962 resultados para Sweet cassava
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Cassava is an important staple food for human and animal feeding in Cuba. Despite its importance, there is little or nonexistent information to diagnose preferences and frequency of consumption of cassava in that country. In this sense, the present article characterizes the preferences and frequency of consumption of cassava in the municipalities of Plaza de la Revolución-La Habana province, El Salvador–Guantanamo province and San José de Las Lajas–Mayabeque province in Cuba. A survey was conducted through a questionnaire containing twelve closed and two open questions. The sample was determined based on the number of total population of each municipality considering 95% as confidence interval and 5% as error margin. The results were statistically analyzed by calculating the absolute and the relative frequencies of each question. It was observed that the acquisition of cassava in the municipalities of Plaza de la Revolución, El Salvador and San José de las Lajas in Cuba is done by purchase small quantities of fresh cassava for home consumption within one week, due to the extreme perishability of cassava, which limits consumers' ability to store fresh roots at home. The choice of cassava is made based on both skin colour (light brown) and pulp (white) and empirical knowledge about its ease of cooking, and that cassava is mostly consumed in boiled and fried forms up to four times a week in times where there is root market supply with the desirable culinary characteristics (cooking facility), that is, from September to December.
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A mandioca é cultivada como "mandioca mansa" para consumo in natura e "mandioca para indústria" como fonte de amidos e farinhas. Raças locais foram utilizadas para descoberta de "mutações espontâneas" e desenvolvimento de abordagem evolutiva e de melhoramento para estudos de função gênica. Recursos de Genômica e Proteômica foram obtidos. Análises de expressão gênica por blot de RNA e microarranjos foram desenvolvidos para identificação de expressão diferencial. "Mandioca açucarada" foi identificada, sendo relacionada com falta de expressão do gene da BEI e de uma mutação "nonsence" na sequência do gene GBSSI causando a formação do amido serose. "Mandioca avermelhada" apresentou falta de expressão do gene CasLYB, e a "amarela" uma regulação de repressão do gene CasHYb. Análise Proteômica do complexo carotenóide-proteína, juntamente com a análise de expressão de gene da CAP4, revelaram uma dupla fita de cDNA associada ao elevado acúmulo de carotenóide. Sequenciamento do gene da GBSSI identificou 22 haplótipos e grande diversidade de nucleotídios. Populações segregantes de cruzamentos de fenótipos bioquímicos diferenciados com cultivares elites dos Cerrados foram obtidas.
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Louise von Panhuys
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Louise von Panhuys
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)
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Foram realizadas determinações físico-químicas na raiz de mandiocaba, sendo estas: umidade, fibras, proteínas, cinzas, lipídios totais, açúcares redutores e totais; o caldo foi caracterizado através das análises de pH, sólidos solúveis totais, glicose e acidez titulável. Após o conhecimento dos constituintes físico-químicos da matéria-prima, o caldo de mandioca doce foi extraído e fermentado utilizando a levedura Saccharomycescerevisiae PE-2. Foram realizados 15 ensaios que seguiam as condições determinadas através do planejamento experimental de Box-Behnken, com 3 variáveis independentes: temperatura (ºC) (X1), pH (X2), e concentração de inóculo (g/L) (X3); os limites dos níveis de trabalho foram determinados através de dados encontrados na literatura; a análise estatística foi realizada com p>0,05. Através da análise de variância foi proposto um modelo polinomial de segunda ordem para a resposta teor alcoólico (ºGl), e com a utilização da metodologia de superfície de resposta à condição ótima para o desenvolvimento do processo fermentativo do caldo de mandioca doce sem adição de nutrientes e em sua concentração de substrato original (6,46 g/L), a: temperatura de 28ºC, pH de 4,88, e concentração de inóculo de 10 g/L. Nestas condições foi realizado um ensaio, cujo objetivo foi o de levantar as curvas de crescimento celular (levedura), produção de CO2, consumo de açúcares redutores e produção de etanol, para melhor compreensão do processo de fermentação do caldo de mandioca doce. Através da curva de crescimento celular foi determinada a duração da fase exponencial, utilizando o método de regressão linear; neste estudo esta etapa ocorreu em diferentes intervalos de tempo. O valor de µm encontrado foi de 0,05 h-1.
