ABSTRACT The characterisation and evaluation of accessions are important steps in both the management of a germplasm collection and in a plant genetic improvement program. Carrying out characterisation and evaluation, whether morphological or molecular, requires observing the overall features of plants in the field, or collecting leaves for DNA extraction, which is time consuming and costly; whereas DNA extracted directly from the seeds allows access to the genome without the need for planting the seeds, which speeds up the selection of genotypes of interest and information on genetic variability. The aim was to develop a non-destructive method for extracting DNA from cashew seeds. The seeds were mechanically perforated using a mini-grinder, and a sample of the endosperm was removed. Various protocols and commercial kits for DNA extraction were tested, as well as materials to seal the opening made in the seed. It is possible to extract cashew tree DNA from the endosperm, preferably using commercial kits with cementitious adhesive as the sealing material, offering a germination percentage of 60% of the perforated seeds. program molecular field costly variability nondestructive non destructive minigrinder, minigrinder mini grinder, grinder mini-grinder removed tested seed material 60 6

ABSTRACT Processing residues are still one of the main obstacles in the fishing industry due to waste and environmental impact. With that, ways of reusing these residues are researched to generate new products with different applications. The objective of this work was to develop and evaluate protein films obtained from mechanically separated meat (MSM) of Nile tilapia (Oreochromis niloticus) filleting residues. To get the films, the casting technique was used, varying their composition in relation to the amount of protein (1.0, 1.5 and 2.0%) and glycerol (0.0, 0.1 and 0.2%), creating a 32 factorial plan, with 9 treatments. The films were characterized in terms of color, opacity, water solubility, mechanical properties and water vapor permeability (WVP). In the end, a yield of 18.70% of Nile tilapia myofibrillar proteins (MPs) and a post-lyophilization protein content of 87.33% were obtained. It was concluded that the film that presented the best result in all the characteristics analyzed was the one with 1.0% of MPs and 0.1% of glycerol. impact applications MSM (MSM Oreochromis niloticus used 1.0, 10 1 0 (1.0 15 5 1. 2.0% 20 2 0.0, 00 (0.0 01 0. 0.2%, 02 0.2% , 0.2%) 3 plan treatments color opacity solubility WVP. WVP . (WVP) end 1870 18 70 18.70 (MPs postlyophilization post lyophilization 8733 87 33 87.33 1.0 (1. 2.0 0.0 (0. 0.2 (WVP 187 7 18.7 873 8 87.3 (1 2. (0 18. 87. (

Abstract Founding new materials and structures for solar cells is a challenge in the photovoltaic field. This work evaluated the effect of the lignin in the photovoltaic activity by compounding with TiO2/lignin as photoanode for the dye sensitized solar cells (DSSC’s). Hybrid films (TiO2/lignin) with different concentrations of lignin (5, 10 and 15%) were deposited by spin coating over commercial TiO2 thin films. The cells were sandwich assembled. The characterizations were done through analysis of absorbance, band gap, x-ray diffraction, morphological and electrical. The lignin at 15% reduced the TiO2 band gap from 3.66 to 2.84 eV, favoring the short current density to 11.06 mA/cm2 and efficiency of 4.65%, an increase of 103.95% compared to the TiO2 structure without lignin.

ABSTRACT Purpose: Poultry by-products can contribute as an innovative natural source for the development of composites based on polymers and minerals aiming at bone regeneration. The objective of this study was the physicochemical and biological characterization of collagen-based hydrogels crosslinked with ultraviolet (UV)-riboflavin. Methods: Pure hydrogels of 100% collagen (G1) or hybrid hydrogels, 90% collagen:10% apatite (G2), 90% collagen:10% nanokeratin (G3), and 90% collagen:5% apatite:5% nanokeratin (G4) were characterized by scanning electron microscope, Fourier-transform infrared spectroscopy, differential scanning calorimetry, swelling degree and quali-quantitative histological analysis. Ectopic implantation in subcutaneous tissue in mice at one, three and nine weeks allowed to assess the inflammation (neutrophils, lymphocytes, macrophages, and giant cells) and repair (neovascularization, and connective tissue) to determine biocompatibility and the integrity of biomaterials to score their biodegradability. Histomorphometry on critical size defects in rat calvaria at one and three months evaluated the percentage of bone, connective tissue, and biomaterials in all groups. Results: The hydrogels presented porous microstructure, water absorption and physicochemical characteristics compatible with their polymeric and/or mineral composition. All materials exhibited biocompatibility, biodegradability, and low osteoconductivity. G2 showed greater density of new bone and biomaterial than the G1, G3 and G4. Conclusions: The collagen-apatite group formulation suggests potential for development as osteopromoting membrane.

