Map your journey
with Chromium X

Instrument

A complete system to run the full breadth of assays. The Chromium X is flexible enough for any lab.

Find your way with
our interactive map

Map

Your journey is now easier. Open the door to advances in cell biology, immunology, oncology, neuroscience and more.

Map

What is your
single cell journey?

From everyday gene expression, to epigenomics, from pilot studies to scaled-up investigations, multiomics and immune profiling, we’ll get you on your way.

Chromium Single Cell Lines
ATAC
Mulitome ATAC + Gene Expression
Gene Expression HT
Immune Profiling HT
Immune Profiling
Immune Receptor Sequencing
Gene Expression LT

Chromium X

Instrument
Instrument top

The standard in single cell gene expression

The Chromium X, powered by Next GEM technology, can run the full breadth of single cell assays. 10x Genomics technology has been featured in 2,500+ publications worldwide.

All products chromium x next gem

Any throughput:
thousands to one million cells analyzed, easily

Pick your study—we make low- and high-throughput analysis easy. Chromium X has the industry’s highest throughput flexibility—analyze thousands to a million cells—at your pace.

Abstract cell structure navy

Beyond gene expression—single cell multiomic analysis

Simultaneously measure cell surface protein expression or CRISPR perturbations, along with gene expression.

CRISPR

Research applications

From the discovery of new cell types to understanding therapeutic response and resistance, single cell analysis has enabled significant advances in key research areas: Oncology, Immunology and Neuroscience.

Research applications

Unmask epigenomic profiles

Detect chromatin accessibility with cellular resolution—reveal cellular heterogeneity and detect rare cell populations.

Decipher gene
regulatory networks

Explore gene regulatory interactions driving cell identity, development, and disease. Profile cell type–specific transcription factor activity across hundreds of factors simultaneously. Identify cis-regulatory elements driving gene expression differences between cell types and states.

Resolve cell lineage relationships

Detect cell type–specific transcription factor interactions and reconstruct lineage relationships and cell fate.

Getting started with low throughput

New to single cell, or starting a new project? Our Single Cell Gene Expression LT kit allows low-throughput budget-friendly research. And Chromium X flexibly scales from lower to high throughput—at your pace.

Optimizing with low throughput

Conduct pilot studies, early stage research or optimize experimental conditions with cost effective gene expression. When you’re ready to scale up, you don’t need to purchase a new instrument—scaling up on the Chromium X is an easy excursion.

Drug and CRISPR screens

Single cell CRISPR screens enable scalable, comprehensive readouts of cellular phenotypes directly assessing both the specific CRISPR-driven gene edits or knockdowns and the resulting perturbed gene expression profile, accelerating target identification.

Translational studies

High throughput (HT) Chromium Single Cell Gene Expression and Immune Profiling assays provide economy of scale to enable clinical translational research applications, including biomarker discovery, engineered immune cell therapy, and clinical trial development.

Discovery and
cell atlasing

Discover rare cell types and states and atlas entire tissues with the ability to run million cell experiments on the Chromium X.

Flexible throughput

From hundreds to hundreds of thousands of cells, we have multiomic solutions to explore immune cells with unprecedented breadth, depth, and precision.

Immune repertoire
profiling

Understand clonal expansion and diversity by capturing full-length, paired B-cell and T-cell receptors at a single cell level. Pair with simultaneous gene expression for rich characterization of T- and B- cell states.

Antigen specificity

Assess the specificity of the adaptive immune system at single cell resolution with simultaneous capture of paired T cell receptors and peptide-MHC multimers, or immunoglobulin heavy and light chains and their cognate antigens.