Comparative Proteomic Analysis of Wild and Cultivated Amaranth Species Seeds by 2-DE and ESI-MS/MS.

Amaranth is a promising staple food that produces seeds with excellent nutritional quality. Although cultivated species intended for grain production have interesting agronomic traits, relatively little is known about wild species, which can prosper in diverse environments and could be a rich genetic source for crop improvement. This work focuses on the proteomic comparison between the seeds of wild and cultivated amaranth species using polarity-based protein extraction and two-dimensional gel electrophoresis. Differentially accumulated proteins (DAPs) showed changes in granule-bound starch synthases and a wide range of 11S globulin isoforms. The electrophoretic profile of these proteins suggests that they may contain significant phosphorylation as post-translational modifications (PTMs), which were confirmed via immunodetection. These PTMs may impact the physicochemical functionality of storage proteins, with potential implications for seed agronomic traits and food system applications. Low-abundant DAPs with highly variable accumulation patterns are also discussed; these were involved in diverse molecular processes, such as genic regulation, lipid storage, and stress response.

Anemochorous and zoochorous seeds of trees from the Brazilian savannas differ in fatty acid content and composition.

Fatty acids (FAs) stored as triacylglycerols (TAGs) are an important source of carbon and energy for germination and seedling development, particularly for plants with small wind-dispersed seeds, allowing greater efficiency in storing both energy and carbon. These plants should be under strong selection to produce seeds rich in FAs and with large amounts of saturated FAs. Their closely packed single-chain configuration allows greater packing, more carbon and energy per unit mass, and are less costly to produce. Efficient carbon storage would be less crucial for zoochorous species, which can reach much larger seed sizes (mass). We analysed the transesterified FA profile from seeds of 22 anemochorous and zoochorous tree species from the Cerrado savannas of Central Brazil. We tested if seed FA content covaried with seed mass and if anemochorous and zoochorous seeds differed in FA contents and distribution. Fatty acids were an important seed source of carbon and energy for most species. Fifteen different FAs were identified. Oleic, linoleic and linolenic tended to be the predominant unsaturated FAs. Oleic acid corresponded to more than 60 % of the total transesterified FAs in seeds of Kielmeyera coriacea, Qualea dichotoma and Triplaris americana. Linoleic acid corresponded to more than 50 % of total FA in Dalbergia miscolobium, Parkia platycephala and Ferdinandusa elliptica while linolenic acid was the dominant component in Inga cylindrica. Across species, palmitic and stearic were the dominant saturated FAs. The only exception was lauric acid (68 % of total FA) in seeds of Qualea grandiflora. On a log10 scale, as the seed increased in mass, accumulation of FAs tends to proceed at a faster rate in anemochorous species than in zoochorous species. They also became increasingly richer in saturated FAs. Zoochorous species had seed TAGs with higher proportion of polyunsaturated FAs.

Germination, viability and dormancy of 47 species from threatened tropical montane grassland in southeast Brazil: Implications for ex situ conservation.

To mitigate anthropogenic impacts on plant diversity in tropical montane grasslands, one of the most threatened ecosystems in Brazil, it will be essential to develop ex situ conservation strategies to preserve wild species. The lack of basic research on the seed storage behaviour of grassland species may, however, limit their use for reintroduction and restoration projects. We investigated seed storage behaviour at the community level by comparing the effects of cold-low RH (10 °C; 10% RH) and freezing-low RH (20 °C; 10% RH) conditions on seed viability, germination and dormancy of 47 species. Fresh seeds of 43% of the species showed primary dormancy. More than half of the species showed high seed survival responses (viability >60%) under both storage temperatures. Despite a variety of dormancy responses among the different species, the low RH storage conditions tested released dormancy for most species during 12- and 30-month storage times. Multivariate analysis of the best (freezing-low RH, 30 months) storage condition evidenced the formation of five distinct groups, three with species having high conservation potential in seed banks. Although further studies are needed to test dormancy-breaking treatments and improve seed conservation practices, this first approach to assessing seed banking techniques could contribute to demand for locally adapted seeds for ecological restoration projects in tropical montane grasslands.

Insecticidal Compound from Himatanthus drasticus Latex against Cowpea Infestation by Callosobruchus maculatus (Coleoptera: Chrysomelidae).

Vigna unguiculata is an important source of proteins and energy for humans and animals. However, postharvest losses caused by Callosobruchus maculatus can reach from 20 to 100% of stored seeds. In this study, the insecticide potential of compounds extracted from Himatanthus drasticus latex was assessed. The latex was extracted with ethanol (70%) and then partitioned through sequential use of hexane and chloroform. These fractions were investigated by chromatography to determine their chemical composition. Plumieride, identified in a hydroalcoholic subfraction, was tested for insecticidal activity against C. maculatus. The ethanolic fraction (LC50 = 0.109; LC90 = 0.106%) and the plumieride (LC50 = 0.166; LC90 = 0.167%) were lethal to larvae. Plumieride (0.25%) delayed larval development, and mortality reached 100%. Its inhibitory action on intestinal α-amylase from larvae was higher (89.12%) than that of acarbose (63.82%). Plumieride (0.1%) inhibited the enzyme α-amylase in vivo in the larval intestine. This result was confirmed by a zymogram test performed by SDS-PAGE when the enzyme electrophoresed on gel copolymerized with starch. When spread on seeds, the hydroalcoholic fraction (1.0%) reduced infestation. The loss of seed mass was 5.26% compared to the control (44.97%). The results confirm the effect of latex compounds in protecting stored seeds against weevil infestation.

Mo-CBP3, a 2S albumin from Moringa oleifera, is a complex mixture of isoforms that arise from different post-translational modifications.

Mo-CBP3 is a chitin-binding 2S albumin from Moringa oleifera. This seed storage protein is resistant to thermal denaturation and shows biological activities that might be of practical use, such as antifungal properties against Candida sp., a pathogen that causes candidiasis, and against Fusarium solani, a soil fungus that can cause diseases in plants and humans. Previous work has demonstrated that Mo-CBP3 is a mixture of isoforms encoded by members of a small multigene family. Mature Mo-CBP3 is a small protein (∼14 kDa), constituted by a small chain of approximately 4 kDa and a large chain of 8 kDa, which are held together by disulfide bridges. However, a more comprehensive picture on the spectrum of Mo-CBP3 isoforms which are found in mature seeds, is still lacking. In this work, genomic DNA fragments were obtained from M. oleifera leaves, cloned and completely sequenced, thus revealing new genes encoding Mo-CBP3. Moreover, mass spectrometry analysis showed that the mature protein is a complex mixture of isoforms with a remarkable number of molecular mass variants. Using computational predictions and calculations, most (∼86%) of the experimentally determined masses were assigned to amino acid sequences deduced from DNA fragments. The results suggested that the complex mixture of Mo-CBP3 isoforms originates from proteins encoded by closely related genes, whose products undergo different combinations of distinct post-translational modifications, including cleavage at the N- and C-terminal ends of both subunits, cyclization of N-terminal Gln, as well as Pro hydroxylation, Ser/Thr phosphorylation, and Met oxidation.