RESUMO Subprodutos da piscicultura poderiam representar matéria-prima em larga escala para implantes xenógenos úteis à regeneração óssea. O objetivo desta pesquisa foi analisar a biocompatibilidade e a biodegradação de membranas de gelatina (G) e apatita (A) de tilápia do Nilo. Camundongos Swiss machos adultos foram submetidos a implante subcutâneo de biocompósitos derivados de peles e escamas em diferentes concentrações: 60%G:40%A (G1), 70%G:30%A (G2) e 80%G:20%A (G3). Como controles, foram usados membrana colágena comercial (C+) ou cirurgia sem implante (C-). Eutanásia foi realizada em 1, 3 ou 9 semanas para análise histológica de critérios inflamatórios, de reparo e integridade de cada material. A análise estatística dos dados não paramétricos foi realizada pelo teste de Kruskal-Wallis e pós-teste de Dunn, com p<0,05. Resultados in vivo durante o período experimental demonstraram melhora progressiva na biocompatibilidade, com G1 e G2 suavemente irritantes e G3 não irritante, tal como o C+. Houve diferenças significativas entre grupos teste e controles quanto a presença de neutrófilos, linfócitos, macrófagos, células gigantes do tipo corpo estranho, neovascularização e tecido conjuntivo. Ainda, houve decréscimo da integridade dos implantes, onde G1 manteve maior estabilidade do que G3 e G2, porém inferior ao C+. Todos os biocompósitos se mostraram biocompatíveis e parcialmente biodegradáveis. O G1 sugere maior potencial de uso como membrana osteopromotora, com seu desempenho biológico associado à maior concentração mineral frente à fase orgânica. Futuros estudos ortotópicos a longo prazo serão conduzidos para investigar sua ação osteopromotora.

ABSTRACT Fish farming by-products could represent large-scale raw materials for xenogeneic implants that could be used for bone regeneration. The objective of this research was to analyze the biocompatibility and biodegradation of gelatin (G) and apatite (A) membranes from Nile tilapia. Adult male Swiss mice underwent subcutaneous implantation of biocomposites derived from skins and scales in different concentrations: 60%G:40%A (G1), 70%G:30%A (G2) and 80%G:20%A (G3). Commercial collagen membrane (C+) or implantless surgery (C-) were used as controls. Euthanasia was performed at 1, 3 or 9 weeks for histological analysis of the inflammatory and repair criteria as well as the integrity of each material. The statistical analysis of non-parametric data was performed using the Kruskal-Wallis test and post-hoc Dunn test, with p<0.05. In vivo results during the experimental period demonstrated progressive improvement in biocompatibility, with G1 and G2 being slightly irritating and G3 non-irritating, just like C+. There were significant differences between test and control groups regarding the presence of neutrophils, lymphocytes, macrophages, foreign body giant cells, neovascularization and connective tissue. There was also a decrease in the integrity of the implants, where G1 maintained greater stability than G3 and G2, but less than C+. All biocomposites proved to be biocompatible and partially biodegradable. G1 suggests greater potential for use as an osteopromoting membrane, with its biological performance associated with higher mineral concentration compared to the organic phase. Future long-term orthotopic studies will be conducted to investigate its osteopromoting action.

RESUMO Fontes xenógenas são atrativas para o desenvolvimento de biomateriais naturais e sustentáveis. Este estudo objetivou a extração e a caracterização físico-química e biológica de colágeno (G1), nanoqueratina (G2) e bioapatita (G3) avícolas. Os materiais-teste foram analisados por MEV, FTIR, TGA, EDS e DRX. Biocompatibilidade e biodegradação in vivo dos materiais foram analisadas histopatologicamente em camundongos em 1, 3 e 9 semanas pós-enxertia subcutânea em comparação aos controles positivos (colágeno ou osso comercial) e negativo (sem enxerto). Os dados obtidos foram submetidos à análise estatística intergrupos pelo método de ANOVA com pós-teste de Tukey-Kramer, sendo consideradas diferenças significativas se p < 0,05. G1 apresentou microestrutura filamentosa irregular típica do colágeno tipo I, espectro de bandas de amidas A, I, II e III comuns a proteínas e compatíveis com manutenção da tripla hélice e perda de massa a partir de 40,5 °C. G2 apresentou lâminas de diversos tamanhos com superfície rugosa, com bandas de amida I, II e reduzida amida A e perda de massa a partir de 50 °C. G3 apresentou pó branco, livres de matéria orgânica, relação Ca/P de 1,54, bandas de substituição por carbonato tipo A e B, alta cristalinidade e perda de massa a partir de 150 °C. Todos os grupos exibiram biocompatibilidade, com padrão não irritante em G1 e pouco irritante em G2 e G3, enquanto a biodegradação foi total em G1 e G2 e parcial em G3. Biomimetismo, biocompatibilidade e biodegradação observados indicam potencial de colágeno e nanoqueratina avícolas para agentes hemostáticos e de bioapatita para enxerto ósseo, sendo necessários futuros estudos ortotópicos de eficácia.

