Improvements in pig agriculture through gene editing by Kristin M. Whitworth, Jonathan A. Green, Bethany K. Redel, Rodney D. Geisert, Kiho Lee, Bhanu P. Telugu, Kevin D. Wells, Randall S. Prather

“…The availability of genome editing tools that allow for the introduction of precise genetic modification at a single nucleotide resolution, while also facilitating large transgene integration in the target population, offers a solution. …”
Get full text

Removing limitations surrounding terpenoid biosynthesis by biotechnological techniques in Ferula sp.: A review by Zahra Aghaali, Jun-Li Yang, Mohammad Reza Naghavi, Meisam Zargar

“…This review examines the potential of hairy root culture, CRISPR/Cas-mediated genome editing, and metabolic engineering, including gene overexpression and enzyme engineering, for enhancing Ferula capacity tailored to industrial and medicinal needs. …”
Get full text

<i>Macrostomum lignano</i> as a model to study the genetics and genomics of parasitic flatworms by K. V. Ustyantsev, V. Yu. Vavilova, A. G. Blinov, E. V. Berezikov

“…All this makes M. lignano amenable to the most modern approaches of forward and reverse genetics, such as transposon insertional mutagenesis and methods of targeted genome editing by the CRISPR/Cas9 system. Due to the availability of an increasing number of genome and transcriptome assemblies of different parasitic flatworm species, new knowledge generated by studying M. lignano can be easily translated to parasitic f latworms with the help of modern bioinformatic methods of comparative genomics and transcriptomics. …”
Get full text

Engineering synthetic signaling receptors to enable erythropoietin-free erythropoiesis by Aadit P. Shah, Kiran R. Majeti, Freja K. Ekman, Sridhar Selvaraj, Devesh Sharma, Roshani Sinha, Eric Soupene, Prathamesh Chati, Sofia E. Luna, Carsten T. Charlesworth, Travis McCreary, Benjamin J. Lesch, Tammy Tran, Simon N. Chu, Matthew H. Porteus, M. Kyle Cromer

“…To address this challenge, we develop highly optimized small molecule-inducible synthetic EPO receptors (synEPORs) using design-build-test cycles and genome editing. By integrating synEPOR at the endogenous EPOR locus in O-negative induced pluripotent stem cells, we achieve equivalent erythroid differentiation, transcriptomic changes, and hemoglobin production using small molecules compared to EPO-supplemented cultures. …”
Get full text

Allelic differences in the key genes of betalain biosynthesis in table beet accessions with contrasting root color from the VIR collection by A. S. Mikhailova, D. V. Sokolova, N. A. Shvachko, V. S. Popov, E. K. Khlestkina

“…It is possible to identify the best table beet accessions for further genome editing among a previously selected high-betanin group. …”
Get full text

Loss of protein C vs protein S results in discrepant thrombotic phenotypes by Chia-Jui Ku, Xinge Yu, Queena Y. Zhao, Steven J. Grzegorski, Jeffrey G. Daniel, Allison C. Ferguson, Jordan A. Shavit

“…Here, we generate proc (zebrafish PROC ortholog) and pros1 knockouts through genome editing in zebrafish and uncover partially discordant phenotypes. proc−/− mutants exhibited ∼70% lethality at 1 year of age, whereas pros1−/− survival was unaffected. …”
Get full text

Resistance to viruses of potato: current status and prospects by S. S. Makarova, V. V. Makarov, M. E. Taliansky, N. O. Kalinina

“…Recently developed new genome editing technologies with the potential to be a powerful tool for gene design open up broad opportunities for development of next-generation resistance genes. …”
Get full text

Alkaloids of narrow-leaved lupine as a factor determining alternative ways of the crop’s utilization and breeding by M. A. Vishnyakova, A. V. Kushnareva, T. V. Shelenga, G. P. Egorova

“…Information is briefly presented about the genomic resources of the species and the prospects for their use in marker-assistant selection and genome editing.…”
Get full text

Transitioning from wet lab to artificial intelligence: a systematic review of AI predictors in CRISPR by Ahtisham Fazeel Abbasi, Muhammad Nabeel Asim, Andreas Dengel

“…CRISPR-Cas9 based genome editing is a multi-step process such as designing a precise gRNA, selecting the appropriate Cas protein, and thoroughly evaluating both on-target and off-target activity of the Cas9-gRNA complex. …”
Get full text

Characterization of Mice Ubiquitously Overexpressing Human 15-Lipoxygenase-1: Effect of Diabetes on Peripheral Neuropathy and Treatment with Menhaden Oil by Lawrence Coppey, Alexander Obrosov, Hanna Shevalye, Eric Davidson, William Paradee, Mark A. Yorek

Get full text

THE MORPHOGENIC POTENTIAL OF SIBERIAN POTATO CULTIVARS IN TISSUE CULTURES by S. M. Ibragimova, A. V. Romanova, G. Kh. Myzgina, A. V. Kochetov

“…Recent advances in plant  biotechnology have made it possible to produce resistant cultivars by plant genome editing. This approach allows crop modiications that would be diicult to obtain by conventional breeding techniques. …”
Get full text

Exploration of the Role of Cyclophilins in Established Hepatitis B and C Infections by Jennifer Molle, Sarah Duponchel, Jennifer Rieusset, Michel Ovize, Alexander V. Ivanov, Fabien Zoulim, Birke Bartosch