Efecto del almacenamiento ex situ de semillas y de condiciones lumínicas sobre la tasa de crecimiento de plántulas de Crescentia alata (Bignoniaceae)

En el bosque tropical seco, el árbol Crescentia alata (Bignoniaceae) es un recurso cultural y económico, pero han fracasado algunos intentos para establecer plantaciones, que podrían satisfacer la producción comercial y, así, evitar el impacto en las poblaciones naturales. Por tanto, existe la necesidad de generar información biológica sobre esta especie para obtener plantas en condiciones de invernaderos. El objetivo de este trabajo fue evaluar la tasa de crecimiento de plantas de C. alata obtenidas de semillas que se almacenaron en diferentes períodos y a varias temperaturas, y determinar el efecto de la intensidad de la luz sobre el crecimiento de las plántulas. Se recolectaron frutos en Liberia (Guanacaste, Costa Rica) y se almacenaron semillas por 0, 4, 8 y 14 meses a 5 °C, 15 °C y a temperatura ambiente (22-24 °C). Las plántulas de las semillas almacenadas por 0, 4, 8 y 14 meses se trasplantaron para evaluar el crecimiento después de 8 días, 2 y 16 meses, y en dos condiciones de luminosidad. La morfología de las plántulas de 8 días cambió según el tiempo de almacenamiento. El análisis de componentes principales de la evaluación de 2 meses indica que las variables más significativas fueron biomasa total seca, biomasa seca de hojas, de raíz-vástago, de tallo y de raíz, mientras que en el análisis de la evaluación de 16 meses tales variables fueron biomasa seca de raíz, de raíz-vástago y de hojas, también número de hojas y longitud del vástago. El área foliar específica de plantas con 16 meses de edad obtenidas de semillas almacenadas 14 meses no cambió con la temperatura de almacenamiento. Además, dos condiciones de luminosidad influyeron en la altura, el diámetro del tallo o el número de hojas. El almacenamiento de semillas a 5 °C y 15 °C favoreció el desarrollo de los cotiledones, así como la longitud de la raíz y del hipocótilo. Plantas de 2 meses obtenidas de 0 y 8 meses asignaron mayor biomasa a raíces que a tallos, mejorando así la absorción de agua. Plantas de 16 meses provenientes de semillas no almacenadas desarrollaron el mayor número de hojas, y aquellas de semillas de 8 meses a 5 °C y 15 °C mostraron tallos más cortos. Las semillas almacenadas hasta 14 meses se convirtieron en plantas bien desarrolladas. Se recomienda a futuros investigadores evaluar la viabilidad a diferentes temperaturas de secado de las semillas y en niveles de intensidad lumínica más contrastantes durante el crecimiento.

The dry tropical forest tree Crescentia alata is a cultural and economical resource, but efforts to establish plantations, which could satisfy commercial production and avoid impact on natural populations, have been unsuccessful. So there is a need to generate biological information on this species for obtaining plants in greenhouses. The aim of this work was to evaluate the vigor and growth rate of C. alata seedlings born from seeds that were stored at different periods and temperatures, and to determine the effect of light intensity on the seedlings. Fruits were collected in Liberia (Guanacaste, Costa Rica) and seeds stored for 0, 4, 8, and 14 months at 5 °C, 15 °C, and ambient temperature (22-24 °C). Seedlings from seeds stored for 0, 4, 8 and 14 months were grown to evaluate growth after 8 days, 2 months, and 16 months, and in two different light conditions. Morphology of 8-day-seedlings changed according to storage time. Principal component analysis of 2-month evaluation indicates that the most significant variables were total dry biomass, dry biomass of leaves, root-shoot, stem, and root, while for the analysis of 16-month evaluation these variables were dry biomass of root, root-shoot, and leaves, also leaf number, and shoot length. Specific leaf area of 16-month plants from seeds stored for 14 months did not change with storage temperature. In addition, two different light conditions influence seedling height, stem diameter or leaf number. Seed storage at 5 °C and 15 °C favored development of seedling cotyledons, and length of both root and hypocotyl. Two month-seedlings from 0M and 8M allocated most biomass to roots and less to stems, enhancing this way water absorption. Sixteen-month-plants from non-stored seeds developed the highest leaf numbers, and those plants from 8M seeds at 5 °C and 15 °C showed shorter stems. Seeds stored up to 14 months kept viable, becoming healthy seedlings. We recommend that future researchers evaluate seed viability at different drying temperatures and more contrasting light levels.

Protein analysis reveals differential accumulation of late embryogenesis abundant and storage proteins in seeds of wild and cultivated amaranth species.

BACKGROUND: Amaranth is a plant naturally resistant to various types of stresses that produces seeds of excellent nutritional quality, so amaranth is a promising system for food production. Amaranth wild relatives have survived climate changes and grow under harsh conditions, however no studies about morphological and molecular characteristics of their seeds are known. Therefore, we carried out a detailed morphological and molecular characterization of wild species A. powellii and A. hybridus, and compared them with the cultivated amaranth species A. hypochondriacus (waxy and non-waxy seeds) and A. cruentus. RESULTS: Seed proteins were fractionated according to their polarity properties and were analysed in one-dimensional gel electrophoresis (1-DE) followed by nano-liquid chromatography coupled to tandem mass spectrometry (nLC-MS/MS). A total of 34 differentially accumulated protein bands were detected and 105 proteins were successfully identified. Late embryogenesis abundant proteins were detected as species-specific. Oleosins and oil bodies associated proteins were observed preferentially in A. cruentus. Different isoforms of the granule-bound starch synthase I, and several paralogs of 7S and 11S globulins were also identified. The in silico structural analysis from different isoforms of 11S globulins was carried out, including new types of 11S globulin not reported so far. CONCLUSIONS: The results provide novel information about 11S globulins and proteins related in seed protection, which could play important roles in the nutritional value and adaptive tolerance to stress in amaranth species.

