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Investigation of the DMR6 susceptibility genes in grapevine for improving phytoplasma resistance through CRISPR/Cas9 technology

Thesis (MScAgric)--Stellenbosch University, 2024.

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Main Author:	Holm, Clara Cornelia
Other Authors:	Burger, Johan
Format:	Thesis
Language:	en_ZA en_ZA
Published:	Stellenbosch : Stellenbosch University 2024
Subjects:	Downy mildew diseases > Genetic aspects Gene mapping > Technique Grape powdery mildew disease > Control Grapes > Effect of pesticides on Plants > Disease and pest resistance > Genetic aspects Phytoplasma diseases UCTD
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_version_	1867613942966124544
access_status_str	Open Access
author	Holm, Clara Cornelia
author2	Burger, Johan
author_browse	Burger, Johan Holm, Clara Cornelia
author_facet	Burger, Johan Holm, Clara Cornelia
author_sort	Holm, Clara Cornelia
collection	Thesis
dc_rights_str_mv	Stellenbosch University
description	Thesis (MScAgric)--Stellenbosch University, 2024.
format	Thesis
id	oai:scholar.sun.ac.za:10019.1/130294
institution	Stellenbosch University (South Africa)
language	en_ZA en_ZA
last_indexed	2026-06-10T12:44:09.875Z
license_str	Other — see source repository
provenance_str_mv	Harvested via OAI-PMH from SUNScholar — Stellenbosch University Repository
publishDate	2024
publishDateRange	2024
publishDateSort	2024
publisher	Stellenbosch : Stellenbosch University
publisherStr	Stellenbosch : Stellenbosch University
record_format	dspace
source_str	SUNScholar — Stellenbosch University Repository
spelling	oai:scholar.sun.ac.za:10019.1/130294 Investigation of the DMR6 susceptibility genes in grapevine for improving phytoplasma resistance through CRISPR/Cas9 technology Holm, Clara Cornelia Burger, Johan Campa, Manuela Stellenbosch University. Faculty of Agrisciences. Dept. of Genetics. Downy mildew diseases -- Genetic aspects Gene mapping -- Technique Grape powdery mildew disease -- Control Grapes -- Effect of pesticides on Plants -- Disease and pest resistance -- Genetic aspects Phytoplasma diseases UCTD Thesis (MScAgric)--Stellenbosch University, 2024. ENGLISH ABSTRACT: Vi6culture is considered one of the most important crop industries worldwide but is con6nually placed under pressure from a vast array of pathogens. Phytoplasma diseases are a cri6cal challenge for the grapevine industry and cause considerable yield losses. Several breeding strategies aim to improve grapevine disease resistance through the introgression of resistance genes, or through the inac6va6on of suscep6bility (S) genes, using genome edi6ng. Recent advancements of genome edi6ng tools such as CRISPR/Cas9 (Clustered regularly interspaced short palindromic repeats/CRISPR-associated protein 9) allows for the targeted inac6va6on of important host S factors that play a role during pathogen infec6on. The Downy Mildew Resistant 6 (DMR6) genes were ini6ally described in Arabidopsis thaliana as a suscep6bility factor for bacterial and oomycete pathogens. Subsequent inac6va6on of these genes resulted in broad range pathogen resistance in various crops such as tomato, leBuce, cucumber, pepper, and citrus. Furthermore, there is evidence that the VviDMR6 genes play a similar role in grapevine. In fact, most recently the inac6va6on of the VviDMR6 genes lead to enhanced downy mildew resistance in grapevine. However, it’s precise role during pathogenesis remains unclear. To this end, this study aimed to func6onally characterize the grapevine DMR6 genes, with par6cular focus on their involvement in plant defense. Gene co- expression networks highlighted the involvement of VviDMR6.1 in defense, while VviDMR6.2 was associated