Publications by authors named "Monika Gjoka"
The lack of rat embryonic stem cells (ESCs) and approaches for manipulation of their genomes have restricted the ability to create new genetic models and to explore the function of a single gene in complex diseases in the laboratory rat. The recent breakthrough in isolating germline-competent ESCs from rat and subsequent demonstration of gene knockout has propelled the field forward, but such tools do not yet exist for many disease-model rat strains. Here we derive new ESCs from several commonly used rat models including the Dahl Salt Sensitive (SS), the sequenced Brown Norway (BN), and Fischer (F344) rat and establish the first germline-competent ESCs from a hypertension disease model strain, the Fawn Hooded Hypertensive (FHH) rat.
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- - Genome editing enables researchers to understand gene functions and disease genetics more precisely than traditional methods, which often lead to random and unwanted genetic changes.
- - Zinc finger nucleases (ZFNs) are crucial for targeted genome editing, as they can cut specific DNA sequences and facilitate efficient gene modifications without needing chemicals or synthetic DNA.
- - The CompoZr Custom ZFN Service offers a systematic approach for researchers, providing support in analyzing gene structure and ensuring targeted gene editing is successful.
Zinc-finger nucleases (ZFNs) have enabled highly efficient gene targeting in multiple cell types and organisms. Here we describe methods for using simple ssDNA oligonucleotides in tandem with ZFNs to efficiently produce human cell lines with three distinct genetic outcomes: (i) targeted point mutation, (ii) targeted genomic deletion of up to 100 kb and (iii) targeted insertion of small genetic elements concomitant with large genomic deletions.
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