Physiological diversity in Brazilian common bean (Phaseolus vulgaris L) landraces based on selection index / Diversidade fisiológica em feijão comum brasileiro (Phaseolus vulgaris L) com base no índice de seleção

Common bean landraces represent heterogeneous, local adaptations of domesticated species, and thereby provide genetic resources that meet current and new challenges for farming. These local ecotypes can show variable phenology and low-to-moderate edible yield, however, they are highly nutritious. Therefore, strategies to stimulate the conservation of this genetic diversity are important. The maintenance of seed germination potential is also an important feature in the characterization of genetic diversity to conserve biodiversity. The main objective of this study was to discriminate common bean landrace cultivars available at Santa Catarina State University (UDESC) germplasm bank according to their seed physiological diversity and agronomic parameters (germination rate, viability, seed vigor, and seedling growth) and based on Mulamba and Mock selection index. There is a large physiological diversity in common bean landrace cultivars. BAF 112 and BAF 81, BAF 84, BAF 42, BAF 60, and BAF 75, were identified as more promising for the storage of the seeds under conventional conditions, being able to maintain the viability and vigor during storage. Mulamba and Mock selection index were capable of selecting superior cultivars with high physiological quality.(AU)

As variedades crioulas de feijão representam adaptações locais heterogêneas de espécies domesticadas e, assim, fornecem recursos genéticos que atendem aos desafios atuais e novos da agricultura. Estes ecótipos locais podem mostrar fenologia variável e produtividade, baixa a moderada, mas são altamente nutritivos. Portanto, estratégias para estimular a conservação dessa diversidade genética são importantes. A manutenção do potencial de germinação de sementes também é uma característica relevante na caracterização da diversidade genética, a fim de conservar a biodiversidade. Objetivou-se com este trabalho discriminar cultivares de feijão da Universidade Estadual de Santa Catarina (UDESC) quanto à diversidade fisiológica de sementes e parâmetros agronômicos (taxa de germinação, viabilidade, vigor de sementes e crescimento de plântulas) e com base em Mulamba e Índice de seleção de simulação. Existe uma grande diversidade fisiológica nas cultivares de feijão. BAF 112 e BAF 81, BAF 84, BAF 42, BAF 60 e BAF 75, foram identificados como os mais promissores para o armazenamento de sementes sob condições convencionais, sendo capazes de manter a viabilidade e vigor durante o armazenamento. O índice de seleção de Mulamba e Mock foi capaz de selecionar cultivares superiores com alta qualidade fisiológica.(AU)

Physiological diversity in Brazilian common bean (Phaseolus vulgaris L) landraces based on selection index / Diversidade fisiológica em feijão comum brasileiro (Phaseolus vulgaris L) com base no índice de seleção

Common bean landraces represent heterogeneous, local adaptations of domesticated species, and thereby provide genetic resources that meet current and new challenges for farming. These local ecotypes can show variable phenology and low-to-moderate edible yield, however, they are highly nutritious. Therefore, strategies to stimulate the conservation of this genetic diversity are important. The maintenance of seed germination potential is also an important feature in the characterization of genetic diversity to conserve biodiversity. The main objective of this study was to discriminate common bean landrace cultivars available at Santa Catarina State University (UDESC) germplasm bank according to their seed physiological diversity and agronomic parameters (germination rate, viability, seed vigor, and seedling growth) and based on Mulamba and Mock selection index. There is a large physiological diversity in common bean landrace cultivars. BAF 112 and BAF 81, BAF 84, BAF 42, BAF 60, and BAF 75, were identified as more promising for the storage of the seeds under conventional conditions, being able to maintain the viability and vigor during storage. Mulamba and Mock selection index were capable of selecting superior cultivars with high physiological quality.

As variedades crioulas de feijão representam adaptações locais heterogêneas de espécies domesticadas e, assim, fornecem recursos genéticos que atendem aos desafios atuais e novos da agricultura. Estes ecótipos locais podem mostrar fenologia variável e produtividade, baixa a moderada, mas são altamente nutritivos. Portanto, estratégias para estimular a conservação dessa diversidade genética são importantes. A manutenção do potencial de germinação de sementes também é uma característica relevante na caracterização da diversidade genética, a fim de conservar a biodiversidade. Objetivou-se com este trabalho discriminar cultivares de feijão da Universidade Estadual de Santa Catarina (UDESC) quanto à diversidade fisiológica de sementes e parâmetros agronômicos (taxa de germinação, viabilidade, vigor de sementes e crescimento de plântulas) e com base em Mulamba e Índice de seleção de simulação. Existe uma grande diversidade fisiológica nas cultivares de feijão. BAF 112 e BAF 81, BAF 84, BAF 42, BAF 60 e BAF 75, foram identificados como os mais promissores para o armazenamento de sementes sob condições convencionais, sendo capazes de manter a viabilidade e vigor durante o armazenamento. O índice de seleção de Mulamba e Mock foi capaz de selecionar cultivares superiores com alta qualidade fisiológica.

GERMINATIVE POTENTIAL IN QUINOA (Chenopodium quinoa Willd.) SEEDS STORED UNDER COOL CONDITIONS / POTENCIAL GERMINATIVO EN SEMILLAS DE QUINUA (Chenopodium quinoa Willd.) ALMACENADAS BAJO CONDICIONES DE FRÍO

ABSTRACT Quinoa is a crop with high potential due to its nutritional properties, wide adaptation to edaphoclimatic conditions and genetic diversity. This research aimed at evaluating four accessions of quinoa (Chenopodium quinoa) seeds, as well as their viability and germination percentage after cold storage. Storage temperatures and time were 4-20, -80°C and 10 months, with evaluation every two months. Initial seed viability was lower than 71% for all accessions and moisture content 10%. After storage, all accessions showed an increase in germination percentage. The accession with the greatest increase in terms of germination and the lowest moisture level (10,66%) before treatments, was the Nariño cultivar. Quinoa seed showed a secondary dormancy because of adverse storage conditions, this was inferred from the better response in germination after cold storage treatment. On the other hand, quinoa loses its germinative potential in short periods of time when stored under environmental conditions, therefore, regarding its storage, cool conditions and seed moisture content near 10% are recommended.

