzes were performed using the R program using the easyanova, ade4, and pheatmap packages.
RESULTS AND DISCUSSION
Physical characterization
The analysis of variance showed a significant effect of the genotypes (p<0.05) for all fruit phenotypic traits. The Aiko genotype presented the highest values of fruit mass, length, diameter, and volume and was classified as giant (Table 1). On the other hand, the genotype SCI-023 was classified as small fruit because it had the lowest levels, and the different genotypes were classified as intermediate (medium to large). Preczenhak et al. (2014PRECZENHAK, AP; RESENDE, JTV; CHAGAS, RR; SILVA, PR; SCHWARZ, K; MORALES, RGF. 2014. Caracterização agronômica de genótipos de minitomate. Horticultura Brasileira32: 348-356.), evaluating 64 mini tomato accessions, also found a higher number of intermediate-size genotypes. This is an essential feature because mini tomato are usually commercialized in packaging, and the consumer prefers intermediate and standardized fruits about color, shape, and size (Finzi et al., 2017FINZI, RR; MACIEL, GM; SILVA, EC; LUZ, JMQ; BORBA, MEA. 2017. Agronomic performance of mini-tomato hybrids from dwarf lines. Ciência e Agrotecnologia 41: 15-21.).
Applying the fruit firmness assay, genotypes BRSIG and Santa West were more resistant to puncture (penetration), with 1.35 to 1.19 N, respectively. At the same time, BRSIG and Sweet Heaven were more resistant to compression (surface deformation), with 28.66 and 28.54 N, respectively (Table 1). This important data allows us to relate the puncture with the bite by the canine teeth, in which there is disruption of the exocarp, followed by penetration into the mesocarp. In turn, the compression test is related to the action of molar teeth that press the fruit on the bite and to the act of tightening the fruit by consumers (Lucas et al. 2004LUCAS, PW; PRINZ, JF; AGRAWAL, KR; BRUCE, IC. 2004. Food texture and its effect on ingestion, mastication and swallowing. Journal of Texture Studies 35: 159-170.). Constantino et al. (2021CONSTANTINO, LV; ROSSETTO, LM; BENASSI, MT; OLIVEIRA, C; ZEFFA, DM; KOLTUN, A; RESENDE, JTV; GONÇALVES, LSA. 2021. Characterization physico-biochemical of mini-tomatoes based and internal preference mapping based on consumer acceptance. Scientia Horticulturae.), evaluating BRS Iracema, BRS Zamir, Irai, Sweet Heaven, and UEL 238 mini tomato genotypes, showed that the puncture resistance ranged from 0.64 to 1.39 N, from 7.21 to 26.03 N, where the Iraí and Sweet Heaven genotypes were the firmest fruits.
Genotypes Dolcetto and BRS Zamir obtained the lowest firmness values for compression and puncture, respectively (Table 1). Brashlyanova et al. (2014BRASHLYANOVA, B; ZSIVÁNOVITS, G; GANEVA, D. 2014. Texture quality of tomatoes is affected by different storage temperatures and growth habit. Emirates Journal of Food and Agriculture 26: 750-756.) analyzed the firmness of eight tomato cultivars at different storage temperatures, two of which being mini tomato, and obtained results similar to the ones of the present study. The authors found that mini tomatoes showed less variation in firmness throughout refrigerated storage compared to conventionally sized fruits.
It is also essential to highlight that cultivars Guaraci and Aiko have a firmer exocarp but a less resistant mesocarp, which may be undesirable by the consumer since more resistant peel may persist in the mouth even after chewing.
In addition to showing resistance to puncture and compression, the genotype BRSIG has greater pericarp thickness of fruits, promoting greater firmness, less water loss, greater physical barrier to pathogen entry, and greater resistance to postharvest damage, such as transportation and consumer handling (Moreira et al., 2018MOREIRA, AFP; RUAS, PM; RUAS, CF; BABA, VY; GIORDANI, W; ARRUDA, IM; RODRIGUES, R; GONÇALVES, LSA. 2018. Genetic diversity, population structure and genetic parameters of fruit traits in Capsicum chinense. Scientia Horticulturae 236: 1-9.).
