Sharpless B.K., Finn M.G., Kolb H.C.

Click Chemistry: The Certainty of Chance (Nobel Lecture)

Gergber U.F.

Clicking viruses—with chemistry toward mechanisms in infection

Zheng P., Zhou C., Ding Y., Liu B., Lu L., Zhu F., Duan C.

Nanopore sequencing technology and its applications

Yuan, F.;  Hankey, W.;  Wagner, E. J.;  Li, W.; Wang, Q.,

Alternative polyadenylation of mRNA and its role in cancer.

Yalamanchili, H. K.;  Elrod, N. D.;  Jensen, M. K.;  Ji, P.;  Lin, A.;  Wagner, E. J.; Liu, Z., 

A computational pipeline to infer alternative poly-adenylation from 3′ sequencing data.

Jensen, M. K.;  Elrod, N. D.;  Yalamanchili, H. K.;  Ji, P.;  Lin, A.;  Liu, Z.; Wagner, E. J., 

Application and design considerations for 3′-end sequencing using click-chemistry.

Fitzpatrick, A. H.;  Rupnik, A.;  O'Shea, H.;  Crispie, F.;  Keaveney, S.; Cotter, P., 

High throughput sequencing for the detection and characterization of RNA viruses. 

Zhang, Y.;  Carrion, S. A.;  Zhang, Y.;  Zhang, X.;  Zinski, A. L.;  Michal, J. J.; Jiang, Z., 

Alternative polyadenylation analysis in animals and plants: newly developed strategies for profiling, processing and validation. 

Peccoud, J.;  Lequime, S.;  Moltini-Conclois, I.;  Giraud, I.;  Lambrechts, L.; Gilbert, C., 

A survey of virus recombination uncovers canonical features of artificial chimeras generated during deep sequencing library preparation. 

Jaworski, E.; Routh, A., 

ClickSeq: replacing fragmentation and enzymatic ligation with click-chemistry to prevent sequence chimeras.