PERFORM Publications

Keyword search (4,163 papers available)

Title		Authors	PubMed ID
1	Nicotine Suppresses Human Memory Th Cell Subsets With Preferential Effects on Central Memory Th Cells in an α7 Nicotinic Acetylcholine Receptor-Dependent Manner	Gholizadeh F; Hajiaghayi M; Rahbari N; Choi JS; Heidt S; Como A; Kazerouni M; Kargar M; Pinard-LaRoche A; Shih SCC; Darlington PJ;	41928597 SOH
2	Nebivolol prevents exhausted T cells and enhances cytotoxicity against MCF-7 breast cancer cells in a β2-adrenergic receptor-dependent manner	Hajiaghayi M; Gholizadeh F; Rahbari N; Emamnia N; Shih SCC; Darlington PJ;	41906691 SOH
3	Correction: Miniaturized scalable arrayed CRISPR screening in primary cells enables discovery at the single donor resolution	Patel MA; Boribong BP; Sinha H; Xiao B; Xie K; Vo PQN; Chin AB; Ellouzi A; Little SR; Shih SCC; Wu H; Muller WJ; Hirukawa A;	41028230 BIOLOGY
4	Recovery of phenotypically sorted cells using droplet-digital microfluidics	Deng Z; Perry JM; Weiss M; Genth R; Autour A; Merten CA; Shih SCC;	40693295 ENCS
5	Modulatory effects of M3 muscarinic acetylcholine receptor on inflammatory profiles of human memory T helper cells	Gholizadeh F; Hajiaghayi M; Choi JS; Little SR; Rahbari N; Kargar M; Brotto K; Han E; Shih SCC; Darlington PJ;	40405417 BIOLOGY
6	A Digital Microfluidic Platform for the Microscale Production of Functional Immune Cell Therapies	Little SR; Rahbari N; Hajiaghayi M; Gholizadeh F; Cloarec-Ung FM; Phillips J; Sinha H; Hirukawa A; Knapp DJHF; Darlington PJ; Shih SCC;	40390294 BIOLOGY
7	The β2-adrenergic biased agonist nebivolol inhibits the development of Th17 and the response of memory Th17 cells in an NF-κB-dependent manner	Hajiaghayi M; Gholizadeh F; Han E; Little SR; Rahbari N; Ardila I; Lopez Naranjo C; Tehranimeh K; Shih SCC; Darlington PJ;	39445009 BIOLOGY
8	Integrating microfluidics and synthetic biology: advancements and diverse applications across organisms	Leal-Alves C; Deng Z; Kermeci N; Shih SCC;	38712893 BIOLOGY
9	An Automated Single-Cell Droplet-Digital Microfluidic Platform for Monoclonal Antibody Discovery	Ahmadi F; Tran H; Letourneau N; Little SR; Fortin A; Moraitis AN; Shih SCC;	38441226 BIOLOGY
10	An electrochemical aptasensor for Δ9-tetrahydrocannabinol detection in saliva on a microfluidic platform	Kékedy-Nagy L; Perry JM; Little SR; Llorens OY; Shih SCC;	36549107 BIOLOGY
11	Droplet digital microfluidic system for screening filamentous fungi based on enzymatic activity	Samlali K; Alves CL; Jezernik M; Shih SCC;	36438986 BIOLOGY
12	A Synthetic Biosensor for Detecting Putrescine in Beef Samples	Selim AS; Perry JM; Nasr MA; Pimprikar JM; Shih SCC;	36356104 BIOLOGY
13	Viral Generation, Packaging, and Transduction on a Digital Microfluidic Platform	Quach ABV; Little SR; Shih SCC;	35192339 BIOLOGY
14	Digital Microfluidics Chips for the Execution and Real-Time Monitoring of Multiple Ribozymatic Cleavage Reactions	Davis AN; Samlali K; Kapadia JB; Perreault J; Shih SCC; Kharma N;	34514224 BIOLOGY
15	Expanding the limits towards 'one-pot' DNA assembly and transformation on a rapid-prototype microfluidic device	Perry JM; Soffer G; Jain R; Shih SCC;	34369550 BIOLOGY
16	Real-Time Optogenetics System for Controlling Gene Expression Using a Model-Based Design.	Soffer G, Perry JM, Shih SCC	33543619 BIOLOGY
17	One Cell, One Drop, One Click: Hybrid Microfluidics for Mammalian Single Cell Isolation.	Samlali K, Ahmadi F, Quach ABV, Soffer G, Shih SCC	32705796 BIOLOGY
18	An Automated Induction Microfluidics System for Synthetic Biology.	Husser MC, Vo PQN, Sinha H, Ahmadi F, Shih SCC	29516725 ENCS
19	An automated microfluidic gene-editing platform for deciphering cancer genes.	Sinha H, Quach ABV, Vo PQN, Shih SCC	29989627 ENCS
20	An integrated droplet-digital microfluidic system for on-demand droplet creation, mixing, incubation, and sorting.	Ahmadi F, Samlali K, Vo PQN, Shih SCC	30633267 ENCS
21	Integration of World-to-Chip Interfaces with Digital Microfluidics for Bacterial Transformation and Enzymatic Assays.	Moazami E, Perry JM, Soffer G, Husser MC, Shih SCC	30945840 ENCS

Title:	Viral Generation, Packaging, and Transduction on a Digital Microfluidic Platform
Authors:	Quach ABV, Little SR, Shih SCC
Link:	https://pubmed.ncbi.nlm.nih.gov/35192339/
DOI:	10.1021/acs.analchem.1c05227
Publication:	Analytical chemistry
Keywords:
PMID:	35192339	Category:	Date Added:	2022-02-22
Dept Affiliation:	BIOLOGY 1 Department of Biology, Concordia University, 7141 Sherbrooke Street West, Montréal, Québec H4B 1R6, Canada. 2 Centre for Applied Synthetic Biology, Concordia University, 7141 Sherbrooke Street West, Montréal, Québec H4B 1R6, Canada. 3 Department of Electrical and Computer Engineering, Concordia University, 1455 de Maisonneuve Blvd. West, Montréal, Québec H3G 1M8, Canada.

Description:

Viral-based systems are a popular delivery method for introducing exogenous genetic material into mammalian cells. Unfortunately, the preparation of lentiviruses containing the machinery to edit the cells is labor-intensive, with steps requiring optimization and sensitive handling. To mitigate these challenges, we introduce the first microfluidic method that integrates lentiviral generation, packaging, and transduction. The new method allows the production of viral titers between 10⁶ and 10⁷ (similar to macroscale production) and high transduction efficiency for hard-to-transfect cell lines. We extend the technique for gene editing applications and show how this technique can be used to knock out and knock down estrogen receptor gene-a gene prominently responsible for 70% of breast cancer cases. This new technique is automated with multiplexing capabilities, which have the potential to standardize the methods for viral-based genome engineering.

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