Regarding luminosity, Santa West and Carolina were considered the lightest, while genotypes Dulce and Dolcetto were the least red according to the hue angle. Dulce, BRS Zamir, and Dolcetto have the most opaque fruits, while the others presented more intense red fruits (Table 2). Preczenhak et al. (2014PRECZENHAK, AP; RESENDE, JTV; CHAGAS, RR; SILVA, PR; SCHWARZ, K; MORALES, RGF. 2014. Caracterização agronômica de genótipos de minitomate. Horticultura Brasileira32: 348-356.) observed values for brightness (33.49 to 45.20) and hue (24.64 to 85.76), similar to those of the present study, although for chroma (1.47 to 4.99), the results were lower. Although a significant difference was found for the components of exocarp color, genotypes presented similar red color, even without naked eye difference. Consumers prefer red fruits (Oltman et al., 2014OLTMAN, AE; JERVIS, SM; DRAKE, MA. 2014. Consumer attitudes and preferences for fresh market tomatoes. Journal of Food Science 79: S2091-S2097.), and the study by Adegbola et al. (2019ADEGBOLA, YP; ADJOVI, NRA; ADEKAMBI, SA; ZOSSOU, R; SONEHEKPON, ES; KOMLAN, FA; DJOSSA, E. 2019. Consumer preferences for fresh tomatoes in Benin using a conjoint analysis. Journal of International Food & Agribusiness Marketing 31: 1-21.) confirms the importance of color in the purchase decision, along with shelf life, flavor, and price.
Biochemical characterization
The BRS Zamir and Santa West fruits had the highest total phenolic contents, while the highest total flavonoid contents were observed for Dulce, BRSIG, Sweet Heaven, and SCI-023 (Table 3). Paula et al. (2015PAULA, JT; RESENDE, JTV; FARIA, MV; FIGUEIREDO, AST; SCHWARZ, K; NEUMANN, ER. 2015. Características físico-químicas e compostos bioativos em frutos de tomateiro colhidos em diferentes estádios de maturação. Horticultura Brasileira 33: 434-440.) verified the content of total phenolic compounds in salad-type hybrid tomatoes at different ripening stages, which ranged from 33.63 to 35.01 mg/100 g, similar to that found for Zamir and Santa West. In the same study, it is confirmed that fruits harvested at more advanced stages of maturation contain higher content of phenolic compounds because, fruits on the mother plant are longer exposed to radiation and temperatures, which are factors related to the production of phenolics.
For antioxidant activity, the highest values were observed in Dulce (91.19 mg/100 g), BRSIG (91.56 mg/100 g), Sweet Heaven (90.92 mg/100 g), and SCI-023 (90.50 mg/100 g). On the other hand, Maruyama et al. (2015MARUYAMA, AS; CLAUS, T; MONTANHER, PF; BONAFÉ, EG; SANTOS JUNIOR, OO; SOUZA, NE; VISENTAINER, JV; GOMES, STM; MATSUSHITA, M. 2015. Evaluation of lipophilic antioxidant capacity and lycopene content in Brazilian tomatoes. Revista Virtual de Química 7: 1163-1173.) found that BRS Zamir showed higher antioxidant capacity contents compared to the different evaluated genotypes.