RESUMEN La quinua es un cultivo con alto potencial, por sus propiedades nutricionales, adaptación a diferentes condiciones edafoclimáticas y diversidad genética. La presente investigación tuvo como objetivo evaluar la viabilidad y el porcentaje de germinación de semillas de quinua (Chenopodium quinoa), en cuatro accesiones, procedentes de cultivos tradicionales, posterior a un almacenamiento en condiciones de frío. Las temperaturas de almacenamiento fueron 4 -20 y -80°C, durante un tiempo de diez meses, con periodos de evaluación cada dos meses. La viabilidad inicial de las semillas estuvo inferior al 71% para todas las accesiones y con humedad en semilla, cercana al 10%. Posterior al almacenamiento, los resultados indicaron un incremento en el porcentaje de germinación, presentando una mejor respuesta el cultivar Nariño, caracterizada con un menor nivel de humedad (10,66%), previo a los tratamientos. La semilla de quinua presenta dormancia secundaria frente a condiciones adversas en su almacenamiento, ya que, posterior al uso de frío, se presentó mejor respuesta en germinación. De otro lado, bajo almacenamiento en condiciones ambientales, la quinua pierde su potencial germinativo en cortos periodos de tiempos, por lo tanto, se recomienda su almacenamiento en condiciones de frío y con un contenido de humedad de la semilla cercana al 10%.

Germination and seed conservation of a pioneer species, Tecoma stans (Bignoniaceae), from tropical dry forest of Colombia / Germinación y conservación de semillas de la especie pionera, Tecoma stans (Bignoniaceae), del bosque seco tropical de Colombia

Abstract Seed germination and seed longevity under different environmental conditions are fundamental to understand the ecological dynamics of a species, since they are decisive for its success within the ecosystem. Taking this into account, seed germination and seed storage behavior of a pioneer species of tropical dry forest (Tecoma stans) were studied in the laboratory, to establish the effect of different environmental conditions on a local tree population. Two seed lots collected in July 2011, from Cali (Colombia), were evaluated under three alternating temperatures (20/30, 20/25, 25/30 ºC; 16/8 h) and four light qualities (12-hour white light photoperiod, darkness, and 15 minutes of red light -R and far red light -FR). Final germination was recorded for all treatments; for white light treatment the daily germination was recorded to calculate mean germination rate, mean germination time, and two synchronization indices. To assess the effect of light quality on physiological variables, a destructive germination test was carried out. For this test, another seed lot was evaluated under the same light conditions using an alternating temperature of 20/30 °C - 16/8 h, recording germination during six days for every treatment. In addition, seeds were stored at two different moisture contents (7.7, 4.1 %) and three storage temperatures (20, 5, -20 ºC), during two time periods (one and three months); a seed germination test was conducted for each treatment. Four replicates of 35 seeds per treatment were used for all experiments. Germination was high (GP > 90 %) with all alternating temperatures under white light, whereas under R, FR, and darkness germination was evenly successful at low temperatures, but at higher temperature, half of the seeds entered into secondary dormancy (GP= 45-65 %). However, mean germination rate and synchronization under R and FR decreased significantly in comparison to white light treatment and, consequently, mean germination time increased. Seed storage behavior of this species is orthodox due to the high germination (GP > 90 %) obtained under all treatments. In conclusion, T. stans seeds have a negative germination response at high incubation temperatures in the absence of white light, entering into a secondary dormancy. In contrast, an environment with a lower temperature and without white light delays the germination, but at the end seeds are able to reach the same germination values. This seed dependence on incident light in limiting conditions suggests a physiological mechanism on the seed tissues of this species, probably mediated by phytochromes. Finally, the orthodox seed storage behavior of T. stans is a reason to include this species in ex situ seed conservation programs for restoration and recovery of the tropical dry forest; however, long-term studies should be conducted in order to evaluate the maintenance of this characteristic throughout longer periods of time. Rev. Biol. Trop. 66(2): 918936. Epub 2018 June 01.

Resumen La germinación y la longevidad de las semillas de una especie bajo diferentes condiciones ambientales son fundamentales para las dinámicas ecológicas de una especie, debido a que son decisivas en el éxito de la misma en un ecosistema. Teniendo en cuenta esto, se estudió la germinación y el comportamiento en el almacenamiento de las semillas de una especie pionera de bosque seco tropical (Tecoma stans) a nivel de laboratorio, para establecer el efecto de diferentes condiciones ambientales en una población local de árboles. Dos lotes de semillas recolectados en julio 2011, de Cali (Colombia), se evaluaron a tres temperaturas alternadas (20 / 30, 20 / 25, 25 / 30 °C; 16 / 8 h) y cuatro calidades de luz (fotoperiodo de 12 horas de luz blanca, oscuridad, y 15 minutos de luz roja -R y roja lejana -RL). Se registró la germinación final para todos los tratamientos; para el tratamiento de luz blanca se registró la germinación diaria para calcular la tasa media de germinación, el tiempo medio de germinación y dos índices de sincronización. Para evaluar el efecto de la calidad de luz sobre las variables fisiológicas, se realizó una prueba de germinación destructiva. Para esta prueba, otro lote de semillas fue puesto a las mismas condiciones de luz usando una temperatura alternada de 20 / 30 °C - 16 / 8 h, registrando la germinación durante seis días para cada tratamiento. Además, se almacenaron semillas a dos contenidos de humedad (7.7, 4.1 %) y a tres temperaturas de almacenamiento (20, 5, -20 °C), durante dos periodos de tiempo (uno y tres meses); se realizó una prueba de germinación a cada tratamiento. Cuatro repeticiones de 35 semillas por cada tratamiento se usaron en cada experimento. La germinación fue alta (PG > 90 %) en todas las temperaturas alternadas con luz blanca, mientras que en los tratamientos de luz R, RL y en oscuridad, la germinación fue igualmente exitosa a bajas temperaturas, pero a temperaturas más altas la mitad de las semillas entraron en latencia secundaria (PG= 45-65 %). Sin embargo, la tasa media de germinación y la sincronización en R y RL disminuyeron significativamente en comparación con el tratamiento de luz blanca y consecuentemente el tiempo medio de germinación aumentó. El comportamiento de las semillas de T. stans en el almacenamiento es ortodoxo debido a la alta germinación obtenida (PG > 90 %) en todos los tratamientos. En conclusión, las semillas de T. stans tienen una respuesta germinativa negativa a temperaturas de incubación alta en ausencia de luz blanca, donde entran a latencia secundaria. En contraste, un ambiente con baja temperatura y sin luz blanca retrasa la germinación, pero al final las semillas son capaces de alcanzar los mismos valores de germinación. Esta dependencia de las semillas a la luz incidente en condiciones limitantes sugiere la presencia de un mecanismo fisiológico en los tejidos de esta especie, probablemente mediado por fitocromos. Finalmente, el comportamiento ortodoxo de las semillas de T. stans en el almacenamiento abre la posibilidad de incluirla en programas de conservación ex situ para la restauración y recuperación del bosque seco tropical; no obstante, se deben llevarse a cabo pruebas más largas para evaluar el mantenimiento de esta característica por periodos de tiempo más largos.

