When Long Noncoding RNAs Meet Genome Editing in Pluripotent Stem Cells by Fuquan Chen, Jiaojiao Ji, Jian Shen, Xinyi Lu

“…Here, we summarize recent advancements in dissecting the roles of lncRNAs with genome editing technologies in PSCs and highlight potential genome editing tools useful for examining the functions of lncRNAs in PSCs.…”
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Genome Editing: A Promising Approach for Achieving Abiotic Stress Tolerance in Plants by Navdeep Kaur, Shubham Sharma, Mirza Hasanuzzaman, Pratap Kumar Pati

“…It also highlights the emerging potential of genome editing for developing abiotic stress-resilient crops.…”
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CRISPR/Cas genome editing for cotton precision breeding: mechanisms, advances, and prospects by Vijay Sheri, Harikrishnan Mohan, Phanikanth Jogam, Anshu Alok, Gulab Khan Rohela, Baohong Zhang

“…The constantly increasing demand needs a significant rise in cotton production. Genome editing technology, specifically with clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein (Cas) tools, has opened new possibilities for trait development in cotton. …”
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Guiding Lights in Genome Editing for Inherited Retinal Disorders: Implications for Gene and Cell Therapy by Carla Sanjurjo-Soriano, Vasiliki Kalatzis

“…Furthermore, we discuss recent advances in the field of genome editing and stem cell technologies, which together enable precise and personalized therapies for patients. …”
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Efficient genome editing in dicot plants using calreticulin promoter-driven CRISPR/Cas system by Bingjie Li, Yun Shang, Lixianqiu Wang, Jing Lv, Qi Wu, Fengjiao Wang, Jiangtao Chao, Jingjing Mao, Anming Ding, Xinru Wu, Kaili Xue, Chen Chen, Mengmeng Cui, Yuhe Sun, Huawei Zhang, Changbo Dai

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Genome Editing as a Vehicle to Drive Successful Chimeric Antigen Receptor T Cell Therapies to the Clinic by Caitlin R Hopkins, Joseph A Fraietta

“…Recent efforts have been directed toward incorporating genome editing technologies to address these challenges and develop potent CAR T cell therapies for a diverse array of haematopoietic cancers. …”
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Engineered CRISPR-Cas9 for Streptomyces sp. genome editing to improve specialized metabolite production by Duck Gyun Kim, Boncheol Gu, Yujin Cha, Jeonghan Ha, Yongjae Lee, Gahyeon Kim, Byung-Kwan Cho, Min-Kyu Oh

“…Abstract The CRISPR-Cas9 system has frequently been used for genome editing in Streptomyces; however, cytotoxicity, caused by off-target cleavage, limits its application. …”
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The study of the regulatory region of the Drosophila melanogaster Notch gene by new methods of directed genome editing by O. V. Andreyenkov, E. I. Volkova, N. G. Andreyenkova, S. A. Demakov

“…The development of new methods for directed genome editing made it possible to create a system for introducing directed changes into the regulatory zone of the gene. …”
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CRISPR/Cas9-Based Protocol for Precise Genome Editing in Induced Pluripotent Stem Cells by Avinash Singh, Swathy Babu, Marcus Phan, Shauna Yuan

“…The advent of clustered regularly interspaced short palindromic repeats (CRISPR)/Cas9-based genome editing has marked a significant advancement in genetic engineering technology. …”
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Robust genome editing activity and the applications of enhanced miniature CRISPR-Cas12f1 by Soo-Ji Park, Sungjin Ju, Won Jun Jung, Tae Yeong Jeong, Da Eun Yoon, Jang Hyeon Lee, Jiyun Yang, Hojin Lee, Jungmin Choi, Hyeon Soo Kim, Kyoungmi Kim

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Huntington’s disease modeling on HEK293 cell line by D. V. Sharipova, T. B. Malankhanova, A. A. Malakhova

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Genes for editing to improve economic traits in aquaculture fish species by Zituo Yang, Guihong Fu, May Lee, Shadame Yeo, Gen Hua Yue

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Robust and inducible genome editing via an all-in-one prime editor in human pluripotent stem cells by Youjun Wu, Aaron Zhong, Mega Sidharta, Tae Wan Kim, Bernny Ramirez, Benjamin Persily, Lorenz Studer, Ting Zhou

“…Abstract Prime editing (PE) allows for precise genome editing in human pluripotent stem cells (hPSCs), such as introducing single nucleotide modifications, small insertions or deletions at a specific genomic locus. …”
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In defence of South Africa’s National Health Research Ethics Council guidelines on heritable human genome editing by Donrich Thaldar, Sheetal Soni, Larisse Prinsen, Ntokozo Mnyandu, Marietjie Botes, Julian Kinderlerer

Subjects: “…heritable human genome editing…”
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HLA DR Genome Editing with TALENs in Human iPSCs Produced Immune-Tolerant Dendritic Cells by Yoo-Wook Kwon, Hyo-Suk Ahn, Jin-Woo Lee, Han-Mo Yang, Hyun-Jai Cho, Seok Joong Kim, Shin-Hyae Lee, Heung-Mo Yang, Hyun-Duk Jang, Sung Joo Kim, Hyo-Soo Kim

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Navigating the frontier: Comprehensive insights into CRISPR technology advancements, delivery strategies, and ethical considerations in cancer research by Manisha S. Jain, K.S. Srikruthi, Prakash Goudanavar, N Raghavendra Naveen

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Constitutive expression of Cas9 and rapamycin-inducible Cre recombinase facilitates conditional genome editing in Plasmodium berghei by Samhita Das, Tanaya Unhale, Carine Marinach, Belsy del Carmen Valeriano Alegria, Camille Roux, Hélène Madry, Badreddine Mohand Oumoussa, Rogerio Amino, Shiroh Iwanaga, Sylvie Briquet, Olivier Silvie

“…Another potent tool is the CRISPR/Cas9 technology, which has enabled targeted genome editing with higher accuracy and specificity and greatly advanced genome engineering in Plasmodium spp. …”
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Cellular Reprogramming, Genome Editing, and Alternative CRISPR Cas9 Technologies for Precise Gene Therapy of Duchenne Muscular Dystrophy by Peter Gee, Huaigeng Xu, Akitsu Hotta

“…In particular, Duchenne muscular dystrophy (DMD) has been an exemplary monogenic disease model for combining these technologies to demonstrate that genome editing can correct genetic mutations in DMD patient-derived iPSCs. …”
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Successful establishment of CRISPR-based genome-edited clonal cell populations from primary cells of buffalo, goats, and sheep by Priyanka Singh, Bosco Jose, Devika Gautam, Aseem Tara, Shreya Malhotra, Sacchinandan De, Manoj K. Singh, Naresh L. Selokar

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CRISPR/Cas9-Mediated Editing of a <i>NODULATION SIGNALING PATHWAY 1</i> Homolog Alters the Production of Strigolactones in Sunflower Roots by Maria A. Lebedeva, Maria S. Gancheva, Maksim R. Losev, Sofia V. Sokornova, Oleg S. Yuzikhin, Anna A. Krutikova, Kirill V. Plemyashov, Lyudmila A. Lutova

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