rojenia judkins ball state university chemistry department muncie, in 47306
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RoJenia JudkinsBall State University
Chemistry DepartmentMuncie, IN 47306
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We aim to identify the volatile compounds in inflorescences of Rudbeckia hirta, that may be responsible for the olfactory attraction of the crab spider,
Misumenoides formosipes, to this plant.
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Sub-adult females commonly forage from the inflorescences of R. hirta. In
order for copulation to occur adult males search their vegetatively complex habitat for the foraging locations of these females and ultimately locate the females.
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Males will locate inflorescences despite the absence of a female
Males were able to locate inflorescences without the presence of visual cues
Thus, these studies provide strong evidence that males
detect and navigate towards inflorescences primarily based
on floral chemistry
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Extraction
Soxhlet USE ASE MAE SFE
Cost Low Low High Medium High
Time 6-48h <30 mins <30 mins <30 mins <60 mins
Solvent Use (mL)
200-600 <60 <100 <40 <10
Comparison of various liquid-solid extraction techniques used in the analysis of plant metabolites
USE=ultrasonic extraction
ASE= accelerated solvent extractionMAE= microwave-assisted extraction
SFE= supercritical fluid extraction
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60 ml of 1:2 solution of hexane:diethyl ether
10g of cut up inflorescences
Sonicated for 30 minutes in the dark
Approximately .4g of extract was collected
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• 100% Dichloromethane– Heavy spot on solvent line as well as
spot at application line (as well as other spots between)
• 95% Dichloromethane– Separated components near the
application line but not at the solvent line
• 95% Hexane– Separated components at the solvent
line, but not at the application line
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We used solvent mixtures of: 95% hexane:5% dichloromethane 95% dichloromethane:5% hexane100% dichloromethaneA methanol wash of the column
A total of 33 15ml fractions were collected
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95% Hexane fractions• No components were observed• Pooled together based on color
95% Dichloromethane fractions• All were pooled together due to similar color
100% Dichloromethane fractions• Pooled together based on similar Rf values• Remaining were pooled together based on
color
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Bioassay
Ultrasonic Extract (hexane:diethyl ether) Bioassay
Flash Chromatography (Silica Column)
95%DCM95%Hexane 100%DCM
TLC
Identification of Attractant
Methanol
Further separation
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Positive Selection
Negative Selection
Ρ value
Inflorescences
16 3 .018
Bulk Extract 11 3 .022
95% Hexane 4 2 .23
95% DCM 3 3 .31
100% DCM 8 1 .16
Methanol 1 3 .25
An exact binomial calculation was used for each trial. This P value represents the probability of
getting the results we obtained in comparison to chance.
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Further separated using flash chromatography
TLC results reveal 2 potentially different compounds
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• Myself
Separate components in the 100% DCM poolRemoval of HexaneIdentify the two compounds using Infrared Spectroscopy, NMR, and/or GC-MS
• Future Researchers
Run bioassays on pooled fractions to obtain statistically sound resultsSeparate 100% DCM pool and run bioassays