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)
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A mandioca (Manihot esculenta Crantz) é considerada uma espécie relevante como fonte alimentícia para a população mundial, principalmente para os países subdesenvolvidos e emergentes. A mandioca é fornecedora de energia a partir do amido acumulado em suas raízes de reserva, mas é também importante destacar a presença dos carotenóides com atividade antioxidante. Nesse contexto, o presente trabalho teve como objetivo caracterizar, por meio de descritores morfológicos, agronômicos e bioquímicos, clones elite de mandioca de mesa de polpa aparelhada e rosada do programa de melhoramento genético de mandioca da Embrapa Cerrados. Foram caracterizados durante duas safras, 13 clones de mandioca de mesa com polpa amarelada e 8 clones com polpa rosada, em comparação com a variedade testemunha IAC 576-70 (BGMC 753). Para avaliar as características morfológicas foram obtidos 40 descritores qualitativos para cada clone. Tanto nos clones de polpas amarelada quanto naqueles de raízes de polpas rosada, houve diferenças morfológicas, demostrando que nenhum clone apresentou 100% de similaridade. O fator ano/safra não influenciou a expressão fenotípica dos caracteres aferidos. Com base no coeficiente cofenético, verificou-se elevado ajuste entre a representação gráfica via dendrograma de r = 0,80 nas raízes de polpa amarelada e r = 0,92 na rosada e a matriz de dissimilaridade genética. Entre os caracteres aferidos, os que apresentaram maior entropia nas raízes amarelada foram, a coloração da epiderme externa, forma do lóbulo central da folha e cor do córtex da raiz, ao passo que na rosada foi à cor do disco, forma do lóbulo central e cor do pecíolo. Foi realizada também a caracterização com base na altura da planta, altura da primeira ramificação, peso da parte aérea sem a cepa, produtividade em raízes, índices de amido nas raízes determinados por meio do método da balança hidrostática, tempo para a cocção e teor de ácido cianídrico nas raízes. Com base nos caracteres avaliados, os clones que se destacaram com polpa amarelada e rosada respectivamente, no caractere altura da primeira ramificação (273/08 e 259/08) e (390/08, 345/08 e a testemunha IAC 576-70), altura da planta (90/08, 272/08, 273/08, 497/08, 259/08 e 450/08) e (390/08, 345/08 e 378/08), peso da parte aérea sem a cepa (94/08 e 272/08) e (390/08, 406/08, 390/08, 378/08 e 341/08), porcentagem de amido nas raízes (26/08, 272/08, 259/08 e 450/08) e (378/08, 413/08, 390/08 e a testemunha IAC 576-70), produtividade de raízes (215/08) e (testemunha IAC 576-70, 341/08, 406/08, 390/08 e 387/08). Com relação ao tempo de cocção na safra 2011/2012, todos os clones necessitaram de tempo inferior a 30 minutos. Em relação ao teor de carotenóides totais nas raízes os clones de amarelada que se destacaram foram 91/08, 94/08, 215/08, 246/08, 272/08 e 497/08, e, naqueles de raízes rosada, os clones 406/08 e 341/08. Em relação ao teor de proteínas nas raízes amarelada, os clones 26/08, 90/08 e 91/08, foram os melhores enquanto nas raízes rosada se destacaram os clones 406/08 e a testemunha IAC 576-70. Os teores de HCN nas raízes de reserva de mandioca foram inferiores a 100 mg kg-1 em todos os clones avaliados. Diferenças significativas entre clones de mandioca de polpas amarelada e rosada foram verificadas para todas as características agronômicas, morfológicas e bioquímicas avaliadas. Os clones tiveram bom desempenho nas avaliações para o cultivo comercial na região do Cerrado e, alguns destes, têm potencial para utilização no melhoramento visando o incremento de carotenóides. ABSTRACT: Cassava (Manihot esculenta Crantz) is considered a relevant species as a food source for the world's population, particularly for developing and emerging countries. The cassava is a provider of energy from starch accumulated in their reserve roots, but it is also important to highlight the presence of carotenoids with antioxidant activity. In