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Vloga cepljenja pri raziskavah odpornosti rastlin na patogene organizme
ID Gazvoda, Suzana (Author), ID Štajner, Nataša (Mentor) More about this mentor... This link opens in a new window, ID Volk, Helena (Comentor)

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Abstract
Cepljenje rastlin je pomembna metoda v raziskavah odpornosti rastlin na patogene organizme. Omogoča združevanje različnih lastnosti rastlin, kar vključuje odpornost proti biotskemu in abiotskemu stresu, ter izboljšanje rasti, produktivnosti in pomlajevanje rastlin. Raziskovalci uporabljajo različne tehnike cepljenja, ki se razlikujejo po mestu cepljenja, obliki reza in uporabljenih pripomočkih, da preučujejo odpornost rastlin na patogene. S cepljenjem lahko natančno analiziramo mehanizme odpornosti, pri čemer se uporabljajo tako in vitro kot in vivo metode. Transgensko cepljenje, kjer se kombinirajo netransgeni cepiči s transgenimi podlagami ali obratno, omogoča omejevanje pretoka transgenov, kar je pomembno za študije genske ekspresije. Spremembe v izražanju genov, ki jih povzroča cepljenje, vplivajo na fenotipske značilnosti rastlin in lahko vodijo do popolnega reprogramiranja genske ekspresije. Patogeni in abiotski dejavniki vplivajo na stabilnost genoma rastlin, cepljenje pa omogoča raziskovanje teh interakcij. Snovi, kot so hormoni, beljakovine in signalne molekule, se prenašajo med podlago in cepičem ter sprožajo epigenetske spremembe, ki vplivajo na fenotipe rastlin. Fiziološki odzivi rastlin so odvisni od signalnih spojin, ki se transportirajo na dolge razdalje med cepljenimi deli rastline. Raziskave kažejo, da se genetske informacije prenašajo med podlago in cepičem, pri čemer imajo mobilne RNA, kot so mRNA in sRNA, ključno vlogo pri uspehu cepljenja. Majhne regulatorne RNA lahko uvedejo epigenetske spremembe v ciljna tkiva, kar vpliva na fiziologijo rastlin, ter uravnavajo izražanje specifičnih genov, kar je pomembno za odziv rastlin na patogene. Za raziskovanje prenosa in gibanja patogenov se pogosto izvede inokulacija s cepljenjem.

Language:Slovenian
Keywords:cepljenje, odpornost, patogen, raziskava, cepič, podlaga, izražanje genov, transport spojin, signalizacija
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:BF - Biotechnical Faculty
Year:2024
PID:20.500.12556/RUL-160294 This link opens in a new window
COBISS.SI-ID:205375491 This link opens in a new window
Publication date in RUL:25.08.2024
Views:204
Downloads:30
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Secondary language

Language:English
Title:The role of grafting in theresearch of resistance of plants to pathogens
Abstract:
Grafting is an important method in the study of plant resistance to pathogenic organisms. It enables the combination of different plant traits, including resistance to biotic and abiotic stress, as well as improved growth, productivity, and plant rejuvenation. Researchers use various grafting techniques, which differ in the grafting site, cut shape, and tools used, to study plant resistance to pathogens. Grafting allows for precise analysis of resistance mechanisms, employing both in vitro and in vivo methods. Transgenic grafting, where non-transgenic scions are combined with transgenic rootstocks or vice versa, allows for the restriction of transgene flow, which is crucial for studies on gene expression. Changes in gene expression caused by grafting affect the phenotypic characteristics of plants and can lead to complete reprogramming of gene expression. Pathogens and abiotic factors impact the stability of plant genomes, and grafting facilitates the exploration of these interactions. Substances such as hormones, proteins, and signaling molecules are transported between the rootstock and scion, triggering epigenetic changes that influence plant phenotypes. The physiological responses of plants depend on signaling compounds that travel long distances between grafted parts. Research shows that genetic information is transferred between rootstock and scion, with mobile RNAs, such as mRNA and sRNA, playing a crucial role in grafting success. Small regulatory RNAs can induce epigenetic changes in target tissues, affecting plant physiology, and regulate the expression of specific genes, which is important for plant response to pathogens. Inoculation via grafting is often used to study the transmission and movement of pathogens.

Keywords:grafting, resistance, pathogen, research, scion, rootstock, gene expression, compound transport, signaling

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