Soluble solids content ranged from 6.04 to 9.66°Brix, with the highest values observed for Sweet Heaven, BRS Zamir, Dulce, SCI-023, Santa West, and Dolcetto (Table 3). Oliveira et. al (2014OLIVEIRA, G; PINHO, D; FIGUEIREDO, LM. 2014. Análise sensorial e físico-química de frutos tomate cereja orgânicos. Revista Caatinga 27: 181-186.), studying the soluble solids content of fruits of cultivar Carolina, produced under organic management, ranged from 3.77 to 6.35°Brix. Soluble solids are mainly composed of sugars but also contain mineral compounds, organic acids, soluble pectins, and amino acids. In this context, high soluble solids levels do not necessarily indicate high sugar levels. Thus, a better option for breeding programs is to use more precise techniques for quantifying sugars, for sweeter fruits. It is emphasized that the flavor and aroma are among the attributes that determine the purchase of tomatoes which are closely related to the concentration of molecules such as sugar and organic acids (Adegbola et al., 2019ADEGBOLA, YP; ADJOVI, NRA; ADEKAMBI, SA; ZOSSOU, R; SONEHEKPON, ES; KOMLAN, FA; DJOSSA, E. 2019. Consumer preferences for fresh tomatoes in Benin using a conjoint analysis. Journal of International Food & Agribusiness Marketing 31: 1-21.; Casals et al., 2019CASALS, J; RIVERA, A; SABATÉ, J; CASTILLO, RR; SIMÓ, J. 2019. Cherry and fresh market tomatoes: differences in chemical, morphological, and sensory traits and their implications for consumer acceptance. Agronomy9: 9.).
The highest levels of sugar were observed for SCI-023 (3.14%) and Sweet Heaven (2.83%), which consequently presented the highest levels for glucose and fructose, while Aiko showed the lowest levels for both sugars. It is noteworthy the fact that SCI-023 is also included in the group of genotypes with higher contents of total soluble solids along with low acidity, presenting a high ratio (Table 3), providing greater sweetness to the fruit, which is one of the most prominent characteristics in grape tomatoes.
Casals et al. (2019CASALS, J; RIVERA, A; SABATÉ, J; CASTILLO, RR; SIMÓ, J. 2019. Cherry and fresh market tomatoes: differences in chemical, morphological, and sensory traits and their implications for consumer acceptance. Agronomy9: 9.) evaluated the chemical and sensory characteristics of cherry tomato fruits with consumers’ preference. They concluded that consumers are positively influenced by sweetness and flavor, and these attributes are correlated with fructose, but not glucose. According to the authors, for plant breeding, the selection of genotypes with higher fructose values or a higher proportion of fructose/glucose is suggested, aiming at greater acceptance by consumers. Our data shows that in the fruits, we found the highest fructose values; we also observed the highest glucose values, in which SCI-023 stands out as the fruit with the highest content of both sugars.
Two groups were formed based on the acidity; Group I (Caroline, Dulce, Sweet Heaven, and Guaraci) with values ranging from 0.29 to 0.35%, and group II (Dolcetto, Santa West, SCI-023, BRSIG, Aiko and BRS Zamir) with values ranging from 0.20 to 0.27%. Constantino et al. (2021CONSTANTINO, LV; ROSSETTO, LM; BENASSI, MT; OLIVEIRA, C; ZEFFA, DM; KOLTUN, A; RESENDE, JTV; GONÇALVES, LSA. 2021. Characterization physico-biochemical of mini-tomatoes based and internal preference mapping based on consumer acceptance. Scientia Horticulturae.) found values ranging from 0.21 to 0.39% for titratable acidity. The total acidity in tomato points out the amount of organic acids present and its astringency, influencing the taste of the fruit (Nascimento et al., 2013NASCIMENTO, AR; SOARES JÚNIOR, MS; CALIARI, M; FERNANDES, PM; RODRIGUES, JPM; CARVALHO, WT. 2013. Qualidade de tomates de mesa cultivados em sistema orgânico e convencional no estado de Goiás. Horticultura Brasileira 31: 628-635.). The preference for sweeter or more acid cultivars depends on the consumer’s eating habits and the cultural patterns of the region (Nascimento et al., 2013).
