After graduating from UNC Charlotte with the BS in Biology, you get a job with an agro-chemical company and are assigned to a lab that is exploring the use of a newly synthesized compound that may be a possible insecticide. The compound is thought to control insect populations by disrupting the genes that control embryonic development. Your lab conducts an experiment to investigate the influence of the compound on developmental genes by measuring the levels of the proteins the genes code for.  You measure protein levels in two groups of insect eggs: the Treatment Group, which is exposed to the compound, and the Control Group, which is exposed to a compound that is known to have no negative effects on gene activity. Your results are shown below. In all graphs, the Control group exhibits normal levels of proteins and gene expression. (Remeber: P > 0.05 means the observed differences are not significant; P < 0.05 means the differences are significant and biologically meaningful).  

 

True and False:

7.  The compound will prevent fertilization of the egg by disrupting the genes that regulate the formation of the micropyle in the chorion.
    8. The compound does not inhibit the formation of segments along the dorso-ventral axis, but will prevent the formation of wings in dorsal regions of the thoracic segments.
    9.  The compound does not inhibit the formation of segments along the anterior-posterior axis, but will prevent the formation of ommatidia in the head segments.
  10. The compound disrupts the expression of zygotic genes, but has no effect on the expression of maternal genes.

Transcribed Image Text:

This set of graphs compares the expression levels of various proteins under treatment and control conditions. Each figure includes a bar graph with a statistical significance value (P-value). **Fig. 1: Bicoid** - Bars: Treatment (blue) and Control (orange). - Result: Control expression is significantly higher than Treatment. (P < 0.05) **Fig. 2: Hunchback** - Bars: Treatment (blue) and Control (orange). - Result: Control expression is significantly higher than Treatment. (P < 0.05) **Fig. 3: Nanos** - Bars: Treatment (blue) and Control (orange). - Result: Control expression is significantly higher than Treatment. (P < 0.05) **Fig. 4: Caudal** - Bars: Treatment (blue) and Control (orange). - Result: Control expression is significantly higher than Treatment. (P < 0.05) **Fig. 5: Dorsal** - Bars: Treatment (blue) and Control (orange). - Result: Control expression is significantly higher than Treatment. (P < 0.05) **Fig. 6: Gurken** - Bars: Treatment (blue) and Control (orange). - Result: Control expression is significantly higher than Treatment. (P < 0.05) **Fig. 7: Short Gastrulation** - Bars: Treatment (blue) and Control (orange). - Result: Control expression is significantly higher than Treatment. (P < 0.05) **Fig. 8: Pair-Rule Proteins** - Bars: Treatment (blue) and Control (orange). - Result: No significant difference between Treatment and Control. (P > 0.05) **Fig. 9: Segment-Polarity Proteins** - Bars: Treatment (blue) and Control (orange). - Result: No significant difference between Treatment and Control. (P > 0.05) These results suggest that the treatment significantly decreases the expression of certain proteins compared to the control, except for the Pair-Rule and Segment-Polarity proteins, where no significant difference is observed.