Cloning of cDNA sequences encoding cowpea (Vigna unguiculata) vicilins: Computational simulations suggest a binding mode of cowpea vicilins to chitin oligomers.

Vicilins are 7S globulins which constitute the major seed storage proteins in leguminous species. Variant vicilins showing differential binding affinities for chitin have been implicated in the resistance and susceptibility of cowpea to the bruchid Callosobruchus maculatus. These proteins are members of the cupin superfamily, which includes a wide variety of enzymes and non-catalytic seed storage proteins. The cupin fold does not share similarity with any known chitin-biding domain. Therefore, it is poorly understood how these storage proteins bind to chitin. In this work, partial cDNA sequences encoding ß-vignin, the major component of cowpea vicilins, were obtained from developing seeds. Three-dimensional molecular models of ß-vignin showed the characteristic cupin fold and computational simulations revealed that each vicilin trimer contained 3 chitin-binding sites. Interaction models showed that chito-oligosaccharides bound to ß-vignin were stabilized mainly by hydrogen bonds, a common structural feature of typical carbohydrate-binding proteins. Furthermore, many of the residues involved in the chitin-binding sites of ß-vignin are conserved in other 7S globulins. These results support previous experimental evidences on the ability of vicilin-like proteins from cowpea and other leguminous species to bind in vitro to chitin as well as in vivo to chitinous structures of larval C. maculatus midgut.

Analyses of several seed viability markers in individual recalcitrant seeds of Eugenia stipitata McVaugh with totipotent germination.

The use of biochemical seed viability markers is often compromised by the unknown partitioning of analytes in bulk seed lots consisting of inseparable populations of viable and nonviable seeds. We took advantage of an unusual morphological syndrome found in the recalcitrant, undifferentiated seeds of Eugenia stipitata: one seed can be cut into several parts, each of which can germinate and develop into seedlings. We used four seed parts from one individual seed to analyse seed moisture content (MC), seed viability and the antioxidant glutathione (γ-glutamyl-cysteinyl-glycine; GSH), glutathione disulphide (GSSG) and intermediates of glutathione synthesis and breakdown. Seeds were exposed to different environmental MC to induce various levels of desiccation stress. Upon storage at high seed MC, seed viability was maintained, while GSH concentration increased and the glutathione half-cell reduction potential (EGSSG/2GSH ) was less negative than -215 mV, indicating GSH production and highly reducing conditions. Storage at low seed MC led to loss of GSH, resulting in a shift in EGSSG/2GSH , and seed death. In contrast, the cyst(e)ine half-cell reduction potential (ECySS/2CYS ) could not distinguish between the viability categories. Previous studies on seed populations revealed that the probability for a seed being alive is 50% at EGSSG/2GSH values between -180 and -160 mV. The single seed approach revealed that the window in which seed viability was lost could be slightly shifted towards more negative values. We discuss the contribution of cellular pH to EGSSG/2GSH and recommend E. stipitata as a recalcitrant seed model to study stress response on a single seed basis.

Seed dormancy of Ochradenus baccatus (Resedaceae), a shrubby species from Arabian desert regions / Dormición de semillas de Ochradenus baccatus (Resedaceae), una especie arbustiva de las regiones desérticas arábicas

Abstract:Ochradenus baccatus is a perennial glycophyte growing in Middle East and it is one of the most important food sources for many animal species in desert regions. The aim of our study was to investigate the effects of seed storage, light, temperature and gibberellic acid (GA3) on germination of O. baccatus seeds. We also investigated the germination characteristics of O. baccatus seeds under different saline concentration and their capability to recover germination once they were transferred to distilled water. Seeds were stored at room temperature (20 ± 2 ºC) and at -18 ºC. Germination tests were conducted at alternating temperatures of 15/25, 20/30 and 25/35 ºC in either continuous darkness or photoperiod of 12-h dark/12-h light. To study the effect of GA3 on germination of O. baccatus seeds, freshly-collected seeds and stored seeds were soaked for 24 h in a GA3 water solution (1 g/L) before sowing. To assess the salinity tolerance during germination, seeds were germinated under different salinity levels (100, 200 and 400 mM NaCl). Stored seeds at room temperature and -18 ºC germinate equally well at different temperature regimes and light conditions. However, freshly matured seeds were not able to germinate even when they were treated with GA3. On the contrary, stored seeds at room temperature and -18 ºC treated with GA3 increase the final germination percentages. These results indicated that O. baccatus seeds have physiological dormancy and they need to be stored in order to break their dormancy. In the present study, one year of storage did not show a significant variation in germination between the two storage conditions assayed. Therefore, further research is needed to know about the maximum storage period for O. baccatus seeds under different storage conditions. Very few O. baccatus seeds (less than 5 %) germinated at the tested lowest concentration of NaCl. However, ungerminated seeds were able to germinate when salinity stress was alleviated. In conclusion, O. baccatus seeds have physiological dormancy, and seed storage (at room temperature and at -18 ºC) for one year is effective for breaking this dormancy. In addition, O. baccatus seeds present ability to remain viable in saline conditions and they will be able to germinate once the salinity level decrease. Rev. Biol. Trop. 64 (3): 965-974. Epub 2016 September 01.

