Czechoslovakia's Fortifications: Their Development and Impact on Czech and German Confrontation

Walvoord, Kreg A. (Kreg Anthony)

05 1900

During the 1930s, the Republic of Czechoslovakia endeavored to construct a system of modern fortifications along its frontiers to protect the Republic from German and Hungarian aggression and from external Versailles revisionism. Czechoslovakia's fortifications have been greatly misrepresented through comparison with the Maginot Line. By utilizing extant German military reports, this thesis demonstrates that Czechoslovakia's fortifications were incomplete and were much weaker than the Maginot Line at the time of the Munich Crisis in 1938. The German threat of war against Czechoslovakia was very real in 1938 and Germany would have penetrated most of the fortifications and defeated Czechoslovakia quickly had a German-Czech war occurred in 1938.

Republic of Czechoslovakia

military history

Czechoslovakian history

Czechoslovakia -- Defenses.

Czechoslovakia -- History -- 1938-1945.

Czechoslovakia -- History, Military.

Em busca de um consenso : uma abordagem do desenvolvimento da indústria nacional de defesa e suas expressões intelectuais /

Lins, João Vicente Nascimento.

January 2019

Orientador: Leandro de Oliveira Galastri / Banca: Angélica Lovatto / Banca: Adriano Nascimento Silva / Resumo: Este trabalho busca construir uma visão panorâmica do desenvolvimento da indústria e das ideias de defesa nacional no Brasil. Volta-se para temas como defesa, segurança e tecnologia, e como as discussões sobre esses temas na esfera estatal ajudaram a construir ou deixar de construir um consenso entre os envolvidos no assunto. Tais discussões se expressam em momentos importantes da história deste desenvolvimento em importantes revistas estratégicas, como "Defesa Nacional", "Cultura Política", "Revista do Clube Militar" e "Tecnologia e Defesa". A hipótese levantada é que tais veículos de informação foram financiados pela Indústria Armamentista brasileira resultando em políticas que privilegiam esses atores e o protagonismo militar na cena política nacional. / Abstract: This paper seeks to build a panoramic view of the development of industry and national defense ideas in Brazil. It addresses issues such as defense, security and technology, and how discussions on these issues at the state level have helped to build or fail to build consensus among those involved. Such discussions are expressed in important moments of the history of this development in important strategic magazines, such as "National Defense", "Political Culture", "Military Club Magazine" and "Technology and Defense". The hypothesis raised is that such information vehicles were funded by the Brazilian Armament Industry, resulting in policies that favor these actors and the military role in the national political scene. / Mestre

Complexo militar-industrial - Brasil.

Brasil - Forças armadas.

Defenses

Investigating microbially mediated tolerance to herbivory in wild and domesticated tomatoes

Emily Jeanne Tronson (12476931)

28 April 2022

<p> As the root microbiome’s role in plant defenses against herbivory becomes clearer, scientific focus has lingered on a single side of plant defenses: resistance. Its counterpart, tolerance, is comparatively overlooked despite its power as an evolutionarily sustainable mitigator of herbivore damage. This thesis seeks to supplement our limited understanding of the extent to which tolerance to herbivory may be influenced by rhizosphere microbial communities. First, in an agricultural field setting, I (1) quantified domesticated tomato cultivar and wild ancestor tolerance to herbivory form the specialist tobacco hornworm (<em>Manduca sexta</em>) and (2) characterized the bacterial and fungal rhizosphere communities associating with high and low tolerance plants. In a subsequent greenhouse experiment, I grew these same tomato lines in either sterilized or unsterilized soil and re-challenged plants with tobacco hornworms to tease apart the contributions from host plant and rhizosphere microbiome in expressing tolerance to herbivory. In the field, wild tomato lines excelled at tolerating hornworm herbivory, while their domesticated counterparts suffered 26% yield losses under herbivory. Rhizosphere community characteristics were most reliably shaped by timepoint of rhizosphere sampling, and more subtly by tomato line and herbivory treatments. Fungal and bacterial community traits that associated with high tolerance lines include (1) high diversity, (2) resistance to community shifts under herbivory, and (3) the abundance of ASVs belonging to <em>Strenotrophomonas</em>, <em>Sphingobacterium</em>, and <em>Sphingomonas</em>. When re-challenging these lines with hornworm herbivory in the greenhouse, expressed tolerance to tobacco hornworm damage was inverted from field trends. Though wild lines suffered yield losses when grown in +microbiome treatments, we found no consistent interactions between herbivory and microbiome treatments that might indicate that +microbiome treatments either helped or hampered plant expression of tolerance to herbivory under greenhouse conditions. These experiments shed light on what role, if any, the rhizosphere microbiome plays in plant tolerance to herbivory. Ultimately, understanding the qualities of tolerance-conferring microbiomes can (1) open avenues through which plant defenses may be amended in pest management, either through microbial inoculants or plant breeding efforts aimed at enhancing crop recruitment of beneficial microbiomes; and (2) ameliorate our understanding of the tripartite interactions between host plants, their rhizospheres, and their specialist herbivores. </p>

