A molecular approach to study the monoterpene-induced response in Arabidopsis thaliana

Godard, Kimberley-Ann

05 1900

A wound- and insect-inducible expression system for transgenic plants was developed. Specifically, I demonstrate wound- and insect-inducible, localized gene expression driven by the potato proteinase inhibitor II (pinII)-promoter in transformed Arabidopsis, tobacco and white spruce. As reporter and target genes driven by the pinII-promoter, I used the GUS gene and a terpenoid synthase gene, respectively. In addition, I found that the pinII-promoter drives trichome-specific, systemically-induced gene expression in tobacco and Arabidopsis. Finally, I demonstrate that the pinII–promoter, when transformed into Arabidopsis, is extremely sensitive to subtle, low-impact stress treatment. This latter finding prompted me to use, in the second part of my thesis, the pinII-promoter in conjunction with GUS reporter gene expression to test if intact Arabidopsis plants can respond to exposure to monoterpene volatiles. My experiments using the pinII–promoter GUS reporter system clearly established that Arabidopsis plants respond to the exposure of the monoterpene volatiles tested. It is thought that monoterpenes and other volatiles can act as airborne signals between plants under stress or between distant parts of the same plant. At the outset of my thesis research, and to some extent still today, the concept of plant-plant signalling with volatiles has been met with scepticism. After establishing that Arabidopsis plants do respond in a laboratory setting to certain monoterpene volatiles, I further tested the extent of the response at the transcriptome level using a 30 K microarray platform. The gene expression analysis revealed several hundred transcripts that respond with a change of abundance in response to treatment of intact Arabidopsis plants with the monoterpenes ocimene or myrcene. Many of these transcripts were annotated as stress and defense genes including genes involved in octadecanoid signaling. Real-time PCR analyses of octadecanoid mutants confirmed a role for octadecanoid signaling in the response to the monoterpene ocimene. In addition, treatment with ocimene or myrcene caused increased levels of methyl jasmonate (MeJA) in Arabidopsis rosette leaves. However, plants treated with monoterpene prior to wounding or feeding by cabbage looper did not reveal any significant priming effect for these pre-treatments.

Inter-plant communication

Terpene induced responses

A molecular approach to study the monoterpene-induced response in Arabidopsis thaliana

Godard, Kimberley-Ann

05 1900

A wound- and insect-inducible expression system for transgenic plants was developed. Specifically, I demonstrate wound- and insect-inducible, localized gene expression driven by the potato proteinase inhibitor II (pinII)-promoter in transformed Arabidopsis, tobacco and white spruce. As reporter and target genes driven by the pinII-promoter, I used the GUS gene and a terpenoid synthase gene, respectively. In addition, I found that the pinII-promoter drives trichome-specific, systemically-induced gene expression in tobacco and Arabidopsis. Finally, I demonstrate that the pinII–promoter, when transformed into Arabidopsis, is extremely sensitive to subtle, low-impact stress treatment. This latter finding prompted me to use, in the second part of my thesis, the pinII-promoter in conjunction with GUS reporter gene expression to test if intact Arabidopsis plants can respond to exposure to monoterpene volatiles. My experiments using the pinII–promoter GUS reporter system clearly established that Arabidopsis plants respond to the exposure of the monoterpene volatiles tested. It is thought that monoterpenes and other volatiles can act as airborne signals between plants under stress or between distant parts of the same plant. At the outset of my thesis research, and to some extent still today, the concept of plant-plant signalling with volatiles has been met with scepticism. After establishing that Arabidopsis plants do respond in a laboratory setting to certain monoterpene volatiles, I further tested the extent of the response at the transcriptome level using a 30 K microarray platform. The gene expression analysis revealed several hundred transcripts that respond with a change of abundance in response to treatment of intact Arabidopsis plants with the monoterpenes ocimene or myrcene. Many of these transcripts were annotated as stress and defense genes including genes involved in octadecanoid signaling. Real-time PCR analyses of octadecanoid mutants confirmed a role for octadecanoid signaling in the response to the monoterpene ocimene. In addition, treatment with ocimene or myrcene caused increased levels of methyl jasmonate (MeJA) in Arabidopsis rosette leaves. However, plants treated with monoterpene prior to wounding or feeding by cabbage looper did not reveal any significant priming effect for these pre-treatments.