The highest vitamin C contents were observed for SCI-023 and BRS Zamir, with an average of 34.11 mg/100 g. Adalid et al. (2010ADALID, AM; ROSELLÓ, S; NUEZ, F. 2010. Evaluation and selection of tomato accessions (Solanum section Lycopersicon) for lycopene, β-carotene, and ascorbic acid content. Journal of Food Composition and Analysis23: 613-618.) found vitamin C contents in tomatoes from the mini tomato group and traditional groups, ranging from 35 to 311 mg/L and 44 to 195 mg/L, respectively. The use of this attribute for selection is a great strategy because tomato is an important source of phenolic compounds and vitamin C, associated with antioxidant activity. So, it is excellent to choose genotypes with high levels to use as parents in crosses (Salehi et al., 2019SALEHI, B; RAD, RS; SHAROPOV, F; NAMIESNIK, J; ROOINTAN, A; KAMLE, M; KUMAR, P; MARTINS, N; RAD, JS. 2019. Beneficial effects and potential risks of tomato consumption for human health: An overview. Nutrition62: 201-208.).
For lycopene, BRS Zamir obtained the highest value (107.83 mg/kg), followed by Dolcetto, Dulce, Carolina BRSIG, and SCI-023 with 86.52, 79.13, 76.09, 74.64, and 73.77 mg/kg, respectively. BRS Zamir is a cultivar released by Embrapa Vegetables in 2013, focusing high lycopene content, presenting itself as a promising genetic material to be used in breeding programs focused on lycopene enrichment since it was superior to the other evaluated genotypes. However, the content of this attribute was lower than that found by Maruyama et al. (2015MARUYAMA, AS; CLAUS, T; MONTANHER, PF; BONAFÉ, EG; SANTOS JUNIOR, OO; SOUZA, NE; VISENTAINER, JV; GOMES, STM; MATSUSHITA, M. 2015. Evaluation of lipophilic antioxidant capacity and lycopene content in Brazilian tomatoes. Revista Virtual de Química 7: 1163-1173.), which is 144 mg/kg. The same study states that the lycopene content is higher in fruits ripened outside the plant as a function of the exposure time of the tomato to temperature, which, even though it is an important factor for the development of the tomato plant, when found above 30°C, inhibits the synthesis of lycopene. Adalid et al. (2010ADALID, AM; ROSELLÓ, S; NUEZ, F. 2010. Evaluation and selection of tomato accessions (Solanum section Lycopersicon) for lycopene, β-carotene, and ascorbic acid content. Journal of Food Composition and Analysis23: 613-618.) evaluated the lycopene content of different accessions of mini tomatoes ranging the averages from 0.2 to 169 mg/kg fruit; the accessions of the present study showed lycopene contents within this range. Lycopene is one of the most important antioxidants in tomato culture, and several studies have demonstrated this potential for the prevention of several chronic diseases (Rodrigues et al., 2018RODRIGUES, JC; PINHO, O; MONTEIRO, PRR. 2018. Can lycopene be considered an effective protection against cardiovascular disease? Food Chemistry 245: 1148-1153.; Przybylska, 2020PRZYBYLSKA, S. 2020. Lycopene - a bioactive carotenoid offering multiple health benefits: A review. International Journal of Food Science & Technology 55: 11-32.; Li et al., 2021LI, N; WU, X; ZHUANG, W; XIA, L; CHEN, Y; WU, C; RAO, Z; DU, L; ZHAO, R; YI, M; WAN, Q; ZHOU, Y. 2021. Tomato and lycopene and multiple health outcomes: Umbrella review. Food Chemistry 343: 128396.).
Antioxidant compounds are molecules capable of neutralizing the effects of reactive oxygen species (ROS) originated by metabolic processes. ROS have groups of free radicals that make them highly reactive and, if not neutralized, can cause oxidative damage to proteins, lipids, and DNA. This damage can result in various neurodegenerative and cardiovascular diseases and even cancer (Çolak et al., 2020ÇOLAK, NG; EKEN, NT; ÜLGER, M; FRARY, A; DOĞANLAR, S. 2020. Mapping of quantitative trait loci for antioxidant molecules in tomato fruit: carotenoids, vitamins C and E, glutathione and phenolic acids. Plant Science 292: 110393.).