ABSTRACT Xenogeneic sources are attractive for the development of natural and sustainable biomaterials. The objective of this study was to extract and perform the physicochemical and biological characterization of poultry collagen (G1), nanokeratin (G2) and bioapatite (G3). The test materials were analyzed through SEM, FTIR, TGA, EDS and DRX. The in vivo biocompatibility and biodegradation of the materials were analyzed histopathologically in mice at 1, 3 and 9 weeks post-subcutaneous grafting compared to positive (collagen or commercial bone) and negative (no graft) controls. The obtained data was submitted to intergroup statistical analysis using the ANOVA method with the Tukey-Kramer post-hoc test, and differences were considered significant for p < 0.05. G1 had an irregular filamentous microstructure typical of type I collagen, a band spectrum of amide A, I, II and III, common to proteins and compatible with triple helix maintenance, and mass loss after 40.5 °C. G2 had blades of various sizes with rough surface, with bands of amide I, II and reduced amide A and mass loss after 50 °C. G3 presented as white powder, free of organic matter, Ca/P ratio of 1.54, bands of type A and B carbonate substitution, high crystallinity and mass loss after 150 °C. All groups exhibited biocompatibility, with a non-irritating pattern in G1 and slight irritation in G2 and G3, while biodegradation was complete in G1 and G2 and partial in G3. The observed biomimicry, biocompatibility and biodegradation suggest the potential of poultry collagen and nanokeratin as hemostatic agents and bioapatite for bone grafting, requiring future orthotopic efficacy studies.

Abstract In this work, starch obtained from mango kernel seeds was applied in the preparation of films in combination with its hydrophobic derivatives. Chemical modification of starch was carried out at two different concentrations of vinyl laurate, in dimethyl sulfoxide, under basic catalysis. The degrees of substitution of the starch laurates were 2.4 and 0.3, respectively. None of the products formed films when dispersed in water. However, blends of starch/starch laurate (degree of substitution = 0.3) formed films after microfluidization of their aqueous suspensions. The blends with up to 15% wt of starch laurate (degree of substitution = 0.3) resulted in films of higher elongation at break, higher opacity and lower tensile strength and elastic modulus. The microfluidization of biopolymer suspensions was crucial to obtain films with lower water vapor permeability. X-ray diffraction results corroborated to the mechanical properties of the films, showing that the incorporation of starch laurate reduced the starch films crystallinity.

Abstract A low cost spin coater was constructed in this work for the deposition of thin films of titanium dioxide (TiO2) on conductive substrate of FTO (fluoride doped tin oxide) with application on dye sensitized solar cells. The results showed a 95% precision between the speed values obtained by the software of C#sharp language and the spin values observed directly on the device. The TiO2 films deposited through the spin coater with different angular speeds were characterized by UV-Vis optical spectrum, scanning electron microscopy (SEM), atomic force microscopy (AFM) and electrical measurements on an active area of 0.25 cm2. The DSSCs assembled with the TiO2 films of double layer deposited by the spin coater had an efficiency value of 12.74%, while the cell with a single layer presented 4.05% efficiency. Therefore, it is concluded that the spin coater assembled in this study at low costs successfully can produce TiO2 electrodes for DSSCs.