this context, this study aimed to characterize, using morphological, agronomic and biochemical, descriptors elite clones from sweet cassava of yellowish and pinkish pulps from the cassava breeding program at Embrapa Cerrados. They were characterized for two crops, 13 edible cassava clones with yellowish pulp and 8 clones with pinkish pulp, compared with the control variety IAC 576-70 (BGMC 753). To evaluate the morphological characteristics were obtained 40 qualitative descriptors for each clone. Both clones the yellowish pulp as those the roots the pinkish pulp, there was morphological differences among clones, showing that no clone showed 100% similarity. The year / crop factor did not influence the phenotypic expression of measured characters. Based on cofenetic coefficient, was found high fit between the graphical representation via dendrogram of r = 0.80 in the roots of yellowish pulp and r = 0.92 in the pinkish of genetic dissimilarity matrix. Among the measured characters, those with the highest entropy in the yellowish roots were, the color of the outer epidermis, the central lobe shape of the leaf and root cortex color, whereas the pinkish was the color to disc, central lobe shape and petiole color. We also performed the characterization based on plant height, the first branch point, and shoot weight without strain, productivity in roots, and index of starch in the roots determines by the method of hydrostatic balance, time for cooking and acid cyanide content in the roots. Based on the evaluated characters, clones stood out with pulps yellowish and pinkish respectively, characters height of the first branch (273/08 and 259/08) and (390/08, 345/08 and the witness IAC 576-70), plant height (90 / 08, 272/08, 273/08, 497/08, 259/08 and 450/08) and (390/08, 345/08 and 378/08), shoot weight without strain (94/08 and 272/08) and (390/08, 406/08, 390/08, 378/08 and 341/08), percentage of starch in the roots (26/08, 272/08, 259/08 and 450/08) and (378/08, 413/08, 390/08 and the witness IAC 576-70), roots of productivity (215/08) and (witnesses IAC 576-70, 341/08, 406/08, 390/08 and 387/08). Regarding the cooking time in the 2011/2012 harvest, all clones showed time less than 30 minutes. Regarding the total carotenoid content in the pulps clones of yellowish roots that stood out were 91/08, 94/08, 215/08, 246/08, 272/08 and 497/08, and, those the clones with pulp pinkish 406/08 and 341/08. Regarding the protein content in yellowish roots the clones 26/08, 90/08 and 91/08, was the best while the pinkish roots highlight clones 406/08 and witness IAC 576-70. The levels of HCN in reserve roots of cassava were less than 100 mg kg-1em all evaluated clones. Significant differences between yellowish and pinkish of pulps cassava clones were checked for all agronomic, morphological and biochemical characteristics evaluated. The clones had well in the ratings for commercial cultivation in the Cerrado region and some of these, clones has potential for use in breeding aimed at increase of carotenoids.
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The effect of blanching on the β-carotene stability during drying and storage of cassava and sweet potato was evaluated. The orange-fleshed sweet potato showed good retention of β-carotene during the blanching and drying (100% and 96%, respectively), but lower retention (84% and 91%) was observed in cassava. Cassava also showed lower β-carotene stability than sweet potato during the storage of unblanched dried samples. β-Carotene content of dried cassava was reduced from 8.6 μg/g to traces in 20 days of storage while the initial amount of dried sweet potato (463 μg/g) was reduced by about 45% (210 μg/g). Blanching did not affect the β-carotene retention during the drying, but enhanced the stability of this carotenoid during the storage of dried samples at room temperature, especially in cassava. The initial levels of blanched-dried cassava and sweet potato (7.8 and 513 μg/g, respectively) took 70 days to fall by around 50%.