Multivariate analysis
Two distinct groups were observed by hierarchical cluster analysis using the physical and biochemical data (Figure 1). Group I (SCI-023, BRSIG, and Sweet Heaven) presented high mean values for sugars, fruit firmness, total flavonoids, and antioxidant activity. On the other hand, group II (Aiko, Carolina, Zamir, Santa West, Dulce, Guaraci, and Dolcetto) presented the highest averages for hue angle, luminosity, phenolics, mass, diameter, length, fruit volume, and locular gel. Generally, genotypes with higher physical attributes are less attractive than functional foods. In a breeding program focused on the enrichment of nutritional factors, these genotypes would not be interesting for selection.
Ward hierarchical cluster analysis based on the standardized mean Euclidean distance of the physical and biochemical traits from ten grape tomato hybrids. Londrina, UEL, 2019.
The genotypes SCI-023 and Aiko were the most contrasting concerning most physical characteristics. Cultivar Aiko stood out about the phytometric attributes, with the highest averages for diameter and width, besides mass, locular gel volume, and fruit volume. SCI-023 stood out among the most nutritious, having higher levels for approximately 70% of the biochemical attributes; however, for the physical attributes, this cultivar presented lower levels in 90%, especially length and size.
Molecular characterization
The AFLP marker identified a wide genetic variability among grape tomato genotypes. Four selective EcoRI/MSeI primer combinations generated 792 bands, of which 686 were polymorphic (86.6%). The E-ATC/M-CTCG, E-AGC/M-CAA, E-ACT/M-GAG, and E-AGC/M-CAC generated 116, 222, 200 and 148 polymorphic fragments, respectively. AFLP marker by capillary electrophoresis in an automated system has been considered an important tool for exploring genetic divergence in several agricultural species (Giordani et al., 2019GIORDANI, W; SCAPIM, CA; RUAS, PM; RUAS, CF; SOTO, RC; COAN, M; FONSECA, ICB; GONÇALVES, LSA. 2019. Genetic diversity, population structure and AFLP markers associated with maize reaction to southern rust. Bragantia78: 183-196.; Constantino et al., 2020CONSTANTINO, LV; FUKUJI, AYS; ZEFFA, DM; BABA, VY; CORTE, LE; GIACOMIN, RM; RESENDE, JTV; GONÇALVES, LSA. 2020. Genetic variability in peppers accessions based on morphological, biochemical and molecular traits. Bragantia79: 443-446.; Massucato et al., 2020MASSUCATO, LR; NAKAMURA, KK; RUAS, PM; ZEFA, DM; SILVA, DJH; GONÇALVES, LSA. 2020. Genetic diversity among Brazilian okra landraces detected by morphoagronomic and molecular descriptors. Acta Scientiarum. Agronomy 42: e43426.). Constantino et al. (2020)CONSTANTINO, LV; FUKUJI, AYS; ZEFFA, DM; BABA, VY; CORTE, LE; GIACOMIN, RM; RESENDE, JTV; GONÇALVES, LSA. 2020. Genetic variability in peppers accessions based on morphological, biochemical and molecular traits. Bragantia79: 443-446., evaluating 22 accessions from Capsicum baccatum, found data similar to those of our work (92.48% of polymorphism).
Based on Jaccard distance, a dissimilarity range was observed between 0.30 and 0.87, with a mean distance of 0.63 (?0.11 DP). SCI-023 and Guaraci were the closest genetically, while Sweet Heaven and Dolcetto genotypes were the farthest. Based on simulations provided by Structure software and the methodology of the ΔK value, the optimal K was seven, which indicated a formation of seven distinct groups. Groups 1 (red) and 2 (brown) were constituted by Sweet Heaven and Santa West genotypes, respectively. Group 3 (dark green) was formed by the BRS Zamir, SCI-023, and Guaraci, while group 4 (light green) by the Aiko genotype. Carolina and Dulce were allocated in group 5 (blue) and the Dolcetto and BRSIG genotypes in groups 6 (purple) and 7 (pink), respectively (Figure 2).
