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Mini-Review Regarding the Applicability of Genome Editing Techniques Developed for Studying Infertility.


ABSTRACT: Infertility is a highly debated topic today. It has been long hypothesized that infertility has an idiopathic cause, but recent studies demonstrated the existence of a genetic substrate. Fortunately, the methods of editing the human genome proven to be revolutionary. Following research conducted, we identified a total of 21 relevant studies; 14 were performed on mice, 5 on zebrafish and 2 on rats. We concluded that over forty-four genes in total are dispensable for fertility in both sexes without affecting host homeostasis. However, there are genes whose loss-of-function induces moderate to severe phenotypic changes in both sexes. There were situations in which the authors reported infertility, exhibited by the experimental model, or other pathologies such as cryptorchidism, cataracts, or reduced motor activity. Overall, zinc-finger nucleases (ZFNs), transcription activator-like effector nucleases (TALENs), and clustered regularly interspaced short palindromic repeat (CRISPR)/Cas9 are techniques that offer a wide range of possibilities for studying infertility, even to create mutant variants. It can be concluded that ZFNs, TALENs, and CRISPR/Cas9 are crucial tools in biomedical research.

SUBMITTER: Doroftei B 

PROVIDER: S-EPMC7915733 | biostudies-literature | 2021 Feb

REPOSITORIES: biostudies-literature

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Mini-Review Regarding the Applicability of Genome Editing Techniques Developed for Studying Infertility.

Doroftei Bogdan B   Ilie Ovidiu-Dumitru OD   Puiu Maria M   Ciobica Alin A   Ilea Ciprian C  

Diagnostics (Basel, Switzerland) 20210205 2


Infertility is a highly debated topic today. It has been long hypothesized that infertility has an idiopathic cause, but recent studies demonstrated the existence of a genetic substrate. Fortunately, the methods of editing the human genome proven to be revolutionary. Following research conducted, we identified a total of 21 relevant studies; 14 were performed on mice, 5 on zebrafish and 2 on rats. We concluded that over forty-four genes in total are dispensable for fertility in both sexes withou  ...[more]

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