Plant Biology

Microbial Ecology

Invertebrate Biology

plant tolerance

plant defenses

root microbiota

Contagious Defenses : Interaction of Emotional Contagion and Defense Styles in a Business Context with Regard to the Resistance to Change

Hellström, Magnus, Forsgren, Erik

January 2020

Companies have always had to adapt to external changes by innovation and reorganisation, in order to stay competitive and survive. For many industries, such as the automotive industry for example the need to quickly adapt to new conditions is expected to increase. In the automotive industry this is due to amongst other factors the globalised value chains and megatrends such as decarbonisation, autonomous vehicles and shared mobility. The megatrends could possibly be disruptive for the industry. Therefore, the ability to successfully implement necessary changes is a key ability. Defense mechanisms are psychological strategies that are unconsciously used to protect a person from anxiety arising from unacceptable thoughts or feelings. While protecting the individual from anxiety, they often result in a resistance to changes and is therefore problematic for organisations in need of implementing change. Emotional contagion is a subconscious process that can make people emotionally converge.  The authors propose that within a business context, emotional contagion enables stable organizational groups to converge with regard to which defense mechanisms that are employed. Within a case study of the automotive supplier Swedish Electro Magnets a quantitative analysis of defense styles was conducted based on the Defense Style Questionnaire on groups in the organisation. Three defense style categories were analysed Mature, Neurotic and Immature defense styles.  For Mature defense styles significant findings confirmed that stable groups do converge with regard to what mechanisms are employed. Neurotic defense styles were not found significant, however these results are rather uncertain with a power of 15 %. Immature defense styles could not be analysed because of inhomogeneity of variance between the groups on this variable.  The study shows that the two theories of Emotional contagion and Defence mechanism are interacting within the organisation of Swedish Electro Magnets with regard to Mature defense styles. The study also finds a large effect size, that suggests that the differences in the defense styles are visible to the naked eye of a careful observer. The large effect size makes the findings a promising field for further research to ultimately reduce the resistance to change in organisations. / Företag har alltid behövt anpassa sig till yttre omständigheter genom innovation och omorganisering för att bevara sin konkurrenskraft och överleva. För många branscher som exempelvis fordonsindustrin, förväntas behovet av att snabbt kunna anpassa sig till nya omständigheter öka. Bland annat på grund av globaliserade värdekedjor och megatrender såsom koldioxidneutralitet, självkörande fordon och delad mobilitet. Potentiellt kan megatrender verka disruptivt för industrin. Därför är förmågan att framgångsrikt implementera förändring en nyckelfaktor Defense mechanisms är undermedvetna psykologiska strategier använda för att skydda en person från ångest som uppkommer från oacceptabla tankar eller känslor. Medan individen skyddas från ångest, leder ofta också Defense mechanisms till motstånd till förändring och är därför problematiskt för företag som är i behov av att implementera förändring. Emotional contagion är en undermedveten process som kan få personer att känslomässigt konvergera.  Författarna föreslår att i företagssammanhang kan Emotional contagion få stabila grupper att konvergera med avseende på vilka Defense mechanisms som används av medlemmarna i gruppen. I en fallstudie på fordonsindustri underleverantören Swedish Electro Magnets har en kvantitativ studie genomförts baserat på självskattningsformuläret defense style Questionnaire på grupper i organisationen. Tre defense style kategorier undersöktes Mature, Neurotic och Immature.  För Mature defense styles fanns signifikanta resultat vilka konfirmerade att stabila grupper konvergerar för vilka Defense mechanisms som används. Neurotic defense styles gav inte signifikanta resultat. Dessa resultat är dock osäkra då analysens styrka endast var 15 %. Immature defense styles kunde inte analyseras på grund av inhomogenitet i variansen mellan grupperna för denna variabel.  Studien visar att de två teorierna Emotional contagion och Defense mechanisms interagerar i organisationen Swedish Electro Magnets med avseende på Mature defense styles. Studien fastslår också att det föreligger en stor effektstorlek, vilket tyder på att skillnader i defense styles är synlig för blotta ögat för en uppmärksam observatör. Den stora effektstorleken medför att fynden utgör ett lovande fält för fortsatt forskning vilket slutligen kan leda till att motstånd till förändring i organisationer kan reduceras.