Get full text

Long-term correction of hemophilia A via integration of a functionally enhanced FVIII gene into the AAVS1 locus by nickase in patient-derived iPSCs by Do-Hun Kim, Sang-Hwi Choi, Jin Jea Sung, Sieun Kim, Hanui Yi, Sanghyun Park, Chan Wook Park, Young Woo Oh, Jungil Lee, Dae-Sung Kim, Jong-Hoon Kim, Chul-Yong Park, Dong-Wook Kim

“…Abstract Hemophilia A (HA) is caused by mutations in coagulation factor VIII (FVIII). Genome editing in conjunction with patient-derived induced pluripotent stem cells (iPSCs) is a promising cell therapy strategy, as it replaces dysfunctional proteins resulting from genetic mutations with normal proteins. …”
Get full text

Comprehensive phenotypic analysis of multiple gene deletions of α-glucan synthase and Crh-transglycosylase gene families in Aspergillus niger highlighting the versatility of the fu... by Katharina J. Ost, Mark Arentshorst, Bruno M. Moerschbacher, Mareike E. Dirks-Hofmeister, Arthur F.J. Ram

“…To determine whether the ags and crh gene families have redundant functions, both gene families were deleted using iterative CRISPR/Cas9 mediated genome editing. The 12-fold deletion mutant was viable and did not exhibit growth defects under non-stressing growth conditions. …”
Get full text

Altered O-Glycans in stimulated whole saliva from patients with primary Sjögren’s syndrome and non-pSS sicca by Sarah Kamounah, Kristina A. Thomsson, Christiane Elisabeth Sørensen, Eric Paul Bennett, Niclas G. Karlsson, Anne Marie Lynge Pedersen

Get full text

Production of β-lactoglobulin (BLG) gene knock- out blastocyst stage embryos of Indian water buffalo using CRISPR and SCNT technology by Aseem Tara, Priyanka Singh, Devika Gautam, Gaurav Tripathi, Shreya Malhotra, Sacchinandan De, Manoj K. Singh, Naresh L. Selokar

“…With the development of biotechnology, especially genome editing tools (CRISPRs), it is possible to generate new value-added products such as designer hypoallergenic milk for human health benefits. …”
Get full text

MaveDB 2024: a curated community database with over seven million variant effects from multiplexed functional assays by Alan F. Rubin, Jeremy Stone, Aisha Haley Bianchi, Benjamin J. Capodanno, Estelle Y. Da, Mafalda Dias, Daniel Esposito, Jonathan Frazer, Yunfan Fu, Sally B. Grindstaff, Matthew R. Harrington, Iris Li, Abbye E. McEwen, Joseph K. Min, Nick Moore, Olivia G. Moscatelli, Jesslyn Ong, Polina V. Polunina, Joshua E. Rollins, Nathan J. Rollins, Ashley E. Snyder, Amy Tam, Matthew J. Wakefield, Shenyi Sunny Ye, Lea M. Starita, Vanessa L. Bryant, Debora S. Marks, Douglas M. Fowler

“…Here we describe the 2024 update to MaveDB ( https://www.mavedb.org/ ) with four key improvements to the MAVE community’s database of record: more available data including over 7 million variant effect measurements, an improved data model supporting assays such as saturation genome editing, new built-in exploration and visualization tools, and powerful APIs for data federation and streamlined submission and access. …”
Get full text

Functional genomics implicates ebony in the black pupae phenotype of tephritid fruit flies by Daniel F. Paulo, Thu N. M. Nguyen, Chris M. Ward, Renee L. Corpuz, Angela N. Kauwe, Pedro Rendon, Rocio E. Y. Ruano, Amanda A. S. Cardoso, Georgia Gouvi, Elisabeth Fung, Peter Crisp, Anzu Okada, Amanda Choo, Christian Stauffer, Kostas Bourtzis, Sheina B. Sim, Simon W. Baxter, Scott M. Geib

“…In tephritids, understanding the molecular basis of mutant traits is also crucial for applied entomology, enabling the creation of genetic sexing strains through genome editing, thus facilitating sex-sorting before sterile insect releases. …”
Get full text

First note of QTL mapping of low vigor traits using the updated F2 ‘Koroneiki’ linkage map of olive by Irene Granata, Aparna S. Balan, Aparna S. Balan, Claudio Di Vaio, Antonino Ioppolo, Tiziano Caruso, Silvia Fretto, Jubina Benny, Antonio Giovino, Daniel James Sargent, Francesco Paolo Marra, Annalisa Marchese

“…By integrating reference genomes with our genetic analysis, we offer a conceptual advancement that could substantially accelerate breeding timelines compared to traditional approaches. Although genome editing is still a future possibility due to the complexity of olive genetics and the species’ recalcitrance to transformation, our study lays a foundational understanding to guide future breeding programs. …”
Get full text

Using Quantitative Trait Locus Mapping and Genomic Resources to Improve Breeding Precision in Peaches: Current Insights and Future Prospects by Umar Hayat, Cao Ke, Lirong Wang, Gengrui Zhu, Weichao Fang, Xinwei Wang, Changwen Chen, Yong Li, Jinlong Wu

“…This study examines the complex genetic structure that underlies the morphology of peach fruits, paying special attention to the interaction between genome editing, genomic selection, and marker-assisted selection. …”
Get full text