Your search keyword '"STAJIČ, Ester"' showing total 8 results

1. Optimization of cabbage (Brassica oleracea var. capitata L.) protoplast transformation for genome editing using CRISPR/Cas9

Author

Stajič, Ester, primary and Kunej, Urban, additional

Published

2023

2. Deep sequencing analysis of CRISPR/Cas9 induced mutations by two delivery methods in target model genes and the CENH3 region of red cabbage (Brassica oleracea var. capitata f. rubra)

Author

Stajič, Ester, Kiełkowska, Agnieszka, Murovec, Jana, and Bohanec, Borut

Published

2019

3. Improvements in Protoplast Isolation Protocol and Regeneration of Different Cabbage (Brassica oleracea var. capitata L.) Cultivars

Author

Stajič, Ester, primary

Published

2023

4. Vloga malih RNK pri odzivu rastlin na okužbo s patogenimi organizmi

Author

KUNEJ, Urban, primary and STAJIČ, Ester, additional

Published

2022

5. PRIMERJAVA METOD ZA IZOLACIJO RNA IZ KORENIN IN LISTOV HMELJA ZA ANALIZE IZRAŽANJA GENOV Z METODO RT-qPCR.

Author

STAJIČ, Ester

Abstract

Hops (Humulus lupulus L.) is a dioecious perennial climbing plant that plays an important role in the brewing industry. Since it is a host plant for many pathogens, research at the RNA level is critical to understand the plant's response to pathogens and mechanisms of disease resistance. Obtaining sufficient amounts of high-quality RNA for molecular analysis is often difficult in plants because they contain metabolites such as phenols and polysaccharides. For this purpose, we compared five different methods for RNA isolation from hop leaves and roots, including two commercially available kits for RNA isolation - Monarch Total RNA Miniprep Kit (NEB) and SpectrumTM Plant Total RNA Isolation Kit (Sigma-Aldrich); and three noncommercial protocols. For all samples, the concentration and purity of the isolated RNA was determined using a spectrophotometer. With the non-commercial 'Hot borate' and CTAB methods, we achieved the highest concentrations and purity of isolated RNA in both leaves and roots of hops. When the samples were analysed using the RT-qPCR method, we found that they were suitable for further molecular analysis. [ABSTRACT FROM AUTHOR]

Published

2023

6. Manipuliranje ploidnosti pri bučkah (Cucurbita pepo L.)

Author

Stajič, Ester and Murovec, Jana

Subjects

indukcija haploidov, adventitious regeneration, haploid induction, bučke, ploidy, adventivna regeneracija, udc:631.528:635.621(043.2), zucchini, Cucurbita pepo, žlahtnjenje rastlin, genome doubling, plant breeding, podvajanje genoma, ploidnost

Published

2020

7. Tarčno preurejanje gena za centromerni protein CENH3 pri zelju (Brassica oleracea var. capitata L.) s tehnologijo CRISPR/Cas9

Author

Stajič, Ester and Bohanec, Borut

Subjects

udc:606:602.64:582.683.211(043.3), protoplasts, zelje, genska transformacija, genome editing, genetic transformation, tarčno preurejanje, cabbage, CRISPR/Cas9, protoplasti

Abstract

Tarčno preurejanje genoma z uporabo tehnologije CRISPR/Cas9 je vedno pogosteje uporabljen pristop za induciranje tarčnih mutacij tudi pri rastlinah. V naših poskusih smo uporabili deset različnih sgRNA za ciljanje štirih različnih mest v genomu zelja (Brassica oleracea var. capitata L.), med njimi tudi 6 sgRNA za spremembe centromernega proteina CENH3, ki je vključen v ločevanje kromosomov. Rastline z mutiranimi oblikami proteina CENH3 se lahko uporabijo kot opraševalske linije za indukcijo haploidov v procesu pridobivanja hibridov z visoko agronomsko vrednostjo. Za dostavo pripravljenih CRISPR/Cas9 vektorjev v celice rastlin zelja smo uporabili tri različne pristope: transformacijo protoplastov, agroinfiltracijo in stabilno transformacijo z uporabo bakterije Agrobacterium tumefaciens (A. t.). Za detekcijo tarčnih mutacij smo uporabili test z endonukleazo T7E1, sekvenciranje po Sangerju in sekvenciranje naslednje generacije. Slednje je pokazalo uspešno indukcijo tarčnih mutacij za vse testirane sgRNA pri vzorcih poskusov transformacije protoplastov in agroinfiltracije. Odstotki induciranih indel (insercije-delecije) mutacij so bili do 11,95 % po transformaciji protoplastov in do 14,42 % po agroinfiltraciji. Za regeneracijo rastlin z želenimi mutacijami smo optimizirali protokole za regeneracijo protoplastov z uporabo gojenja v alginatnih diskih in protokol za stabilno transformacijo z A. t. Protokoli, izdelani v okviru te doktorske disertacije, bodo pripomogli k uporabi tarčne mutageneze pri žlahtnjenju zelja. Genome editing using CRISPR/Cas9 technology is a prevailing approach for the induction of target mutations also in plants. In our work, we used ten different sgRNAs for genome editing of four different sites in cabbage (Brassica oleracea var. capitata L.), including 6 sgRNAs for modification of centromere protein CENH3 involved in chromosome segregation. Plants carrying mutated versions of CENH3 have the potential to be used as haploid inducers in the process of production of hybrids with high agronomic value. We used three different approaches for delivery of prepared CRISPR/Cas9 vectors into cabbage cells: protoplast transfection, agroinfiltration and stable transformation using Agrobacterium tumefaciens (A. t.). To detect target mutations we used T7E1 assay, Sanger sequencing, and next-generation sequencing. The latter showed successful induction of target mutations for all tested sgRNAs in protoplast transfection and agroinfiltration experiments. Mutations were induced at frequencies up to 11,95 % for protoplast transfection and up to 14,42 % for agroinfiltration. For regeneration of plants carrying desired mutations, we optimized protocols for the regeneration of protoplast using cultivation in alginate layers and protocol for stable transformation with A. t. Protocols developed through this doctoral dissertation will help to further use targeted mutagenesis in cabbage breeding.

Published

2020

8. VZPOSTAVITEV METODE IZOLACIJE PROTOPLASTOV PRI HMELJU (Humulus lupulus L.).

Author

STAJIČ, Ester, KUNC, Petra, and KUNEJ, Urban

Abstract

An efficient protoplast isolation protocol is the main requirement for development of protoplast transformation methods that have wide applicability, from basic studies of gene functions to the regeneration of transformed plants with modified characteristics. Very few such protocols exist for hop. In order to establish a method for the isolation of protoplasts for hop, we tested different media for growth in tissue culture. On the hormone-free medium, growth was fastest and leaves were well developed and suitable for protoplast isolation. By optimizing the composition of the enzyme mixture, we achieved high yield (8.0 × 105 protoplasts per g of leaves) and 86 %) viability of the isolated protoplasts in the Celeia cultivar. The established protocol also proved to be suitable for the isolation of protoplasts from other Slovenian hop cultivars, although we observed differences in yield and viability of isolated protoplasts between the cultivars used. We report the first protocol for isolation of protoplasts from hop leaves, which will enable many further applications for hop breeding. [ABSTRACT FROM AUTHOR]

Published

2022