Defense Mechanisms

Defensive Styles

Resistance to Change

Contagious Defenses

Emotional Contagion

Change Resistance

Business Administration

Företagsekonomi

Jurisdictional fairness and freezing measures : an analysis in Canadian private international law

Nyer, Damien

January 2004

No description available.

Liquidity (Economics)

Conflict of laws -- Canada

Sanctions (International law)

Actions and defenses -- Canada

British estimates of German military strength and intentions, 1934-1939.

Purves, James Grant.

January 1966

No description available.

Germany -- Defenses.

Hisotry, Military.

"Is it even worthwhile doing the dishes?" : Canadians and the nuclear threat, 1945-1963

Hunter, Jennifer Lynn

January 2004

No description available.

Civil defense -- Canada -- History

Cold War

Interactions between floral mutualists and antagonists, and consequences for plant reproduction

Soper Gorden, Nicole Leland

01 February 2013

While pollinators and leaf herbivores have been a focus of research for decades, floral antagonists have been studied significantly less. Since floral antagonists can be as common as leaf herbivores and have strong impacts on plant reproduction, it is important to understand the role of floral antagonists in the ecology and evolution of flowers. I conducted four experiments to better understand the relationship between plants, floral traits, floral antagonists, and other plant-insect interactions. First, I manipulated resources (light and soil nutrients) that are known to have impacts on plants and floral traits to test how they affect floral antagonists and other plant-insect interactions. Plentiful resources increased the proportion of floral antagonists to visit flowers, but also increase tolerance of floral antagonists. Second, I manipulated flower bud gallers, a species-specific floral herbivore that destroys flowers, to test how it affected other plant-insect interactions, floral traits, and plant reproduction. Plants with flower bud gallers tended to have more pollinator visits, but this effect is due to a shared preference by gallers and pollinators for similar plants. Third, I manipulated florivory to examine how it affects subsequent plant-arthropod interactions, floral traits, and plant reproduction. Florivory had systemic effects on other plant-insect interactions, including leaf herbivores, and shifted the plant mating system towards more selfing. Additionally, I tested how several floral antagonists respond to floral attractive and defense traits to understand which floral traits are important in mediating antagonisms. Finally, I manipulated florivory, pollination, and nectar robbing to test for effects of multiple floral interactions on subsequent plant-insect interactions, floral traits, and plant reproduction. There were significant many-way interactions between the three treatments on subsequent plant-insect interactions and reproduction, indicating that the effect of one interaction depends on what other interactions are present. Understanding the role that floral antagonists play in plant ecology can help scientists determine which interactions are most important, and may help determine why some floral traits exist in their current state. Together, this work represents some of the most comprehensive research on the community consequences of floral antagonists, as well as the interplay between floral traits and floral interactions.