In this work microfiber mats of Nile tilapia (Oreochromis niloticus) gelatin were successfully fabricated by using Solution Blow Spinning technique. The concentration and viscosity of fish gelatin solution, in acid acetic/water (80% v/v), were correleted to the morphology and diameter of the gelatin microfibers. It was found that increased solution viscosity leads to increase of fibers diameters from approximately 280 nm at viscosity ~ 0.085 Pa.s. to approximately 1195 nm at viscosity ~ 1.877 Pa.s. The TG thermograms showed similar thermal profiles for all fibrous mat gelatins with thermal stability at temperatures below 180°C. The DSC curve showed two endothermic peaks being the second one, in the range of 100-130°C, strongly influenced by the microfiber diameters. It shifts to higher temperature increasing the microfiber diameter. This behavior was associated to the diffusion of water in the microfibers. Combined DSC/TG results showed a significant influence of the microfiber diameter on the water absorption and desorption process.

Resumo: O objetivo deste trabalho foi determinar uma combinação adequada entre o polissacarídeo galactomanana de algaroba e a proteína gelatina de tilápia-do-nilo no filme compósito galactomanana/gelatina para aplicações em embalagem de alimentos, e avaliar a influência de nanocristais de celulose (NCC) sobre o filme. A galactomanana e a gelatina foram extraídas de sementes de algaroba e resíduos de tilápia-do-nilo, respectivamente, e os NCC de vagens de algaroba, por hidrólise ácida. A proporção galactomanana:gelatina com a melhor combinação de propriedades mecânicas e de barreira foi usada para produzir filmes bionanocompósitos, pela adição de diferentes teores de NCC à dispersão de galactomanana/gelatina. A proporção galactomanana:gelatina de 1:1 apresentou boa combinação entre permeabilidade a vapor de água (PVA) e resistência mecânica. As propriedades dos filmes foram melhoradas pela adição de NCC, principalmente a 5% (m/m), que produziu os máximos valores de resistência e módulo, com mais de 30% de aumento em relação ao filme controle, e os menores valores de PVA, 23% a menos que o controle. Maiores teores de NCC resultaram em agregação dos nanocristais e prejudicaram as propriedades de barreira e mecânicas. O filme nanocompósito com galactomanana, gelatina e NCC nas respectivas proporções de 1:1:0,1 apresentam as melhores propriedades gerais para aplicações em embalagem de alimentos.

Abstract: The objective of this work was to determine a suitable combination of the polysaccharide mesquite seed gum (MSG) and the protein Nile tilapia fish gelatin in the composite MSG/gelatin film for food packaging applications, and to evaluate the effect of cellulose nanocrystals (CNCs) on the film. MSG and gelatin were extracted from mesquite seeds and Nile tilapia residues, respectively, and the CNCs from mesquite pods by acid hydrolysis. The MSG:gelatin ratio with the best combination of tensile and barrier properties was used to produce the bionanocomposite films, by adding different CNC contents to the MSG/gelatin dispersion. The MSG:gelatin ratio of 1:1 had a good combination of water vapor permeability (WVP) and tensile strength. The properties of the MSG/gelatin films were improved by the CNCs, mainly at 5 wt%, which produced the highest tensile strength and modulus, more than 30% higher than those of the control film, and the lowest WVP, 23% lower than that of the control. Higher CNC contents resulted in the aggregation of nanocrystals, impairing barrier and tensile properties. The nanocomposite film with MSG, gelatin, and CNCs at the respective weight ratios of 1:1:0.1 presents the best overall properties for food packaging applications.

This study evaluated the effect of adding poly (ethylene methyl acrylate) (EMA) and cotton linter (CL) on the properties of recycled poly (ethylene terephthalate) (PETrec). For this, PETrec/EMA blend and PETrec/EMA/CL composite were developed. In order to improve the interfacial adhesion and the properties of these materials, ethylene/methyl acrylate/glycidyl methacrylate terpolymer (EMA-GMA) and polyethylene-grafted maleic anhydride (PE-g-MAH) were added. The rheological results showed that the addition of EMA increased and the addition of 1 wt% of CL reduced the viscosity. The morphological analysis of the non-compatibilized blend and composite showed poor interfacial adhesion. Polymer blends with 2 and 6 wt% of EMA had better mechanical properties, since these formulations have the smallest average particle diameter of 0.58 and 1.00 µm, respectively. The mechanical testing of composites showed a material with higher maximum strength and elasticity modulus than polymer blend when analyzed at the same EMA phase concentration. The use of EMA-GMA was effective in reducing the size of particles of the EMA in the blend.