ResumenOchradenus baccatus es un glicófito perenne que crece en oriente Medio y es una de las fuentes de alimentación más importantes para muchas especies animales de regiones desérticas. El objetivo de nuestro estudio fue investigar los efectos del almacenamiento de semillas, luz, temperatura y ácido giberélico (GA3) en la germinación de semillas de O. baccatus. También se ha investigado la germinación de semillas de O. baccatus bajo diferentes concentraciones salinas y su capacidad para recuperar la germinación una vez que fueron transferidas a agua destilada. Las semillas se conservaron a temperatura ambiente (20 ± 2 ºC) y a -18 ºC. Los ensayos de germinación se realizaron a temperaturas alternas de 15/25, 20/30 y 25/35 ºC bajo oscuridad continua o fotoperiodo de 12-h oscuridad/12-h luz. Para estudiar el efecto del GA3 en la germinación de semillas de O. baccatus, semillas recién recolectadas y semillas almacenadas se sumergieron durante 24 h en una solución acuosa de GA3 (1 g/L) antes de la siembra. Para evaluar la tolerancia a la salinidad durante la germinación, la semillas fueron germinadas bajo diferentes niveles de salinidad (100, 200 y 400 mM ClNa). Las semillas conservadas a temperatura ambiente y a -18 ºC germinaron igualmente bien en los diferentes regímenes de temperatura y condiciones de iluminación. Sin embargo, las semillas recién maduradas fueron incapaces de germinar incluso cuando se trataron con GA3. Por el contrario, las semillas almacenadas tratadas con GA3 incrementaron los porcentajes finales de germinación. Estos resultados indican que las semillas de O. baccatus tienen dormición fisiológica y necesitan ser almacenadas para romperla. En este estudio, un año de conservación no supuso una variación significativa en la germinación entre las dos condiciones de conservación ensayadas. Por lo tanto, se precisan investigaciones adicionales para conocer cuáles son los periodos máximos de almacenamiento de semillas de O. baccatus bajo diferentes condiciones de conservación. Muy pocas semillas de O. baccatus (menos del 5 %) germinaron a la concentración más baja de ClNa. Sin embargo, las semillas no germinadas fueron capaces de germinar cuando el estrés salino fue aliviado. En conclusión, las semillas de O. baccatus tienen dormición fisiológica y el almacenamiento de las mismas (a temperatura ambiente y a -18 ºC) durante un año es eficaz para romper dicha dormición. Además, las semillas de O. baccatus presentan capacidad para permanecer viables en condiciones salinas y serán capaces de germinar una vez que el nivel de salinidad disminuya.

Longevity and germination of Syagrus romanzoffiana (Arecaceae) seeds and its ecological implications / Longevidad y germinación de semillas de Syagrus romanzoffiana (Arecaceae) y sus implicaciones ecológicas

Syagrus romanzoffiana is a palm tree native and widely distributed of South America. The present study investigated the longevity and germination of the buried seeds of this species in an experimental seed bank. Laboratory germination and viability tests were performed for comparison with field results. Pyrenes (seeds enclosed by the endocarp) were buried in a forest fragment edge in July 2012 (dry season) and exhumed monthly during one year, for the assessment of water content and percentage of germinated and viable seeds. Germination tests were conducted in a Mangelsdorf-type germinator at 30°C under constant light and the viability was assessed by the tetrazolium test. An additional sample of pyrenes was buried to evaluate the percentage of seedling emergence and survival. Climatic and soil moisture data were recorded. In the laboratory, the pyrenes were stored for one year in a temperature-controlled room at 20ºC and 75% (±10%) relative air humidity to assess changes in the percentage of germination and viability over time. In the field, a reduction in seed viability was observed over the study period, with a total loss of viability of non-germinated seeds at seven months after burial. The maximum germination (close to 26%) was observed in the samples that were exhumed between five and seven months after burial. In the field, seedling emergence did not exceed 10% and seedling mortality was not observed. The percentages of germination and of viable seeds decreased both in burial and stored seeds. The stored seeds maintained viability at up to six months, with marked reduction thereafter. After the germination tests (four months) in the laboratory, all of the remaining seeds were nonviable. The ecological, physiological and reproductive characteristics of the species are discussed, and we concluded that S. romanzoffiana seeds have short longevity after imbibition, and low potential for soil seed bank formation. Rev. Biol. Trop. 63 (2): 333-340. Epub 2015 June 01.

Syagrus romanzoffiana (Arecaceae) es una palma nativa y ampliamente distribuida de América del Sur. El presente estudio investigó la longevidad y la germinación de las semillas enterradas de esta especie en un banco experimental. Se realizaron pruebas de germinación y viabilidad de laboratorio para hacer una comparación con los resultados de campo. Pirenos (semillas encerradas por el endocarpio) fueron enterrados en el borde de un fragmento de bosque en julio (época seca) y exhumados mensualmente por un año, para la evaluación del contenido de agua y del porcentaje de semillas germinadas y viables. Las pruebas de germinación se realizaron en un germinador tipo Mangelsdorf a 30°C bajo luz constante y la evaluación de la viabilidad se realizó con la prueba de tetrazólio. Una muestra adicional de pirenos fue enterrada para evaluar el porcentaje de emergencia de las plántulas. Se tomaron los datos climáticos y se determinó la humedad del suelo. En el laboratorio, los pirenos se almacenaron durante un año en una sala de temperatura controlada a 20°C y 75% (±10%) de humedad relativa del aire, para evaluar los cambios en el porcentaje de germinación y la viabilidad en el tiempo. En el campo, se observó una reducción de la viabilidad de las semillas durante el período de estudio, con una pérdida total de la viabilidad de las semillas no germinadas a los siete meses después del entierro. La germinación máxima (cerca de 26%) se observó en las muestras que fueron exhumadas entre cinco y siete meses después del entierro. En el campo, la emergencia de las plántulas no superó el 10% y no se observó mortalidad de plántulas. Los porcentajes de germinación y de semillas viables disminuyeron tanto en el suelo como en el laboratorio. Las semillas almacenadas mantuvieron la viabilidad hasta por seis meses de almacenamiento, con una reducción marcada a partir de entonces. Después de las pruebas de germinación (cuatro meses) en el laboratorio, todas las semillas restantes eran inviables. Discutimos las características ecológicas, fisiológicas y reproductivas de la especie, y llegamos a la conclusión de que las semillas de S. romanzoffiana tienen corta duración después de la imbibición y bajo potencial de formación del banco de semillas en el suelo.