Floral defenses

Florivory

Flower gallers

Impatiens capensis

Nectar robbing

Pollination

Plant Biology

Plant Sciences

Sow SEAD, Reap DEAD, Secure Air Superiority : Russia's failures to establish air superiority in Ukraine - En kvalitativ textanalys om luftkriget i kriget mellan Ryssland och Ukraina.

Helenius, Jim

January 2024

Why has Russia failed to establish air superiority over Ukraine despite its superiority in personnel and resources within the air force compared to Ukraine? Previous research mentions the failed SEAD/DEAD operations as a contributing factor, yet these studies have focused on the strategic and operational levels. This study examines the factors contributing to the failed SEAD/DEAD operations at the tactical level. This is conducted through a qualitative text analysis using a theoretical framework derived from Warden and Pape, as well as a study by Bucki. The factors examined in the operations include; high-technology combat aircraft and missiles, the ability to conduct low-altitude flying, the position of airbases relative to the operational area, disabling sensors, intelligence, and electronic warfare capabilities. The results indicate that Russia did not achieve any of these factors except for positioning. However, this did not prove advantageous as the ability to conduct longer low-altitude flights was limited.

Suppression of Enemy Air Defense (SEAD)

Destruction of Enemy Air Defenses (DEAD)

air superiority

luftöverlägsenhet

Political Science

Statsvetenskap

Evaluation of the role of PGIPs in plant defense responses

Becker, John van Wyk, 1975-

12 1900

Dissertation (PhD)--University of Stellenbosch, 2007. / ENGLISH ABSTRACT: Plants have developed sophisticated means of combating plant diseases. The events that prepare the plant for, and follow plant-pathogenic interactions, are extremely complex and have been the topic of intensive investigation in recent years. These interactions involve a plethora of genes and proteins, and intricate regulation thereof; from the host and pathogen alike. Studying the contribution of single genes and their encoded proteins to the molecular dialogue between plant and pathogen has been a focus of plant molecular biologists. To this end, a gene encoding a polygalacturonase-inhibiting protein (PGIP) was recently cloned from Vitis vinifera. These proteins have the ability to inhibit fungal endopolygalacturonases (ePGs), enzymes which have been shown to be required for the full virulence of several fungi on their respective plant hosts. The activity of PGIP in inhibiting fungal macerating enzymes is particularly attractive for the improvement of disease tolerance of crop species. The VvPGIP-encoding gene was subsequently transferred to Nicotiana tabacum for high-level expression of VvPGIP. These transgenic plants were found to be less susceptible to infection by Botrytis cinerea in an initial detached leaf assay. Also, it was shown that ePG inhibition by protein extracts from these lines correlated to the observed decrease in susceptibility to B. cinerea. This study expands on previous findings by corroborating the antifungal nature of the introduced PGIP by whole-plant, timecourse infection assays. Six transgenic tobacco lines and an untransformed wildtype (WT) were infected and the lesions measured daily from day three to seven, and again at day 15. The transgenic lines exhibited smaller lesions sizes from three to seven days post-inoculation, although these differences only became statistically significant following seven days of incubation. At this point, four of the six lines exhibited significantly smaller lesions than the WT, with reductions in disease susceptibility ranging between 46 and 69% as compared to the WT. Two of the lines exhibited disease susceptibility comparable to the WT. In these resistant plant lines, a correlation could be drawn between Vvpgip1 expression, PGIP activity and ePG inhibition. These lines were therefore considered to be PGIP-specific resistant lines, and provided ideal resources to further study the possible in planta