Dendrogram obtained by ward hierarchical clustering method (a), Bayesian cluster considering K= 7, and principal coordinate analysis (c) based on AFLP markers of ten grape tomato hybrids. Londrina, UEL, 2019.
By principal coordinate analysis (PCoA), the first three coordinates explained 67.26% of the total variation among genotypes. In general, the groups constituted by the Bayesian analysis were consistent with the groups formed by Ward and PCoA methods, indicating agreement in the results of these methodologies.
The physical, biochemical and molecular characterizations were useful tools in verifying genetic diversity among grape tomato genotypes, evidencing the aptitude of these genotypes to be used in mini tomato breeding programs that aim the development of new cultivars for the Brazilian market. In this sense, new options of mini grape tomatoes for consumers are highly desirable, focusing on fruits of medium to large sizes, intense and bright red color, enriched with bioactive compounds, and with higher antioxidant activity.
ACKNOWLEDGEMENTS
This study was financed in part by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, Brasil (CAPES), Finance Code 001.
REFERENCES
- ADALID, AM; ROSELLÓ, S; NUEZ, F. 2010. Evaluation and selection of tomato accessions (Solanum section Lycopersicon) for lycopene, β-carotene, and ascorbic acid content. Journal of Food Composition and Analysis23: 613-618.
- ADEGBOLA, YP; ADJOVI, NRA; ADEKAMBI, SA; ZOSSOU, R; SONEHEKPON, ES; KOMLAN, FA; DJOSSA, E. 2019. Consumer preferences for fresh tomatoes in Benin using a conjoint analysis. Journal of International Food & Agribusiness Marketing 31: 1-21.
- AOAC. 1984. Official methods of analysis of Association of Official Analytical Chemists Washington, DC., USA.
- AOAC. 2000. Official methods of the Association of the Agricultural Chemists Washington, DC., USA .
- ARAZURI, S; JARÉN, C; ARANA, JI; CIRIZA, JJP. 2007. Influence of mechanical harvest on the physical properties of processing tomato (Lycopersicon esculentum Mill.). Journal of Food Engineering 80: 190-198.
- BENASSI, MDT; ANTUNES, AJ. 1988. A comparison of metaphosphoric and oxalic acids as extractants solutions for the determination of determining vitamin C in selected vegetables. Arquivos de Biologia e Tecnologia 31: 507-513.
- BRASHLYANOVA, B; ZSIVÁNOVITS, G; GANEVA, D. 2014. Texture quality of tomatoes is affected by different storage temperatures and growth habit. Emirates Journal of Food and Agriculture 26: 750-756.
- CASALS, J; RIVERA, A; SABATÉ, J; CASTILLO, RR; SIMÓ, J. 2019. Cherry and fresh market tomatoes: differences in chemical, morphological, and sensory traits and their implications for consumer acceptance. Agronomy9: 9.
- CHOI, SH; KIM, DS; KOZUKUE, N; KIM, HJ; NISHITANI, Y; MIZUNO, M; LEVIN, CE; FRIEDMAN, M. 2014. Protein, free amino acid, phenolic, β-carotene, and lycopene content, and antioxidative and cancer cell inhibitory effects of 12 greenhouse-grown commercial cherry tomato varieties. Journal of Food Composition and Analysis34: 115-127.
- ÇOLAK, NG; EKEN, NT; ÜLGER, M; FRARY, A; DOĞANLAR, S. 2020. Mapping of quantitative trait loci for antioxidant molecules in tomato fruit: carotenoids, vitamins C and E, glutathione and phenolic acids. Plant Science 292: 110393.