Procurou-se determinar a vida útil de abacaxis 'Pérola' minimamente processados (MP), tratados com ácido ascórbico (AA) e ácido cítrico (AC), com base nos atributos físicos, químicos, sensoriais e microbiológicos. As fatias foram imersas em água (controle) ou em soluções combinadas de AA:AC (%) (1,0:0,5 e 1,0:1,0) com adição de hipoclorito de sódio (NaOCl 20 mg L-1), durante 30 segundos. As amostras foram acondicionadas em embalagens de polietileno tereftalato e mantidas à temperatura de 4±1 °C durante 13 dias. A baixa atividade da peroxidase nas fatias tratadas foi relacionada aos baixos valores de pH observados nessas amostras. Os tratamentos 1,0:0,5 e 1,0:1,0 (AA:AC, %) favoreceram a manutenção dos valores iniciais de a* e evitaram o escurecimento da polpa. A concentração de ácido ascórbico aumentou mais que o dobro, no 2.° dia, nas fatias tratadas. Os valores de CO2 observados no 4.° dia sugeriram a ocorrência de maior atividade respiratória nas fatias tratadas com os compostos antioxidantes. Os tratamentos antioxidantes não produziram sabor e odor residuais no abacaxi MP. Apesar de comprovada a segurança microbiológica durante os 13 dias de armazenamento, as fatias-controle podem ser mantidas por seis dias, uma vez que o escurecimento e o aspecto desidratado prejudicam a aparência do produto após esse período. Abacaxis 'Pérola' MP tratados com 1.0:0.5 (AA:AC, %) e NaOCl (20 mg L-1) podem ser armazenados por 8 dias a 4±1 ºC, o que representa o prolongamento da vida útil em dois dias. Após esse período, o odor de sobremaduro começa a se desenvolver.

The purpose of this research was to determine the shelf life of minimally processed (MP) 'Pérola' pineapples treated with ascorbic acid (AA) and citric acid (CA) based on physical, chemical, sensorial and microbiological attributes. Slices were dipped into drinking water (control) or combined solutions of AA:CA (%) (1.0:0.5 and 1.0:1.0) with sodium hypochlorite (NaClO 20 mg L-1) for 30 seconds. The samples were conditioned in polyethylene terephtalate packages and stored at 4±1 °C per 13 days. The low peroxidase activity in the slices treated with antioxidant combinations was related to low pH values observed in these samples. The treatments 1.0:0.5 and 1.0:1.0 (AA:CA, %) favored maintenance of the initial a* values and avoided the pulp browning. The ascorbic acid increased more than double on the 2nd day in the treated slices. By the 4th day the CO2 values suggested a higher respiratory activity in the slices treated with anti-browning compounds. The antioxidant treatments did not produce detectable residual flavors in the MP pineapple. Regardless of microbiological safety during the 13 days of cold storage, the control slices can be kept by 6 days, afterwards the color and dehydration become strong enough to affect the appearance. On the other hand, MP 'Pérola' pineapples treated with 1.0:0.5 (AA:CA, %) and NaClO (20 mg L-1) can be stored for 8 days at 4±1 ºC, which represents the extension of the shelf life in 2 days. After this period the overripe odor starts to develop.

O objetivo deste trabalho foi avaliar o efeito de dois tipos de cortes (manual e mecânico) nas características físico-químicas e microbiológicas do melão 'Cantaloupe' minimamente processado e refrigerado. Frutos com grau de maturação adequado foram selecionados, lavados, sanificados (200 ppm de cloro ativo/2 minutos) e processados de acordo com o tipo de corte. Os frutos utilizados para o corte mecânico foram descascados em máquina descascadora e após a retirada das sementes, submetidos ao corte com auxílio de máquina de corte. Os destinados ao corte manual foram descascados e cortados com auxílio facas, colocados em imersão em solução de hipoclorito de sódio (20 ppm de cloro ativo por 30 segundos) e acondicionados em embalagens flexíveis PET, armazenados a 4°C ± 1°C e avaliados a cada três dias por um período de 15 dias. Ao final dos experimentos, concluiu-se que para o processamento mínimo de melão 'Cantaloupe', o corte manual foi o mais indicado, por apresentar melhor estabilidade das características de cor, textura, pH, umidade e contagens microbiológicas durante o armazenamento.

The purpose of this work was to evaluate the effect of two types of cutting (manual and mechanic) on the physical-chemical and microbiological characteristics of processed and refrigerated 'Cantaloupe' melon. The fruits in the appropriate stage of ripening were selected, washed, sanitized (200ppm of active chlorine/2 minutes) and processed in agreement with types of cutting. The fruits used for the mechanical cutting were cutting in peeling machine and after at retreat of the seeds, submitted to the cutting with aid of cutting machine. The fruits destined at manual cutting were peeled and cut with aid of knives, immerged in chlorinated water (20 mg.L-1 of active chlorine) for 30 seconds) and conditioned in PET flexible packing, stored at 4°C ± 1°C and were carried out each three days during 15 days. At the end of the experiments it was concluded that for the minimally processed of 'Cantaloupe' melon, the manually cutting was the more indicated method, since it presented the best stability of characteristics concerning to color, firmness, pH, moisture and microbiological counting during storage.