with developmental pathways. Gene expression analyses across diﬀerent grapevine 6ssues revealed that VviDMR6.1 was predominantly expressed in the roots. Furthermore, to beBer understand the role of VviDMR6 during pathogenesis, in vitro grown grapevine was treated with salicylic acid (SA) to examine its response in diﬀerent 6ssue types. Both VviDMR6 genes were induced upon SA treatment across diﬀerent 6ssues. Addi6onally, GUS-reporter assays were used to further inves6gate the 6ssue speciﬁcity of the VviDMR6 genes. This entailed the iden6ﬁca6on and isola6on of the puta6ve promoter regions of VviDMR6.1 and VviDMR6.2 from Chardonnay. In silico analyses unveiled core promoter elements and puta6ve regulatory mo6fs associated with stress responsiveness within both VviDMR6 promoters. Subsequently, two promoterDMR6::GUS vectors were constructed consis6ng of the respec6ve promoters fused to GUS, and were subsequently introduced into A. thaliana. The proDMR6.1::GUS transgenic lines showed dis6nct promoter ac6vity in the roots of fully grown plants and demonstrated clear induc6on upon SA exposure. Finally, two previously designed CRISPR/Cas9 constructs containing two targets for VviDMR6.1 and a single target for VviDMR6.2 were introduced to rootstock cul6var Richter 110 embryogenic callus through Agrobacterium-mediated transforma6on. Successful edi6ng of VviDMR6.1 was achieved, with a muta6on frequency of 43%. Inference of CRISPR Edits (ICE) analysis revealed small indels, primarily 2-bp dele6ons, in the VviDMR6.1 edited lines. Notably, a single transgenic line demonstrated complete edi6ng, achieving 100% edi6ng eﬃciency. This contributes to the advancement of genome edi6ng tools for enhancing disease resistance in grapevine and yielded the ﬁrst CRISPR/Cas9-edited grapevine on the African con6nent. AFRIKAANSE OPSOMMING: Wingerdbou word beskou as een van die belangrikste gewasbedrywe wêreldwyd, maar dit ervaar voortdurend druk van 'n wye verskeidenheid patogene. Fitoplasmas is 'n kri6eke uitdaging vir die wingerdboubedryf en veroorsaak aansienlike opbrengsverliese. Verskeie strategieë is gemik op die verbetering van wingerd siektebestandheid deur die introgressie van weerstandbiedende gene, of deur die uitskakeling van vatbaarheid (S) gene, deur genoomredigering. Onlangse vordering in genoomredigeringstegnologieë soos CRISPR/Cas9 (Clustered regularly interspaced short palindromic repeats/CRISPR-associated protein 9) maak dit moontlik om die doelgerigte uitskakeling van belangrike S-faktore wat 'n rol speel tydens patogeen-infeksie, uit te voer. Die Downy Mildew Resistant 6 (DMR6) gene is aanvanklik in Arabidopsis thaliana beskryf as 'n S geen vir bakteriese en oomisete patogene. Daaropvolgende uitskakeling van hierdie gene het gelei tot breë-spektrum patogeenweerstandigheid in verskeie gewasse soos tama6e, slaai, komkommer, rissie en sitrus. Daar is verdere bewyse dat die VviDMR6-gene 'n soortgelyke rol in wingerd vervul. Die onlangse inak6vering van die VviDMR6-gene het gelei tot verhoogde weerstand teen downy mildew infeksie in wingerd. Die presiese rol daarvan tydens patogeen infeksie bly egter onduidelik. Met hierdie doelwit in gedagte, het hierdie studie gepoog om VviDMR6-gene funksioneel te karakteriseer, met spesiﬁeke fokus op hul betrokkenheid by plant verdedigingsmeganismes. Geen-interaksie netwerke het VviDMR6.1 se betrokkenheid by verdediging beklemtoon, terwyl VviDMR6.2 verband gehou het met ontwikkelingspaaie. Geenuitdruking-analises het beklemtoon dat VviDMR6.1 hoofsaaklik in die wortels uitgedruk word in wingerd. Verder is in vitro gekweekte wingerd met salisielsuur (SA) behandel om die rol van VviDMR6 tydens patogenese infeksie beter te verstaan. Beide VviDMR6- gene is