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Cassava brown streak disease (CBSD) was described for the first time in Tanganyika (now Tanzania) about seven decades ago. Tanganyika (now Tanzania) about seven decades ago. It was endemic in the lowland areas of East Africa and inland parts of Malawi and caused by Cassava brown streak virus (CBSV; genus Ipomovirus; Potyviridae). However, in 1990s CBSD was observed at high altitude areas in Uganda. The causes for spread to new locations were not known.The present work was thus initiated to generate information on genetic variability, clarify the taxonomy of the virus or viruses associated with CBSD in Eastern Africa as well as to understand the evolutionary forces acting on their genes. It also sought to develop a molecular based diagnostic tool for detection of CBSD-associated virus isolates. Comparison of the CP-encoding sequences of CBSD-associated virus isolates collected from Uganda and north-western Tanzania in 2007 and the partial sequences available in Genbank revealed occurrence of two genetically distinct groups of isolates. Two isolates were selected to represent the two groups. The complete genomes of isolates MLB3 (TZ:Mlb3:07) and Kor6 (TZ:Kor6:08) obtained from North-Western (Kagera) and North-Eastern (Tanga) Tanzania, respectively, were sequenced. The genomes were 9069 and 8995 nucleotides (nt), respectively. They translated into polyproteins that were predicted to yield ten mature proteins after cleavage. Nine proteins were typical in the family Potyviridae, namely P1, P3, 6K1, CI, 6K2, VPg, NIa-Pro, NIb and CP, but the viruses did not contain HC-Pro. Interestingly, genomes of both isolates contained a Maf/HAM1-like sequence (HAM1h; 678 nucleotides, 25 kDa) recombined between the NIb and CP domains in the 3’-proximal part of the genomes. HAM1h was also identified in Euphorbia ringspot virus (EuRSV) whose sequence was in GenBank. The HAM1 gene is widely spread in both prokaryotes and eukaryotes. In yeast (Saccharomyces cerevisiae) it is known to be a nucleoside triphosphate (NTP) pyrophosphatase. Novel information was obtained on the structural variation at the N-termini of polyproteins of viruses in the genus Ipomovirus. Cucumber vein yellowing virus (CVYV) and Squash vein yellowing virus (SqVYV) contain a duplicated P1 (P1a and P1b) but lack the HC-Pro. On the other hand, Sweet potato mild mottle virus (SPMMV), has a single but large P1 and has HC-Pro. Both virus isolates (TZ:Mlb3:07 & TZ:Kor6:08) characterized in this study contained a single P1 and lacked the HC-Pro which indicates unique evolution in the family Potyviridae. Comparison of 12 complete genomes of CBSD-associated viruses which included two genomes characterized in this study, revealed genetic identity of 69.0–70.3% (nt) and amino acid (aa) identities of 73.6–74.4% at polyprotein level. Comparison was also made among 68 complete CP sequences, which indicated 69.0-70.3 and 73.6-74.4 % identity at nt and aa levels, respectively. The genetic variation was large enough for dermacation of CBSD-associated virus isolates into two distinct species. The name CBSV was retained for isolates that were related to CBSV isolates available in database whereas the new virus described for the first time in this study was named Ugandan cassava brown streak virus (UCBSV) by the International Committee on Virus Taxonomy (ICTV). The isolates TZ:Mlb3:07 and TZ:Kor6:08 belong to UCBSV and CBSV, respectively. The isolates of CBSV and UCBSV were 79.3-95.5% and 86.3-99.3 % identitical at nt level, respectively, suggesting more variation amongst CBSV isolates. The main sources of variation in plant viruses are mutations and recombination. Signals for recombination events were detected in 50% of isolates of each virus. Recombination events were detected in coding and non-coding (3’-UTR) sequences except in the 5’UTR and P3. There was no evidence for recombination between isolates of CBSV and UCBSV. The non-synonomous (dN) to synonomous (dS) nucleotide substitution ratio (ω) for the HAM1h and CP domains of both viruses were ≤ 0.184 suggesting that most sites of these proteins were evolving under strong purifying selection. However, there were individual amino acid sites that were submitted to adaptive evolution. For instance, adaptive evolution was detected in the HAM1h