roles of PGIP in plant defense. The current hypothesis regarding the role(s) of PGIP in plant defense is twofold. Firstly, PGIPs have the ability to specifically and effectively inhibit fungal ePGs. This direct inhibition results in reduced fungal pathogenicity. Alternatively, unhindered action of these enzymes results in maceration of plant tissue and ultimately, tissue necrosis. Subsequently, it could be shown that, in vitro, the inhibition of ePGs prolongs the existence of oligogalacturonides, molecules with the ability to activate plant defense responses. Thus, PGIPs limit tissue damage by inhibition of ePG; this inhibition results in activation of plant defense responses aimed at limiting pathogen ingress. Several publications reported reduced susceptibility to Botrytis in transgenic plant lines overexpressing PGIP-encoding genes. However, none of these publications could expand on the current hypotheses regarding the possible in planta roles of PGIP in plant defense. In this study we used transgenic tobacco lines overexpressing Vvpgip1 as resources to study the in planta roles for PGIP. Transcriptomic and hormonal analyses were performed on these lines and a WT line, both before and following inoculation with Botrytis cinerea. Transcriptomic analysis was performed on uninfected as well as infected tobacco leaf material utilizing a Solanum tuberosum microarray. From the analysis with healthy, uninfected plant material, it became clear that genes involved in cell wall metabolism were differentially expressed between the transgenic lines and the WT. Under these conditions, it could be shown and confirmed that the gene encoding tobacco xyloglucan endotransglycosylase (XET/XTH) was downregulated in the transgenic lines. Additionally, genes involved in the lignin biosynthetic pathway were affected in the individual transgenic lines. Biochemical evidence corroborated the indication of increased lignin deposition in their cell walls. Additionally, phytohormone profiling revealed an increased indole-acetic acid content in the transgenic lines. These results show that constitutive levels of PGIP may affect cell wall metabolism in the Vvpgip1-transgenic lines which may have a positive impact on the observed reduced susceptibilities of these plants. An additional role for PGIP in the contribution to plant defenses is therefore proposed. PGIP may directly influence defense responses in the plant leading to the strengthening of cell walls. This might occur by virtue of its structural features or its integration in the cell wall. These reinforced cell walls are thus “primed” before pathogen ingress and contribute to the decrease in disease susceptibility observed in lines accumulating high levels of PGIP. Transcriptional and hormonal analyses, at the localized response, were performed on Botrytis-infected leaf tissue of the transgenic lines and a WT line. Several Botrytis responsive genes were found to be upregulated in both the WT and the transgenic lines. Although limited differential expression was observed between the two genotypes, the analyses identified a gene which was upregulated two-fold in the transgenic lines, as compared to WT. This was confirmed by quantitative Real-Time PCR. This gene is involved in the lipoxygenase pathway, specifically the 9-LOX branch, leading to the synthesis of the divinyl ether oxylipins colneleic and colnelenic acid, which show inhibitory effects on Botrytis spore germination. Phytohormone profiling revealed that the transgenic lines accumulated more of the defense-related hormone pool of jasmonates. These are formed via the 13-LOX pathway and have been shown to be important for the restriction of Botrytis growth at the site of infection. Collectively, the results from the infection analyses indicate that in these transgenic lines, both branches of the lipoxygenase pathway are differentially induced at the level of the localized response to Botrytis infection. Similarly, an increased induction of the synthesis of the defense-related hormone salicylic acid could be observed, although this hormone did