Latest: Achieve accuracy and reliability in cell counting
Latest: Abbott receives FDA approval for rapid concussion test
Latest: Bioanalytic breakthroughs redefine drug development
Latest: How to navigate the lab digitalization journey
Latest: SelectScience Analytical Science Summit 2024 – Taking place today!
Latest: Streamline food safety analysis through automation
Latest: Malvern Panalytical launches Revontium at Analytica 2024
Overcome anti-doping analysis obstacles
Achieve accuracy and reliability in cell counting
Kuraray launches new PVA hydrogel microcarriers for cell cultures
ELRIG UK and SRG announce partnership to advance life science professionals
Analytical measurements supporting cellular therapies
Evolution in gene therapy vector analysis
Managing the risk of nitrosamines in medicinal drugs
Your essential guide to preparative LC
Preparation of bacterial samples for sequencing
Eurofins integrated flow cytometry
Automated QuEChERS extraction and extract clean-up
Analysis of highly polar pesticides
How to Buy Cell Counting Equipment
Microplate Readers
How to Buy Microscopy Equipment
How to Buy Water Purification Technology
How to Buy Clinical Laboratory Automation Technology
Biophysical Characterization Technology
ABRF 2024 Annual meeting
21 Apr 24 - 24 Apr 24
Immuno-Oncology Summit...
23 Apr 24 - 25 Apr 24
ECCMID 2024 - 34th European...
27 Apr 24 - 30 Apr 24
Immunology2024
03 May 24 - 07 May 24
CYTO 2024
04 May 24 - 08 May 24
The single largest bank of isogenic cell lines with over 7,500 cell lines to choose from and trusted by academia, biotech, and pharma research labs. Read more...
High-confidence gene silencing Read more...
Tailored transfection reagents for a wide variety of RNA and cells. High-efficiency delivery, low cellular toxicity, broad dynamic range Read more...
Crucial to any gene silencing or microRNA modulation experiment. RNAi controls allow accurate interpretation for reliable, reproducible results. Read more...
Successful gene silencing in your cells of interest Read more...
Tightly controlled gene silencing with the most advanced and flexible single-vector inducible shRNA. Read more...
A direct and efficient set of tools to study a gene’s function by overexpression in its native context Read more...
For transient gene repression with CRISPR-level specificity Read more...
Horizon's CRISPRi guide RNA in an easy to deliver lentiviral format Read more...
Horizon's proprietary dCas9-SALL1-SDS3 CRISPRi repressor in mRNA format Read more...
Horizon's proprietary dCas9-SALL1-SDS3 CRISPRi repressor in lentiviral particle format Read more...
A direct and efficient set of tools to study a gene’s function by transcriptional interference in its native context Read more...
CRISPR Screening Services Horizon offers comprehensive CRISPR screening services from screen design and cell line selection to sophisticated bioinformatics analysis of the screen results. Our best-in-class CRISPR KO (knockout), CRISP... Read more...
Turn your gene list into a custom library! Read more...
Simplify CRISPR editing in all cell types including primary cells with Edit-R synthetic sgRNA libraries Read more...
Choose from over 300 knock-in and knockout cell line models in many standard cancer cell lines such as DLD1, MCF10A, and HCT116. Read more...
Simplify gene editing experiments with stably expressing Cas9 cell lines Read more...
Streamline gene activation experiments with stably expressing dCas9-VPR cell lines Read more...
Ensure library specificity - algorithm optimized guide RNA Read more...
siRNA designed and modified for greater specificity Read more...
200 cell lines from our OncoSignature™ library grown in 3D spheroids. Providing more physiologically relevant conditions to screen - giving a better understanding of candidate cancer therapeutics. Read more...
Synthetic single guide RNAs for efficient gene knockout & unparalleled specificity Read more...
Synthetic guide RNAs for efficient gene knockout & unparalleled specificity Read more...
Single guide RNA expressing vectors for effective and accurate gene knockout Read more...