of UCBSV (n=15) where 12 aa sites were under positive selection (P< 0.05) but not in CBSV (n=12). The CP of CBSV (n=23) contained 12 aa sites (p<0.01) while only 5 aa sites in the CP gene of UCBSV were predicted to be submitted to positive selection pressure (p<0.01). The advantages offered by the aa sites under positive selection could not be established but occurrence of such sites in the terminal ends of UCBSV-HAMIh, for example, was interpreted as a requirement for proteolysis during polyprotein processing. Two different primer pairs that simultaneously detect UCBSV and CBSV isolates were developed in this study. They were used successfully to study distribution of CBSV, UCBSV and their mixed infections in Tanzania and Uganda. It was established that the two viruses co-infect cassava and that incidences of co-infection could be as high as 50% around Lake Victoria on the Tanzanian side. Furthermore, it was revealed for the first time that both UCBSV and CBSV were widely distributed in Eastern Africa. The primer pair was also used to confirm infection in a close relative of cassava, Manihot glaziovii (Müller Arg.) with CBSV. DNA barcoding of M. glaziovii was done by sequencing the matK gene. Two out of seven M. glaziovii from the coastal areas of Korogwe and Kibaha in north eastern Tanzania were shown to be infected by CBSV but not UCBSV isolates. Detection in M. glaziovii has an implication in control and management of CBSD as it is likely to serve as virus reservoir. This study has contributed to the understanding of evolution of CBSV and UCBSV, which cause CBSD epidemic in Eastern Africa. The detection tools developed in this work will be useful in plant breeding, verification of the phytosanitary status of materials in regional and international movement of germplasm, and in all diagnostic activities related to management of CBSD. Whereas there are still many issues to be resolved such as the function and biological significance of HAM1h and its origin, this work has laid a foundation upon which the studies on these aspects can be based.
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Cassava root is the main staple for 70% of the population in Mozambique, particularly in inaccessible rural areas, but is known to be low in iron. Anaemia is a public health problem in mothers and preschool children in Mozambique and up to 40% of these cases are probably due to dietary iron deficiency. The World Health Organization (WHO) and Food and Agriculture Organization of the United Nations (FAO) recognize the fortification of foodstuff as an effective method to remedy dietary deficiencies of micronutrients, including iron. Cassava mahewu, a non-alcoholic fermented beverage is prepared at subsistence level from cassava roots using indigenous procedures. The aim of the study was to standardize mahewu fermentation and investigate if the type of cassava fermented, or the iron compound used for fortification affected the final product. Roots of sweet and bitter varieties of cassava from four districts (Rapale, Meconta, Alto Molocue and Zavala) in Mozambique, were peeled, dried and pounded to prepare flour. Cassava flour was cooked and fermented under controlled conditions (45°C for 24 h). The fermentation period and temperature were set, based on the findings of a pilot study which showed that an end-point pH of about 4.5 was regularly reached after 24 h at 45°C. Cassava mahewu was fortified with ferrous sulfate (FeSO4.7H2O) or ferrous fumarate (C4H2FeO4) at the beginning (time zero) and at the end of fermentation (24 h). The amount of iron added to the mahewu was based on the average of the approved range of iron used for the fortification of maize meal. The mean pH at the endpoint was 4.5, with 0.29% titratable acidity. The pH and acidity were different to those reported in previous studies on maize mahewu, whereas the solid extract of 9.65% was found to be similar. Lactic acid bacteria (LAB) and yeast growth were not significantly different in mahewu fortified with either of the iron compounds. There was no significant difference between cassava mahewu made from bitter or sweet varieties. A standard method for preparation and iron fortification of cassava mahewu was developed. It is recommended that fortification occurs at the end of fermentation when done at household level.