Inter-plant communication

Terpene induced responses

A molecular approach to study the monoterpene-induced response in Arabidopsis thaliana

Godard, Kimberley-Ann

05 1900

A wound- and insect-inducible expression system for transgenic plants was developed. Specifically, I demonstrate wound- and insect-inducible, localized gene expression driven by the potato proteinase inhibitor II (pinII)-promoter in transformed Arabidopsis, tobacco and white spruce. As reporter and target genes driven by the pinII-promoter, I used the GUS gene and a terpenoid synthase gene, respectively. In addition, I found that the pinII-promoter drives trichome-specific, systemically-induced gene expression in tobacco and Arabidopsis. Finally, I demonstrate that the pinII–promoter, when transformed into Arabidopsis, is extremely sensitive to subtle, low-impact stress treatment. This latter finding prompted me to use, in the second part of my thesis, the pinII-promoter in conjunction with GUS reporter gene expression to test if intact Arabidopsis plants can respond to exposure to monoterpene volatiles. My experiments using the pinII–promoter GUS reporter system clearly established that Arabidopsis plants respond to the exposure of the monoterpene volatiles tested. It is thought that monoterpenes and other volatiles can act as airborne signals between plants under stress or between distant parts of the same plant. At the outset of my thesis research, and to some extent still today, the concept of plant-plant signalling with volatiles has been met with scepticism. After establishing that Arabidopsis plants do respond in a laboratory setting to certain monoterpene volatiles, I further tested the extent of the response at the transcriptome level using a 30 K microarray platform. The gene expression analysis revealed several hundred transcripts that respond with a change of abundance in response to treatment of intact Arabidopsis plants with the monoterpenes ocimene or myrcene. Many of these transcripts were annotated as stress and defense genes including genes involved in octadecanoid signaling. Real-time PCR analyses of octadecanoid mutants confirmed a role for octadecanoid signaling in the response to the monoterpene ocimene. In addition, treatment with ocimene or myrcene caused increased levels of methyl jasmonate (MeJA) in Arabidopsis rosette leaves. However, plants treated with monoterpene prior to wounding or feeding by cabbage looper did not reveal any significant priming effect for these pre-treatments. / Science, Faculty of / Botany, Department of / Graduate

Inter-plant communication

Terpene induced responses

Induced monoterpene responses in jack pine: defence against jack pine budworm and a fungal associate of the mountain pine beetle

Colgan, Lindsay Jessica

Unknown Date

No description available.

induced responses

tree-mediated interactions

monoterpenes

jack pine

jack pine budworm

mountain pine beetle

Grosmannia clavigera

Induced monoterpene responses in jack pine: defence against jack pine budworm and a fungal associate of the mountain pine beetle

Colgan, Lindsay Jessica

11 1900

My thesis research investigated monoterpene responses in jack pine (Pinus banksiana Lamb.) to different agents to better understand how these responses may influence the spread of the mountain pine beetle (Dendroctonus ponderosae Hopkins; MPB) in the boreal forest. The results support that monoterpenes are inducible responses in jack pine. In the first study, methyl jasmonate application elicited the greatest response in juvenile and mature trees suggesting that jasmonic acid plays a role in jack pine defence responses. In the cross-induction study, I found evidence of an increase in resistance to Grosmannia clavigera with prior jack pine budworm defoliation (Choristoneura pinus pinus Freeman; JPBW). In contrast, needle monoterpenes greatly increased after G. clavigera inoculation and continued to increase during JPBW defoliation; however, JPBW increased its feeding rate to compensate for a change in host quality. Overall, monoterpene induction in jack pine depended on the agent(s) involved and their order. The systemic responses that were observed may have implications for MPB spread in the boreal forest. / Forest Biology and Managment

induced responses

tree-mediated interactions

monoterpenes

jack pine

jack pine budworm

mountain pine beetle

Grosmannia clavigera

Reducing Uncertainties in Estimation of Wind Effects on Tall Buildings Using Aerodynamic Wind Tunnel Tests

Warsido, Workamaw Paulos

03 July 2013

Tall buildings are wind-sensitive structures and could experience high wind-induced effects. Aerodynamic boundary layer wind tunnel testing has been the most commonly used method for estimating wind effects on tall buildings. Design wind effects on tall buildings are estimated through analytical processing of the data obtained from aerodynamic wind tunnel tests. Even though it is widely agreed that the data obtained from wind tunnel testing is fairly reliable the post-test analytical procedures are still argued to have remarkable uncertainties. This research work attempted to assess the uncertainties occurring at different stages of the post-test analytical procedures in detail and suggest improved techniques for reducing the uncertainties. Results of the study showed that traditionally used simplifying approximations, particularly in the frequency domain approach, could cause significant uncertainties in estimating aerodynamic wind-induced responses. Based on identified shortcomings, a more accurate dual aerodynamic data analysis framework which works in the frequency and time domains was developed. The comprehensive analysis framework allows estimating modal, resultant and peak values of various wind-induced responses of a tall building more accurately. Estimating design wind effects on tall buildings also requires synthesizing the wind tunnel data with local climatological data of the study site. A novel copula based approach was developed for accurately synthesizing aerodynamic and climatological data up on investigating the causes of significant uncertainties in currently used synthesizing techniques. Improvement of the new approach over the existing techniques was also illustrated with a case study on a 50 story building. At last, a practical dynamic optimization approach was suggested for tuning structural properties of tall buildings towards attaining optimum performance against wind loads with less number of design iterations.

Wind-induced responses

Tall building

Frequency domain

Time domain

Higher modes

Aerodynamic data

Climatological data

Wind directionality

Civil Engineering

Structural Engineering