Results 241 to 250 of about 98,107 (317)

Rapid conversion of replicating and integrating Saccharomyces cerevisiae plasmid vectors via Cre recombinase. [PDF]

G3 (Bethesda), 2021
Nickerson DP, Quinn MA, Milnes JM.
europepmc   +1 more source

Vaccinia topoisomerase and Cre recombinase catalyze direct ligation of activated DNA substrates containing a 3'-para-nitrophenyl phosphate ester

, 2000
George W. Woodfield
openalex   +2 more sources

The Development of an AAV-Based CRISPR SaCas9 Genome Editing System That Can Be Delivered to Neurons in vivo and Regulated via Doxycycline and Cre-Recombinase [PDF]

, 2018
Namrata Kumar, William Stanford, Christopher A. de Solis, Aradhana Aradhana, Nigel D. Abraham, Trieu-Mi J. Dao, Sadiqa Thaseen, Anusha Sairavi, Cuauhtémoc U. Gonzalez, Jonathan E. Ploski   +9 more
openalex   +1 more source

Targeting DNA‐LNPs to Endothelial Cells Improves Expression Magnitude, Duration, and Specificity

Advanced Science, Volume 13, Issue 14, 9 March 2026.
Attaching antibodies against endothelial cell surface proteins redirects the delivery and expression of DNA‐lipid nanoparticles to organs of interest. Our targeted nanoparticles enable organ‐selective DNA expression in the endothelium of the lungs, brain, or spleen, providing a therapeutic platform for dozens of endothelial‐centric diseases.
Nicolas Marzolini, Taylor V. Brysgel, Ryan J. Rahman, Eno‐Obong Essien, Saw Y. Nwe, Jichuan Wu, Aparajeeta Majumder, Manthan N. Patel, Sachchidanand Tiwari, Carolann L. Espy, Fengyi Dong, Sabrina A. Santos‐De León, Anit Shah, Vladimir V. Shuvaev, Elizabeth D. Hood, Liam S. Chase, Drew Weissman, Jeremy B. Katzen, David B. Frank, Mariko L. Bennett, Oscar A. Marcos‐Contreras, Jacob W. Myerson, Vladimir R. Muzykantov, Sahily Reyes‐Esteves, Jacob S. Brenner   +24 more
wiley   +1 more source

Correction: Generation of a new Paneth cell-specific <i>Cre</i>-recombinase transgenic mouse line. [PDF]

Front Immunol
Garcia-Gonzalez N, Wallaeys C, Toussaint W, Hochepied T, Dewaele S, De Beul S, Van Loke R, Vandewalle J, Timmermans S, Blumberg RS, Libert C.   +10 more
europepmc   +1 more source

Tamoxifen administration induces histopathologic changes within the lungs of Cre-recombinase-negative mice: A case report. [PDF]

Lab Anim, 2022
Wyatt KD, Sakamoto K, Watford WT.
europepmc   +1 more source

Endothelial Cell‐Specific Molecule‐1 (ESM1): An Endogenous Anticoagulant and Protective Factor in Venous Thrombosis

Advanced Science, Volume 13, Issue 16, 18 March 2026.
This study identifies ESM1 as an endogenous anticoagulant that modulates venous thrombosis. It shows that ESM1 deficiency triggers vascular occlusion in zebrafish and mice, whereas its restoration or overexpression prolongs clot‐formation time. Mechanistic analyses reveal that ESM1 activates HCII through its dermatan‐sulfate chain, uncovering a ...
Changsheng Chen, Xiaojuan Ge, Dongxu Fu, Haijun Mei, Feng Lv, Chao Yang, Jiahao Lu, Xiaozhong Shen, Bowen Li, Xiaoning Wang, Dong Liu   +10 more
wiley   +1 more source

Engineered Type Six Secretion Systems Deliver Active Exogenous Effectors and Cre Recombinase. [PDF]

mBio, 2021
Hersch SJ, Lam L, Dong TG.
europepmc   +1 more source

A novel Cre recombinase reporter mouse strain facilitates selective and efficient infection of primary immune cells with adenoviral vectors [PDF]

, 2015
Klaus Heger, Maike Kober, David Rieß, Christoph Drees, Ingrid de Vries, Arianna Bertossi, Axel Roers, Michael Sixt, Marc Schmidt‐Supprian   +8 more
openalex   +1 more source

Programming Next‐Generation Synthetic Biosensors by Genetic Circuit Design

Advanced Science, Volume 13, Issue 14, 9 March 2026.
Synthetic biology enables genetic circuit‐based biosensing to detect diverse targets, process signals, and transduce them into readable outputs or intracellular regulatory activities. However, field deployment and real‐world application of such synthetic biosensors face considerable challenges in sensitivity, specificity, speed, stability, and ...
Yuanli Gao, Cheng Huang, Jiaxuan Deng, Lei Wang, Baojun Wang   +4 more
wiley   +1 more source