not accumulate to significantly higher levels. These results are the first report of differential induction of a defense-related pathway in pgip-overexpressing lines and substantiate the proposal that following ePG inhibition by PGIP, signaling which activates plant defense responses, takes place. Taken together, these results significantly contribute to our understanding of the in planta role of PGIP in plant defense responses. / AFRIKAANSE OPSOMMING: Plante het deur evolusie gesofistikeerde meganismes teen die aanslag van plantsiektes ontwikkel. Die gebeure wat die plant voorberei, asook dié wat op plant-patogeen interaksies volg, is uiters kompleks en vorm die kern van verskeie navorsingstemas die afgelope paar jaar. Etlike plant- én patogeengene en proteïene is by hierdie interaksies betrokke en aan komplekse reguleringsprosesse onderworpe. Die bestudering van die bydrae van enkelgene en hul gekodeerde proteïene tot die molekulêre interaksie tussen ‘n plant en patogeen is ‘n sterk fokus van plant-molekulêre bioloë. Met hierdie doel as fokus, is ‘n geen wat vir ‘n poligalakturonaseinhiberende proteïen (PGIP) kodeer, van Vitis vinifera gekloneer. Hierdie proteïene beskik oor die vermoë om fungiese endopoligalakturonases (ePG's), ensieme wat benodig word vir die virulensie van verskeie fungi op hul gasheerplante, te inhibeer. Die inhibisie van ePG's deur PGIP en die gepaardgaande verminderde weefseldegradasie is ‘n baie belowende strategie vir die verbetering van verboude gewasse se patogeentoleransie. Die VvPGIPenkoderende geen is gevolglik na Nicotiana tabacum oorgedra vir hoëvlakuitdrukking van VvPGIP. Daar is gevind dat hierdie transgeniese plante minder vatbaar vir Botrytis cinerea-infeksies was in ‘n inisiële antifungiese toets wat gebruik gemaak het van blaarweefsel wat van die moederplant verwyder is. Daar is ook ‘n korrelasie gevind tussen B. cinerea-siekteweerstand en ePG-inhibisie deur proteïenekstrakte van die transgeniese populasie. Die huidige studie bou voort op en bevestig vorige bevindinge betreffende die antfungiese aard van die heteroloë PGIP in die heelplant en oor tyd. Ses transgeniese tabaklyne en 'n ongetransformeerde wilde-tipe (WT) is geïnfekteer en die lesies is vanaf dag drie tot sewe, en weer op dag 15, gemeet. Die transgeniese lyne het in die tydperk van drie tot sewe dae ná-inokulasie kleiner lesies as die WT getoon, alhoewel hierdie verskille slegs statisties beduidend geword het na sewe dae van inkubasie. Op daardie tydstip het vier van die ses lyne aansienlik kleiner lesies as die WT getoon, en verlagings in siektevatbaarheid het, in vergelyking met die WT, van 46% tot 69% gewissel. Twee van die lyne het siektevatbaarheid getoon wat vergelykbaar was met dié van die WT. In die siekteweerstandbiedende plantlyne was daar 'n verband tussen Vvpgip1-ekspressie, PGIP-aktiwiteit en ePG-inhibisie. Hierdie plantlyne is dus as PGIP-spesifieke siekteweerstandslyne beskou en dien dus as ideale eksperimentele bronne vir die ontleding van die moontlike in plantafunksies van PGIP in plantsiekteweerstandbiedendheid. Die huidige hipotese betreffende die funksie(s) van PGIP in plantsiekteweerstand is tweeledig. Eerstens het PGIP die vermoë om fungusePG's spesifiek en doeltreffend te inhibeer. Hierdie direkte inhibisie veroorsaak ‘n vermindering in patogenisiteit van die fungus op die gasheer. Indien ePG's egter hulle ensimatiese aksie onverstoord voortsit, sal weefseldegradasie en uiteindelik weefselnekrose die gevolg wees. Daar kon ook bewys word dat die in vitroinhibisie van ePG's deur PGIP die leeftyd van oligogalakturoniede, molekules wat die vermoë het om die plantweerstandsrespons aan te skakel, kan verleng. PGIP het dus nie net die vermoë om ePG's, en dus weefseldegradasie, te inhibeer nie; maar hierdie inhibisie lei ook daartoe dat plantweerstandsresponse aangeskakel word met die oog op die vermindering van patogeenindringing. Verskeie publikasies het reeds gerapporteer oor verminderde Botrytisvatbaarheid in PGIP transgeniese plantlyne. Geeneen van hierdie publikasies kon egter uitbrei op die huidige