Maurílio Alves Moreira scite author profile

ObjetivoAvaliar a qualidade protéica de farinhas de soja, que diferem entre si com relação à presença de lipoxigenases e/ou Inibidor de Tripsina Kunitz. MétodosProcedeu-se aos ensaios biológicos com ratos, em que foram avaliados a Razão da Eficiência Protéica, Razão Protéica Líquida, Utilização Protéica Líquida e a digestibilidade. Determinou-se a composição aminoacídica das farinhas e cálculo do Escore Químico Corrigido pela Digestibilidade. ResultadosOs valores de Razão da Eficiência Protéica, Razão Protéica Líquida, Utilização Protéica Líquida para as variedades de soja foram inferiores aos valores obtidos para caseína. Para as farinhas sem Inibidor de Tripsina Kunitz foram obtidos valores de digestibilidade maiores que para as farinhas com Inibidor de Tripsina Kunitz, e esses foram bem próximos aos da caseína. Com relação ao teor aminoacídico, constatou-se que o aminoácido limitante dessa soja é lisina e não metionina, ao contrário do que aponta a literatura.

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Characterization and genetic diversity analysis of cotton cultivars using microsatellites

Bertini

Schuster²,

Sediyama

et al. 2006

Genet. Mol. Biol.

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Genetic diversity and the relationship between varieties are of great importance for cotton breeding. Our work was designed to estimate the informativeness of the cotton (Gossypium hirsutum L.) simple sequence repeat (SSR) microsatellite locus and to estimate the genetic distance between 53 cotton cultivars as well as to select a set of SSR primers able to differentiate between the 53 cotton cultivars studied. After extracting DNA from the 53 cultivars and characterized it using 31 pairs of SSR primers we obtained a total of 66 alleles with an average of 2.13 alleles per SSR locus and values of polymorphism information content (PIC) varying from 0.18 to 0.62, the dissimilarity coefficient varying from zero to 0.41. Statistical analysis using the unweighted pair-group method using arithmetic average (UPGMA) revealed seven subgroups which were consistent with the genealogical information available for some of the cultivars. The SSR genetic profile obtained for each of the cultivars made it possible to discriminate 52 of the 53 cultivars. This study of the genetic diversity of cotton cultivars with SSR markers support the need to introduce new alleles into the gene pool of the breeding cultivars.

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Identification of a major QTL in cocoa (Theobroma cacao L.) associated with resistance to witches’ broom disease

et al. 2003

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The witchesÕ broom disease caused by the fungus Crinipellis perniciosa is the main limiting factor for cocoa production in South America and the Caribbean. In Brazil, this disease affects almost all cocoa-growing regions, causing serious economic, social and ecological damage. The aim of this study was to map genomic regions associated with resistance to C. perniciosa using an F 2 population derived from a cross between ÔScavina-6Õ (resistant) and ÔICS-1Õ (susceptible). The phenotypic index was determined as the average number of vegetative witchesÕ brooms per canopy area of each plant, the witchesÕ brooms were counted and eliminated during six field evaluations between May 1998 and August 1999. A total of 124 random amplified polymorphic DNA (RAPD) and 69 amplified fragment length polymorphism (AFLP) markers were mapped along 25 linkage groups covering 1713 cM of cocoa genome. After employing single factor and composite interval mapping analyses, a major quantitative trait loci (QTL) flanked by the marker AV14.940 was identified in the linkage group 11, explaining almost 35% of the resistance to witchesÕ broom. The present result suggests that this QTL acts as a major dominant component of resistance to this pathogen, with great potential for use in marker-assisted selection procedures in cocoa breeding programmes.

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Inheritance of Angular Leaf Spot Resistance in Common Bean and Identification of a RAPD Marker Linked to a Resistance Gene

et al. 2000

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Angular leaf spot, caused by Phaeoisariopsis griseola (Sacc.) Ferraris, is one of the major diseases affecting the common bean (Phaseolus vulgaris L.) in Brazil which can lead to severe yield losses. Previous studies demonstrated that cultivar MAR‐2 was resistant to race 63.39 of P. griseola. The objective of this work was to characterize the resistance to angular leaf spot in MAR‐2 in an F2 population derived from the cross with Ruda (susceptible parent), and also to identify random amplified polymorphic DNA (RAPD) markers linked to the resistance gene. Cultivar MAR‐2 was crossed with Ruda, a “carioca‐type” cultivar susceptible to angular leaf spot, to determine the inheritance of resistance. The results demonstrated that a single dominant gene present in MAR‐2 was responsible for the resistance to P. griseola, race 63.39. Resistant and susceptible DNA bulks from the F2 population were constructed to identify RAPD markers linked to the resistance gene. Amplification with primer OPE‐04 generated a 500‐bp fragment which distinguished the resistant from the susceptible bulk populations. Co‐segregation analysis of the entire population demonstrated that the RAPD marker was linked to the resistance gene at a distance of 5.8 Cm.

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