Substrato e potencial de armazenamento para sementes de pau formiga / Substrate and storage potential of Triplaris brasiliana Cham. seeds

Foram avaliadas diferentes composições de substratos para germinação de sementes de pau formiga (Triplaris brasiliana Cham.) e seu potencial de armazenamento sob diferentes condições, observando-se germinação e vigor de sementes coletadas em novembro de 2011, no Polo Centro Norte/Agência Paulista de Tecnologia dos Agronegócios, Pindorama, SP. Após colheita, as sementes foram postas para germinar nos seguintes substratos: composto orgânico (mistura de compostagem de galhos picados, limões e terra argilosa) (Tratamento 1), substrato comercial (Tratamento 2) e areia (Tratamento 3). Quatro lotes provenientes de uma amostra de sementes foram armazenados nas condições: temperatura ambiente (saco de papel - Tratamento 1, e vidro - Tratamento 2) e em geladeira a 5ºC (vidro - Tratamento 3, e saco de papel - Tratamento 4). Determinou-se o teor de água das sementes pelo método da estufa a 105 ± 3oC (24 horas) em quatro repetições de 25 sementes, e com paquímetro mediram-se o comprimento e a largura de 100 sementes. Os testes de germinação em diferentes substratos foram instalados na mesma data - dia 18 de novembro de 2011 - em que diferentes lotes de sementes foram armazenados. Após 77 dias de armazenamento, em 3 de fevereiro de 2012, instalou-se um segundo teste de germinação em condições ambientes sob sombrite 50%, sob sistema de aspersão para irrigação em substrato comercial, que foi o

The germination of Triplaris brasiliana Cham. seeds in different substrates and its storage potential under different conditions were assessed by observing the germination and vigor of seeds collected in November 2011 at the Polo Centro Norte/Agência Paulista de Tecnologia dos Agronegócios, Pindorama, SP. After the harvest, the seeds were planted on the following substrates: organic compost consisting of a mix of chopped branches, limes, and clay loam (Treatment 1); commercial substrate (Treatment 2); and sand (Treatment 3). Four lots from a seed sample were stored in the following conditions: room temperature (paper bag - Treatment 1, and glass - Treatment 2); and in a refrigerator at 5o C (glass - Treatment 3, and paper bag - Treatment 4). The water content of four batches of 25 seeds was determined by the oven-dry method using a temperature of 105 ± 3C for 24 hours, and the length and width of the 100 seeds were measured with a caliper. The germination tests on different substrates began on the same date that different batches of the seeds were stored, November 18, 2011. After 77 days of storage (February 3, 2012), another germination test was conducted on a commercial substrate, under room temperature and humidity, and with 50% shading and sprinkler irrigation, which was the most suitable for the germination of Triplaris brasiliana Cham. The seeds remained viable for longe [...]

Substrato e potencial de armazenamento para sementes de pau formiga / Substrate and storage potential of Triplaris brasiliana Cham. seeds

Foram avaliadas diferentes composições de substratos para germinação de sementes de pau formiga (Triplaris brasiliana Cham.) e seu potencial de armazenamento sob diferentes condições, observando-se germinação e vigor de sementes coletadas em novembro de 2011, no Polo Centro Norte/Agência Paulista de Tecnologia dos Agronegócios, Pindorama, SP. Após colheita, as sementes foram postas para germinar nos seguintes substratos: composto orgânico (mistura de compostagem de galhos picados, limões e terra argilosa) (Tratamento 1), substrato comercial (Tratamento 2) e areia (Tratamento 3). Quatro lotes provenientes de uma amostra de sementes foram armazenados nas condições: temperatura ambiente (saco de papel - Tratamento 1, e vidro - Tratamento 2) e em geladeira a 5ºC (vidro - Tratamento 3, e saco de papel - Tratamento 4). Determinou-se o teor de água das sementes pelo método da estufa a 105 ± 3oC (24 horas) em quatro repetições de 25 sementes, e com paquímetro mediram-se o comprimento e a largura de 100 sementes. Os testes de germinação em diferentes substratos foram instalados na mesma data - dia 18 de novembro de 2011 - em que diferentes lotes de sementes foram armazenados. Após 77 dias de armazenamento, em 3 de fevereiro de 2012, instalou-se um segundo teste de germinação em condições ambientes sob sombrite 50%, sob sistema de aspersão para irrigação em substrato comercial, que foi o

The germination of Triplaris brasiliana Cham. seeds in different substrates and its storage potential under different conditions were assessed by observing the germination and vigor of seeds collected in November 2011 at the Polo Centro Norte/Agência Paulista de Tecnologia dos Agronegócios, Pindorama, SP. After the harvest, the seeds were planted on the following substrates: organic compost consisting of a mix of chopped branches, limes, and clay loam (Treatment 1); commercial substrate (Treatment 2); and sand (Treatment 3). Four lots from a seed sample were stored in the following conditions: room temperature (paper bag - Treatment 1, and glass - Treatment 2); and in a refrigerator at 5o C (glass - Treatment 3, and paper bag - Treatment 4). The water content of four batches of 25 seeds was determined by the oven-dry method using a temperature of 105 ± 3C for 24 hours, and the length and width of the 100 seeds were measured with a caliper. The germination tests on different substrates began on the same date that different batches of the seeds were stored, November 18, 2011. After 77 days of storage (February 3, 2012), another germination test was conducted on a commercial substrate, under room temperature and humidity, and with 50% shading and sprinkler irrigation, which was the most suitable for the germination of Triplaris brasiliana Cham. The seeds remained viable for longe [...] (AU)

Germinación de semillas de cuatro especies arbóreas del bosque seco tropical del Valle del Cauca, Colombia / Seed germination of four tree species from the tropical dry forest of Valle del Cauca, Colombia

The ecological restoration strategies for highly threatened ecosystems such as the tropical dry forest, depend on the knowledge of limiting factors of biological processes for the different species. Some of these include aspects such as germination and seed longevity of typical species present in those forests. In this study, we evaluated the effect of light and temperature on seed germination of two Fabaceae (Samanea saman and Jacaranda caucana) and two Bignoniaceae (Pithecellobium dulce and Tabebuia rosea) species having potential use in restoration, and we analyzed the seed storage behavior of these species for a three months period. To study the light effect, four levels of light quality on seeds were used (photoperiod of 12 hours of white light, darkness and light enriched in red and far-red, both for an hour each day), and we combined them with three levels of alternated temperatures (20/25, 20/30 and 25/30°C-16/8h). For the storage behavior, two levels of seed moisture content particular for each species were used (low: 3.5-6.1% and high: 8.3-13.8%), with three storage temperatures (20, 5 and -20°C) and two storage times (one and three months). The criterion for germination was radicle emergence which was measured in four replicates per treatment, and was expressed as percentage of germination (PG). There were significant differences in germination of Samanea saman and Jacaranda caucana among light and temperature treatments, with the lowest value in darkness treatments, whereas germination of Pithecellobium dulce and Tabebuia rosea did not differ between treatments (PG>90%). The most suitable temperature regime to promote germination in all species was 25/30°C. These four species showed an orthodox seed storage behavior. We concluded that seeds of P. dulce, J. caucana and T. rosea did not have an apparent influence of all light conditions tested in their germination response, which might confer advantages in colonization and establishment processes, while S. saman did not germinate well in darkness. We suggest the use of seeds of P. dulce, J. caucana and T. rosea in ecological restoration processes, due to their tolerance and germination under a wide range of temperature and light conditions. Futhermore, seeds of S. saman might be used in open areas such as forest gaps.