- CONSTANTINO, LV; FUKUJI, AYS; ZEFFA, DM; BABA, VY; CORTE, LE; GIACOMIN, RM; RESENDE, JTV; GONÇALVES, LSA. 2020. Genetic variability in peppers accessions based on morphological, biochemical and molecular traits. Bragantia79: 443-446.
- CONSTANTINO, LV; ROSSETTO, LM; BENASSI, MT; OLIVEIRA, C; ZEFFA, DM; KOLTUN, A; RESENDE, JTV; GONÇALVES, LSA. 2021. Characterization physico-biochemical of mini-tomatoes based and internal preference mapping based on consumer acceptance. Scientia Horticulturae
- DOYLE, JJ; DOYLE, JL. 1987. Method of isolation of plant DNA from fresh tissue. Phytochemical Bulletin 19: 11-15.
- FAOSTAT. 2020. Available at:Available at:http://www.fao.org/faostat/en/?#data/QC AccessedOctober 25, 2020.
» http://www.fao.org/faostat/en/?#data/QC - FERNANDES, C; CORÁ, JE; BRAZ, LT. 2007. Classificação de tomate-cereja em função do tamanho e peso dos frutos. Horticultura Brasileira 25: 275-278.
- FINZI, RR; MACIEL, GM; SILVA, EC; LUZ, JMQ; BORBA, MEA. 2017. Agronomic performance of mini-tomato hybrids from dwarf lines. Ciência e Agrotecnologia 41: 15-21.
- GIORDANI, W; SCAPIM, CA; RUAS, PM; RUAS, CF; SOTO, RC; COAN, M; FONSECA, ICB; GONÇALVES, LSA. 2019. Genetic diversity, population structure and AFLP markers associated with maize reaction to southern rust. Bragantia78: 183-196.
- GURNANI, N; GUPTA, M; MEHTA, D; MEHTA, BK. 2016. Chemical composition, total phenolic and flavonoid contents, and in vitro antimicrobial and antioxidant activities of crude extracts from red chilli seeds (Capsicum frutescens L.). Journal of Taibah University for Science10: 462-470.
- HOAGLAND, D; ARNON, D. 1950. The water culture method for growing plants without soil Berkeley: California Agriculture Experiment Station.
- LI, N; WU, X; ZHUANG, W; XIA, L; CHEN, Y; WU, C; RAO, Z; DU, L; ZHAO, R; YI, M; WAN, Q; ZHOU, Y. 2021. Tomato and lycopene and multiple health outcomes: Umbrella review. Food Chemistry 343: 128396.
- LUCAS, PW; PRINZ, JF; AGRAWAL, KR; BRUCE, IC. 2004. Food texture and its effect on ingestion, mastication and swallowing. Journal of Texture Studies 35: 159-170.
- MARUYAMA, AS; CLAUS, T; MONTANHER, PF; BONAFÉ, EG; SANTOS JUNIOR, OO; SOUZA, NE; VISENTAINER, JV; GOMES, STM; MATSUSHITA, M. 2015. Evaluation of lipophilic antioxidant capacity and lycopene content in Brazilian tomatoes. Revista Virtual de Química 7: 1163-1173.
- MASSUCATO, LR; NAKAMURA, KK; RUAS, PM; ZEFA, DM; SILVA, DJH; GONÇALVES, LSA. 2020. Genetic diversity among Brazilian okra landraces detected by morphoagronomic and molecular descriptors. Acta Scientiarum. Agronomy 42: e43426.
- MOREIRA, AFP; RUAS, PM; RUAS, CF; BABA, VY; GIORDANI, W; ARRUDA, IM; RODRIGUES, R; GONÇALVES, LSA. 2018. Genetic diversity, population structure and genetic parameters of fruit traits in Capsicum chinense Scientia Horticulturae 236: 1-9.
- NASCIMENTO, AR; SOARES JÚNIOR, MS; CALIARI, M; FERNANDES, PM; RODRIGUES, JPM; CARVALHO, WT. 2013. Qualidade de tomates de mesa cultivados em sistema orgânico e convencional no estado de Goiás. Horticultura Brasileira 31: 628-635.
