Transcription profiling of genes related to ovary activation in worker honey bee brains
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ABSTRACT: This experiment examines differences in gene expression between wildtype and an experimental strain (anarchistic) of worker honey bees (Apis mellifera). Mature wildtype and anarchistic workers tend to have non-active and active ovaries, respectively. Thus young workers from these strains are expected to show differential expression at loci involved in the regulation of worker reproduction, which occurs via arrhenotokous parthenogenesis.
Project description:This experiment examines differences in gene expression between wildtype and an experimental strain (anarchistic) of worker honey bees (Apis mellifera). Mature wildtype and anarchistic workers tend to have non-active and active ovaries, respectively. Thus young workers from these strains are expected to show differential expression at loci involved in the regulation of worker reproduction, which occurs via arrhenotokous parthenogenesis.
Project description:Effect of genotype (wildtype vs. anarchist) on gene expression in developing (four-day-old) honeybee worker abdomens. Goal of experiment is to identify genes associated with ovary activation during worker development. These genes are hypothesised to be candidates for the regulation of worker sterility.
Project description:Ants are among the most successful animals on earth, with societies of a complexity that rivals our own. These societies are characterized by reproductive division of labor between female queens that can live several years and lay thousands of eggs per day, workers that live only a few months and are sterile, and males that live only a few weeks and do not participate in colony tasks. These striking differences in lifespan and roles are echoed by extensive morphological and physiological divergence. Using the fire ant, Solenopsis invicta, we conduct the first genome-wide survey of developmental gene expression levels over 20 time-points from larval to adult stages in workers, queens and males Three castes: Worker, queen & male; four colonies used for each caste (12 colonies total). Timepoints: 0h, 3h, 6h, 12h, 18h, 24h, 36h and 48h (hour timepoints) and once every 24hours until eclosion (day timepoints). Eclosion occured after 15 days for male (21 timepoints), 14 days for queen (20 timepoints) and 12 days for worker larvae (19 timepoints). We used a loop design with direct comparisons of consecutive samples within each cast: two loops in one Dye-direction, two loops in the other for balance. Additionally, 3-5 hybridizations against an unrelated Reference RNA were performed within each replicate loop. Microarray batch is indicated in the description column
Project description:This experiment was performed to investigate the effect of the manipulation of social rank on gene expression. Fire ants newly mated queens were paired and placed in nesting chambers. After emergence of workers, queensM-^R behavior was monitored. Once the behavioral observation revealed the social rank of the two cofoundresses (winners and losers), queens were weighed again and re-paired with a different partner. We created the following three groups of queens: a) winner + winner (similar weight), b) loser + loser (similar weight), and c) winner + loser (different weights). Again, we monitored the behavior until the social rank of the newly coupled specimens was evident and we collected 4 new behavioral phenotypes in the same way as above: a) winners switched into losers (win/los), b) losers switched into winners (los/win), c) continuing winners (win/win) and d) continuing losers (los/los).
Project description:In species with social hierarchies, the death of dominant individuals typically upheaves the social hierarchy and provides an opportunity for subordinate individuals to become reproductives. Such a phenomenon occurs in the monogyne form of the fire ant, Solenopsis invicta, where colonies typically contain a single wingless reproductive queen, thousands of workers and hundreds of winged non-reproductive virgin queens. Upon the death of the mother queen, many virgin queens shed their wings and initiate reproductive development instead of departing on a mating flight. Workers progressively execute almost all of them over the following weeks. To identify the molecular changes that occur in virgin queens as they perceive the loss of their mother queen and begin to compete for reproductive dominance, we collected virgin queens before the loss of their mother queen, six hours after orphaning and 24 hours after orphaning. Their RNA was extracted and hybridized against microarrays to examine the expression levels of approximately 10,000 genes. We identified 297 genes that were consistently differentially expressed after orphaning. These include genes that are putatively involved in the signaling and onset of reproductive development, as well as genes underlying major physiological changes in the young queens. 3 samples: 0h, 6h, 24; five queens pooled per samples; each replicate loop of 3 samples was taken from an independent colony; 8 biological replicates (colonies) used. Hybridization according to a Dye-balanced loop design (no technical replication)
Project description:In many animals living in groups the reproductivestatus of individuals is determined by their social status. In specieswith social hierarchies, the death of dominant individuals typicallyupheaves the social hierarchy and provides an opportunity for subordinateindividuals to improve their social status. Such a phenomenon occursin the monogyne form of the fire ant\emph{, Solenopsis invicta, }wherecolonies typically contain a single wingless reproductive queen, thousandsof workers and hundreds of winged non-reproductive virgin queens.Upon the death of the mother queen, many virgin queens shed theirwings and initiate reproductive development instead of departing ona mating flight. Workers progressively execute almost all of themover the following weeks. The workers base their collective decisionon pheromonal cues associated with the onset of reproductive developmentof the virgin queens which occurs after orphaning. To examine the factors that determine which virgin queens are executed and which survive, we set up artificial competitions between queens from different colonies. Using microarrays, we found that queens from winning colonies showed higher mitochondrial as well as organ development activities 24 hours after orphaning than did queens from colonies that lost the competitions. Furthermore, queens from colonies where queens shed their wings faster after orphaning were more likely to survive competitions. Finally, higher wing shedding speed is linked to higher mitochondrial activity. Eight competitions were initially conducted between queens form pairs of colonies. Six competitions clearly identified one winning colony and one losing colony. We thus have microarray data for six competitions (ie biological replicates), with one winning and one losing colony within each competition. Thus 12 colonies total. For each colony, RNA extracted from five queens was pooled, and hybridized against an unrelated common reference RNA that had been made from a pool of many S. invicta individuals of all castes and developmental stages. Lab work was conducted in blocks (by competition) with randomized order within competition to avoid introducing bias. No technical replication was performed.
Project description:We used microarrays to monitor expression patterns of several thousand genes in the brains of same-aged (10 day old) virgin queens, sterile workers, and reproductive workers in honey bees (Apis mellifera).
Project description:Analysis of the changes in the transcriptomic profile of Pseudomonas putida growing at 10M-:C compared to that of growing at 30M-:C.
Project description:Effect of genotype (wildtype vs. anarchist) on gene expression in developing (four-day-old) honeybee worker brains. Goal of experiment is to identify genes associated with ovary activation during worker development. These genes are hypothesised to be candidates for the regulation of worker sterility.