hipotese aangaande die moontlike in planta-funksie van PGIP in plantsiekteweerstand nie. In hierdie studie is transgeniese tabaklyne wat PGIP ooruitgedruk gebruik om hierdie moontlike in planta-funksies vir PGIP uit te klaar. Transkriptoom- en hormonale analises is op hierdie plantlyne en ‘n WT voor en ná inokulasie met die nekrotroof Botrytis cinerea uitgevoer,. Transkriptoomanalises is uitgevoer op ongeïnfekteerde, sowel as geïnfekteerde tabakblaarmateriaal deur gebruik te maak van ‘n Solanum tuberosum-mikroraster. Die analises met gesonde, ongeïnfekteerde plantmateriaal het daarop gewys dat gene betrokke by selwandmetabolisme tussen die transgeniese lyne en die WT verskillend uitgedruk was. Dit kon bewys word dat, sonder infeksiedruk, die geen wat xiloglukaan-endotransglikosilase (XET) kodeer, in die transgeniese lyne afgereguleer was. Gene wat betrokke is in die lignien-biosintetiese pad was ook in die individuele transgeniese lyne beïnvloed. Biochemiese toetse het ook die aanduiding van verhoogde ligniendeposisie in die transgeniese lyne se selwande bevestig. Addisionele fitohormoonprofiele het getoon dat hierdie lyne ook beskik oor verhoogde vlakke van indoolasynsuur (IAA). Hierdie resultate wys daarop dat konstitutiewe vlakke van PGIP selwandmetabolisme in die Vvpgip1-transgeniese lyne moontlik kan beïnvloed, wat plantsiekteweerstand in dié lyne positief kan beïnvloed. Dit wil dus voorkom asof PGIP 'n bykomende funksie in plantsiekteweerstand het. Plantweerstandsreponse kan direk deur PGIP beïnvloed word, wat tot die versterking van plantselwande kan lei; dit kan geskied by wyse van die strukturele eienskappe van die proteïen of die integrasie daarvan in die selwand. Hierdie selwande is dus “voorberei” alvorens patogeenindringing plaasvind en kon bydra tot die verminderde siektevatbaarheid wat waargeneem is in lyne wat hoë vlakke van PGIP akkumuleer. Transkriptoom- en hormonale analises is ook uitgevoer op Botrytisgeïnfekteerde blaarmateriaal van beide die transgeniese lyne en ‘n WT. Verskeie Botrytis-responsgene is in beide die transgeniese lyne en die WT opgereguleer. Differensïele geenekspressie tussen die twee genotipes was taamlik beperk, maar in die analises kon ‘n geen geïdentifiseer word wat tweevoudig in die transgeniese lyne opgereguleer was in vergelyking met die WT. Hierdie resultaat is ook bevestig met behulp van die “Real-Time” Polimerasekettingreaksie (PKR). Hierdie geen is betrokke in die lipoksigenase (LOX) -pad (spesifiek die 9-LOXarm), wat tot die sintese van die diviniel-eter oksilipiene “colneleic-” en “colnelenic”-suur lei. Daar is al bewys dat hierdie twee verbindings Botrytisspoorontkieming kan inhibeer. Fitohormoonprofiele van die geïnfekteerde plante het gewys dat die transgeniese lyne verhoogde vlakke van die poel van jasmonate wat plantsiekteweerstands-hormone is, ná inokulasie akkumuleer. Hierdie hormone word in die 13-LOX-arm van die lipoksigenase pad gevorm en is belangrik vir die beperking van Botrytis by die infeksiesetel. Die resultate van die analises wat op Botrytis-infeksie volg, dui daarop dat beide arms van die lipoksigenasepad in die transgeniese lyne verskillend by die lokale respons geïnduseer word. ‘n Verhoogde induksie van ‘n ander plantsiekteweerstandshormoon, salisielsuur, kon ook opgemerk word, alhoewel die totaal geakkumuleerde vlakke nie beduidend hoër was as dié van die WT nie. Hierdie resultate is die eerste wat onderskeidende induksie van ‘n siekteweerstandspad in enige van die pgip-ooruitgedrukte plantlyne rapporteer. Daarmee ondersteun dit ook die hipotese dat, seintransduksie wat plantweerstandsresponse aanskakel, ná inhibisie van ePG deur PGIP plaasvind. Die resultate wat met hierdie studie verkry is, dra dus beduidend by tot die huidige kennis van die in planta-funksie van PGIP in plantsiekteweerstandsresponse.

Plant-pathogen relationships

Grapes -- Disease and pest resistance

Grapes -- Defenses

Polygalacturonase

Agricultural biotechnology

Plant defenses

Polygalacturonase-inhibiting proteins

Theses -- Wine biotechnology

Dissertations -- Wine biotechnology