Las estrategias de restauración ecológica en ecosistemas altamente amenazados como el bosque seco tropical, dependen del conocimiento de factores limitantes de procesos biológicos, como la germinación y la longevidad de semillas de especies típicas de los mismos. En este estudio se evaluó el efecto de la luz y la temperatura en la germinación de semillas de dos especies de Fabaceae y dos de Bignoniaceae potencialmente útiles para restauración, y se determinó su comportamiento en el almacenamiento. Para el primer objetivo, se utilizaron cuatro niveles de calidad lumínica (fotoperiodo con 12 horas de luz, oscuridad y estímulos de luz enriquecida en rojo y luz enriquecida en rojo lejano, ambas por una hora), combinados con tres niveles de temperaturas alternadas (20/25, 20/30 y 25/30°C - 16/8h). Para el segundo objetivo, se utilizaron dos niveles de contenido de humedad de las semillas, con tres niveles de temperatura de almacenamiento (20, 5 y -20°C) y dos tiempos de almacenamiento (1 y 3 meses). La variable de respuesta para ambos experimentos fue el número de semillas germinadas, expresado en porcentaje (PG). Samanea saman y Jacaranda caucana presentaron un PG significativamente diferente entre los tratamientos lumínicos, con el valor menor en la oscuridad, mientras Pithecellobium dulce y Tabebuia rosea no presentaron diferencias significativas entre tratamientos (PG>90%). La respuesta a la temperatura mostró que 25/30°C es el régimen más adecuado para promover la germinación de la mayoría de las especies. Las semillas de las cuatro especies evaluadas presentaron un comportamiento ortodoxo en el almacenamiento. Se concluye que las semillas de P. dulce, J. caucana y T. rosea son indiferentes a las condiciones de luz y temperatura probadas, confiriéndoles ciertas ventajas en procesos de colonización y establecimiento frente a S. saman, cuya germinación no se ve favorecida en la oscuridad. Se sugiere el uso de semillas de P. dulce, J. caucana y T. rosea en proyectos de restauración ecológica del bosque seco Tropical, debido a su tolerancia y germinación en condiciones ambientales con intervalos amplios de temperatura y luminosidad. Mientras que, semillas de S. saman podrían ser usadas en sitios abiertos como claros de bosques.

Increasing the rate of drying reduces metabolic imbalance, lipid peroxidation and critical water content in radicles of garden pea (Pisum sativum L.)

Orthodox seeds become desiccation-sensitive as they undergo germination. As a result, germinating seeds serve as a model to study desiccation sensitivity in plant tissues. The effects of the rate of drying on the viability, respiratory metabolism and free radical processes were thus studied during dehydration and wet storage of radicles of Pisum sativum. For both drying regimes desiccation could be described by exponential and inverse modified functions. Viability, as assessed by germination capacity and tetrazolium staining, remained at 100% during rapid (< 24 h) desiccation. However, it declined sharply at c. 0.26 g g¹ dm following slow (c. 5 days) drying. Increasing the rate of dehydration thus lowered the critical water content for survival. Rapid desiccation was also associated with higher activities and levels of malate dehydrogenase and the oxidized form of nicotinamide adenine dinucleotide. It was also accompanied by lower hydroperoxide levels and membrane damage. In addition, the activitiy of glutathione reductase was greater during rapid drying. Ageing may have contributed to increased damage during slow dehydration, since viability declined even in wet storage after two weeks. The results presented are consistent with rapid desiccation reducing the accumulation of damage resulting from desiccation-induced aqueous-based deleterious reactions. In addition, they show that radicles are a useful model to study desiccation sensitivity in plant tissues.

Protein hydrophobic dressing on seeds aiming at the delay of undesirable germination

Polymer seed-coatings have been largely tested as an alternative method for preventing diseases and have the potential to be used to control undesirable germination and thereby increasing seed storage. Amongst these, the protein-based coatings can be applied with advantage of forming stable biodegradable and hydrophobic films. Due to their chemical structure, protein dressings act as efficient barriers for water uptake, even when seeds are unavoidable exposed to a moist environment. In this work, the effect of hydrophobic dressings was tested on the germination rate of sugar beet (Beta vulgaris L.) and broccolis (Brassica oleraceae var italic L.) seeds under laboratorial condition. Zein, natural maize (Zea mays L.) proteins extracted from gluten meal, was used as precursor polymers to form the coatings. Seeds were dressed by direct submersion into a zein/ethanol formulation of zein concentration of 3.0 g L-1, followed by natural air drying. The resultant coating has elevated the hydrophobic feature due to the high content amino acids present in the structure of the zein. For both types of seeds an overall delay in sprouting and germination was observed, with a more accentuated reduction on sugar beet germination percentage after eleven days of measurements. The effect on germination rates is understood as the efficiency of the zein coating to form a physical barrier preventing water permeation into the seeds.

Filmes com características hidrofóbicas baseados em proteínas foram avaliados como revestimento em sementes de beterraba e brócolis, com o objetivo de prevenir germinações prematuras pela redução na absorção de água. Zeínas, proteínas naturais extraídas do glúten de milho, foram empregados como polímeros precursores na elaboração das soluções de cobertura. Os revestimentos se deram pela completa imersão das sementes em formulação zeínas/etanol na concentração de 3,0 g L-1, seguidos de secagem ao ar. Os filmes resultantes apresentam elevada natureza hidrofóbica como resultado do alto teor de amino ácidos presentes na estrutura dessas proteínas. Para ambas as sementes testadas, os resultados apontam um atraso no período de geminação, sendo mais acentuado na porcentagem medida para a beterraba após o período de 11 dias. As diferenças entre as taxas de germinação são discutidas em termos da ação do filme como barreira física reduzindo a permeação de água para o interior das sementes. O estudo demonstra potencial aplicação de zeínas como substrato na redução de germinações indesejáveis durante estocagem em substituição a polímeros usualmente empregados para este fim.