- NEGRISOLI, RM; CECHINATTO, FH; BISSOLI, MJ; ROSESTOLATO, LLR; SABBAG, OJ. 2015. Viabilidade econômica no cultivo de minitomate. Enciclopédia Biosfera 11: 1932-1942.
- OLIVEIRA, G; PINHO, D; FIGUEIREDO, LM. 2014. Análise sensorial e físico-química de frutos tomate cereja orgânicos. Revista Caatinga 27: 181-186.
- OLTMAN, AE; JERVIS, SM; DRAKE, MA. 2014. Consumer attitudes and preferences for fresh market tomatoes. Journal of Food Science 79: S2091-S2097.
- PAULA, JT; RESENDE, JTV; FARIA, MV; FIGUEIREDO, AST; SCHWARZ, K; NEUMANN, ER. 2015. Características físico-químicas e compostos bioativos em frutos de tomateiro colhidos em diferentes estádios de maturação. Horticultura Brasileira 33: 434-440.
- PRECZENHAK, AP; RESENDE, JTV; CHAGAS, RR; SILVA, PR; SCHWARZ, K; MORALES, RGF. 2014. Caracterização agronômica de genótipos de minitomate. Horticultura Brasileira32: 348-356.
- PRZYBYLSKA, S. 2020. Lycopene - a bioactive carotenoid offering multiple health benefits: A review. International Journal of Food Science & Technology 55: 11-32.
- ROCHA, MC; DELIZA, R; CORRÊA, FM; CARMO, MGF; ABBOUD, ACS. 2013. A study to guide breeding of new cultivars of organic cherry tomato following a consumer-driven approach. Food Research International 51: 265-273.
- RODRIGUES, JC; PINHO, O; MONTEIRO, PRR. 2018. Can lycopene be considered an effective protection against cardiovascular disease? Food Chemistry 245: 1148-1153.
- SALEHI, B; RAD, RS; SHAROPOV, F; NAMIESNIK, J; ROOINTAN, A; KAMLE, M; KUMAR, P; MARTINS, N; RAD, JS. 2019. Beneficial effects and potential risks of tomato consumption for human health: An overview. Nutrition62: 201-208.
- SCOTT, AJ; KNOTT, M. 1974. A cluster analysis method for grouping means in the analysis of variance. Biometrics30: 507-512.
- SWAIN, T; HILLIS, WE. 1959. The phenolic constituents of Prunus domestica I. The quantitative analysis of phenolic constituents. Journal of the Science of Food and Agriculture 10: 63-68.
- THE PACKER. 2020. Fresh Trends. Available at: Available at: http://digitaledition.qwinc.com/publication/?m=40749&i=655554&p=80 AccessedOctober 25, 2020.
» http://digitaledition.qwinc.com/publication/?m=40749&i=655554&p=80 - VÁZQUEZ, G; FONTENLA, E; SANTOS, J; FREIRE, MS; ÁLVAREZ, JG; ANTORRENA, G. 2008. Antioxidant activity and phenolic content of chestnut (Castanea sativa) shell and eucalyptus (Eucalyptus globulus) bark extracts. Industrial Crops and Products 28: 279-285.
- VOS, P; HOGERS, R; BLEEKER, M; REIJANS, M; LEE, T; HORNES, M; FRIJTERS, A; POT, J; PELEMAN, J; KUIPER, M. 1995. AFLP: A new technique for DNA fingerprinting. Nucleic Acids Research23: 4407-4414.
- WILLIAMS, WB; CUVELIER, ME; BERSET, C. 1995. Use of a free radical method to evaluate antioxidant activity. LWT - Food Science and Technology 28: 25-30.
Publication Dates
-
Publication in this collection
09 Jan 2023 -
Date of issue
Oct-Dec 2022
History
-
Received
03 Feb 2022 -
Accepted
23 Sept 2022