Development of a marker assisted selection program for cacao.

ABSTRACT Production of cacao in tropical America has been severely affected by fungal pathogens causing diseases known as witches' broom (WB, caused by Moniliophthora perniciosa), frosty pod (FP, caused by M. roreri) and black pod (BP, caused by Phytophthora spp.). BP is pan-tropical and causes losses in all producing areas. WB is found in South America and parts of the Caribbean, while FP is found in Central America and parts of South America. Together, these diseases were responsible for over 700 million US dollars in losses in 2001 (4). Commercial cacao production in West Africa and South Asia are not yet affected by WB and FP, but cacao grown in these regions is susceptible to both. With the goal of providing new disease resistant cultivars the USDA-ARS and Mars, Inc. have developed a marker assisted selection (MAS) program. Quantitative trait loci have been identified for resistance to WB, FP, and BP. The potential usefulness of these markers in identifying resistant individuals has been confirmed in an experimental F(1) family in Ecuador.

Detection of avocado sunblotch viroid variants using fluorescent single-strand conformation polymorphism analysis.

A specific reverse transcription-polymerase chain reaction (RT-PCR) protocol has been developed for routine detection of avocado sunblotch viroid (ASBVd). Modifications in this diagnostic technique were made to enable fluorescent detection and variant identification using automated capillary electrophoresis (CE) and fluorescent single-strand conformation polymorphism (SSCP) analysis. Sixteen sequence variants characterized in a previous study were analyzed using CE-SSCP on two ABI 310 Genetic Analyzers. Significant differences were detected between data obtained from the two ABI 310 Genetic Analyzers indicating that an internal control must be run concurrently with the samples. The 16 variants could be classified into 11 groups based on the SSCP patterns. The statistical analysis of the migration rate data provided support for the visual differences in SSCP patterns. The use of SSCP in the ASBVd assay is easily accomplished and gives an estimate of the number of variants in crude samples extracted from infected avocado plants.

Phagocytic activities of the gorgonian coral Swiftia exserta.

The cellular response component of body defense in gorgonians and other cnidarians is thought to be carried out by cells with phagocytic capabilities. To test for the phagocytic character of cells, the introduction of foreign particles was employed and observed in both living cells and histological preparations of the gorgonian coral Swiftia exserta. Observations of untreated tissues revealed normal cells and tissue morphologies. A microscopic observation of living cells following the introduction of particles in a cut revealed that only a mixed population of colorless cells phagocytized the particles. Also particles or clumps of particles were seen on the surface of the colorless cells. Subsequent histological observations allowed identity of colorless cells to be inferred as granular amoebocytes, ectodermal cells, and gastrodermal cells. Cells stained for localization of peroxidase (indicative of phagocytic activity) demonstrated the presence of peroxidase-positive cells. Histological preparations revealed that major phagocytosis of particles was associated with tissue trauma. When particles were introduced by means of a cut or inserted thread, phagocytic activity was detected within 2 h. However, it was confined to the granular amoebocytes in the immediate site of trauma. After 24 h, extensive phagocytosis spread throughout a relatively large area surrounding the wound. At that later time, phagocytic cell types included granular amoebocytes, epidermal cells, sclerocytes, mesogleal cells, and gastrodermal cells of the solenia. Observations suggest that trauma induces phagocytosis in cells not normally phagocytic in S. exserta. No localization of phagocytic cells and no mitotic cells were observed at either 2 or 24 h after particle introduction.