geïnduseer tydens SA-behandeling regdeur verskeie weefsels. Daarbenewens is GUS- raporteerde-toetse opgestel om die weefselspesiﬁsiteit van die VviDMR6-gene verder te ondersoek. Dit het die iden6ﬁkasie en isolasie van die vermeende promotor-areas van VviDMR6.1 en VviDMR6.2 vanaf Chardonnay ingesluit. In siliko-analises het kern-promotor elemente en vermoedelike regulatoriese mo6ewe wat verband hou met stres-reak6ewiteit binne beide VviDMR6-promotors onthul. Daarna is twee promotorDMR6::GUS-vektore ontwerp wat bestaan uit die onderskeie promotors, gekoppel aan GUS, en is daarna in A. thaliana getransformeer. Die proDMR6.1::GUS transgeniese lyne het duidelike promotorak6witeit in die wortels van volwasse plante getoon en duidelike induksie tydens SA-blootstelling aangetoon. Laastens is twee voorheen-ontwerpte CRISPR/Cas9 konstrukte wat twee teikens vir VviDMR6.1 en een teiken vir VviDMR6.2 bevat, deur middel van Agrobacterium-gemedieerde transformasie na Richter 110 embryogeniese kallus oorgedra. Suksesvolle redigering van VviDMR6.1 is behaal, met 'n mutasie-frekwensie van 43%. Inferensie van CRISPR Redigering (ICE) analise het klein indels, hoofsaaklik 2-bp delesies, binne die VviDMR6.1 lyne onthul. Merkwaardig genoeg het 'n enkele transgeniese lyn volledige redigering gedemonstreer, wat 100% redigeringsdoeltreﬀendheid aandui. Hierdie resultate dra by tot die vooruitgang van genoomredigeringstegnologieë vir die verbetering van siektebestandheid in wingerd en het die eerste CRISPR/Cas9-redigeerde wingerd op die Afrika-kon6nent opgelewer. Masters 2024-02-23T13:36:38Z 2024-04-26T12:22:23Z 2024-02-23T13:36:38Z 2024-04-26T12:22:23Z 2024-03 Thesis https://scholar.sun.ac.za/handle/10019.1/130294 en_ZA en_ZA Stellenbosch University xviii, 107 pages : illustrations application/pdf Stellenbosch : Stellenbosch University
spellingShingle	Downy mildew diseases -- Genetic aspects Gene mapping -- Technique Grape powdery mildew disease -- Control Grapes -- Effect of pesticides on Plants -- Disease and pest resistance -- Genetic aspects Phytoplasma diseases UCTD Holm, Clara Cornelia Investigation of the DMR6 susceptibility genes in grapevine for improving phytoplasma resistance through CRISPR/Cas9 technology
title	Investigation of the DMR6 susceptibility genes in grapevine for improving phytoplasma resistance through CRISPR/Cas9 technology
title_full	Investigation of the DMR6 susceptibility genes in grapevine for improving phytoplasma resistance through CRISPR/Cas9 technology
title_fullStr	Investigation of the DMR6 susceptibility genes in grapevine for improving phytoplasma resistance through CRISPR/Cas9 technology
title_full_unstemmed	Investigation of the DMR6 susceptibility genes in grapevine for improving phytoplasma resistance through CRISPR/Cas9 technology
title_short	Investigation of the DMR6 susceptibility genes in grapevine for improving phytoplasma resistance through CRISPR/Cas9 technology
title_sort	investigation of the dmr6 susceptibility genes in grapevine for improving phytoplasma resistance through crispr cas9 technology
topic	Downy mildew diseases -- Genetic aspects Gene mapping -- Technique Grape powdery mildew disease -- Control Grapes -- Effect of pesticides on Plants -- Disease and pest resistance -- Genetic aspects Phytoplasma diseases UCTD
url	https://scholar.sun.ac.za/handle/10019.1/130294
work_keys_str_mv	AT holmclaracornelia investigationofthedmr6susceptibilitygenesingrapevineforimprovingphytoplasmaresistancethroughcrisprcas9technology

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Investigation of the DMR6 susceptibility genes in grapevine for improving phytoplasma resistance through CRISPR/Cas9 technology

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