O estudo do processo de conservação da polpa de bacuri (Platonia insignis Mart.), através da aplicação da tecnologia de obstáculos, foi feito pela combinação dos seguintes fatores: adição de benzoato de sódio (1000 ppm) e metabissulfito de sódio (400 ppm), tratamento térmico (100ºC/2 min.) e redução da atividade de água pela adição de sacarose (0, 17,4 e 28,6% (p/p)). A estabilidade dos produtos foi avaliada segundo suas características físico-químicas, microbiológicas e sensoriais, a cada 30 dias, durante quatro meses de armazenamento, à temperatura ambiente (25ºC±2ºC). As características físico-químicas dos produtos obtidos sofreram pouca alteração durante o armazenamento, sendo os teores de açúcares redutores e o teor de dióxido de enxofre as características mais afetadas nos três produtos. Os resultados mostraram que os tipos de obstáculos usados e sua intensidade foram capazes de assegurar a estabilidade microbiológica e uma boa aceitação sensorial dos produtos durante o período de armazenamento.

The study of preservation process of the bacuri pulp (Platonia insignis Mart.) through the application of hurdle technology was done by the application of the following preservation factors: addition of sodium benzoate (1000 ppm) and sodium metabissulphite (400 ppm), thermal treatment (100ºC/ 2 min.) and reduction of the water activity by the addition of sucrose (0, 17,4 and 28,6% (w/w)). Stability was assessed monthly by means of physico-chemical, microbiological and sensorial methods, each 30 days, during four months of storage at room temperature (25ºC±2ºC). Physico-chemical characteristics of the products obtained little changed during the storage, being the reduced sugars and sulfite dioxide contents the most affected characteristics in three products. Results showed that the obstacles used and their intensities were capable to assure the microbiological stability and a good sensory acceptability of the products during the storage time.

Procurou-se determinar a melhor porção do fruto, quanto aos teores de sólidos solúveis (SS) e acidez titulável (AT) e sua preferência sensorial, a ser destinada ao processamento mínimo, bem como o formato de corte preferido para a comercialização na forma de minimamente processado. Os frutos foram descascados manualmente, delimitados em 12 seções de 1cm e fatiados, avaliando-se, cada fatia, quanto ao teor de SS e AT. O delineamento experimental foi em blocos casualizados, onde o fator estudado foi a seção do fruto, com quatro repetições. Os dados foram submetidos à análise de variância e as médias, comparadas pelo teste de Tukey. Sensorialmente, avaliou-se a porção do fruto de maior preferência, utilizando-se, para tanto, do teste de "Ordenação-Preferência". Os resultados foram analisados pelo teste não-paramétrico de Friedman. Os frutos foram ainda avaliados quanto ao formato de corte preferido, através do teste de "Preferência-Pareada". Considerando os teores de SS e AT, não haveria restrições quanto à total utilização do fruto; no entanto, sensorialmente, a porção delimitada pelos 3 centímetros apicais foi pouco aceita, sugerindo que a porção compreendida entre a 4ª e a 12ª seções seja preferencialmente utilizada no processamento mínimo. O corte do abacaxi no formato de fatias foi preferido ao formato em cubos.

The purpose of this research was to determine the best portion of pineapple fruit to be used as fresh-cut considering soluble solids (SS), titratable acidity (TA) content and preference, as well as the preferred cut shape for its commercialization. Fruits were manually peeled, delimited in 12 sections of 1cm and sliced. Each slice was evaluated for the SS and TA content. The experimental design was in randomized blocks. The studied factor was the fruit section, with four replicates. The data were submitted to the variance analysis and compared by Tukey's test. The preferred fruit portion was evaluated by "Ranking Preference" test, and the results were analyzed by Friedman's test. Fruits were also evaluated for cut shape by "Paired Preference" test. Considering the SS and TA values no restrictions were found for the total use of the fruit, however the portion delimited by the apical 3 cm was little accepted, suggesting that the portion between the 4th and 12th sections should be used in the minimum processing. Pineapple cut in slices was preferred to cubes.